--- EXPERIMENT NOTES Not all of the following information may be relevant for the case being handled, since this project may be part of a much larger auto-PSS-genome project where several methods of detection of positively selected sites have been used. As such the aligned.score_ascii file may have more sequences than the file effectively used to detect positively selected codons, since the content of this file reflects the content of the file used for the master alignment, from which a subsample may have been taken. # ### General parameters ### # # The maximum number of sequences to use for the master file sequence_limit=90 # The random seed random_seed=3976763 # ### Alignment ### # # The alignment method: clustalw, muscle, kalign, t_coffee, or amap align_method=muscle # Minimum support value for amino acid positions in the alignment tcoffee_min_score=3 # ### MrBayes ### # # Number of iterations in MrBayes mrbayes_generations=1000000 # MrBayes burnin mrbayes_burnin=2500 # ### FUBAR ### # # The maximum number of sequences to be used by FUBAR. fubar_sequence_limit=90 # The number of FUBAR runs fubar_runs=1 # ### codeML ### # # The maximum number of sequences to be used by CodeML codeml_sequence_limit=30 # The number of CodeML runs codeml_runs=1 # The CodeML models to be run, one or more of: '1', '2', '7', and/or '8'. codeml_models=1 2 7 8 # ### OmegaMap ### # # The maximum number of sequences to use in OmegaMap omegamap_sequence_limit=90 # The number of OmegaMap runs omegamap_runs=1 # The number of OmegaMap iterations omegamap_iterations=2500 --- EXPERIMENT PROPERTIES --- PSRF SUMMARY Estimated marginal likelihoods for runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": (Use the harmonic mean for Bayes factor comparisons of models) (Values are saved to the file /data/mrbayes_input.nex.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -10451.46 -10466.18 2 -10451.50 -10469.75 -------------------------------------- TOTAL -10451.48 -10469.08 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": Summaries are based on a total of 3002 samples from 2 runs. Each run produced 2001 samples of which 1501 samples were included. Parameter summaries saved to file "/data/mrbayes_input.nex.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.518238 0.000861 0.462056 0.576676 0.516951 1305.24 1373.36 1.000 r(A<->C){all} 0.090442 0.000169 0.066145 0.115789 0.090088 866.92 869.67 1.000 r(A<->G){all} 0.150380 0.000250 0.121230 0.182648 0.149672 775.75 899.80 1.000 r(A<->T){all} 0.112055 0.000141 0.089022 0.134771 0.112070 910.42 1015.83 1.000 r(C<->G){all} 0.042214 0.000104 0.023703 0.062686 0.041745 808.07 815.62 1.000 r(C<->T){all} 0.566266 0.000551 0.522435 0.611395 0.567014 504.23 672.70 1.000 r(G<->T){all} 0.038643 0.000062 0.023386 0.053388 0.038357 868.68 1076.35 1.002 pi(A){all} 0.269031 0.000045 0.255952 0.282524 0.268959 1001.55 1032.17 1.000 pi(C){all} 0.223151 0.000037 0.211045 0.234731 0.223005 919.45 964.09 1.000 pi(G){all} 0.194381 0.000035 0.183025 0.206032 0.194214 1093.01 1161.28 1.000 pi(T){all} 0.313436 0.000046 0.300560 0.327272 0.313284 952.91 1110.70 1.000 alpha{1,2} 0.142269 0.000206 0.116137 0.172300 0.141400 1111.82 1208.15 1.000 alpha{3} 5.664225 2.950055 2.861065 9.007021 5.425512 1190.50 1217.07 1.000 pinvar{all} 0.523670 0.000548 0.476061 0.566958 0.524544 1259.25 1343.98 1.001 ------------------------------------------------------------------------------------------------------ * Convergence diagnostic (ESS = Estimated Sample Size); min and avg values correspond to minimal and average ESS among runs. ESS value below 100 may indicate that the parameter is undersampled. + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge. --- CODEML SUMMARY Model 1: NearlyNeutral -9964.880337 Model 2: PositiveSelection -9964.867129 Model 7: beta -9968.046883 Model 8: beta&w>1 -9960.308034 Model 2 vs 1 .026416 Model 8 vs 7 15.477698 Additional information for M7 vs M8: Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.920 2.054 29 V 0.875 1.975 36 R 0.609 1.504 224 S 0.989* 2.173 514 F 0.591 1.479 543 D 0.690 1.653 544 R 0.916 2.046 551 F 0.991** 2.177 562 G 0.846 1.926 749 V 0.946 2.099 1178 S 0.986* 2.168 1179 S 0.882 1.988 1180 D 0.884 1.992 Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118) Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.946 1.457 +- 0.195 29 V 0.932 1.444 +- 0.220 36 R 0.785 1.277 +- 0.446 166 T 0.503 0.941 +- 0.590 208 S 0.666 1.138 +- 0.534 224 S 0.980* 1.486 +- 0.116 229 S 0.798 1.310 +- 0.393 230 L 0.682 1.156 +- 0.526 361 N 0.784 1.293 +- 0.411 389 Q 0.534 0.980 +- 0.583 494 Q 0.713 1.198 +- 0.497 514 F 0.825 1.335 +- 0.374 515 I 0.738 1.244 +- 0.446 542 R 0.609 1.106 +- 0.513 543 D 0.876 1.391 +- 0.303 544 R 0.945 1.456 +- 0.197 551 F 0.982* 1.487 +- 0.111 557 S 0.529 0.973 +- 0.585 558 V 0.756 1.263 +- 0.434 562 G 0.924 1.437 +- 0.231 563 S 0.555 1.006 +- 0.578 612 R 0.507 0.943 +- 0.593 741 S 0.628 1.094 +- 0.552 743 V 0.737 1.243 +- 0.448 747 A 0.599 1.094 +- 0.517 749 V 0.954* 1.463 +- 0.184 750 P 0.637 1.137 +- 0.501 1177 A 0.776 1.284 +- 0.418 1178 S 0.977* 1.483 +- 0.128 1179 S 0.933 1.445 +- 0.218 1180 D 0.936 1.448 +- 0.212 1217 R 0.533 0.978 +- 0.585
-- Starting log on Tue Oct 25 21:15:10 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.08 sec, SCORE=1000, Nseq=9, Len=1360 C1 MIRSVLVLMCSLTFIGNRTSSQSVDVGPVGSGSCLRSQVRPEYFDIVRNT C2 MIRSVLVLMCSLTFIGNRTSSQSVDVGSAGSGSCLRSQVRPEYFDIARNT C3 MIRSVLALMCSLTFIGNRISSQSVDVGSAGSGSCLRSQVRPEYFDIVRNT C4 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C6 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C7 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C8 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C9 MIRSVLVLMCSLTFIGSRTSSQSVDVGTPASGSCLRSQVRPEYFDIVRNT ******.*********. ****:* :**** ***:*:**: .:.* C1 WPMPIDTSKADGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C2 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C3 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C4 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C5 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C6 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C7 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C8 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C9 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA **********:*************:**********:************** C1 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C2 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C3 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C4 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C5 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C6 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C7 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C8 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C9 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI *.:**:*******:****************:**********:******** C1 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTE C2 YPGFMLGHAVGNYTPTNITGRYFNHTLVILPDGCGTLVHAFYCILQPRTQ C3 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTQ C4 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C5 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C6 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C7 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C8 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C9 YPGFMLGHVVGNYTPANITGRYFNHTLVILPDGCGTLVHAFYCVLQPRTQ **.*:*** ******:* ****:*************::*****:*:***: C1 ANCPGAFSFTSVTLWDTPATDCASSDVYNSLANLNAFKLYFDLLNCTFKY C2 AYCPGASSFTSVTLWDTPATDCAPSGVYNPLANLNAFKLYFDLLNCTFKY C3 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY C4 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C5 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C6 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C7 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C8 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C9 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY *.* .*.*::******:**. .. ** *.*.***:****:****:* C1 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C2 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C3 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C4 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C5 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C6 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C7 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C8 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C9 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL ************************************************** C1 YYTVIPRSIRSPFNDRKAWAAFYIYKLYPLTYLLNFDVEGYITKAVDCGY C2 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C3 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C4 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C5 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C6 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C7 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C8 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C9 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY ***************************:********************** C1 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFSPMLTG C2 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTEECDFTPMLTG C3 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQAVTEECDFTPMLTG C4 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C5 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C6 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C7 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C8 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C9 DDFAQLQCSYESFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLSG **:********.*:***********************.*:****:***:* C1 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C2 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C3 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C4 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C5 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C6 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C7 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C8 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C9 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL ******:******************************************* C1 TVDYFSYPTSMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTSI C2 TVDYFAYSTEMSSYLQPGSAGEIGQFNYKQDFSNPTCRVLATVPQNLTTI C3 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI C4 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C5 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C6 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C7 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C8 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C9 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI *****:*.*.*********** * ******************** ***:* C1 TKPSNYVHLTECYKFIAHGKNYLYNAPGGYTPCLSLASSGFSRDRQSHSQ C2 TKPSNYAYLTECYKTSSYGKNYLYNAPGGYTPCLSLASRGFSTKYQSYS- C3 TKPSNYAYLTECYKTTAYGKNYLYNAPGGYTPCLSLASRGFSIKYQSHS- C4 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C5 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C6 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C7 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C8 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C9 TKPSNYAYLTECYKTSAYGKNYLYNAPGGYTPCLSLASRGFSTTYQSHS- **.***.:****** ::**********.********* **: **:* C1 ELPDGSFLTTTGSVYSVGSNFQMAFIISVQYGTDTNSVCPMQALRNDTSI C2 ---DG-ELTTTGYVYPVSGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C3 ---DG-ELTTTGYIYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C4 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C5 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C6 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C7 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C8 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C9 ---DG-GLTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI ** *.*** :*.* .*:***************************** C1 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C2 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C3 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C4 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C5 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C6 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C7 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C8 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C9 EDKLDVCVEYSLHGITGCGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG ***************** ******************************** C1 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C2 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C3 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C4 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C5 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C6 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C7 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C8 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C9 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN *******************.****************************** C1 LLARTTRGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTPSRV- C2 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C3 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRL- C4 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C5 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C6 LLPRTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C7 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C8 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C9 LLARTNPGPLQTTVGCAMGFINTSMVVDECQLPLGQSLCAIPPSPSARLA * .**. ***************:********************:..:*. C1 LRAASGVPHVFQIATLNFTSPLTLTPINSTGFVVAVPTNFTFGVTQEFIE C2 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C3 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C4 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C5 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C6 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C7 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C8 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C9 RSARSGNVDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE * * .***************:************************* C1 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C2 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALRGANLRQDESI C3 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C4 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C5 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C6 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C7 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C8 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C9 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI ***************************************:********** C1 ANLFSSIKTQNTQPLQAGLNGDFNLTILQIPQVSTGERKYRSAIEDLLFN C2 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C3 SNLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C4 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C5 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C6 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C7 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C8 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C9 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQVPQVTTGERKYRSAIEDLLFN :*************************:**:***:********:******* C1 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C2 KVTIADPGYMQGYDECMQQGLQSARDLICAQYVAGYKVLPPLYDTYMEAA C3 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C4 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C6 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C7 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C8 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C9 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA ******************** ***********************.***** C1 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C2 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C3 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C4 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C5 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C6 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C7 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C8 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C9 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI ************************************************** C1 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C2 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMTLSKLAAELSNTFGA C3 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C4 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C5 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C6 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C7 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C8 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C9 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA ***********************************:************** C1 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C2 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C3 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C4 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C5 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C6 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C7 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C8 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C9 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA ************************************************** C1 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C2 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C3 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C4 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C5 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C6 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C7 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C8 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C9 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTAH ************************************************:* C1 VNATAAYGLCNSENPPKCIAPIDGYFVLNQTTSAARSSDDQQWYYTGSSF C2 INATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTV-ANSDQQWYYTGSSF C3 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTISTV-ANSDQQWYYTGSSF C4 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C5 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C6 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C7 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C8 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C9 VNATAAYGLCNTETPPKCVAPIDGYFVLNQTTTTARVGADQQWYYTGSSF :**********:*.* **:************ ::. . **:******** C1 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKDELEEFFKN C2 FHPEPITEANSKYVSMDVKFKNLTNKLPPPLLSNSTDLDFKEKLEEFFKN C3 FYPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C4 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C6 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C7 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C8 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C9 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN *:******************:****:***************::******* C1 VSSQRPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C2 VSSQGPNFQEISKNYTTLLNLNTKLMVLSEVVKQLNESYIDLKELGNYTF C3 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C4 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C5 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C6 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C7 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C8 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C9 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF **** ******** ********:************************** C1 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C2 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C3 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C4 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C5 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C6 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C7 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C8 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C9 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD ************************************************** C1 EYEVEKIHVH C2 EYEVEKIHIH C3 EYEVEKIHVH C4 EYEVEKIHVH C5 EYEVEKIHVH C6 EYEVEKIHVH C7 EYEVEKIHVH C8 EYEVEKIHVH C9 EYEVEKIHVH ********:* -- Starting log on Tue Oct 25 21:16:11 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.25 sec, SCORE=997, Nseq=9, Len=1360 C1 MIRSVLVLMCSLTFIGNRTSSQSVDVGPVGSGSCLRSQVRPEYFDIVRNT C2 MIRSVLVLMCSLTFIGNRTSSQSVDVGSAGSGSCLRSQVRPEYFDIARNT C3 MIRSVLALMCSLTFIGNRISSQSVDVGSAGSGSCLRSQVRPEYFDIVRNT C4 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C6 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C7 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C8 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C9 MIRSVLVLMCSLTFIGSRTSSQSVDVGTPASGSCLRSQVRPEYFDIVRNT ******.*********. ****:* :**** ***:*:**: .:.* C1 WPMPIDTSKADGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C2 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C3 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C4 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C5 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C6 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C7 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C8 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C9 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA **********:*************:**********:************** C1 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C2 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C3 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C4 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C5 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C6 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C7 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C8 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C9 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI *.:**:*******:****************:**********:******** C1 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTE C2 YPGFMLGHAVGNYTPTNITGRYFNHTLVILPDGCGTLVHAFYCILQPRTQ C3 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTQ C4 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C5 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C6 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C7 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C8 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C9 YPGFMLGHVVGNYTPANITGRYFNHTLVILPDGCGTLVHAFYCVLQPRTQ **.*:*** ******:* ****:*************::*****:*:***: C1 ANCPGAFSFTSVTLWDTPATDCASSDVYNSLANLNAFKLYFDLLNCTFKY C2 AYCPGASSFTSVTLWDTPATDCAPSGVYNPLANLNAFKLYFDLLNCTFKY C3 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY C4 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C5 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C6 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C7 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C8 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C9 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY *.* .*.*::******:**. .. ** *.*.***:****:****:* C1 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C2 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C3 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C4 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C5 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C6 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C7 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C8 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C9 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL ************************************************** C1 YYTVIPRSIRSPFNDRKAWAAFYIYKLYPLTYLLNFDVEGYITKAVDCGY C2 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C3 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C4 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C5 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C6 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C7 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C8 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C9 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY ***************************:********************** C1 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFSPMLTG C2 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTEECDFTPMLTG C3 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQAVTEECDFTPMLTG C4 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C5 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C6 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C7 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C8 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C9 DDFAQLQCSYESFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLSG **:********.*:***********************.*:****:***:* C1 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C2 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C3 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C4 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C5 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C6 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C7 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C8 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C9 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL ******:******************************************* C1 TVDYFSYPTSMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTSI C2 TVDYFAYSTEMSSYLQPGSAGEIGQFNYKQDFSNPTCRVLATVPQNLTTI C3 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI C4 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C5 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C6 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C7 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C8 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C9 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI *****:*.*.*********** * ******************** ***:* C1 TKPSNYVHLTECYKFIAHGKNYLYNAPGGYTPCLSLASSGFSRDRQSHSQ C2 TKPSNYAYLTECYKTSSYGKNYLYNAPGGYTPCLSLASRGFSTKYQSYS- C3 TKPSNYAYLTECYKTTAYGKNYLYNAPGGYTPCLSLASRGFSIKYQSHS- C4 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C5 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C6 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C7 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C8 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C9 TKPSNYAYLTECYKTSAYGKNYLYNAPGGYTPCLSLASRGFSTTYQSHS- **.***.:****** ::**********.********* **: **:* C1 ELPDGSFLTTTGSVYSVGSNFQMAFIISVQYGTDTNSVCPMQALRNDTSI C2 ---DG-ELTTTGYVYPVSGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C3 ---DG-ELTTTGYIYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C4 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C5 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C6 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C7 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C8 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C9 ---DG-GLTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI ** *.*** :*.* .*:***************************** C1 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C2 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C3 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C4 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C5 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C6 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C7 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C8 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C9 EDKLDVCVEYSLHGITGCGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG ***************** ******************************** C1 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C2 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C3 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C4 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C5 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C6 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C7 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C8 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C9 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN *******************.****************************** C1 LLARTTRGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTPSRV- C2 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C3 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRL- C4 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C5 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C6 LLPRTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C7 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C8 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C9 LLARTNPGPLQTTVGCAMGFINTSMVVDECQLPLGQSLCAIPPSPSARLA * .**. ***************:********************:..:*. C1 LRAASGVPHVFQIATLNFTSPLTLTPINSTGFVVAVPTNFTFGVTQEFIE C2 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C3 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C4 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C5 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C6 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C7 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C8 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C9 RSARSGNVDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE * * .***************:************************* C1 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C2 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALRGANLRQDESI C3 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C4 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C5 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C6 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C7 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C8 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C9 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI ***************************************:********** C1 ANLFSSIKTQNTQPLQAGLNGDFNLTILQIPQVSTGERKYRSAIEDLLFN C2 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C3 SNLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C4 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C5 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C6 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C7 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C8 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C9 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQVPQVTTGERKYRSAIEDLLFN :*************************:**:***:********:******* C1 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C2 KVTIADPGYMQGYDECMQQGLQSARDLICAQYVAGYKVLPPLYDTYMEAA C3 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C4 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C6 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C7 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C8 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C9 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA ******************** ***********************.***** C1 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C2 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C3 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C4 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C5 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C6 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C7 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C8 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C9 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI ************************************************** C1 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C2 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMTLSKLAAELSNTFGA C3 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C4 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C5 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C6 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C7 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C8 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C9 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA ***********************************:************** C1 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C2 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C3 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C4 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C5 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C6 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C7 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C8 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C9 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA ************************************************** C1 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C2 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C3 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C4 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C5 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C6 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C7 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C8 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C9 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTAH ************************************************:* C1 VNATAAYGLCNSENPPKCIAPIDGYFVLNQTTSAARSSDDQQWYYTGSSF C2 INATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTV-ANSDQQWYYTGSSF C3 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTISTV-ANSDQQWYYTGSSF C4 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C5 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C6 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C7 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C8 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C9 VNATAAYGLCNTETPPKCVAPIDGYFVLNQTTTTARVGADQQWYYTGSSF :**********:*.* **:************ ::. . **:******** C1 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKDELEEFFKN C2 FHPEPITEANSKYVSMDVKFKNLTNKLPPPLLSNSTDLDFKEKLEEFFKN C3 FYPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C4 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C6 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C7 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C8 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C9 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN *:******************:****:***************::******* C1 VSSQRPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C2 VSSQGPNFQEISKNYTTLLNLNTKLMVLSEVVKQLNESYIDLKELGNYTF C3 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C4 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C5 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C6 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C7 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C8 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C9 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF **** ******** ********:************************** C1 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C2 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C3 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C4 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C5 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C6 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C7 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C8 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C9 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD ************************************************** C1 EYEVEKIHVH C2 EYEVEKIHIH C3 EYEVEKIHVH C4 EYEVEKIHVH C5 EYEVEKIHVH C6 EYEVEKIHVH C7 EYEVEKIHVH C8 EYEVEKIHVH C9 EYEVEKIHVH ********:* -- Starting log on Tue Oct 25 21:37:26 GMT 2022 -- -- Iteration: /working_dir/pss_subsets/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result/gapped_alignment/codeml,TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result.1-- MrBayes v3.2.6 x64 (Bayesian Analysis of Phylogeny) Distributed under the GNU General Public License Type "help" or "help <command>" for information on the commands that are available. Type "about" for authorship and general information about the program. Executing file "/data/mrbayes_input.nex" UNIX line termination Longest line length = 63 Parsing file Expecting NEXUS formatted file Reading data block Allocated taxon set Allocated matrix Defining new matrix with 9 taxa and 4080 characters Missing data coded as ? Data matrix is interleaved Data is Dna Gaps coded as - Matching characters coded as . Taxon 1 -> C1 Taxon 2 -> C2 Taxon 3 -> C3 Taxon 4 -> C4 Taxon 5 -> C5 Taxon 6 -> C6 Taxon 7 -> C7 Taxon 8 -> C8 Taxon 9 -> C9 Successfully read matrix Setting default partition (does not divide up characters) Setting model defaults Seed (for generating default start values) = 1666733849 Setting output file names to "/data/mrbayes_input.nex.run<i>.<p|t>" Exiting data block Reading mrbayes block Setting autoclose to yes Setting nowarnings to yes Defining charset called 'first_pos' Defining charset called 'second_pos' Defining charset called 'third_pos' Defining partition called 'by_codon' Setting by_codon as the partition, dividing characters into 3 parts. Setting model defaults Seed (for generating default start values) = 1392033160 Setting Nst to 6 for partition 1 Setting Nst to 6 for partition 2 Setting Nst to 6 for partition 3 Setting Rates to Invgamma for partition 1 Setting Rates to Invgamma for partition 2 Setting Rates to Invgamma for partition 3 Successfully set likelihood model parameters to all applicable data partitions Unlinking Setting number of generations to 1000000 Running Markov chain MCMC stamp = 4997242410 Seed = 476918231 Swapseed = 1666733849 Model settings: Settings for partition 1 -- Datatype = DNA Nucmodel = 4by4 Nst = 6 Substitution rates, expressed as proportions of the rate sum, have a Dirichlet prior (1.00,1.00,1.00,1.00,1.00,1.00) Covarion = No # States = 4 State frequencies have a Dirichlet prior (1.00,1.00,1.00,1.00) Rates = Invgamma The distribution is approximated using 4 categories. Likelihood summarized over all rate categories in each generation. Shape parameter is exponentially distributed with parameter (1.00). Proportion of invariable sites is uniformly dist- ributed on the interval (0.00,1.00). Settings for partition 2 -- Datatype = DNA Nucmodel = 4by4 Nst = 6 Substitution rates, expressed as proportions of the rate sum, have a Dirichlet prior (1.00,1.00,1.00,1.00,1.00,1.00) Covarion = No # States = 4 State frequencies have a Dirichlet prior (1.00,1.00,1.00,1.00) Rates = Invgamma The distribution is approximated using 4 categories. Likelihood summarized over all rate categories in each generation. Shape parameter is exponentially distributed with parameter (1.00). Proportion of invariable sites is uniformly dist- ributed on the interval (0.00,1.00). Settings for partition 3 -- Datatype = DNA Nucmodel = 4by4 Nst = 6 Substitution rates, expressed as proportions of the rate sum, have a Dirichlet prior (1.00,1.00,1.00,1.00,1.00,1.00) Covarion = No # States = 4 State frequencies have a Dirichlet prior (1.00,1.00,1.00,1.00) Rates = Invgamma The distribution is approximated using 4 categories. Likelihood summarized over all rate categories in each generation. Shape parameter is exponentially distributed with parameter (1.00). Proportion of invariable sites is uniformly dist- ributed on the interval (0.00,1.00). Active parameters: Partition(s) Parameters 1 2 3 --------------------------- Revmat 1 1 1 Statefreq 2 2 2 Shape 3 3 4 Pinvar 5 5 5 Ratemultiplier 6 6 6 Topology 7 7 7 Brlens 8 8 8 --------------------------- Parameters can be linked or unlinked across partitions using 'link' and 'unlink' 1 -- Parameter = Revmat{all} Type = Rates of reversible rate matrix Prior = Dirichlet(1.00,1.00,1.00,1.00,1.00,1.00) Partitions = All 2 -- Parameter = Pi{all} Type = Stationary state frequencies Prior = Dirichlet Partitions = All 3 -- Parameter = Alpha{1,2} Type = Shape of scaled gamma distribution of site rates Prior = Exponential(1.00) Partitions = 1 and 2 4 -- Parameter = Alpha{3} Type = Shape of scaled gamma distribution of site rates Prior = Exponential(1.00) Partition = 3 5 -- Parameter = Pinvar{all} Type = Proportion of invariable sites Prior = Uniform(0.00,1.00) Partitions = All 6 -- Parameter = Ratemultiplier{all} Type = Partition-specific rate multiplier Prior = Fixed(1.0) Partitions = All 7 -- Parameter = Tau{all} Type = Topology Prior = All topologies equally probable a priori Partitions = All Subparam. = V{all} 8 -- Parameter = V{all} Type = Branch lengths Prior = Unconstrained:GammaDir(1.0,0.1000,1.0,1.0) Partitions = All The MCMC sampler will use the following moves: With prob. Chain will use move 0.91 % Dirichlet(Revmat{all}) 0.91 % Slider(Revmat{all}) 0.91 % Dirichlet(Pi{all}) 0.91 % Slider(Pi{all}) 1.82 % Multiplier(Alpha{1,2}) 1.82 % Multiplier(Alpha{3}) 1.82 % Slider(Pinvar{all}) 9.09 % ExtSPR(Tau{all},V{all}) 9.09 % ExtTBR(Tau{all},V{all}) 9.09 % NNI(Tau{all},V{all}) 9.09 % ParsSPR(Tau{all},V{all}) 36.36 % Multiplier(V{all}) 12.73 % Nodeslider(V{all}) 5.45 % TLMultiplier(V{all}) Division 1 has 95 unique site patterns Division 2 has 65 unique site patterns Division 3 has 220 unique site patterns Initializing conditional likelihoods Using standard SSE likelihood calculator for division 1 (single-precision) Using standard SSE likelihood calculator for division 2 (single-precision) Using standard SSE likelihood calculator for division 3 (single-precision) Initializing invariable-site conditional likelihoods Initial log likelihoods and log prior probs for run 1: Chain 1 -- -13316.955956 -- 32.479477 Chain 2 -- -14021.419547 -- 32.479477 Chain 3 -- -13527.442801 -- 32.479477 Chain 4 -- -13415.583795 -- 32.479477 Initial log likelihoods and log prior probs for run 2: Chain 1 -- -13532.776090 -- 32.479477 Chain 2 -- -13422.832129 -- 32.479477 Chain 3 -- -14038.627229 -- 32.479477 Chain 4 -- -13926.145244 -- 32.479477 Using a relative burnin of 25.0 % for diagnostics Chain results (1000000 generations requested): 0 -- [-13316.956] (-14021.420) (-13527.443) (-13415.584) * [-13532.776] (-13422.832) (-14038.627) (-13926.145) 1000 -- (-10733.972) [-10744.551] (-10861.352) (-10762.088) * (-10705.762) [-10643.207] (-10704.360) (-10664.268) -- 0:16:39 2000 -- [-10568.835] (-10604.543) (-10697.813) (-10612.414) * (-10621.682) (-10551.895) (-10633.133) [-10523.306] -- 0:08:19 3000 -- (-10528.218) [-10487.029] (-10562.562) (-10533.113) * (-10527.590) (-10503.076) (-10538.537) [-10474.687] -- 0:11:04 4000 -- [-10471.581] (-10482.345) (-10498.521) (-10510.310) * (-10486.907) (-10468.638) (-10490.734) [-10455.178] -- 0:12:27 5000 -- [-10462.487] (-10467.026) (-10477.255) (-10478.210) * (-10472.452) (-10479.133) (-10479.581) [-10451.501] -- 0:13:16 Average standard deviation of split frequencies: 0.056120 6000 -- [-10464.604] (-10462.395) (-10459.346) (-10468.307) * (-10463.602) [-10470.323] (-10468.478) (-10465.183) -- 0:13:48 7000 -- [-10452.620] (-10450.858) (-10463.154) (-10459.541) * (-10473.552) (-10453.740) (-10457.896) [-10451.661] -- 0:14:11 8000 -- (-10461.996) [-10463.132] (-10465.051) (-10463.182) * (-10455.306) (-10452.295) (-10466.919) [-10464.317] -- 0:14:28 9000 -- (-10458.090) [-10453.433] (-10464.512) (-10459.681) * (-10459.447) (-10459.662) (-10455.985) [-10455.742] -- 0:14:40 10000 -- (-10455.907) (-10456.332) (-10465.715) [-10455.590] * (-10454.053) [-10463.820] (-10449.220) (-10453.056) -- 0:14:51 Average standard deviation of split frequencies: 0.061192 11000 -- (-10457.624) (-10453.063) [-10454.783] (-10455.753) * (-10455.392) (-10454.095) (-10468.330) [-10454.976] -- 0:14:59 12000 -- (-10460.217) [-10456.965] (-10455.892) (-10462.118) * (-10453.453) (-10457.475) (-10461.154) [-10450.723] -- 0:13:43 13000 -- (-10462.807) (-10454.458) [-10454.783] (-10463.378) * (-10451.907) (-10461.093) [-10455.913] (-10463.945) -- 0:13:55 14000 -- (-10469.596) (-10454.045) [-10454.520] (-10465.623) * (-10459.065) (-10453.792) (-10447.449) [-10455.018] -- 0:14:05 15000 -- (-10459.510) (-10455.873) (-10464.441) [-10458.784] * (-10466.849) (-10454.855) (-10456.158) [-10459.650] -- 0:14:13 Average standard deviation of split frequencies: 0.078567 16000 -- [-10452.971] (-10459.179) (-10457.138) (-10461.417) * (-10460.732) [-10458.443] (-10457.221) (-10459.679) -- 0:14:21 17000 -- [-10453.778] (-10457.040) (-10452.777) (-10456.416) * [-10456.301] (-10465.149) (-10454.873) (-10464.612) -- 0:14:27 18000 -- (-10474.382) [-10460.630] (-10457.873) (-10459.213) * (-10450.922) (-10458.427) (-10467.557) [-10459.457] -- 0:14:32 19000 -- (-10465.727) (-10464.209) [-10456.913] (-10459.181) * (-10455.738) (-10454.619) (-10457.710) [-10469.652] -- 0:13:46 20000 -- (-10469.548) (-10460.801) [-10461.374] (-10456.812) * (-10461.678) [-10459.665] (-10451.677) (-10450.340) -- 0:13:53 Average standard deviation of split frequencies: 0.066675 21000 -- [-10466.865] (-10462.515) (-10466.657) (-10459.972) * [-10453.051] (-10453.637) (-10459.990) (-10463.348) -- 0:13:59 22000 -- (-10458.163) (-10462.014) (-10457.686) [-10453.608] * [-10458.459] (-10465.394) (-10466.846) (-10449.963) -- 0:14:04 23000 -- [-10452.048] (-10463.959) (-10471.196) (-10457.584) * (-10462.449) (-10459.854) [-10460.094] (-10470.270) -- 0:14:09 24000 -- (-10457.863) (-10461.416) (-10459.957) [-10461.486] * (-10454.449) (-10460.344) (-10468.224) [-10455.892] -- 0:14:14 25000 -- (-10460.512) (-10465.873) (-10461.447) [-10452.057] * (-10453.783) (-10457.209) [-10460.563] (-10459.114) -- 0:14:18 Average standard deviation of split frequencies: 0.075114 26000 -- (-10450.824) (-10460.079) [-10459.095] (-10464.220) * (-10450.633) (-10454.629) [-10452.964] (-10450.488) -- 0:13:44 27000 -- (-10457.351) [-10458.706] (-10461.397) (-10459.960) * [-10453.579] (-10457.947) (-10469.035) (-10455.982) -- 0:13:48 28000 -- [-10455.495] (-10467.373) (-10464.174) (-10454.444) * (-10459.242) (-10463.092) [-10455.555] (-10460.115) -- 0:13:53 29000 -- [-10452.878] (-10465.937) (-10459.892) (-10453.636) * (-10459.936) (-10467.764) (-10465.334) [-10464.271] -- 0:13:57 30000 -- (-10468.581) [-10455.029] (-10466.302) (-10455.172) * [-10448.781] (-10473.403) (-10455.189) (-10453.123) -- 0:14:00 Average standard deviation of split frequencies: 0.087839 31000 -- (-10450.571) (-10455.249) (-10454.417) [-10457.403] * (-10460.519) [-10448.932] (-10465.932) (-10464.621) -- 0:14:03 32000 -- (-10459.786) (-10462.190) (-10450.222) [-10452.948] * (-10457.569) (-10455.492) (-10466.012) [-10457.205] -- 0:14:07 33000 -- [-10454.829] (-10455.748) (-10461.216) (-10455.191) * (-10452.233) (-10451.390) (-10457.603) [-10468.296] -- 0:13:40 34000 -- [-10458.828] (-10465.072) (-10454.750) (-10456.601) * (-10459.806) [-10457.915] (-10460.713) (-10459.734) -- 0:13:43 35000 -- (-10458.723) (-10469.482) [-10458.709] (-10464.592) * [-10456.956] (-10456.119) (-10463.907) (-10454.525) -- 0:13:47 Average standard deviation of split frequencies: 0.074826 36000 -- (-10469.056) (-10463.767) (-10462.798) [-10467.068] * [-10461.312] (-10458.526) (-10475.777) (-10453.557) -- 0:13:50 37000 -- (-10457.719) (-10470.468) [-10457.315] (-10454.275) * [-10463.784] (-10450.244) (-10455.864) (-10451.376) -- 0:13:52 38000 -- [-10466.551] (-10457.456) (-10466.950) (-10466.069) * (-10460.526) (-10456.520) (-10476.454) [-10459.750] -- 0:13:55 39000 -- (-10466.243) (-10466.512) (-10465.841) [-10462.168] * [-10457.523] (-10460.997) (-10459.364) (-10459.272) -- 0:13:57 40000 -- (-10460.368) (-10455.842) [-10459.938] (-10465.895) * [-10454.040] (-10463.613) (-10461.372) (-10465.677) -- 0:13:36 Average standard deviation of split frequencies: 0.088277 41000 -- (-10459.101) [-10459.680] (-10463.701) (-10469.725) * [-10457.793] (-10460.508) (-10463.441) (-10458.869) -- 0:13:38 42000 -- (-10470.627) (-10459.624) [-10455.444] (-10453.236) * (-10458.394) (-10465.102) (-10463.864) [-10453.116] -- 0:13:41 43000 -- (-10448.094) (-10462.419) [-10460.287] (-10453.810) * (-10464.985) (-10453.402) [-10456.577] (-10458.705) -- 0:13:43 44000 -- [-10452.947] (-10476.459) (-10454.385) (-10461.164) * (-10463.488) [-10458.775] (-10461.931) (-10456.997) -- 0:13:45 45000 -- (-10460.990) (-10464.714) (-10463.047) [-10458.623] * (-10455.921) [-10458.062] (-10465.357) (-10470.047) -- 0:13:47 Average standard deviation of split frequencies: 0.093695 46000 -- (-10452.180) [-10457.927] (-10471.243) (-10459.765) * (-10460.892) (-10469.693) [-10456.151] (-10460.221) -- 0:13:49 47000 -- [-10453.238] (-10457.257) (-10465.281) (-10456.626) * (-10454.631) (-10464.504) [-10456.813] (-10454.540) -- 0:13:31 48000 -- (-10460.322) (-10465.453) (-10461.119) [-10451.512] * (-10455.221) (-10459.183) [-10450.554] (-10461.250) -- 0:13:33 49000 -- (-10456.499) (-10456.473) [-10457.733] (-10453.390) * (-10458.106) (-10461.201) (-10456.137) [-10452.018] -- 0:13:35 50000 -- (-10457.047) (-10465.682) (-10453.353) [-10454.182] * [-10452.600] (-10459.115) (-10458.474) (-10468.816) -- 0:13:37 Average standard deviation of split frequencies: 0.076426 51000 -- (-10456.588) [-10461.653] (-10462.858) (-10468.898) * (-10463.633) (-10456.153) [-10462.560] (-10462.003) -- 0:13:38 52000 -- (-10454.240) (-10467.472) (-10454.228) [-10469.510] * (-10457.627) (-10461.964) [-10457.914] (-10460.948) -- 0:13:40 53000 -- [-10454.152] (-10463.491) (-10464.920) (-10459.289) * [-10457.090] (-10457.664) (-10464.980) (-10458.807) -- 0:13:41 54000 -- (-10453.578) (-10453.679) [-10452.691] (-10462.049) * (-10458.039) (-10461.269) (-10458.672) [-10459.320] -- 0:13:43 55000 -- [-10455.733] (-10464.894) (-10452.820) (-10463.379) * (-10460.449) [-10461.052] (-10461.066) (-10462.453) -- 0:13:27 Average standard deviation of split frequencies: 0.069286 56000 -- (-10458.182) (-10460.464) [-10449.722] (-10456.292) * (-10447.637) [-10451.727] (-10453.441) (-10460.208) -- 0:13:29 57000 -- (-10459.739) [-10456.662] (-10460.192) (-10451.765) * [-10452.705] (-10461.163) (-10456.736) (-10463.007) -- 0:13:30 58000 -- (-10464.347) (-10457.005) [-10448.707] (-10462.587) * (-10458.344) (-10454.777) [-10457.956] (-10458.457) -- 0:13:32 59000 -- (-10456.825) (-10460.506) (-10455.030) [-10458.450] * (-10458.684) [-10452.299] (-10459.228) (-10462.151) -- 0:13:33 60000 -- (-10455.665) (-10456.975) (-10467.609) [-10459.516] * [-10449.284] (-10460.922) (-10458.624) (-10458.717) -- 0:13:34 Average standard deviation of split frequencies: 0.063359 61000 -- (-10461.753) (-10466.285) (-10460.782) [-10458.438] * (-10452.025) (-10465.316) [-10467.150] (-10456.902) -- 0:13:35 62000 -- (-10457.302) (-10467.778) (-10468.945) [-10455.018] * (-10481.510) (-10456.009) [-10455.425] (-10468.460) -- 0:13:36 63000 -- (-10456.959) [-10463.447] (-10462.327) (-10464.357) * (-10465.702) (-10458.224) [-10456.146] (-10459.039) -- 0:13:23 64000 -- (-10456.992) (-10457.890) [-10451.602] (-10459.815) * (-10460.144) (-10451.806) (-10460.568) [-10465.684] -- 0:13:24 65000 -- (-10455.394) (-10451.630) (-10461.070) [-10454.717] * (-10463.327) [-10456.727] (-10452.344) (-10456.045) -- 0:13:25 Average standard deviation of split frequencies: 0.052745 66000 -- (-10460.942) [-10461.530] (-10462.724) (-10459.863) * [-10461.190] (-10456.788) (-10455.699) (-10458.570) -- 0:13:26 67000 -- (-10456.140) [-10460.875] (-10455.203) (-10454.054) * (-10454.685) (-10465.374) [-10457.480] (-10463.306) -- 0:13:27 68000 -- (-10461.491) [-10453.267] (-10457.846) (-10460.466) * (-10460.970) (-10467.001) [-10462.268] (-10456.517) -- 0:13:28 69000 -- (-10458.972) (-10455.769) (-10457.348) [-10457.961] * (-10455.511) (-10463.763) [-10458.559] (-10454.590) -- 0:13:29 70000 -- (-10459.057) (-10459.805) [-10452.190] (-10464.050) * (-10453.648) (-10459.249) [-10460.584] (-10470.065) -- 0:13:30 Average standard deviation of split frequencies: 0.048748 71000 -- [-10461.780] (-10465.360) (-10464.678) (-10461.825) * [-10459.697] (-10461.443) (-10459.412) (-10464.768) -- 0:13:18 72000 -- [-10455.965] (-10454.061) (-10462.804) (-10453.355) * [-10454.445] (-10468.316) (-10457.547) (-10457.566) -- 0:13:19 73000 -- (-10462.448) (-10457.769) [-10455.430] (-10460.731) * (-10453.478) (-10461.452) [-10452.369] (-10461.523) -- 0:13:20 74000 -- (-10460.896) (-10455.906) (-10462.032) [-10448.894] * (-10457.150) [-10451.836] (-10458.348) (-10461.747) -- 0:13:20 75000 -- (-10472.407) (-10459.001) [-10452.119] (-10457.771) * (-10460.900) [-10452.925] (-10456.247) (-10466.953) -- 0:13:21 Average standard deviation of split frequencies: 0.043896 76000 -- (-10464.874) (-10475.409) [-10457.326] (-10460.059) * [-10454.192] (-10462.163) (-10453.555) (-10465.305) -- 0:13:22 77000 -- [-10456.681] (-10468.594) (-10456.305) (-10460.685) * (-10453.398) (-10464.400) (-10457.238) [-10456.112] -- 0:13:23 78000 -- [-10457.228] (-10460.569) (-10455.924) (-10462.561) * (-10463.291) (-10468.068) [-10463.742] (-10456.961) -- 0:13:23 79000 -- (-10453.508) [-10463.833] (-10457.217) (-10464.163) * (-10451.732) (-10460.365) (-10463.367) [-10450.844] -- 0:13:12 80000 -- (-10461.086) [-10450.532] (-10459.451) (-10455.336) * [-10453.196] (-10464.899) (-10455.096) (-10459.232) -- 0:13:13 Average standard deviation of split frequencies: 0.047200 81000 -- [-10462.440] (-10465.259) (-10458.601) (-10467.118) * (-10460.233) (-10469.769) [-10451.659] (-10462.890) -- 0:13:14 82000 -- (-10459.572) [-10457.095] (-10455.900) (-10463.306) * (-10461.813) [-10465.573] (-10460.458) (-10459.929) -- 0:13:14 83000 -- (-10470.150) (-10453.508) [-10450.524] (-10458.622) * (-10464.044) (-10459.704) (-10463.339) [-10450.365] -- 0:13:15 84000 -- (-10454.606) (-10460.750) [-10459.214] (-10458.274) * (-10458.213) (-10458.231) [-10459.145] (-10460.255) -- 0:13:16 85000 -- (-10462.569) [-10462.009] (-10447.524) (-10464.693) * [-10452.179] (-10456.305) (-10456.653) (-10463.532) -- 0:13:16 Average standard deviation of split frequencies: 0.048911 86000 -- (-10457.377) [-10454.718] (-10457.276) (-10457.296) * [-10459.759] (-10457.121) (-10462.735) (-10459.607) -- 0:13:06 87000 -- [-10453.699] (-10454.723) (-10460.109) (-10460.239) * (-10464.118) [-10450.341] (-10469.047) (-10459.903) -- 0:13:07 88000 -- [-10459.644] (-10462.479) (-10460.349) (-10464.742) * (-10457.845) (-10455.143) [-10451.636] (-10456.474) -- 0:13:07 89000 -- (-10457.878) (-10460.430) (-10456.932) [-10456.765] * (-10450.238) [-10455.461] (-10453.262) (-10467.569) -- 0:13:08 90000 -- (-10449.286) (-10465.707) (-10461.534) [-10460.679] * [-10464.472] (-10455.475) (-10450.754) (-10465.058) -- 0:13:08 Average standard deviation of split frequencies: 0.047994 91000 -- (-10463.168) (-10456.833) (-10462.963) [-10450.062] * (-10450.080) (-10462.768) [-10454.071] (-10448.393) -- 0:13:09 92000 -- (-10457.584) [-10456.735] (-10453.779) (-10455.382) * [-10458.577] (-10456.880) (-10452.581) (-10462.469) -- 0:13:09 93000 -- (-10465.059) [-10455.272] (-10454.633) (-10456.523) * (-10469.086) (-10464.104) (-10453.905) [-10451.058] -- 0:13:09 94000 -- (-10464.422) (-10451.777) (-10452.828) [-10460.884] * (-10462.130) (-10458.204) [-10450.726] (-10457.020) -- 0:13:10 95000 -- (-10466.147) (-10451.145) (-10461.988) [-10456.332] * [-10453.947] (-10459.655) (-10454.746) (-10465.959) -- 0:13:01 Average standard deviation of split frequencies: 0.043061 96000 -- (-10452.129) (-10459.431) (-10454.409) [-10456.949] * (-10459.340) (-10460.517) (-10446.938) [-10457.378] -- 0:13:01 97000 -- (-10453.324) [-10459.975] (-10470.440) (-10454.541) * (-10456.001) (-10463.352) (-10457.247) [-10454.264] -- 0:13:01 98000 -- (-10460.311) (-10469.277) [-10464.641] (-10458.441) * (-10459.393) (-10455.090) [-10457.748] (-10459.271) -- 0:13:02 99000 -- (-10463.082) (-10458.121) [-10451.335] (-10459.665) * (-10461.696) [-10456.973] (-10458.018) (-10461.426) -- 0:13:02 100000 -- (-10460.019) (-10461.815) [-10456.187] (-10460.538) * (-10455.505) (-10455.403) (-10456.663) [-10457.768] -- 0:13:03 Average standard deviation of split frequencies: 0.036742 101000 -- (-10459.490) [-10459.107] (-10450.729) (-10464.527) * (-10454.979) (-10462.501) [-10455.180] (-10460.529) -- 0:13:03 102000 -- [-10451.972] (-10462.827) (-10467.638) (-10473.916) * (-10463.151) (-10462.745) [-10451.062] (-10454.929) -- 0:13:03 103000 -- (-10462.576) [-10452.574] (-10460.337) (-10462.567) * (-10456.216) [-10448.155] (-10456.330) (-10455.414) -- 0:12:55 104000 -- (-10461.968) [-10450.771] (-10467.648) (-10459.678) * (-10459.908) [-10456.608] (-10464.468) (-10460.945) -- 0:12:55 105000 -- (-10455.241) [-10463.980] (-10454.176) (-10469.649) * (-10454.260) [-10454.262] (-10460.166) (-10465.720) -- 0:12:55 Average standard deviation of split frequencies: 0.025657 106000 -- [-10460.285] (-10462.793) (-10465.001) (-10465.337) * (-10456.594) [-10459.046] (-10461.655) (-10466.606) -- 0:12:55 107000 -- (-10458.932) [-10461.247] (-10461.645) (-10451.419) * [-10452.407] (-10474.301) (-10472.258) (-10460.070) -- 0:12:56 108000 -- (-10460.387) (-10455.458) [-10450.343] (-10452.278) * (-10455.331) [-10457.294] (-10459.218) (-10453.555) -- 0:12:56 109000 -- (-10458.835) [-10454.611] (-10453.734) (-10454.499) * (-10464.729) (-10465.552) [-10457.348] (-10461.763) -- 0:12:56 110000 -- (-10465.215) (-10455.358) [-10460.326] (-10458.045) * [-10461.882] (-10453.894) (-10471.111) (-10466.357) -- 0:12:56 Average standard deviation of split frequencies: 0.026869 111000 -- (-10457.777) (-10462.044) (-10462.026) [-10452.472] * [-10465.229] (-10456.391) (-10453.457) (-10462.417) -- 0:12:48 112000 -- (-10465.485) (-10460.392) [-10456.703] (-10455.121) * (-10462.385) (-10456.077) [-10460.261] (-10457.895) -- 0:12:49 113000 -- [-10461.762] (-10463.197) (-10460.939) (-10455.308) * (-10450.150) (-10460.938) [-10460.067] (-10455.400) -- 0:12:49 114000 -- (-10459.296) (-10458.786) (-10458.019) [-10459.862] * [-10454.863] (-10467.309) (-10465.326) (-10455.166) -- 0:12:49 115000 -- (-10464.331) (-10463.585) [-10459.226] (-10457.688) * (-10454.838) (-10464.260) [-10460.262] (-10462.679) -- 0:12:49 Average standard deviation of split frequencies: 0.025008 116000 -- (-10461.152) (-10468.742) (-10454.686) [-10456.639] * [-10453.297] (-10455.060) (-10460.827) (-10461.411) -- 0:12:49 117000 -- (-10462.054) [-10458.580] (-10458.626) (-10463.530) * (-10464.550) (-10460.800) [-10446.108] (-10459.353) -- 0:12:42 118000 -- [-10455.749] (-10465.940) (-10457.863) (-10458.990) * (-10455.588) (-10460.248) (-10462.343) [-10462.419] -- 0:12:42 119000 -- (-10463.150) (-10462.240) (-10462.749) [-10451.474] * (-10456.251) [-10457.854] (-10465.277) (-10454.183) -- 0:12:42 120000 -- (-10464.648) (-10459.565) (-10460.566) [-10454.232] * (-10469.322) (-10466.173) [-10450.149] (-10462.286) -- 0:12:42 Average standard deviation of split frequencies: 0.021036 121000 -- (-10464.147) (-10459.571) [-10457.799] (-10463.531) * (-10454.866) (-10468.527) [-10459.405] (-10458.628) -- 0:12:42 122000 -- [-10454.630] (-10464.432) (-10455.968) (-10461.004) * (-10461.309) (-10463.925) [-10458.054] (-10457.548) -- 0:12:42 123000 -- (-10452.090) (-10458.900) (-10462.199) [-10449.129] * [-10458.857] (-10460.623) (-10458.830) (-10451.524) -- 0:12:42 124000 -- (-10468.214) (-10453.088) (-10455.794) [-10453.808] * (-10466.900) [-10457.135] (-10448.820) (-10473.492) -- 0:12:35 125000 -- [-10457.203] (-10457.621) (-10465.879) (-10457.809) * (-10456.586) (-10455.594) [-10456.028] (-10458.236) -- 0:12:36 Average standard deviation of split frequencies: 0.023311 126000 -- (-10466.837) (-10467.061) (-10464.115) [-10465.398] * (-10462.854) (-10457.012) (-10455.779) [-10460.469] -- 0:12:36 127000 -- [-10454.040] (-10463.480) (-10454.094) (-10456.717) * [-10455.278] (-10456.887) (-10466.339) (-10461.717) -- 0:12:36 128000 -- [-10449.402] (-10462.247) (-10454.960) (-10467.505) * [-10457.916] (-10460.976) (-10472.507) (-10452.702) -- 0:12:36 129000 -- [-10458.008] (-10458.887) (-10459.381) (-10455.537) * (-10457.654) [-10455.551] (-10455.142) (-10461.937) -- 0:12:36 130000 -- (-10460.898) [-10447.758] (-10459.956) (-10451.906) * (-10473.317) (-10457.565) (-10459.473) [-10465.153] -- 0:12:36 Average standard deviation of split frequencies: 0.023034 131000 -- (-10460.847) [-10466.977] (-10461.559) (-10454.441) * (-10458.726) (-10477.768) [-10450.676] (-10453.857) -- 0:12:29 132000 -- (-10462.199) (-10462.757) [-10461.369] (-10452.309) * [-10457.721] (-10458.178) (-10462.997) (-10460.248) -- 0:12:29 133000 -- (-10458.810) (-10455.807) [-10458.923] (-10448.431) * (-10457.641) (-10466.988) (-10459.920) [-10454.994] -- 0:12:29 134000 -- [-10461.560] (-10458.207) (-10459.369) (-10464.663) * (-10457.370) [-10455.695] (-10456.409) (-10457.822) -- 0:12:29 135000 -- (-10457.749) (-10460.802) [-10459.170] (-10458.053) * (-10460.983) [-10462.320] (-10463.098) (-10462.833) -- 0:12:29 Average standard deviation of split frequencies: 0.019997 136000 -- [-10451.044] (-10467.413) (-10463.270) (-10460.085) * (-10456.709) (-10457.252) [-10456.487] (-10451.394) -- 0:12:29 137000 -- (-10454.029) (-10456.618) (-10455.806) [-10450.673] * (-10456.951) [-10453.558] (-10453.687) (-10457.382) -- 0:12:29 138000 -- (-10458.265) (-10463.290) [-10452.835] (-10457.897) * (-10459.957) (-10465.190) [-10448.759] (-10451.570) -- 0:12:29 139000 -- (-10455.478) [-10457.558] (-10457.822) (-10463.096) * (-10456.936) [-10451.951] (-10454.787) (-10465.497) -- 0:12:23 140000 -- (-10453.785) (-10467.835) [-10458.283] (-10459.920) * (-10470.958) (-10458.038) (-10454.687) [-10459.113] -- 0:12:23 Average standard deviation of split frequencies: 0.020365 141000 -- (-10461.915) (-10462.186) [-10456.545] (-10456.295) * (-10459.910) [-10451.344] (-10458.902) (-10457.649) -- 0:12:23 142000 -- (-10455.902) (-10460.367) (-10456.008) [-10466.111] * (-10457.671) (-10455.888) [-10455.589] (-10461.193) -- 0:12:23 143000 -- [-10450.514] (-10462.681) (-10466.082) (-10465.545) * (-10453.152) [-10461.203] (-10466.658) (-10456.689) -- 0:12:23 144000 -- [-10457.670] (-10457.637) (-10460.768) (-10466.584) * (-10459.657) (-10464.076) [-10455.998] (-10454.800) -- 0:12:23 145000 -- [-10466.079] (-10455.533) (-10456.526) (-10462.025) * [-10455.269] (-10461.719) (-10451.643) (-10465.886) -- 0:12:22 Average standard deviation of split frequencies: 0.019373 146000 -- (-10454.270) [-10459.621] (-10466.062) (-10451.178) * (-10463.898) (-10462.462) (-10455.546) [-10457.005] -- 0:12:22 147000 -- (-10457.192) [-10460.199] (-10458.423) (-10454.643) * (-10456.538) (-10466.151) [-10463.072] (-10463.302) -- 0:12:16 148000 -- (-10459.988) [-10463.428] (-10457.958) (-10466.363) * (-10457.603) (-10467.666) [-10461.394] (-10463.306) -- 0:12:16 149000 -- [-10452.029] (-10460.855) (-10460.119) (-10464.117) * (-10452.251) (-10453.079) [-10449.400] (-10458.310) -- 0:12:16 150000 -- (-10459.824) (-10466.193) [-10457.549] (-10464.708) * (-10462.558) (-10466.104) [-10461.726] (-10465.224) -- 0:12:16 Average standard deviation of split frequencies: 0.014200 151000 -- (-10452.816) [-10452.408] (-10464.240) (-10465.370) * (-10462.979) (-10459.304) (-10456.211) [-10454.241] -- 0:12:16 152000 -- (-10466.186) [-10455.564] (-10461.423) (-10464.677) * (-10459.521) (-10467.309) (-10456.410) [-10450.228] -- 0:12:16 153000 -- (-10450.994) (-10456.748) (-10450.243) [-10450.281] * (-10456.814) (-10470.549) (-10461.098) [-10455.238] -- 0:12:16 154000 -- (-10453.663) [-10455.245] (-10458.899) (-10457.873) * [-10459.430] (-10458.736) (-10462.929) (-10457.672) -- 0:12:16 155000 -- (-10459.296) (-10463.631) [-10459.604] (-10456.347) * (-10460.964) (-10464.359) (-10458.570) [-10458.837] -- 0:12:10 Average standard deviation of split frequencies: 0.012320 156000 -- (-10464.026) [-10458.921] (-10458.089) (-10465.895) * (-10464.142) (-10468.638) (-10456.862) [-10455.898] -- 0:12:10 157000 -- (-10460.326) (-10462.314) [-10453.670] (-10459.436) * (-10456.088) [-10452.522] (-10454.149) (-10460.924) -- 0:12:10 158000 -- [-10459.438] (-10459.460) (-10452.501) (-10455.432) * [-10454.838] (-10459.825) (-10450.550) (-10453.926) -- 0:12:10 159000 -- (-10456.481) (-10453.259) [-10453.378] (-10463.158) * (-10460.270) (-10454.032) [-10454.006] (-10454.679) -- 0:12:09 160000 -- (-10459.214) (-10462.402) [-10456.541] (-10467.082) * (-10454.469) (-10466.823) (-10461.356) [-10456.899] -- 0:12:09 Average standard deviation of split frequencies: 0.013090 161000 -- (-10464.517) [-10455.653] (-10455.526) (-10467.784) * (-10465.832) (-10452.854) [-10462.419] (-10457.299) -- 0:12:09 162000 -- [-10453.709] (-10454.945) (-10454.365) (-10464.403) * (-10467.411) [-10457.703] (-10455.527) (-10463.793) -- 0:12:09 163000 -- (-10464.983) (-10463.125) [-10454.846] (-10465.424) * (-10472.264) [-10454.648] (-10457.521) (-10463.975) -- 0:12:04 164000 -- [-10456.287] (-10468.418) (-10464.585) (-10460.959) * (-10457.492) (-10459.110) (-10460.688) [-10454.909] -- 0:12:03 165000 -- (-10451.186) (-10456.732) [-10455.391] (-10458.839) * (-10461.904) (-10459.220) (-10450.905) [-10462.003] -- 0:12:03 Average standard deviation of split frequencies: 0.011796 166000 -- (-10455.029) (-10457.375) (-10466.692) [-10456.444] * (-10457.297) [-10462.430] (-10448.907) (-10451.648) -- 0:12:03 167000 -- [-10454.343] (-10462.484) (-10463.732) (-10469.194) * [-10454.985] (-10447.728) (-10461.195) (-10457.707) -- 0:12:03 168000 -- [-10467.300] (-10463.359) (-10458.598) (-10459.213) * (-10459.443) (-10451.693) [-10449.942] (-10461.521) -- 0:12:03 169000 -- [-10444.707] (-10462.692) (-10456.672) (-10455.941) * [-10457.864] (-10451.389) (-10458.392) (-10453.011) -- 0:12:02 170000 -- (-10454.922) (-10458.603) (-10474.238) [-10463.511] * [-10456.260] (-10464.755) (-10460.799) (-10454.698) -- 0:12:02 Average standard deviation of split frequencies: 0.009986 171000 -- (-10462.683) (-10452.815) (-10464.814) [-10457.339] * (-10456.214) (-10456.689) [-10459.255] (-10461.785) -- 0:11:57 172000 -- [-10452.185] (-10450.463) (-10467.007) (-10460.231) * (-10460.318) [-10451.754] (-10459.432) (-10462.417) -- 0:11:57 173000 -- [-10456.534] (-10451.484) (-10462.346) (-10456.462) * (-10457.191) (-10456.696) [-10466.511] (-10457.677) -- 0:11:57 174000 -- (-10452.948) (-10456.504) [-10461.764] (-10453.295) * [-10458.553] (-10455.666) (-10455.003) (-10452.528) -- 0:11:56 175000 -- [-10452.650] (-10455.193) (-10456.772) (-10461.632) * [-10464.419] (-10464.466) (-10460.127) (-10456.727) -- 0:11:56 Average standard deviation of split frequencies: 0.010714 176000 -- (-10457.204) [-10458.253] (-10450.879) (-10454.189) * [-10455.905] (-10461.278) (-10463.746) (-10460.729) -- 0:11:56 177000 -- [-10462.893] (-10460.062) (-10454.640) (-10467.490) * [-10455.462] (-10469.879) (-10463.753) (-10453.913) -- 0:11:56 178000 -- (-10468.346) (-10452.596) (-10461.535) [-10453.495] * (-10455.131) [-10456.000] (-10461.331) (-10462.279) -- 0:11:51 179000 -- (-10465.549) (-10463.202) [-10449.503] (-10459.455) * (-10453.014) (-10458.091) [-10455.699] (-10473.027) -- 0:11:50 180000 -- (-10457.337) (-10457.509) [-10455.275] (-10461.138) * [-10452.186] (-10465.391) (-10460.935) (-10459.732) -- 0:11:50 Average standard deviation of split frequencies: 0.008028 181000 -- [-10461.426] (-10455.644) (-10462.413) (-10465.296) * [-10456.044] (-10467.060) (-10460.050) (-10457.337) -- 0:11:50 182000 -- [-10465.557] (-10453.857) (-10457.768) (-10468.079) * [-10452.178] (-10466.063) (-10453.852) (-10454.909) -- 0:11:50 183000 -- (-10451.356) (-10467.147) (-10471.859) [-10465.513] * (-10456.834) (-10456.295) [-10458.033] (-10465.409) -- 0:11:49 184000 -- (-10462.997) (-10455.150) [-10458.044] (-10455.620) * (-10459.716) (-10463.950) (-10461.432) [-10461.384] -- 0:11:49 185000 -- [-10458.045] (-10462.386) (-10463.478) (-10453.208) * (-10463.199) [-10449.746] (-10463.988) (-10453.116) -- 0:11:44 Average standard deviation of split frequencies: 0.007603 186000 -- (-10458.320) (-10462.574) (-10459.846) [-10453.078] * (-10465.320) (-10464.069) (-10454.504) [-10452.881] -- 0:11:44 187000 -- (-10459.891) (-10462.271) (-10456.718) [-10459.710] * [-10457.581] (-10457.664) (-10454.800) (-10472.511) -- 0:11:44 188000 -- (-10458.278) (-10458.356) [-10471.823] (-10464.514) * (-10454.626) (-10458.971) [-10451.441] (-10450.442) -- 0:11:44 189000 -- (-10464.117) (-10461.297) (-10454.845) [-10455.759] * (-10461.850) (-10471.102) (-10452.489) [-10459.190] -- 0:11:43 190000 -- (-10461.927) [-10458.810] (-10459.237) (-10464.256) * (-10458.801) (-10467.793) [-10462.486] (-10459.357) -- 0:11:43 Average standard deviation of split frequencies: 0.007988 191000 -- [-10456.508] (-10455.191) (-10457.611) (-10458.031) * [-10455.231] (-10456.503) (-10458.018) (-10459.020) -- 0:11:43 192000 -- (-10452.386) (-10463.475) [-10459.623] (-10460.578) * (-10456.805) (-10452.983) [-10457.509] (-10459.081) -- 0:11:38 193000 -- (-10452.428) [-10465.021] (-10465.013) (-10466.502) * (-10461.032) (-10462.813) [-10454.704] (-10458.518) -- 0:11:38 194000 -- (-10467.959) [-10454.707] (-10455.898) (-10454.904) * [-10456.904] (-10462.514) (-10461.748) (-10457.124) -- 0:11:37 195000 -- (-10456.991) (-10461.247) (-10460.172) [-10452.060] * (-10458.333) (-10465.251) (-10450.684) [-10462.776] -- 0:11:37 Average standard deviation of split frequencies: 0.009621 196000 -- (-10452.832) [-10461.129] (-10456.483) (-10453.492) * [-10459.714] (-10454.444) (-10472.056) (-10456.112) -- 0:11:37 197000 -- (-10468.612) (-10469.939) (-10461.026) [-10452.095] * (-10452.362) (-10461.426) [-10447.840] (-10458.268) -- 0:11:37 198000 -- (-10455.483) (-10455.424) (-10453.558) [-10460.131] * (-10460.167) (-10462.463) [-10451.051] (-10462.054) -- 0:11:36 199000 -- (-10455.116) (-10462.209) (-10462.087) [-10456.932] * (-10461.542) (-10463.679) [-10450.634] (-10448.546) -- 0:11:36 200000 -- [-10451.002] (-10459.477) (-10463.125) (-10457.105) * (-10456.102) [-10466.126] (-10456.798) (-10454.419) -- 0:11:32 Average standard deviation of split frequencies: 0.011746 201000 -- [-10467.451] (-10461.870) (-10464.168) (-10457.800) * (-10465.613) (-10459.233) (-10465.888) [-10462.348] -- 0:11:31 202000 -- (-10467.675) [-10454.904] (-10457.404) (-10461.044) * (-10463.461) (-10467.288) [-10458.272] (-10459.887) -- 0:11:31 203000 -- (-10458.574) (-10449.137) (-10458.058) [-10453.011] * (-10458.916) [-10467.584] (-10457.277) (-10457.652) -- 0:11:30 204000 -- (-10462.532) (-10454.355) (-10460.002) [-10459.959] * [-10464.325] (-10458.533) (-10453.289) (-10462.320) -- 0:11:30 205000 -- (-10457.720) (-10469.679) [-10465.501] (-10457.522) * [-10458.473] (-10458.179) (-10456.560) (-10456.893) -- 0:11:30 Average standard deviation of split frequencies: 0.015491 206000 -- (-10455.474) [-10461.877] (-10466.942) (-10458.792) * (-10458.177) [-10460.591] (-10451.692) (-10462.070) -- 0:11:29 207000 -- (-10452.858) [-10459.385] (-10459.323) (-10455.401) * (-10463.747) (-10465.727) [-10459.340] (-10473.332) -- 0:11:25 208000 -- (-10449.742) [-10457.274] (-10466.569) (-10464.144) * (-10454.674) [-10456.281] (-10456.067) (-10461.622) -- 0:11:25 209000 -- (-10464.872) (-10455.005) [-10469.746] (-10463.342) * (-10457.815) (-10467.464) (-10464.094) [-10456.733] -- 0:11:25 210000 -- (-10452.906) (-10468.307) (-10457.002) [-10446.966] * (-10460.718) (-10467.771) [-10454.478] (-10462.839) -- 0:11:24 Average standard deviation of split frequencies: 0.015664 211000 -- (-10458.435) (-10465.374) (-10462.708) [-10457.732] * (-10462.290) (-10451.810) (-10453.694) [-10455.433] -- 0:11:24 212000 -- (-10456.008) (-10457.368) (-10457.704) [-10456.247] * (-10460.883) (-10474.851) (-10460.175) [-10455.484] -- 0:11:23 213000 -- [-10457.642] (-10455.469) (-10459.404) (-10453.460) * (-10456.939) [-10460.532] (-10451.306) (-10459.185) -- 0:11:19 214000 -- (-10468.294) (-10456.427) [-10455.948] (-10456.393) * (-10471.575) (-10461.620) (-10462.260) [-10459.800] -- 0:11:19 215000 -- (-10463.327) (-10458.842) (-10460.206) [-10458.437] * (-10457.555) (-10461.491) (-10466.893) [-10458.223] -- 0:11:19 Average standard deviation of split frequencies: 0.016116 216000 -- (-10456.357) (-10458.011) [-10447.210] (-10453.884) * [-10454.108] (-10456.996) (-10469.668) (-10459.460) -- 0:11:18 217000 -- [-10453.561] (-10459.378) (-10460.494) (-10472.727) * (-10453.532) (-10457.126) [-10464.499] (-10468.651) -- 0:11:18 218000 -- (-10459.098) (-10457.877) [-10452.587] (-10466.527) * (-10468.152) [-10454.483] (-10466.222) (-10463.346) -- 0:11:17 219000 -- [-10455.257] (-10465.423) (-10458.917) (-10460.132) * (-10454.491) (-10455.732) (-10454.933) [-10456.741] -- 0:11:17 220000 -- (-10463.180) [-10458.565] (-10458.862) (-10452.001) * [-10459.585] (-10460.793) (-10460.497) (-10460.555) -- 0:11:13 Average standard deviation of split frequencies: 0.017583 221000 -- [-10454.418] (-10455.926) (-10454.395) (-10458.702) * [-10459.760] (-10464.411) (-10456.550) (-10457.449) -- 0:11:13 222000 -- (-10454.438) [-10462.582] (-10461.766) (-10463.991) * (-10456.416) (-10461.837) (-10459.052) [-10460.747] -- 0:11:12 223000 -- (-10459.818) (-10463.468) [-10450.479] (-10459.054) * (-10459.019) [-10460.585] (-10458.235) (-10461.428) -- 0:11:12 224000 -- (-10453.238) (-10460.925) [-10463.850] (-10455.360) * (-10469.331) [-10457.052] (-10462.647) (-10460.716) -- 0:11:12 225000 -- (-10454.041) (-10456.401) (-10466.609) [-10450.506] * (-10465.206) [-10455.538] (-10471.200) (-10453.115) -- 0:11:11 Average standard deviation of split frequencies: 0.016206 226000 -- [-10454.223] (-10464.490) (-10451.837) (-10468.607) * (-10458.323) (-10457.198) [-10453.908] (-10469.944) -- 0:11:11 227000 -- (-10459.512) [-10454.357] (-10457.121) (-10457.853) * (-10462.181) (-10463.316) (-10456.515) [-10452.910] -- 0:11:07 228000 -- (-10455.399) (-10451.688) [-10454.865] (-10461.726) * [-10462.788] (-10458.504) (-10454.736) (-10461.541) -- 0:11:07 229000 -- (-10458.277) [-10458.075] (-10453.359) (-10459.184) * (-10465.393) (-10459.605) (-10453.393) [-10452.806] -- 0:11:06 230000 -- (-10470.755) (-10462.335) [-10459.028] (-10468.104) * [-10459.766] (-10475.116) (-10451.797) (-10453.560) -- 0:11:06 Average standard deviation of split frequencies: 0.016506 231000 -- (-10466.977) (-10456.544) [-10454.281] (-10465.009) * (-10453.321) [-10458.321] (-10461.487) (-10451.353) -- 0:11:05 232000 -- (-10463.045) (-10452.479) (-10460.111) [-10463.676] * (-10462.220) [-10454.566] (-10459.366) (-10460.715) -- 0:11:05 233000 -- (-10457.813) [-10456.421] (-10457.303) (-10462.934) * (-10464.453) [-10452.966] (-10454.678) (-10464.134) -- 0:11:04 234000 -- (-10464.183) [-10460.955] (-10461.620) (-10462.959) * (-10454.505) [-10453.997] (-10461.045) (-10465.104) -- 0:11:01 235000 -- (-10456.557) (-10460.232) [-10450.253] (-10460.018) * [-10453.258] (-10462.425) (-10452.313) (-10470.549) -- 0:11:00 Average standard deviation of split frequencies: 0.017516 236000 -- (-10452.061) (-10456.033) (-10462.560) [-10459.779] * (-10451.541) (-10472.316) [-10459.971] (-10462.139) -- 0:11:00 237000 -- (-10460.044) (-10459.913) (-10460.366) [-10454.198] * (-10461.622) (-10464.759) [-10459.006] (-10459.365) -- 0:10:59 238000 -- (-10462.883) [-10465.136] (-10479.602) (-10456.523) * (-10460.286) (-10465.544) [-10463.468] (-10453.902) -- 0:10:59 239000 -- (-10458.575) (-10473.630) (-10465.223) [-10456.080] * [-10456.424] (-10458.167) (-10455.770) (-10461.060) -- 0:10:59 240000 -- (-10461.311) (-10452.911) [-10457.645] (-10456.525) * [-10458.734] (-10457.959) (-10457.132) (-10473.874) -- 0:10:58 Average standard deviation of split frequencies: 0.018834 241000 -- (-10464.957) (-10454.690) [-10459.922] (-10462.450) * [-10457.211] (-10461.589) (-10454.731) (-10462.038) -- 0:10:55 242000 -- (-10459.463) (-10454.199) [-10457.381] (-10463.474) * [-10458.711] (-10458.544) (-10458.525) (-10456.742) -- 0:10:54 243000 -- [-10459.419] (-10451.754) (-10466.405) (-10458.582) * (-10457.751) [-10460.566] (-10454.727) (-10452.465) -- 0:10:54 244000 -- (-10464.464) (-10457.537) [-10457.695] (-10457.811) * (-10458.482) [-10450.905] (-10460.535) (-10457.118) -- 0:10:53 245000 -- (-10454.758) [-10453.106] (-10465.071) (-10456.226) * [-10462.255] (-10467.479) (-10458.901) (-10455.015) -- 0:10:53 Average standard deviation of split frequencies: 0.017247 246000 -- (-10457.213) (-10461.035) [-10453.084] (-10458.611) * (-10462.027) (-10464.947) [-10461.045] (-10458.897) -- 0:10:52 247000 -- (-10463.375) [-10460.273] (-10456.200) (-10461.844) * (-10448.675) (-10455.917) [-10452.298] (-10453.793) -- 0:10:52 248000 -- (-10478.959) [-10466.290] (-10461.040) (-10450.242) * (-10458.994) (-10464.758) (-10456.119) [-10455.745] -- 0:10:48 249000 -- (-10458.875) [-10467.401] (-10466.351) (-10461.200) * (-10462.749) (-10456.821) [-10458.053] (-10459.246) -- 0:10:48 250000 -- (-10458.644) (-10459.575) (-10469.773) [-10451.011] * (-10461.201) (-10457.768) (-10450.486) [-10463.430] -- 0:10:48 Average standard deviation of split frequencies: 0.016781 251000 -- [-10458.192] (-10469.065) (-10459.401) (-10457.978) * (-10458.692) (-10462.620) (-10461.020) [-10457.967] -- 0:10:47 252000 -- (-10459.987) [-10456.800] (-10451.064) (-10466.139) * (-10451.206) [-10461.115] (-10455.646) (-10463.502) -- 0:10:47 253000 -- (-10467.056) (-10459.591) (-10465.734) [-10467.622] * [-10452.361] (-10465.029) (-10457.969) (-10451.871) -- 0:10:46 254000 -- (-10457.639) (-10459.592) (-10458.292) [-10461.700] * (-10460.355) (-10461.269) (-10455.105) [-10461.303] -- 0:10:46 255000 -- (-10456.874) [-10452.434] (-10462.316) (-10472.925) * [-10452.596] (-10456.676) (-10463.101) (-10460.670) -- 0:10:42 Average standard deviation of split frequencies: 0.018414 256000 -- (-10463.133) (-10463.742) [-10457.123] (-10457.344) * (-10462.655) (-10463.636) (-10461.009) [-10456.963] -- 0:10:42 257000 -- [-10455.384] (-10455.753) (-10446.829) (-10453.792) * (-10464.104) [-10453.422] (-10455.397) (-10464.184) -- 0:10:41 258000 -- (-10455.084) [-10455.988] (-10463.836) (-10457.016) * [-10455.592] (-10454.909) (-10456.104) (-10460.068) -- 0:10:41 259000 -- (-10452.521) [-10456.086] (-10460.486) (-10465.953) * (-10459.226) (-10464.350) (-10467.728) [-10458.918] -- 0:10:40 260000 -- (-10455.882) [-10459.025] (-10453.581) (-10451.105) * (-10455.700) (-10455.059) (-10454.368) [-10453.032] -- 0:10:40 Average standard deviation of split frequencies: 0.019754 261000 -- [-10461.686] (-10463.019) (-10455.905) (-10460.789) * [-10462.599] (-10452.989) (-10454.224) (-10456.381) -- 0:10:39 262000 -- (-10456.560) (-10467.736) (-10456.624) [-10456.144] * (-10460.081) (-10451.721) (-10452.456) [-10452.951] -- 0:10:39 263000 -- [-10450.349] (-10458.436) (-10461.632) (-10456.816) * (-10456.155) (-10457.227) (-10454.254) [-10463.541] -- 0:10:36 264000 -- (-10450.001) [-10454.490] (-10457.930) (-10455.422) * (-10467.014) [-10457.185] (-10454.184) (-10460.298) -- 0:10:35 265000 -- [-10455.566] (-10462.752) (-10453.138) (-10456.662) * (-10456.417) (-10464.053) [-10460.745] (-10453.431) -- 0:10:35 Average standard deviation of split frequencies: 0.020176 266000 -- [-10451.528] (-10472.867) (-10452.375) (-10454.985) * (-10465.326) (-10453.288) [-10462.585] (-10459.019) -- 0:10:34 267000 -- (-10456.681) (-10462.265) (-10457.468) [-10460.091] * (-10464.413) [-10454.154] (-10458.752) (-10461.324) -- 0:10:34 268000 -- (-10457.179) (-10457.244) [-10454.116] (-10455.483) * (-10461.727) [-10450.818] (-10456.329) (-10454.754) -- 0:10:33 269000 -- (-10458.479) (-10469.181) [-10448.515] (-10450.344) * [-10463.572] (-10452.390) (-10458.057) (-10450.461) -- 0:10:33 270000 -- [-10454.204] (-10456.658) (-10462.971) (-10455.682) * (-10466.418) [-10456.602] (-10453.294) (-10461.982) -- 0:10:32 Average standard deviation of split frequencies: 0.020230 271000 -- (-10464.893) (-10457.656) (-10454.581) [-10456.521] * (-10460.437) [-10454.778] (-10456.529) (-10461.129) -- 0:10:29 272000 -- [-10453.629] (-10470.094) (-10462.688) (-10460.346) * (-10460.150) (-10460.080) [-10456.422] (-10456.953) -- 0:10:28 273000 -- (-10455.217) (-10465.789) (-10450.106) [-10461.397] * (-10458.592) (-10457.455) (-10458.537) [-10453.824] -- 0:10:28 274000 -- (-10460.826) (-10461.673) [-10448.880] (-10462.416) * [-10465.910] (-10462.152) (-10457.494) (-10462.863) -- 0:10:27 275000 -- [-10456.291] (-10458.912) (-10470.238) (-10458.613) * (-10454.743) (-10472.173) [-10449.058] (-10452.238) -- 0:10:27 Average standard deviation of split frequencies: 0.022072 276000 -- (-10457.807) [-10453.583] (-10457.902) (-10451.275) * (-10465.073) [-10456.782] (-10461.045) (-10450.305) -- 0:10:26 277000 -- (-10454.190) (-10454.822) [-10457.555] (-10461.466) * (-10457.055) [-10459.121] (-10453.110) (-10469.520) -- 0:10:26 278000 -- (-10457.762) (-10451.822) [-10457.531] (-10458.508) * (-10452.209) [-10452.409] (-10459.189) (-10463.783) -- 0:10:23 279000 -- (-10459.047) [-10464.231] (-10458.535) (-10467.497) * (-10464.177) (-10458.370) [-10462.358] (-10461.061) -- 0:10:22 280000 -- [-10452.934] (-10466.304) (-10465.376) (-10457.523) * (-10456.334) (-10464.304) [-10452.636] (-10462.058) -- 0:10:22 Average standard deviation of split frequencies: 0.021189 281000 -- (-10458.687) (-10465.453) (-10459.135) [-10459.804] * (-10461.633) (-10454.907) [-10452.578] (-10461.629) -- 0:10:21 282000 -- (-10459.069) [-10465.792] (-10455.242) (-10457.058) * [-10456.851] (-10461.232) (-10460.509) (-10457.077) -- 0:10:21 283000 -- (-10455.978) (-10458.833) (-10458.743) [-10456.357] * (-10458.152) [-10455.807] (-10462.907) (-10464.990) -- 0:10:20 284000 -- (-10466.930) (-10468.384) [-10456.449] (-10452.141) * (-10458.375) [-10456.168] (-10451.363) (-10455.798) -- 0:10:20 285000 -- (-10464.595) (-10464.245) (-10459.300) [-10456.219] * [-10454.933] (-10464.171) (-10457.512) (-10452.383) -- 0:10:17 Average standard deviation of split frequencies: 0.021808 286000 -- (-10455.683) [-10458.779] (-10459.232) (-10456.904) * [-10461.193] (-10450.727) (-10468.337) (-10460.692) -- 0:10:16 287000 -- (-10456.901) (-10465.042) [-10451.888] (-10463.303) * (-10456.391) (-10464.447) (-10461.953) [-10455.962] -- 0:10:16 288000 -- (-10466.529) [-10460.609] (-10460.863) (-10459.366) * (-10462.118) [-10461.052] (-10458.329) (-10455.768) -- 0:10:15 289000 -- [-10456.481] (-10453.553) (-10453.277) (-10470.885) * (-10470.889) [-10452.612] (-10457.237) (-10456.115) -- 0:10:15 290000 -- (-10456.774) (-10462.863) (-10454.531) [-10454.158] * (-10456.031) [-10450.057] (-10460.876) (-10458.270) -- 0:10:14 Average standard deviation of split frequencies: 0.020335 291000 -- (-10468.620) (-10457.218) [-10463.186] (-10464.125) * (-10469.697) (-10450.842) [-10461.771] (-10466.923) -- 0:10:13 292000 -- (-10457.569) (-10458.661) [-10454.310] (-10463.198) * [-10457.214] (-10461.128) (-10469.377) (-10470.106) -- 0:10:11 293000 -- [-10459.956] (-10452.453) (-10462.199) (-10458.173) * (-10473.183) (-10458.712) [-10455.273] (-10456.951) -- 0:10:10 294000 -- [-10460.334] (-10459.930) (-10459.766) (-10456.901) * [-10456.312] (-10459.626) (-10459.370) (-10461.072) -- 0:10:09 295000 -- (-10463.613) (-10460.116) [-10456.732] (-10456.838) * (-10456.872) (-10461.544) [-10469.719] (-10465.088) -- 0:10:09 Average standard deviation of split frequencies: 0.019111 296000 -- (-10454.960) [-10464.755] (-10460.093) (-10459.828) * (-10462.303) (-10456.343) (-10458.188) [-10458.936] -- 0:10:08 297000 -- (-10464.793) (-10463.069) (-10452.652) [-10452.979] * (-10464.212) [-10456.567] (-10473.771) (-10455.762) -- 0:10:08 298000 -- (-10463.265) [-10457.746] (-10452.912) (-10454.155) * [-10457.129] (-10465.072) (-10467.241) (-10468.663) -- 0:10:07 299000 -- [-10454.132] (-10466.220) (-10457.072) (-10461.117) * (-10461.335) (-10453.689) [-10460.812] (-10467.084) -- 0:10:04 300000 -- [-10451.582] (-10465.769) (-10450.417) (-10461.311) * [-10457.569] (-10461.646) (-10463.625) (-10461.135) -- 0:10:04 Average standard deviation of split frequencies: 0.019176 301000 -- [-10456.552] (-10453.130) (-10464.470) (-10452.867) * (-10455.668) (-10457.399) (-10470.984) [-10457.065] -- 0:10:03 302000 -- (-10462.525) [-10450.776] (-10470.312) (-10460.253) * (-10461.025) [-10452.832] (-10452.501) (-10460.747) -- 0:10:03 303000 -- (-10457.694) (-10460.761) [-10466.666] (-10458.164) * (-10462.727) (-10462.796) [-10453.511] (-10462.966) -- 0:10:02 304000 -- (-10465.553) (-10456.836) (-10469.580) [-10457.922] * (-10467.623) [-10456.171] (-10459.951) (-10469.744) -- 0:10:02 305000 -- (-10454.331) [-10456.994] (-10459.912) (-10455.554) * (-10465.657) [-10459.679] (-10454.852) (-10466.165) -- 0:10:01 Average standard deviation of split frequencies: 0.019790 306000 -- (-10449.839) (-10451.957) (-10464.490) [-10451.107] * (-10463.244) (-10462.679) (-10458.286) [-10463.534] -- 0:10:01 307000 -- (-10461.925) (-10458.862) (-10469.654) [-10461.152] * (-10448.770) (-10452.142) (-10459.222) [-10458.733] -- 0:09:58 308000 -- (-10464.710) (-10457.637) (-10459.091) [-10456.908] * (-10465.735) [-10457.771] (-10454.504) (-10454.365) -- 0:09:57 309000 -- (-10464.904) [-10448.953] (-10462.234) (-10461.814) * [-10463.681] (-10460.633) (-10450.560) (-10461.802) -- 0:09:57 310000 -- (-10457.243) [-10464.674] (-10462.512) (-10461.270) * (-10471.944) (-10465.682) (-10455.556) [-10460.617] -- 0:09:56 Average standard deviation of split frequencies: 0.018325 311000 -- (-10459.273) (-10466.545) [-10456.650] (-10455.869) * (-10458.783) [-10452.251] (-10456.579) (-10455.429) -- 0:09:55 312000 -- (-10464.736) [-10460.291] (-10460.914) (-10461.713) * (-10453.994) [-10459.263] (-10469.577) (-10455.037) -- 0:09:55 313000 -- [-10457.467] (-10459.297) (-10459.187) (-10455.583) * (-10454.419) (-10459.703) [-10456.203] (-10461.630) -- 0:09:52 314000 -- (-10466.717) [-10459.412] (-10462.609) (-10460.517) * (-10458.220) (-10459.910) [-10457.775] (-10459.194) -- 0:09:52 315000 -- (-10465.449) [-10458.137] (-10462.778) (-10451.298) * (-10467.902) (-10458.348) (-10459.080) [-10459.001] -- 0:09:51 Average standard deviation of split frequencies: 0.017442 316000 -- (-10456.797) (-10460.357) [-10455.229] (-10460.418) * [-10460.719] (-10462.479) (-10463.620) (-10456.338) -- 0:09:50 317000 -- [-10454.329] (-10458.281) (-10460.116) (-10450.732) * (-10461.831) (-10458.652) (-10457.864) [-10456.471] -- 0:09:50 318000 -- (-10457.334) (-10454.953) (-10458.564) [-10459.220] * (-10461.002) (-10457.999) (-10457.955) [-10453.381] -- 0:09:49 319000 -- (-10468.121) [-10458.160] (-10451.183) (-10455.355) * (-10460.728) (-10460.771) (-10452.312) [-10449.561] -- 0:09:49 320000 -- (-10458.346) [-10458.704] (-10465.512) (-10456.873) * (-10456.945) (-10468.372) [-10455.338] (-10455.810) -- 0:09:48 Average standard deviation of split frequencies: 0.015605 321000 -- (-10458.403) (-10459.485) [-10457.422] (-10460.016) * (-10453.079) [-10462.001] (-10464.700) (-10449.962) -- 0:09:45 322000 -- (-10461.947) (-10466.597) (-10456.432) [-10463.495] * (-10461.874) (-10461.329) [-10456.881] (-10469.512) -- 0:09:45 323000 -- (-10463.285) [-10454.564] (-10460.507) (-10458.661) * [-10460.353] (-10474.837) (-10452.685) (-10466.293) -- 0:09:44 324000 -- (-10467.116) (-10456.804) [-10464.617] (-10460.948) * [-10449.672] (-10463.229) (-10468.444) (-10465.199) -- 0:09:44 325000 -- (-10460.209) (-10464.613) (-10467.198) [-10458.686] * (-10458.528) (-10465.969) (-10453.984) [-10461.056] -- 0:09:43 Average standard deviation of split frequencies: 0.013348 326000 -- (-10466.457) (-10453.764) [-10458.793] (-10465.273) * [-10452.325] (-10461.628) (-10451.218) (-10463.891) -- 0:09:43 327000 -- (-10456.323) (-10459.251) (-10465.003) [-10457.236] * [-10459.150] (-10469.209) (-10458.612) (-10459.054) -- 0:09:42 328000 -- (-10452.878) (-10467.710) (-10463.393) [-10463.312] * (-10455.628) (-10462.700) [-10453.137] (-10457.554) -- 0:09:41 329000 -- (-10455.637) [-10449.423] (-10455.533) (-10455.667) * (-10454.128) (-10463.888) (-10460.487) [-10456.039] -- 0:09:39 330000 -- (-10452.474) (-10461.377) [-10456.890] (-10459.575) * (-10456.870) (-10458.715) [-10455.048] (-10459.424) -- 0:09:38 Average standard deviation of split frequencies: 0.011953 331000 -- [-10459.573] (-10463.939) (-10461.466) (-10453.934) * (-10464.689) (-10471.803) [-10454.972] (-10459.049) -- 0:09:38 332000 -- (-10450.114) (-10458.807) (-10460.612) [-10460.033] * (-10453.702) (-10456.062) [-10453.155] (-10459.996) -- 0:09:37 333000 -- [-10458.956] (-10460.794) (-10459.540) (-10464.090) * (-10454.045) (-10457.246) [-10459.872] (-10464.967) -- 0:09:36 334000 -- [-10457.527] (-10456.929) (-10461.375) (-10456.279) * [-10462.518] (-10454.459) (-10454.511) (-10457.860) -- 0:09:36 335000 -- [-10451.196] (-10457.360) (-10460.105) (-10460.711) * [-10456.223] (-10460.012) (-10457.470) (-10457.944) -- 0:09:35 Average standard deviation of split frequencies: 0.011224 336000 -- (-10451.895) [-10456.728] (-10462.876) (-10459.714) * (-10468.163) (-10459.624) [-10458.781] (-10458.066) -- 0:09:33 337000 -- (-10452.674) (-10460.217) (-10455.810) [-10461.348] * (-10461.030) (-10450.436) (-10450.645) [-10452.119] -- 0:09:32 338000 -- (-10451.580) [-10458.306] (-10464.400) (-10454.149) * (-10455.415) (-10467.485) (-10463.017) [-10450.875] -- 0:09:31 339000 -- (-10457.287) (-10450.115) (-10456.575) [-10453.170] * [-10453.944] (-10451.571) (-10452.412) (-10454.616) -- 0:09:31 340000 -- (-10464.458) (-10458.406) (-10451.789) [-10454.059] * (-10456.403) (-10461.352) (-10455.984) [-10458.747] -- 0:09:30 Average standard deviation of split frequencies: 0.010751 341000 -- [-10462.493] (-10460.286) (-10457.332) (-10455.408) * (-10458.000) (-10460.089) (-10462.407) [-10457.812] -- 0:09:30 342000 -- (-10467.537) [-10451.714] (-10453.379) (-10458.645) * (-10459.782) [-10460.933] (-10456.476) (-10467.561) -- 0:09:29 343000 -- (-10455.245) (-10457.132) (-10458.870) [-10454.187] * (-10462.550) (-10457.102) [-10458.752] (-10464.419) -- 0:09:28 344000 -- (-10467.166) (-10469.642) [-10456.090] (-10454.334) * (-10468.941) (-10461.322) [-10456.876] (-10463.152) -- 0:09:26 345000 -- (-10460.943) [-10455.569] (-10452.110) (-10453.369) * [-10454.840] (-10460.737) (-10459.043) (-10459.809) -- 0:09:25 Average standard deviation of split frequencies: 0.009013 346000 -- (-10454.267) (-10455.680) (-10452.564) [-10451.812] * (-10463.645) (-10467.536) (-10455.095) [-10451.725] -- 0:09:25 347000 -- [-10451.381] (-10458.311) (-10455.532) (-10457.834) * (-10464.147) (-10459.178) (-10454.767) [-10464.299] -- 0:09:24 348000 -- (-10453.177) (-10463.748) (-10464.224) [-10461.479] * (-10455.034) (-10459.100) [-10457.814] (-10456.335) -- 0:09:23 349000 -- (-10456.419) (-10463.530) [-10449.977] (-10458.475) * (-10458.676) [-10450.902] (-10459.786) (-10457.478) -- 0:09:23 350000 -- [-10455.570] (-10461.607) (-10459.501) (-10463.405) * (-10465.053) (-10467.504) [-10461.248] (-10461.029) -- 0:09:22 Average standard deviation of split frequencies: 0.008169 351000 -- (-10468.306) (-10463.325) (-10461.241) [-10458.004] * [-10454.988] (-10459.642) (-10459.339) (-10466.955) -- 0:09:22 352000 -- (-10470.359) (-10457.459) (-10457.595) [-10455.984] * (-10456.150) (-10453.353) [-10456.850] (-10464.878) -- 0:09:21 353000 -- [-10460.038] (-10461.095) (-10459.921) (-10468.929) * [-10452.796] (-10463.714) (-10456.928) (-10470.438) -- 0:09:19 354000 -- [-10465.533] (-10460.159) (-10455.924) (-10464.651) * (-10463.663) (-10454.515) [-10459.734] (-10454.304) -- 0:09:18 355000 -- [-10454.828] (-10463.017) (-10459.545) (-10461.503) * (-10459.132) (-10464.457) (-10458.702) [-10452.188] -- 0:09:17 Average standard deviation of split frequencies: 0.008454 356000 -- (-10456.411) (-10460.028) [-10458.667] (-10456.045) * (-10459.536) [-10457.140] (-10461.534) (-10455.854) -- 0:09:17 357000 -- (-10454.385) [-10453.511] (-10460.684) (-10468.262) * (-10461.199) [-10454.551] (-10460.920) (-10458.080) -- 0:09:16 358000 -- (-10455.603) (-10453.368) [-10465.698] (-10455.748) * (-10463.388) (-10455.139) [-10456.517] (-10454.299) -- 0:09:15 359000 -- (-10464.209) [-10456.044] (-10466.383) (-10461.548) * (-10458.552) [-10451.366] (-10456.937) (-10460.557) -- 0:09:15 360000 -- (-10455.347) [-10461.027] (-10461.100) (-10460.168) * [-10455.387] (-10464.804) (-10462.392) (-10460.641) -- 0:09:12 Average standard deviation of split frequencies: 0.008948 361000 -- (-10455.204) (-10463.614) [-10455.588] (-10466.561) * (-10456.390) [-10458.065] (-10466.594) (-10454.973) -- 0:09:12 362000 -- [-10455.017] (-10464.944) (-10454.992) (-10457.827) * (-10464.243) (-10465.788) [-10455.546] (-10467.033) -- 0:09:11 363000 -- (-10457.597) [-10459.312] (-10453.446) (-10463.807) * (-10461.751) [-10458.444] (-10458.664) (-10462.406) -- 0:09:11 364000 -- (-10455.072) (-10463.045) (-10456.936) [-10449.880] * (-10461.271) [-10456.422] (-10456.856) (-10462.710) -- 0:09:10 365000 -- [-10454.492] (-10463.107) (-10451.029) (-10461.617) * (-10465.913) (-10460.610) [-10456.331] (-10458.000) -- 0:09:09 Average standard deviation of split frequencies: 0.008917 366000 -- (-10450.287) [-10458.981] (-10463.448) (-10455.837) * (-10457.901) (-10457.697) [-10453.733] (-10469.538) -- 0:09:09 367000 -- (-10451.614) (-10460.514) (-10461.143) [-10452.887] * (-10461.829) (-10458.084) (-10456.482) [-10459.596] -- 0:09:06 368000 -- (-10468.642) (-10461.108) [-10458.324] (-10460.655) * (-10455.916) (-10456.018) (-10458.925) [-10456.132] -- 0:09:06 369000 -- [-10456.619] (-10461.074) (-10459.751) (-10461.035) * [-10450.868] (-10457.319) (-10456.020) (-10476.178) -- 0:09:05 370000 -- [-10453.682] (-10459.342) (-10455.994) (-10455.281) * (-10456.343) (-10459.603) [-10454.649] (-10458.943) -- 0:09:04 Average standard deviation of split frequencies: 0.009000 371000 -- (-10455.617) (-10460.773) [-10452.456] (-10474.095) * (-10460.374) (-10464.494) (-10454.022) [-10459.877] -- 0:09:04 372000 -- (-10458.599) [-10455.272] (-10450.547) (-10479.480) * (-10455.594) [-10453.218] (-10457.162) (-10459.751) -- 0:09:03 373000 -- (-10461.466) (-10462.530) (-10462.757) [-10456.331] * [-10457.338] (-10454.124) (-10460.852) (-10456.961) -- 0:09:02 374000 -- (-10457.630) (-10455.578) (-10459.924) [-10454.616] * (-10458.252) (-10455.716) (-10466.926) [-10454.890] -- 0:09:00 375000 -- (-10459.131) (-10458.624) (-10453.030) [-10458.590] * (-10451.771) (-10465.195) [-10459.613] (-10468.246) -- 0:09:00 Average standard deviation of split frequencies: 0.009258 376000 -- (-10452.564) (-10475.518) (-10454.871) [-10460.620] * (-10469.473) (-10464.708) [-10460.185] (-10464.390) -- 0:08:59 377000 -- (-10458.367) [-10465.602] (-10451.398) (-10464.240) * (-10457.851) (-10457.315) [-10452.274] (-10458.087) -- 0:08:58 378000 -- [-10451.861] (-10455.353) (-10457.762) (-10459.178) * [-10455.165] (-10466.399) (-10456.354) (-10463.020) -- 0:08:58 379000 -- (-10470.589) (-10452.984) (-10449.443) [-10462.121] * (-10468.063) (-10462.352) [-10453.356] (-10454.527) -- 0:08:57 380000 -- (-10467.638) (-10468.909) [-10457.482] (-10460.524) * (-10461.060) (-10453.570) (-10454.588) [-10452.745] -- 0:08:56 Average standard deviation of split frequencies: 0.009335 381000 -- (-10459.443) (-10451.147) (-10461.900) [-10452.114] * (-10452.572) (-10459.659) (-10459.265) [-10457.688] -- 0:08:54 382000 -- [-10458.698] (-10463.785) (-10460.092) (-10455.897) * (-10459.266) (-10461.002) (-10460.736) [-10465.031] -- 0:08:53 383000 -- (-10459.751) (-10455.234) (-10459.755) [-10459.002] * (-10454.063) [-10454.506] (-10457.074) (-10464.644) -- 0:08:53 384000 -- (-10452.274) (-10464.177) (-10462.820) [-10462.303] * (-10462.763) (-10451.559) (-10454.385) [-10460.599] -- 0:08:52 385000 -- [-10448.022] (-10465.735) (-10464.551) (-10450.823) * (-10455.323) (-10459.019) [-10454.949] (-10455.373) -- 0:08:51 Average standard deviation of split frequencies: 0.009864 386000 -- (-10454.800) (-10454.587) (-10458.715) [-10453.472] * (-10457.403) [-10453.987] (-10467.927) (-10463.736) -- 0:08:51 387000 -- [-10450.118] (-10466.163) (-10458.254) (-10466.068) * (-10458.755) [-10458.058] (-10473.137) (-10462.415) -- 0:08:50 388000 -- (-10453.019) (-10451.027) [-10449.194] (-10463.055) * (-10467.191) (-10463.242) (-10455.365) [-10454.817] -- 0:08:48 389000 -- (-10454.103) [-10463.678] (-10471.104) (-10463.422) * [-10456.751] (-10460.209) (-10463.490) (-10455.701) -- 0:08:47 390000 -- [-10467.553] (-10453.807) (-10458.450) (-10461.891) * (-10463.156) [-10456.823] (-10456.811) (-10454.952) -- 0:08:47 Average standard deviation of split frequencies: 0.012902 391000 -- (-10456.749) (-10471.181) [-10449.967] (-10461.479) * (-10471.235) (-10454.872) [-10454.379] (-10458.327) -- 0:08:46 392000 -- [-10459.394] (-10452.139) (-10464.527) (-10454.631) * [-10456.383] (-10452.161) (-10458.691) (-10455.727) -- 0:08:45 393000 -- (-10466.550) (-10467.371) [-10457.570] (-10462.211) * (-10460.385) [-10460.669] (-10457.025) (-10450.801) -- 0:08:45 394000 -- [-10453.442] (-10462.684) (-10453.791) (-10454.864) * (-10452.576) (-10461.617) (-10450.089) [-10450.822] -- 0:08:44 395000 -- (-10467.378) (-10457.071) (-10460.010) [-10447.903] * [-10455.480] (-10464.184) (-10462.164) (-10460.083) -- 0:08:42 Average standard deviation of split frequencies: 0.011355 396000 -- (-10453.310) (-10452.209) [-10451.110] (-10461.836) * (-10453.237) (-10455.769) (-10453.588) [-10454.149] -- 0:08:41 397000 -- (-10453.187) [-10458.149] (-10456.947) (-10452.806) * [-10460.069] (-10461.290) (-10458.448) (-10463.386) -- 0:08:40 398000 -- (-10450.803) (-10457.612) [-10461.167] (-10452.239) * (-10453.658) (-10466.574) [-10455.987] (-10456.873) -- 0:08:40 399000 -- (-10461.038) (-10462.485) (-10463.088) [-10455.848] * [-10455.622] (-10471.806) (-10456.451) (-10462.911) -- 0:08:39 400000 -- (-10458.486) (-10458.197) (-10455.764) [-10455.338] * (-10458.203) [-10453.395] (-10454.598) (-10462.142) -- 0:08:39 Average standard deviation of split frequencies: 0.012761 401000 -- (-10459.079) (-10460.325) [-10458.026] (-10449.753) * (-10457.462) [-10456.440] (-10459.564) (-10455.575) -- 0:08:38 402000 -- (-10456.108) [-10458.282] (-10455.997) (-10455.945) * (-10459.798) (-10458.118) [-10451.109] (-10461.411) -- 0:08:37 403000 -- [-10457.273] (-10451.627) (-10451.289) (-10459.314) * (-10464.484) [-10456.011] (-10455.249) (-10460.339) -- 0:08:35 404000 -- (-10459.828) (-10451.751) [-10451.146] (-10465.446) * (-10454.276) (-10458.830) (-10458.951) [-10462.219] -- 0:08:34 405000 -- [-10454.650] (-10467.099) (-10464.489) (-10460.608) * (-10462.451) (-10463.020) (-10459.880) [-10459.819] -- 0:08:34 Average standard deviation of split frequencies: 0.011343 406000 -- [-10462.925] (-10463.696) (-10462.590) (-10458.376) * (-10457.418) [-10454.500] (-10463.046) (-10467.325) -- 0:08:33 407000 -- (-10459.930) [-10455.863] (-10460.479) (-10460.440) * (-10460.690) (-10464.573) [-10456.733] (-10456.497) -- 0:08:32 408000 -- (-10458.201) [-10455.728] (-10450.859) (-10463.898) * (-10458.934) (-10460.645) (-10456.068) [-10460.589] -- 0:08:32 409000 -- (-10452.247) [-10452.057] (-10464.470) (-10450.469) * (-10457.118) (-10453.035) [-10457.923] (-10458.476) -- 0:08:31 410000 -- (-10458.294) (-10457.195) (-10459.565) [-10448.795] * (-10461.663) (-10459.528) (-10457.715) [-10451.662] -- 0:08:29 Average standard deviation of split frequencies: 0.011744 411000 -- (-10465.741) (-10461.703) (-10459.146) [-10461.044] * (-10465.498) (-10466.343) [-10449.671] (-10460.905) -- 0:08:28 412000 -- (-10459.617) [-10458.098] (-10455.539) (-10462.745) * (-10462.394) (-10455.484) (-10464.020) [-10451.413] -- 0:08:28 413000 -- [-10452.095] (-10460.684) (-10453.296) (-10450.682) * (-10458.777) (-10458.588) (-10463.535) [-10451.129] -- 0:08:27 414000 -- (-10460.592) (-10463.269) [-10462.942] (-10457.412) * (-10460.591) [-10462.429] (-10455.222) (-10461.746) -- 0:08:26 415000 -- (-10461.652) (-10454.872) (-10468.907) [-10455.450] * (-10458.176) (-10457.545) [-10454.673] (-10479.778) -- 0:08:26 Average standard deviation of split frequencies: 0.011681 416000 -- (-10471.240) [-10466.485] (-10464.396) (-10456.998) * (-10466.096) (-10459.257) [-10456.749] (-10452.200) -- 0:08:25 417000 -- [-10463.844] (-10452.630) (-10473.446) (-10457.900) * (-10459.468) [-10458.906] (-10457.617) (-10455.409) -- 0:08:24 418000 -- [-10452.668] (-10455.066) (-10480.099) (-10461.420) * [-10458.876] (-10469.935) (-10466.329) (-10457.991) -- 0:08:22 419000 -- (-10456.044) (-10455.275) (-10464.891) [-10457.617] * (-10456.869) [-10462.554] (-10468.617) (-10455.840) -- 0:08:21 420000 -- (-10463.517) [-10460.285] (-10458.183) (-10463.869) * [-10455.934] (-10468.083) (-10460.595) (-10469.045) -- 0:08:21 Average standard deviation of split frequencies: 0.011120 421000 -- (-10458.819) [-10456.788] (-10460.035) (-10464.116) * [-10452.191] (-10471.938) (-10454.008) (-10464.614) -- 0:08:20 422000 -- (-10452.955) (-10463.896) [-10456.183] (-10457.063) * [-10446.183] (-10477.305) (-10456.828) (-10459.435) -- 0:08:19 423000 -- (-10451.977) (-10460.881) [-10450.560] (-10459.920) * [-10454.618] (-10458.754) (-10469.636) (-10452.624) -- 0:08:19 424000 -- [-10458.958] (-10450.960) (-10470.805) (-10457.160) * (-10454.028) (-10465.955) [-10464.902] (-10456.000) -- 0:08:18 425000 -- (-10452.241) [-10461.148] (-10460.738) (-10471.547) * (-10455.172) (-10462.101) (-10459.297) [-10461.957] -- 0:08:16 Average standard deviation of split frequencies: 0.011491 426000 -- [-10455.991] (-10460.893) (-10459.254) (-10461.317) * (-10456.580) (-10462.959) [-10457.126] (-10462.448) -- 0:08:15 427000 -- (-10468.552) (-10457.430) (-10457.735) [-10456.572] * (-10452.377) (-10461.046) (-10460.907) [-10466.193] -- 0:08:15 428000 -- (-10455.210) (-10471.823) [-10453.917] (-10461.470) * (-10453.118) [-10458.474] (-10457.421) (-10456.344) -- 0:08:14 429000 -- (-10458.729) [-10453.206] (-10459.244) (-10458.747) * [-10457.481] (-10453.401) (-10458.650) (-10456.767) -- 0:08:13 430000 -- [-10464.113] (-10456.165) (-10456.369) (-10456.993) * (-10466.083) (-10461.271) [-10460.940] (-10452.936) -- 0:08:13 Average standard deviation of split frequencies: 0.012462 431000 -- (-10459.867) (-10455.283) [-10459.981] (-10453.929) * (-10457.328) (-10457.851) [-10454.212] (-10461.747) -- 0:08:12 432000 -- (-10466.596) (-10462.364) (-10455.777) [-10455.796] * (-10459.529) [-10458.967] (-10460.278) (-10459.656) -- 0:08:11 433000 -- (-10464.686) [-10451.386] (-10456.340) (-10464.357) * (-10459.730) [-10458.896] (-10457.617) (-10470.592) -- 0:08:09 434000 -- (-10451.327) [-10458.776] (-10459.975) (-10456.290) * (-10458.589) [-10448.681] (-10456.910) (-10463.484) -- 0:08:09 435000 -- (-10460.967) (-10456.473) (-10460.851) [-10451.826] * (-10459.701) (-10463.944) [-10455.561] (-10465.975) -- 0:08:08 Average standard deviation of split frequencies: 0.013224 436000 -- (-10457.824) (-10465.468) [-10455.332] (-10455.057) * [-10455.867] (-10457.493) (-10452.095) (-10455.595) -- 0:08:07 437000 -- (-10469.541) (-10456.002) [-10452.847] (-10456.842) * (-10461.095) [-10466.855] (-10457.865) (-10457.492) -- 0:08:06 438000 -- (-10467.522) (-10460.036) [-10455.476] (-10458.596) * (-10457.581) (-10460.016) (-10454.829) [-10457.098] -- 0:08:06 439000 -- (-10461.743) (-10464.892) (-10454.577) [-10461.971] * [-10466.113] (-10462.759) (-10465.098) (-10454.693) -- 0:08:05 440000 -- (-10464.394) [-10457.066] (-10467.163) (-10457.663) * (-10457.043) [-10458.084] (-10464.438) (-10458.651) -- 0:08:04 Average standard deviation of split frequencies: 0.012426 441000 -- (-10460.600) [-10449.333] (-10453.697) (-10462.421) * (-10457.322) [-10459.558] (-10459.825) (-10464.665) -- 0:08:02 442000 -- (-10468.261) (-10456.770) [-10454.533] (-10460.702) * (-10455.533) (-10462.542) [-10452.957] (-10457.920) -- 0:08:02 443000 -- (-10468.518) [-10456.759] (-10463.080) (-10461.022) * (-10455.275) (-10453.259) [-10452.317] (-10454.426) -- 0:08:01 444000 -- (-10457.292) (-10458.798) (-10457.186) [-10451.218] * (-10463.577) [-10452.813] (-10458.143) (-10458.060) -- 0:08:00 445000 -- (-10460.902) (-10463.989) (-10456.778) [-10452.866] * [-10451.321] (-10461.069) (-10459.112) (-10453.357) -- 0:08:00 Average standard deviation of split frequencies: 0.010814 446000 -- (-10462.170) [-10454.047] (-10461.638) (-10451.754) * (-10463.399) (-10452.254) [-10454.745] (-10453.210) -- 0:07:59 447000 -- (-10455.502) [-10455.724] (-10462.827) (-10458.618) * [-10456.401] (-10452.321) (-10462.914) (-10459.278) -- 0:07:58 448000 -- (-10457.364) (-10457.919) (-10473.021) [-10458.785] * (-10462.905) (-10459.015) (-10462.343) [-10452.593] -- 0:07:56 449000 -- (-10460.813) [-10457.030] (-10462.540) (-10462.310) * [-10456.314] (-10455.642) (-10460.378) (-10462.463) -- 0:07:56 450000 -- [-10456.952] (-10460.784) (-10460.743) (-10456.741) * [-10463.965] (-10455.249) (-10460.393) (-10454.183) -- 0:07:55 Average standard deviation of split frequencies: 0.010058 451000 -- (-10459.049) (-10461.503) (-10455.159) [-10459.240] * (-10450.506) (-10466.874) [-10460.515] (-10457.195) -- 0:07:54 452000 -- (-10457.074) [-10454.176] (-10460.075) (-10450.787) * (-10459.524) (-10458.971) [-10451.967] (-10455.683) -- 0:07:54 453000 -- [-10453.831] (-10459.964) (-10458.332) (-10457.246) * [-10460.039] (-10464.459) (-10449.381) (-10449.312) -- 0:07:53 454000 -- (-10460.107) [-10453.937] (-10468.781) (-10456.561) * [-10453.239] (-10466.643) (-10469.246) (-10462.593) -- 0:07:52 455000 -- [-10460.554] (-10456.205) (-10458.458) (-10448.412) * [-10456.961] (-10458.132) (-10465.423) (-10469.251) -- 0:07:50 Average standard deviation of split frequencies: 0.010020 456000 -- (-10459.689) (-10458.146) (-10458.770) [-10458.830] * [-10456.920] (-10461.757) (-10466.867) (-10464.114) -- 0:07:50 457000 -- (-10456.744) (-10453.037) (-10452.097) [-10460.779] * (-10464.152) (-10466.880) [-10458.818] (-10456.112) -- 0:07:49 458000 -- (-10459.466) [-10460.337] (-10459.069) (-10461.364) * (-10454.669) (-10465.180) (-10463.033) [-10450.896] -- 0:07:48 459000 -- [-10455.363] (-10456.622) (-10468.945) (-10459.921) * (-10458.205) (-10459.451) [-10462.961] (-10467.168) -- 0:07:47 460000 -- [-10450.317] (-10458.025) (-10464.039) (-10463.267) * (-10458.038) [-10466.385] (-10464.277) (-10457.524) -- 0:07:47 Average standard deviation of split frequencies: 0.008659 461000 -- (-10452.418) [-10451.182] (-10461.525) (-10463.868) * (-10460.801) (-10453.361) [-10459.779] (-10459.013) -- 0:07:46 462000 -- (-10457.396) (-10459.372) [-10453.277] (-10456.812) * (-10450.334) (-10459.024) [-10451.750] (-10453.604) -- 0:07:45 463000 -- (-10464.197) (-10460.490) (-10452.667) [-10451.208] * (-10464.357) (-10452.568) [-10454.199] (-10455.422) -- 0:07:43 464000 -- (-10461.315) (-10462.086) (-10457.709) [-10452.703] * (-10461.359) (-10455.996) [-10454.601] (-10458.419) -- 0:07:43 465000 -- (-10457.949) [-10453.563] (-10460.264) (-10460.066) * (-10458.024) [-10460.556] (-10453.485) (-10458.675) -- 0:07:42 Average standard deviation of split frequencies: 0.008793 466000 -- (-10460.129) [-10462.475] (-10463.048) (-10463.342) * (-10458.187) (-10457.084) [-10453.513] (-10461.939) -- 0:07:41 467000 -- (-10461.649) [-10451.158] (-10457.130) (-10454.597) * (-10458.319) [-10453.494] (-10461.852) (-10460.167) -- 0:07:41 468000 -- (-10451.095) (-10453.809) (-10459.281) [-10463.592] * [-10457.150] (-10468.091) (-10454.424) (-10453.726) -- 0:07:40 469000 -- (-10470.306) (-10461.093) [-10459.086] (-10456.016) * (-10465.762) [-10466.287] (-10452.475) (-10466.516) -- 0:07:39 470000 -- [-10458.421] (-10463.520) (-10455.311) (-10455.892) * (-10455.090) (-10462.115) (-10454.690) [-10464.507] -- 0:07:38 Average standard deviation of split frequencies: 0.006780 471000 -- [-10455.603] (-10457.055) (-10459.411) (-10462.898) * (-10453.672) (-10453.749) [-10450.036] (-10456.500) -- 0:07:38 472000 -- (-10455.818) [-10447.646] (-10457.673) (-10463.147) * (-10478.940) (-10457.794) (-10453.973) [-10453.455] -- 0:07:36 473000 -- [-10457.598] (-10474.782) (-10462.400) (-10453.667) * (-10472.817) [-10459.366] (-10457.867) (-10453.096) -- 0:07:35 474000 -- [-10462.385] (-10462.838) (-10459.427) (-10453.999) * (-10472.328) (-10465.822) (-10458.491) [-10460.428] -- 0:07:34 475000 -- (-10454.394) (-10458.461) (-10453.515) [-10454.690] * (-10459.099) (-10457.795) [-10460.479] (-10463.497) -- 0:07:34 Average standard deviation of split frequencies: 0.005790 476000 -- (-10460.220) (-10461.447) (-10459.300) [-10456.593] * (-10458.825) [-10458.255] (-10453.579) (-10457.987) -- 0:07:33 477000 -- [-10456.750] (-10452.053) (-10451.998) (-10460.101) * (-10452.483) [-10453.875] (-10454.490) (-10460.024) -- 0:07:32 478000 -- (-10465.224) [-10452.535] (-10456.078) (-10452.189) * (-10456.533) (-10474.298) [-10455.061] (-10466.971) -- 0:07:32 479000 -- (-10466.324) (-10454.332) [-10457.380] (-10456.167) * [-10453.180] (-10452.805) (-10455.196) (-10462.058) -- 0:07:30 480000 -- (-10456.222) (-10459.389) (-10458.182) [-10460.509] * (-10461.170) (-10459.924) [-10458.564] (-10462.351) -- 0:07:29 Average standard deviation of split frequencies: 0.004451 481000 -- (-10457.029) (-10462.029) (-10456.443) [-10464.148] * [-10450.788] (-10465.452) (-10458.051) (-10460.142) -- 0:07:28 482000 -- [-10459.014] (-10463.445) (-10459.875) (-10456.889) * (-10466.405) (-10475.906) (-10457.943) [-10455.485] -- 0:07:28 483000 -- (-10456.448) [-10453.023] (-10460.999) (-10463.233) * [-10459.025] (-10461.770) (-10458.393) (-10458.064) -- 0:07:27 484000 -- (-10459.249) (-10455.829) (-10458.591) [-10460.070] * (-10461.168) (-10454.058) (-10458.175) [-10452.842] -- 0:07:26 485000 -- (-10452.594) (-10460.325) [-10459.608] (-10459.696) * (-10453.390) [-10451.318] (-10460.597) (-10462.860) -- 0:07:25 Average standard deviation of split frequencies: 0.004029 486000 -- (-10456.599) [-10453.292] (-10457.110) (-10456.660) * (-10459.015) (-10451.075) [-10461.183] (-10466.262) -- 0:07:24 487000 -- (-10452.007) (-10462.754) (-10460.402) [-10451.949] * (-10461.637) [-10460.538] (-10455.009) (-10450.901) -- 0:07:23 488000 -- (-10454.155) [-10460.193] (-10455.116) (-10462.846) * [-10454.325] (-10471.084) (-10461.575) (-10451.477) -- 0:07:22 489000 -- (-10461.065) [-10458.200] (-10456.903) (-10458.292) * (-10459.388) (-10457.226) [-10464.166] (-10460.989) -- 0:07:22 490000 -- (-10460.862) [-10456.180] (-10454.630) (-10469.319) * [-10451.200] (-10462.762) (-10462.297) (-10456.111) -- 0:07:21 Average standard deviation of split frequencies: 0.003621 491000 -- [-10461.486] (-10456.943) (-10458.827) (-10459.169) * (-10462.382) [-10455.429] (-10455.323) (-10454.158) -- 0:07:20 492000 -- [-10457.368] (-10461.401) (-10457.388) (-10456.994) * (-10461.083) (-10460.503) [-10450.268] (-10455.447) -- 0:07:19 493000 -- (-10455.647) (-10453.936) [-10462.597] (-10461.464) * (-10462.459) [-10451.173] (-10462.048) (-10456.521) -- 0:07:19 494000 -- (-10461.597) [-10455.537] (-10463.260) (-10459.548) * [-10459.693] (-10452.167) (-10465.810) (-10452.432) -- 0:07:18 495000 -- [-10456.164] (-10460.168) (-10461.609) (-10472.602) * [-10455.683] (-10457.572) (-10455.323) (-10454.690) -- 0:07:16 Average standard deviation of split frequencies: 0.004167 496000 -- (-10463.393) (-10464.022) [-10465.045] (-10456.163) * (-10467.831) [-10457.074] (-10452.752) (-10456.392) -- 0:07:15 497000 -- (-10466.504) (-10456.498) [-10456.369] (-10459.380) * (-10460.238) (-10456.794) (-10468.766) [-10455.931] -- 0:07:15 498000 -- (-10453.834) [-10450.328] (-10460.723) (-10461.049) * [-10457.631] (-10469.852) (-10459.073) (-10462.125) -- 0:07:14 499000 -- [-10465.988] (-10470.251) (-10457.636) (-10457.599) * [-10458.111] (-10462.980) (-10461.160) (-10456.357) -- 0:07:13 500000 -- (-10459.651) (-10452.666) [-10463.762] (-10457.460) * (-10466.112) (-10465.372) (-10472.396) [-10456.098] -- 0:07:13 Average standard deviation of split frequencies: 0.005142 501000 -- (-10459.826) (-10457.878) [-10453.005] (-10461.209) * (-10464.783) (-10472.783) (-10463.672) [-10462.592] -- 0:07:12 502000 -- (-10468.492) (-10464.681) [-10454.481] (-10468.845) * (-10459.475) [-10451.071] (-10466.608) (-10452.468) -- 0:07:11 503000 -- (-10466.585) (-10461.219) [-10460.395] (-10460.779) * (-10464.661) (-10455.195) (-10458.231) [-10451.858] -- 0:07:09 504000 -- (-10464.995) (-10458.292) (-10460.766) [-10458.685] * [-10453.106] (-10462.437) (-10448.940) (-10461.940) -- 0:07:09 505000 -- (-10456.727) (-10460.850) [-10459.454] (-10454.562) * (-10464.424) [-10455.704] (-10449.153) (-10466.795) -- 0:07:08 Average standard deviation of split frequencies: 0.004801 506000 -- (-10460.112) [-10454.260] (-10457.854) (-10457.990) * (-10455.446) (-10460.804) [-10462.286] (-10457.317) -- 0:07:07 507000 -- (-10459.478) (-10461.897) [-10453.004] (-10452.968) * [-10451.437] (-10472.334) (-10456.139) (-10451.968) -- 0:07:06 508000 -- (-10463.848) (-10456.852) (-10471.526) [-10457.792] * (-10452.683) [-10464.304] (-10473.023) (-10464.194) -- 0:07:06 509000 -- (-10453.987) (-10463.476) [-10462.660] (-10460.238) * [-10455.812] (-10455.548) (-10460.458) (-10463.555) -- 0:07:05 510000 -- [-10460.228] (-10458.506) (-10464.931) (-10454.810) * (-10457.624) [-10454.033] (-10460.402) (-10459.479) -- 0:07:03 Average standard deviation of split frequencies: 0.004545 511000 -- [-10457.635] (-10470.214) (-10464.619) (-10452.609) * (-10457.573) (-10454.543) (-10455.907) [-10459.994] -- 0:07:02 512000 -- (-10462.521) (-10453.202) [-10460.422] (-10466.818) * [-10462.034] (-10457.001) (-10454.584) (-10456.056) -- 0:07:02 513000 -- (-10457.400) [-10453.810] (-10464.507) (-10465.636) * [-10460.366] (-10455.501) (-10456.073) (-10466.951) -- 0:07:01 514000 -- (-10459.418) [-10452.169] (-10455.054) (-10455.118) * [-10450.563] (-10453.493) (-10457.360) (-10475.659) -- 0:07:00 515000 -- (-10456.862) (-10456.821) [-10456.164] (-10461.159) * [-10453.694] (-10461.493) (-10459.709) (-10458.334) -- 0:07:00 Average standard deviation of split frequencies: 0.004638 516000 -- (-10459.217) [-10457.884] (-10462.620) (-10471.335) * [-10451.473] (-10460.063) (-10463.506) (-10461.686) -- 0:06:59 517000 -- [-10459.113] (-10459.670) (-10456.263) (-10460.888) * (-10458.344) [-10464.928] (-10454.304) (-10470.938) -- 0:06:58 518000 -- [-10459.079] (-10460.735) (-10470.673) (-10460.065) * (-10459.520) [-10454.649] (-10465.488) (-10476.325) -- 0:06:57 519000 -- (-10456.133) [-10468.560] (-10454.338) (-10460.095) * (-10459.211) [-10454.932] (-10453.864) (-10463.625) -- 0:06:56 520000 -- (-10459.452) [-10451.768] (-10456.441) (-10458.703) * (-10457.686) (-10457.149) (-10463.339) [-10471.598] -- 0:06:55 Average standard deviation of split frequencies: 0.005711 521000 -- [-10473.191] (-10464.719) (-10452.008) (-10454.044) * (-10454.875) (-10453.892) (-10455.711) [-10461.423] -- 0:06:54 522000 -- (-10465.069) (-10456.526) (-10455.655) [-10453.906] * (-10453.153) [-10449.751] (-10457.339) (-10448.926) -- 0:06:53 523000 -- [-10458.859] (-10457.634) (-10459.710) (-10464.174) * (-10453.624) (-10455.660) (-10456.881) [-10457.698] -- 0:06:53 524000 -- (-10455.107) (-10461.439) (-10451.027) [-10454.164] * (-10461.090) [-10463.505] (-10450.616) (-10459.115) -- 0:06:52 525000 -- (-10458.719) [-10455.772] (-10460.423) (-10462.897) * [-10454.343] (-10479.979) (-10454.484) (-10460.185) -- 0:06:51 Average standard deviation of split frequencies: 0.005998 526000 -- [-10459.712] (-10454.213) (-10468.293) (-10471.811) * (-10459.816) (-10456.051) (-10474.722) [-10459.563] -- 0:06:50 527000 -- (-10468.863) [-10458.571] (-10463.557) (-10458.729) * (-10455.319) [-10460.831] (-10463.508) (-10471.305) -- 0:06:50 528000 -- [-10459.205] (-10455.166) (-10466.238) (-10455.837) * (-10457.392) [-10457.400] (-10460.830) (-10460.335) -- 0:06:48 529000 -- (-10462.211) (-10463.485) (-10458.560) [-10453.363] * (-10467.562) (-10459.513) [-10453.742] (-10452.563) -- 0:06:47 530000 -- (-10456.774) [-10451.312] (-10462.437) (-10458.214) * (-10468.598) (-10460.244) [-10450.884] (-10458.790) -- 0:06:47 Average standard deviation of split frequencies: 0.005672 531000 -- (-10463.328) [-10450.135] (-10458.032) (-10455.490) * (-10460.197) [-10450.310] (-10459.298) (-10459.548) -- 0:06:46 532000 -- [-10457.628] (-10464.770) (-10454.878) (-10457.516) * (-10456.261) (-10458.671) (-10457.620) [-10457.240] -- 0:06:45 533000 -- (-10453.972) (-10460.170) [-10455.652] (-10470.074) * (-10470.294) (-10459.317) (-10462.953) [-10456.899] -- 0:06:44 534000 -- [-10454.690] (-10449.027) (-10466.229) (-10457.191) * (-10456.745) [-10463.120] (-10473.678) (-10452.045) -- 0:06:44 535000 -- (-10467.549) (-10455.158) (-10454.036) [-10457.615] * (-10455.758) (-10466.553) [-10455.191] (-10456.775) -- 0:06:42 Average standard deviation of split frequencies: 0.005142 536000 -- [-10455.129] (-10460.872) (-10460.553) (-10460.407) * (-10453.355) (-10473.261) [-10455.374] (-10458.504) -- 0:06:41 537000 -- (-10454.827) (-10452.034) [-10455.803] (-10458.508) * (-10455.593) (-10470.504) (-10457.327) [-10455.848] -- 0:06:40 538000 -- (-10457.289) (-10459.159) (-10459.125) [-10449.642] * (-10454.813) [-10455.068] (-10466.036) (-10459.147) -- 0:06:40 539000 -- [-10461.386] (-10456.978) (-10454.894) (-10463.294) * [-10456.644] (-10464.304) (-10460.678) (-10458.454) -- 0:06:39 540000 -- (-10471.326) (-10462.240) (-10455.712) [-10454.937] * (-10464.234) (-10460.255) [-10457.652] (-10456.804) -- 0:06:38 Average standard deviation of split frequencies: 0.004695 541000 -- [-10454.667] (-10462.030) (-10450.763) (-10459.653) * (-10468.866) (-10455.023) [-10462.113] (-10456.656) -- 0:06:37 542000 -- (-10459.069) [-10456.842] (-10461.165) (-10457.124) * (-10460.919) [-10459.169] (-10462.497) (-10473.775) -- 0:06:37 543000 -- (-10464.935) (-10466.391) [-10448.923] (-10455.147) * (-10453.139) [-10452.665] (-10461.921) (-10458.650) -- 0:06:35 544000 -- (-10462.016) (-10461.995) [-10459.684] (-10458.280) * (-10460.694) [-10461.521] (-10459.434) (-10467.344) -- 0:06:34 545000 -- (-10457.336) (-10459.282) [-10454.471] (-10467.302) * (-10464.463) (-10456.313) (-10463.767) [-10455.260] -- 0:06:34 Average standard deviation of split frequencies: 0.004848 546000 -- (-10463.873) [-10463.377] (-10454.149) (-10456.962) * [-10449.874] (-10457.404) (-10460.834) (-10464.097) -- 0:06:33 547000 -- (-10456.070) (-10460.012) [-10454.614] (-10457.312) * (-10458.670) [-10453.220] (-10457.682) (-10456.966) -- 0:06:32 548000 -- (-10458.809) (-10453.970) (-10456.714) [-10454.040] * (-10451.804) [-10453.024] (-10455.261) (-10470.046) -- 0:06:31 549000 -- (-10454.242) (-10453.696) [-10453.296] (-10460.335) * [-10456.592] (-10458.904) (-10465.833) (-10460.230) -- 0:06:31 550000 -- [-10456.914] (-10457.379) (-10461.094) (-10462.620) * (-10461.874) (-10457.357) (-10459.665) [-10451.272] -- 0:06:29 Average standard deviation of split frequencies: 0.005268 551000 -- [-10460.448] (-10458.866) (-10463.794) (-10458.544) * (-10454.876) [-10457.664] (-10461.614) (-10454.454) -- 0:06:28 552000 -- (-10459.128) (-10463.387) [-10456.173] (-10460.650) * (-10460.515) (-10461.940) (-10460.712) [-10459.808] -- 0:06:27 553000 -- (-10464.316) (-10454.579) (-10455.666) [-10458.078] * [-10460.922] (-10457.689) (-10457.010) (-10461.466) -- 0:06:27 554000 -- [-10451.819] (-10463.226) (-10463.347) (-10455.611) * (-10461.926) (-10456.338) (-10466.035) [-10455.030] -- 0:06:26 555000 -- (-10464.031) (-10461.520) (-10454.909) [-10451.919] * [-10460.750] (-10459.020) (-10463.213) (-10464.689) -- 0:06:25 Average standard deviation of split frequencies: 0.004957 556000 -- (-10457.271) (-10453.318) [-10452.676] (-10460.302) * [-10458.794] (-10471.463) (-10470.429) (-10452.305) -- 0:06:24 557000 -- [-10460.618] (-10453.773) (-10460.692) (-10454.203) * (-10458.590) [-10455.540] (-10454.426) (-10460.337) -- 0:06:23 558000 -- [-10455.190] (-10457.728) (-10462.628) (-10462.640) * (-10464.087) [-10451.885] (-10469.445) (-10454.607) -- 0:06:22 559000 -- (-10457.579) [-10459.323] (-10454.408) (-10458.042) * (-10454.864) (-10453.168) (-10455.565) [-10457.271] -- 0:06:21 560000 -- (-10460.225) (-10459.022) (-10452.685) [-10459.361] * (-10453.738) (-10457.365) [-10449.419] (-10461.633) -- 0:06:21 Average standard deviation of split frequencies: 0.005433 561000 -- (-10458.347) [-10454.752] (-10456.779) (-10458.096) * (-10454.715) (-10457.438) (-10452.601) [-10463.329] -- 0:06:20 562000 -- [-10453.340] (-10459.341) (-10477.296) (-10451.401) * [-10458.386] (-10460.970) (-10463.575) (-10460.249) -- 0:06:19 563000 -- (-10453.125) (-10470.635) [-10451.535] (-10459.022) * (-10457.842) (-10460.981) (-10456.292) [-10460.099] -- 0:06:18 564000 -- (-10457.978) (-10470.280) (-10462.091) [-10465.258] * (-10463.432) (-10455.989) (-10464.766) [-10455.646] -- 0:06:18 565000 -- (-10465.899) [-10452.317] (-10464.856) (-10460.921) * (-10462.058) (-10461.132) [-10461.359] (-10457.636) -- 0:06:16 Average standard deviation of split frequencies: 0.005446 566000 -- (-10462.925) [-10457.800] (-10458.946) (-10457.447) * [-10463.787] (-10456.377) (-10465.221) (-10461.594) -- 0:06:15 567000 -- [-10453.200] (-10462.202) (-10460.939) (-10457.491) * (-10458.817) (-10455.999) (-10469.201) [-10459.262] -- 0:06:14 568000 -- [-10454.897] (-10466.294) (-10466.401) (-10461.244) * (-10453.640) (-10457.619) (-10452.478) [-10456.271] -- 0:06:14 569000 -- (-10454.132) (-10454.180) [-10453.319] (-10455.627) * (-10453.015) [-10453.760] (-10452.330) (-10456.152) -- 0:06:13 570000 -- (-10458.986) (-10462.362) (-10455.288) [-10457.194] * (-10455.743) (-10460.739) [-10466.728] (-10464.872) -- 0:06:12 Average standard deviation of split frequencies: 0.005401 571000 -- (-10455.327) (-10467.000) (-10467.336) [-10456.864] * (-10469.669) [-10463.997] (-10460.362) (-10467.133) -- 0:06:11 572000 -- (-10455.948) (-10463.433) (-10452.146) [-10453.668] * (-10457.953) (-10456.535) [-10462.464] (-10460.118) -- 0:06:10 573000 -- (-10457.117) [-10450.272] (-10454.700) (-10468.336) * (-10460.601) (-10465.147) (-10470.814) [-10455.000] -- 0:06:09 574000 -- (-10455.741) (-10463.062) (-10455.016) [-10456.566] * (-10461.501) [-10458.280] (-10466.321) (-10459.632) -- 0:06:08 575000 -- (-10456.541) [-10454.533] (-10458.029) (-10459.595) * (-10454.884) (-10455.228) [-10453.247] (-10461.483) -- 0:06:08 Average standard deviation of split frequencies: 0.006044 576000 -- (-10462.565) (-10455.210) (-10459.918) [-10455.696] * (-10455.310) [-10455.850] (-10454.909) (-10466.137) -- 0:06:07 577000 -- (-10456.660) (-10455.770) [-10458.661] (-10465.703) * (-10461.814) (-10454.044) [-10458.851] (-10466.830) -- 0:06:06 578000 -- (-10466.876) (-10451.759) [-10452.516] (-10463.466) * (-10457.084) [-10454.405] (-10458.352) (-10456.040) -- 0:06:05 579000 -- (-10468.856) (-10462.294) [-10450.665] (-10452.118) * [-10462.156] (-10455.917) (-10458.945) (-10461.916) -- 0:06:04 580000 -- (-10456.777) (-10459.241) (-10458.378) [-10462.046] * [-10465.323] (-10450.817) (-10461.855) (-10452.733) -- 0:06:03 Average standard deviation of split frequencies: 0.006307 581000 -- (-10460.055) [-10456.158] (-10465.701) (-10462.789) * (-10461.578) (-10450.819) [-10464.871] (-10463.185) -- 0:06:02 582000 -- [-10459.745] (-10456.367) (-10455.848) (-10467.998) * [-10451.348] (-10459.232) (-10460.345) (-10452.076) -- 0:06:01 583000 -- (-10454.061) [-10453.151] (-10458.735) (-10467.768) * (-10463.493) (-10458.159) (-10453.896) [-10452.520] -- 0:06:01 584000 -- (-10454.054) (-10453.438) [-10463.452] (-10453.786) * [-10456.105] (-10460.510) (-10462.583) (-10457.841) -- 0:06:00 585000 -- (-10458.444) (-10463.194) (-10468.271) [-10450.811] * (-10465.166) (-10454.073) (-10469.467) [-10449.510] -- 0:05:59 Average standard deviation of split frequencies: 0.006745 586000 -- (-10458.247) (-10452.854) (-10470.086) [-10454.322] * (-10459.027) (-10460.208) (-10461.779) [-10455.000] -- 0:05:58 587000 -- [-10456.828] (-10450.792) (-10455.273) (-10465.748) * [-10450.182] (-10463.754) (-10453.147) (-10463.050) -- 0:05:57 588000 -- (-10464.482) (-10461.158) [-10449.971] (-10454.394) * (-10457.443) (-10454.465) [-10461.708] (-10460.339) -- 0:05:56 589000 -- [-10454.271] (-10463.852) (-10466.475) (-10470.945) * (-10457.891) [-10457.604] (-10458.684) (-10461.550) -- 0:05:55 590000 -- (-10457.776) (-10463.956) (-10455.398) [-10460.662] * (-10464.009) (-10457.576) (-10455.843) [-10452.168] -- 0:05:55 Average standard deviation of split frequencies: 0.007797 591000 -- [-10455.770] (-10462.641) (-10450.038) (-10458.317) * (-10457.958) [-10456.187] (-10470.377) (-10461.167) -- 0:05:54 592000 -- [-10454.088] (-10462.799) (-10451.924) (-10460.570) * (-10454.640) (-10454.480) (-10456.450) [-10455.510] -- 0:05:53 593000 -- (-10460.419) (-10465.804) (-10464.977) [-10454.702] * (-10463.345) (-10466.492) (-10453.624) [-10451.913] -- 0:05:52 594000 -- [-10457.254] (-10456.628) (-10461.808) (-10459.476) * (-10457.992) (-10467.461) [-10460.046] (-10467.479) -- 0:05:52 595000 -- [-10459.586] (-10461.715) (-10450.376) (-10460.550) * [-10456.515] (-10456.222) (-10458.799) (-10470.035) -- 0:05:50 Average standard deviation of split frequencies: 0.007666 596000 -- (-10464.185) [-10465.745] (-10455.729) (-10456.150) * (-10460.709) (-10465.484) (-10454.677) [-10454.984] -- 0:05:49 597000 -- (-10465.789) (-10460.635) [-10455.654] (-10448.097) * [-10453.332] (-10465.279) (-10462.330) (-10457.502) -- 0:05:48 598000 -- (-10465.623) [-10457.379] (-10456.160) (-10460.287) * (-10463.508) (-10459.594) [-10461.124] (-10467.413) -- 0:05:48 599000 -- (-10452.386) (-10464.881) [-10452.834] (-10455.771) * (-10456.864) (-10456.210) [-10458.203] (-10461.864) -- 0:05:47 600000 -- (-10462.285) [-10455.173] (-10469.587) (-10460.030) * (-10456.871) (-10454.436) [-10456.954] (-10454.024) -- 0:05:46 Average standard deviation of split frequencies: 0.007788 601000 -- (-10457.924) (-10448.589) (-10449.796) [-10452.869] * (-10460.757) (-10456.485) (-10465.380) [-10457.211] -- 0:05:45 602000 -- (-10455.607) (-10460.677) (-10455.660) [-10458.765] * [-10458.327] (-10459.385) (-10458.055) (-10457.198) -- 0:05:44 603000 -- (-10459.673) (-10455.831) (-10461.903) [-10451.417] * (-10457.704) (-10467.433) [-10454.311] (-10463.288) -- 0:05:43 604000 -- (-10450.301) [-10456.755] (-10463.990) (-10461.100) * (-10470.114) (-10459.061) [-10451.556] (-10463.241) -- 0:05:42 605000 -- (-10459.571) (-10466.602) (-10461.562) [-10458.288] * (-10469.173) (-10459.405) [-10466.940] (-10457.309) -- 0:05:42 Average standard deviation of split frequencies: 0.007480 606000 -- [-10459.302] (-10466.655) (-10468.790) (-10463.779) * (-10453.505) (-10454.745) [-10452.911] (-10456.419) -- 0:05:41 607000 -- [-10450.373] (-10465.326) (-10464.188) (-10464.325) * (-10460.595) [-10454.909] (-10456.214) (-10464.248) -- 0:05:40 608000 -- [-10449.803] (-10452.352) (-10467.473) (-10471.161) * [-10457.899] (-10468.191) (-10460.816) (-10458.126) -- 0:05:39 609000 -- (-10459.236) (-10464.816) [-10457.530] (-10465.415) * (-10458.949) (-10471.122) [-10455.102] (-10461.375) -- 0:05:38 610000 -- (-10470.589) (-10455.563) [-10454.364] (-10458.036) * (-10463.562) [-10461.330] (-10456.232) (-10467.021) -- 0:05:37 Average standard deviation of split frequencies: 0.007898 611000 -- (-10460.153) (-10451.745) (-10457.922) [-10457.673] * (-10463.680) (-10451.518) [-10451.843] (-10464.078) -- 0:05:36 612000 -- (-10457.688) (-10464.337) [-10458.092] (-10455.034) * (-10469.504) (-10460.412) [-10459.295] (-10457.814) -- 0:05:36 613000 -- (-10461.663) (-10459.561) (-10452.718) [-10454.808] * (-10454.881) [-10457.759] (-10468.671) (-10468.337) -- 0:05:35 614000 -- (-10466.215) (-10460.759) [-10452.281] (-10454.451) * (-10471.453) [-10454.126] (-10467.070) (-10458.616) -- 0:05:34 615000 -- (-10459.331) (-10456.822) [-10461.744] (-10453.197) * (-10460.993) (-10464.035) [-10452.175] (-10460.299) -- 0:05:33 Average standard deviation of split frequencies: 0.007476 616000 -- (-10462.261) (-10459.888) (-10452.793) [-10452.524] * (-10462.713) [-10455.570] (-10462.579) (-10463.295) -- 0:05:32 617000 -- (-10463.672) (-10453.571) (-10459.929) [-10462.840] * (-10472.953) (-10463.909) (-10454.535) [-10456.282] -- 0:05:31 618000 -- (-10460.700) (-10461.724) [-10460.034] (-10457.448) * (-10466.430) (-10456.714) [-10455.348] (-10462.824) -- 0:05:30 619000 -- (-10467.572) (-10461.282) [-10458.526] (-10452.888) * (-10457.341) (-10469.971) [-10463.255] (-10461.788) -- 0:05:29 620000 -- (-10464.458) (-10457.993) (-10458.522) [-10454.627] * [-10452.867] (-10460.266) (-10457.802) (-10466.745) -- 0:05:29 Average standard deviation of split frequencies: 0.006719 621000 -- (-10459.683) (-10455.402) (-10467.652) [-10460.757] * [-10455.645] (-10467.965) (-10468.354) (-10463.970) -- 0:05:28 622000 -- (-10464.699) (-10470.745) [-10460.137] (-10459.291) * (-10465.300) (-10467.997) [-10455.612] (-10465.005) -- 0:05:27 623000 -- (-10453.969) (-10451.686) [-10454.365] (-10453.250) * (-10451.127) (-10452.644) (-10449.918) [-10457.470] -- 0:05:26 624000 -- (-10458.308) (-10459.360) [-10458.080] (-10466.660) * (-10454.464) [-10461.196] (-10464.218) (-10455.636) -- 0:05:25 625000 -- (-10451.405) (-10457.885) [-10456.445] (-10462.244) * (-10454.885) (-10450.507) (-10461.437) [-10457.477] -- 0:05:24 Average standard deviation of split frequencies: 0.006777 626000 -- [-10456.012] (-10459.741) (-10457.051) (-10469.482) * (-10461.677) (-10463.418) [-10457.170] (-10466.528) -- 0:05:23 627000 -- (-10455.017) [-10452.355] (-10456.746) (-10454.486) * [-10457.857] (-10456.119) (-10471.089) (-10454.867) -- 0:05:23 628000 -- (-10457.348) (-10464.108) [-10452.273] (-10462.129) * [-10449.946] (-10452.529) (-10459.243) (-10463.143) -- 0:05:22 629000 -- (-10460.179) [-10457.685] (-10460.302) (-10462.077) * (-10466.147) [-10459.503] (-10462.376) (-10450.604) -- 0:05:20 630000 -- (-10463.602) (-10459.465) (-10462.033) [-10448.488] * (-10465.088) (-10463.292) (-10466.041) [-10453.797] -- 0:05:20 Average standard deviation of split frequencies: 0.006612 631000 -- [-10461.177] (-10459.072) (-10461.927) (-10461.196) * (-10464.571) (-10452.000) (-10470.956) [-10456.114] -- 0:05:19 632000 -- (-10468.187) (-10462.565) (-10459.734) [-10456.892] * (-10457.025) (-10455.239) (-10459.961) [-10454.938] -- 0:05:18 633000 -- (-10452.227) [-10468.095] (-10460.340) (-10460.522) * (-10460.965) [-10455.800] (-10464.439) (-10454.599) -- 0:05:17 634000 -- (-10460.261) (-10459.769) (-10467.628) [-10465.085] * (-10455.319) (-10462.231) [-10452.203] (-10456.573) -- 0:05:16 635000 -- (-10459.865) (-10459.556) [-10458.719] (-10458.677) * (-10457.787) (-10456.960) [-10455.973] (-10463.645) -- 0:05:16 Average standard deviation of split frequencies: 0.006500 636000 -- (-10461.343) [-10455.626] (-10459.389) (-10456.495) * (-10462.084) (-10460.347) (-10463.312) [-10452.424] -- 0:05:14 637000 -- [-10454.420] (-10458.898) (-10450.852) (-10463.445) * (-10454.093) (-10473.163) (-10457.276) [-10464.192] -- 0:05:13 638000 -- [-10452.777] (-10460.178) (-10464.339) (-10453.984) * [-10450.063] (-10468.871) (-10457.175) (-10456.098) -- 0:05:13 639000 -- (-10466.253) (-10459.507) (-10464.697) [-10465.366] * [-10459.789] (-10465.976) (-10465.974) (-10456.449) -- 0:05:12 640000 -- (-10456.791) (-10457.976) (-10461.888) [-10450.410] * (-10451.397) (-10472.763) (-10469.581) [-10452.364] -- 0:05:11 Average standard deviation of split frequencies: 0.007584 641000 -- (-10456.990) (-10456.491) (-10451.230) [-10453.626] * (-10455.475) (-10458.477) [-10453.050] (-10472.339) -- 0:05:10 642000 -- [-10464.358] (-10457.477) (-10455.174) (-10462.203) * (-10461.504) [-10460.181] (-10461.339) (-10465.841) -- 0:05:09 643000 -- [-10460.075] (-10460.366) (-10454.264) (-10458.953) * (-10461.285) [-10456.188] (-10459.940) (-10455.085) -- 0:05:08 644000 -- (-10463.134) (-10452.508) (-10459.699) [-10451.259] * (-10458.774) [-10455.057] (-10466.117) (-10472.362) -- 0:05:07 645000 -- [-10466.590] (-10459.066) (-10460.521) (-10456.281) * [-10455.337] (-10460.692) (-10464.935) (-10462.846) -- 0:05:07 Average standard deviation of split frequencies: 0.006960 646000 -- [-10450.454] (-10457.316) (-10461.363) (-10468.922) * [-10452.132] (-10453.637) (-10454.436) (-10462.299) -- 0:05:06 647000 -- [-10455.618] (-10464.233) (-10461.083) (-10458.192) * [-10458.639] (-10455.227) (-10464.601) (-10465.683) -- 0:05:05 648000 -- (-10463.593) [-10456.091] (-10466.059) (-10456.538) * (-10459.644) (-10459.917) (-10461.132) [-10456.731] -- 0:05:04 649000 -- (-10465.402) (-10463.085) (-10460.432) [-10463.639] * (-10455.885) [-10449.107] (-10455.233) (-10458.462) -- 0:05:03 650000 -- (-10458.524) (-10454.423) [-10453.174] (-10460.153) * (-10461.081) (-10457.313) [-10450.517] (-10456.458) -- 0:05:02 Average standard deviation of split frequencies: 0.006966 651000 -- (-10453.734) (-10457.236) (-10475.197) [-10454.572] * (-10451.422) [-10460.087] (-10460.487) (-10456.375) -- 0:05:01 652000 -- [-10452.822] (-10451.728) (-10463.970) (-10457.783) * (-10458.376) [-10454.046] (-10455.989) (-10458.813) -- 0:05:01 653000 -- (-10459.070) (-10460.793) (-10459.536) [-10453.569] * (-10456.664) [-10455.029] (-10469.399) (-10461.165) -- 0:05:00 654000 -- (-10468.197) [-10453.636] (-10464.428) (-10458.072) * (-10456.515) (-10467.053) [-10452.394] (-10453.759) -- 0:04:59 655000 -- (-10453.733) [-10459.297] (-10459.864) (-10452.775) * (-10464.048) (-10469.141) [-10455.018] (-10452.986) -- 0:04:58 Average standard deviation of split frequencies: 0.006799 656000 -- [-10457.391] (-10459.508) (-10460.082) (-10469.362) * (-10460.488) (-10460.489) [-10454.609] (-10459.407) -- 0:04:57 657000 -- (-10460.801) (-10470.462) [-10458.446] (-10453.263) * (-10454.838) [-10465.025] (-10456.798) (-10465.039) -- 0:04:56 658000 -- (-10471.695) [-10456.021] (-10451.257) (-10471.273) * (-10459.255) [-10457.140] (-10462.308) (-10456.386) -- 0:04:55 659000 -- (-10471.968) (-10453.984) (-10456.389) [-10458.666] * (-10466.554) (-10454.239) (-10448.931) [-10456.313] -- 0:04:54 660000 -- (-10453.225) [-10456.760] (-10458.986) (-10456.678) * [-10459.274] (-10463.620) (-10461.746) (-10462.889) -- 0:04:54 Average standard deviation of split frequencies: 0.007794 661000 -- (-10459.261) (-10454.514) (-10464.389) [-10462.013] * (-10463.346) (-10463.995) [-10456.343] (-10456.395) -- 0:04:53 662000 -- (-10455.036) [-10452.547] (-10455.143) (-10459.816) * [-10455.412] (-10456.569) (-10463.875) (-10464.621) -- 0:04:52 663000 -- (-10457.829) [-10463.772] (-10464.702) (-10459.235) * [-10457.885] (-10461.324) (-10453.542) (-10459.931) -- 0:04:51 664000 -- (-10461.497) [-10463.210] (-10461.067) (-10455.259) * (-10467.587) (-10458.107) (-10461.229) [-10449.824] -- 0:04:50 665000 -- (-10460.414) [-10457.397] (-10464.177) (-10448.479) * (-10463.929) [-10458.931] (-10461.498) (-10461.065) -- 0:04:49 Average standard deviation of split frequencies: 0.007895 666000 -- (-10458.365) (-10462.401) (-10462.883) [-10460.390] * (-10457.733) [-10454.206] (-10466.148) (-10458.373) -- 0:04:48 667000 -- [-10455.742] (-10459.825) (-10462.792) (-10463.668) * (-10454.332) (-10461.358) (-10462.653) [-10459.729] -- 0:04:48 668000 -- (-10453.040) [-10466.168] (-10458.498) (-10460.728) * (-10456.957) [-10457.670] (-10454.992) (-10460.832) -- 0:04:47 669000 -- [-10454.978] (-10459.728) (-10462.975) (-10451.979) * (-10455.554) [-10456.001] (-10456.213) (-10457.881) -- 0:04:46 670000 -- (-10457.534) (-10455.590) [-10459.749] (-10459.247) * (-10459.157) [-10462.757] (-10456.197) (-10459.147) -- 0:04:45 Average standard deviation of split frequencies: 0.008002 671000 -- (-10452.727) [-10453.277] (-10456.037) (-10461.969) * (-10458.679) [-10453.915] (-10456.891) (-10451.511) -- 0:04:44 672000 -- (-10464.022) (-10459.535) (-10462.029) [-10452.843] * (-10458.454) (-10458.109) [-10454.293] (-10464.341) -- 0:04:43 673000 -- (-10453.874) [-10455.274] (-10465.894) (-10460.461) * (-10463.818) (-10457.839) [-10453.431] (-10463.566) -- 0:04:42 674000 -- (-10451.152) [-10455.225] (-10459.522) (-10460.699) * (-10475.565) (-10466.047) [-10449.895] (-10457.741) -- 0:04:41 675000 -- (-10458.709) (-10461.243) [-10459.443] (-10465.097) * (-10462.107) (-10457.734) [-10466.612] (-10457.864) -- 0:04:41 Average standard deviation of split frequencies: 0.007778 676000 -- (-10451.537) (-10460.149) [-10448.355] (-10457.596) * [-10457.906] (-10461.365) (-10456.282) (-10461.606) -- 0:04:40 677000 -- (-10462.469) [-10450.090] (-10459.387) (-10452.330) * (-10463.860) (-10459.366) [-10456.076] (-10462.289) -- 0:04:39 678000 -- (-10454.202) (-10462.615) [-10458.675] (-10465.607) * (-10466.950) [-10457.972] (-10451.395) (-10462.094) -- 0:04:38 679000 -- (-10454.767) [-10464.394] (-10461.467) (-10456.630) * [-10454.707] (-10452.792) (-10454.977) (-10452.941) -- 0:04:37 680000 -- (-10454.870) [-10457.075] (-10456.431) (-10458.264) * (-10460.073) (-10454.758) [-10454.479] (-10463.949) -- 0:04:36 Average standard deviation of split frequencies: 0.007725 681000 -- (-10464.660) [-10458.437] (-10456.237) (-10455.039) * (-10454.518) (-10460.858) (-10454.071) [-10457.268] -- 0:04:35 682000 -- (-10465.658) (-10455.469) [-10452.619] (-10452.004) * [-10450.907] (-10469.914) (-10461.802) (-10468.603) -- 0:04:35 683000 -- (-10467.194) [-10463.757] (-10450.457) (-10461.343) * (-10453.753) [-10451.225] (-10461.220) (-10450.368) -- 0:04:34 684000 -- [-10453.477] (-10463.363) (-10458.858) (-10457.336) * [-10452.114] (-10462.316) (-10452.971) (-10456.138) -- 0:04:33 685000 -- [-10453.850] (-10458.800) (-10459.527) (-10455.145) * (-10451.926) (-10452.766) (-10457.554) [-10457.870] -- 0:04:32 Average standard deviation of split frequencies: 0.007400 686000 -- [-10452.440] (-10451.483) (-10460.842) (-10459.233) * (-10459.613) (-10462.562) (-10460.901) [-10455.399] -- 0:04:31 687000 -- (-10451.319) (-10461.917) [-10456.235] (-10456.133) * (-10455.460) (-10470.435) [-10452.323] (-10468.071) -- 0:04:30 688000 -- (-10456.391) (-10460.161) (-10463.531) [-10454.955] * (-10460.452) (-10462.458) (-10461.524) [-10453.427] -- 0:04:29 689000 -- (-10458.936) (-10458.265) (-10456.650) [-10457.646] * [-10455.886] (-10453.424) (-10466.198) (-10463.078) -- 0:04:29 690000 -- (-10457.688) [-10468.564] (-10453.457) (-10470.621) * [-10452.987] (-10460.342) (-10455.999) (-10462.883) -- 0:04:28 Average standard deviation of split frequencies: 0.007980 691000 -- (-10454.113) (-10456.809) (-10470.128) [-10453.615] * [-10469.101] (-10457.551) (-10456.824) (-10462.840) -- 0:04:27 692000 -- (-10462.580) [-10451.779] (-10463.327) (-10464.777) * (-10461.671) (-10456.383) (-10452.674) [-10453.674] -- 0:04:26 693000 -- [-10453.097] (-10456.637) (-10461.162) (-10468.811) * (-10468.634) (-10461.573) (-10461.840) [-10457.503] -- 0:04:25 694000 -- [-10451.519] (-10466.531) (-10460.689) (-10459.165) * (-10462.606) (-10461.072) (-10461.118) [-10454.444] -- 0:04:24 695000 -- (-10474.451) (-10466.757) (-10463.155) [-10455.572] * (-10467.835) [-10453.147] (-10447.865) (-10462.609) -- 0:04:23 Average standard deviation of split frequencies: 0.009326 696000 -- (-10463.803) (-10465.450) (-10471.068) [-10456.547] * (-10457.307) (-10454.252) [-10461.832] (-10455.516) -- 0:04:22 697000 -- (-10464.740) (-10460.928) (-10463.473) [-10455.769] * (-10455.229) [-10458.416] (-10470.988) (-10452.713) -- 0:04:22 698000 -- (-10458.367) [-10456.372] (-10465.327) (-10453.909) * [-10455.016] (-10468.112) (-10461.768) (-10474.541) -- 0:04:21 699000 -- [-10459.474] (-10467.454) (-10471.133) (-10464.134) * (-10462.191) [-10455.564] (-10456.726) (-10471.766) -- 0:04:20 700000 -- (-10465.654) (-10462.332) (-10463.851) [-10468.234] * (-10446.318) (-10462.961) [-10459.607] (-10465.953) -- 0:04:19 Average standard deviation of split frequencies: 0.009109 701000 -- (-10462.393) (-10459.011) (-10454.553) [-10458.945] * (-10456.039) (-10460.079) (-10454.648) [-10466.814] -- 0:04:18 702000 -- (-10466.414) [-10455.292] (-10450.633) (-10458.601) * [-10464.226] (-10453.013) (-10462.981) (-10459.346) -- 0:04:17 703000 -- (-10464.821) [-10455.552] (-10459.880) (-10450.473) * (-10462.186) [-10450.997] (-10457.860) (-10458.909) -- 0:04:16 704000 -- [-10459.155] (-10460.872) (-10455.995) (-10454.346) * [-10469.158] (-10459.610) (-10461.212) (-10456.091) -- 0:04:16 705000 -- (-10453.207) [-10458.500] (-10461.320) (-10460.058) * (-10458.819) [-10459.514] (-10451.942) (-10468.962) -- 0:04:15 Average standard deviation of split frequencies: 0.008218 706000 -- [-10452.150] (-10472.921) (-10453.563) (-10459.847) * (-10460.362) [-10458.079] (-10462.918) (-10463.242) -- 0:04:14 707000 -- (-10463.240) (-10463.958) (-10469.794) [-10456.453] * [-10455.380] (-10457.761) (-10464.447) (-10459.676) -- 0:04:13 708000 -- [-10450.635] (-10458.907) (-10461.272) (-10455.230) * [-10461.687] (-10456.468) (-10463.036) (-10459.550) -- 0:04:12 709000 -- (-10460.607) (-10459.246) [-10454.143] (-10455.997) * (-10453.471) [-10455.815] (-10456.623) (-10471.023) -- 0:04:11 710000 -- (-10465.097) (-10457.851) [-10460.841] (-10464.433) * (-10463.296) (-10456.820) [-10450.647] (-10446.576) -- 0:04:10 Average standard deviation of split frequencies: 0.007603 711000 -- (-10457.023) (-10465.337) (-10452.435) [-10458.846] * (-10467.552) [-10452.256] (-10458.674) (-10452.768) -- 0:04:09 712000 -- (-10466.455) (-10462.138) [-10454.935] (-10465.094) * (-10454.845) (-10469.252) [-10459.153] (-10459.858) -- 0:04:09 713000 -- (-10465.560) (-10454.441) [-10449.300] (-10462.181) * (-10457.588) (-10471.015) (-10458.566) [-10453.680] -- 0:04:08 714000 -- (-10471.175) (-10457.782) (-10459.822) [-10455.371] * (-10458.793) (-10457.866) [-10452.728] (-10459.293) -- 0:04:07 715000 -- (-10470.997) [-10450.317] (-10456.446) (-10461.960) * (-10468.386) (-10462.861) [-10460.377] (-10469.731) -- 0:04:06 Average standard deviation of split frequencies: 0.008205 716000 -- (-10459.799) (-10459.166) (-10461.444) [-10462.137] * (-10453.680) (-10458.200) [-10454.043] (-10461.093) -- 0:04:05 717000 -- (-10452.639) (-10467.638) (-10447.568) [-10457.721] * [-10450.987] (-10460.204) (-10459.171) (-10461.805) -- 0:04:04 718000 -- (-10460.588) (-10454.720) [-10450.218] (-10453.838) * [-10457.842] (-10455.840) (-10458.010) (-10457.817) -- 0:04:03 719000 -- (-10453.528) (-10460.478) (-10451.771) [-10464.355] * (-10462.021) (-10462.233) [-10446.632] (-10463.856) -- 0:04:03 720000 -- (-10465.646) [-10454.023] (-10463.445) (-10464.427) * (-10461.270) [-10455.266] (-10457.500) (-10464.518) -- 0:04:01 Average standard deviation of split frequencies: 0.008403 721000 -- (-10457.608) [-10455.494] (-10454.807) (-10463.915) * (-10461.732) [-10451.083] (-10461.363) (-10451.492) -- 0:04:01 722000 -- (-10464.049) [-10462.986] (-10460.578) (-10468.787) * [-10453.424] (-10459.675) (-10462.417) (-10456.021) -- 0:04:00 723000 -- (-10458.758) (-10455.737) (-10471.179) [-10454.488] * (-10466.646) (-10453.992) (-10470.997) [-10453.265] -- 0:03:59 724000 -- [-10461.503] (-10457.530) (-10456.483) (-10457.477) * (-10459.129) (-10460.246) (-10455.249) [-10461.500] -- 0:03:58 725000 -- [-10458.583] (-10464.002) (-10468.676) (-10454.452) * (-10462.656) [-10456.116] (-10454.791) (-10460.326) -- 0:03:57 Average standard deviation of split frequencies: 0.009040 726000 -- (-10463.512) (-10456.676) [-10457.011] (-10458.305) * [-10454.166] (-10462.749) (-10455.193) (-10464.396) -- 0:03:57 727000 -- (-10455.795) [-10451.927] (-10465.363) (-10453.860) * (-10455.967) [-10455.077] (-10463.685) (-10457.521) -- 0:03:55 728000 -- (-10466.460) (-10458.413) (-10457.565) [-10447.001] * (-10467.011) (-10450.553) (-10479.227) [-10452.382] -- 0:03:55 729000 -- (-10467.043) (-10455.550) (-10463.396) [-10453.415] * (-10452.810) (-10452.565) (-10453.664) [-10455.000] -- 0:03:54 730000 -- (-10455.652) [-10455.066] (-10462.319) (-10462.760) * (-10455.813) [-10452.275] (-10464.113) (-10459.466) -- 0:03:53 Average standard deviation of split frequencies: 0.008983 731000 -- (-10455.450) [-10467.599] (-10457.732) (-10470.493) * (-10460.182) (-10464.499) (-10458.875) [-10453.415] -- 0:03:52 732000 -- (-10467.990) (-10460.117) (-10461.811) [-10463.493] * [-10459.172] (-10459.989) (-10462.361) (-10460.376) -- 0:03:51 733000 -- (-10462.090) (-10469.340) (-10461.991) [-10457.547] * (-10462.868) (-10467.898) [-10455.898] (-10455.729) -- 0:03:50 734000 -- (-10455.311) (-10462.171) (-10457.968) [-10457.131] * (-10453.522) (-10455.148) (-10464.788) [-10450.579] -- 0:03:49 735000 -- (-10461.798) [-10454.659] (-10471.213) (-10465.640) * (-10461.411) (-10453.368) (-10460.737) [-10453.465] -- 0:03:48 Average standard deviation of split frequencies: 0.009361 736000 -- [-10458.402] (-10465.121) (-10461.781) (-10463.666) * (-10465.129) [-10460.527] (-10458.709) (-10462.774) -- 0:03:48 737000 -- [-10454.621] (-10462.726) (-10456.527) (-10461.964) * (-10461.711) (-10455.704) (-10457.546) [-10457.219] -- 0:03:47 738000 -- (-10455.560) (-10456.412) (-10464.873) [-10453.640] * (-10461.238) (-10458.314) [-10450.612] (-10464.267) -- 0:03:46 739000 -- [-10463.215] (-10466.083) (-10459.152) (-10457.219) * [-10459.365] (-10466.389) (-10456.946) (-10467.205) -- 0:03:45 740000 -- (-10465.285) (-10465.151) [-10454.355] (-10454.111) * (-10454.066) (-10457.934) (-10453.601) [-10456.176] -- 0:03:44 Average standard deviation of split frequencies: 0.010281 741000 -- [-10452.711] (-10458.907) (-10462.121) (-10460.382) * (-10454.836) (-10465.268) (-10452.793) [-10461.221] -- 0:03:43 742000 -- (-10469.099) (-10460.329) [-10460.679] (-10465.174) * [-10455.904] (-10460.677) (-10455.118) (-10460.798) -- 0:03:42 743000 -- (-10460.881) (-10470.419) [-10459.832] (-10461.276) * [-10455.046] (-10458.677) (-10456.384) (-10463.111) -- 0:03:42 744000 -- (-10459.650) (-10466.219) [-10462.605] (-10458.724) * [-10457.269] (-10464.433) (-10460.144) (-10456.674) -- 0:03:41 745000 -- (-10459.444) (-10461.864) [-10455.630] (-10468.196) * (-10461.473) (-10453.295) (-10461.416) [-10459.184] -- 0:03:40 Average standard deviation of split frequencies: 0.010159 746000 -- (-10462.293) (-10454.882) [-10456.651] (-10454.965) * [-10457.007] (-10456.163) (-10464.333) (-10453.049) -- 0:03:39 747000 -- [-10457.762] (-10459.989) (-10469.777) (-10456.815) * [-10457.033] (-10466.400) (-10458.447) (-10456.466) -- 0:03:38 748000 -- (-10467.754) (-10457.314) (-10464.118) [-10453.293] * (-10459.602) [-10453.111] (-10458.215) (-10457.217) -- 0:03:37 749000 -- [-10463.097] (-10459.451) (-10460.702) (-10458.025) * (-10464.507) (-10456.290) (-10453.598) [-10459.802] -- 0:03:36 750000 -- [-10450.744] (-10460.641) (-10455.909) (-10453.110) * [-10461.019] (-10461.101) (-10457.863) (-10452.620) -- 0:03:36 Average standard deviation of split frequencies: 0.010627 751000 -- (-10455.654) [-10464.566] (-10458.773) (-10455.880) * (-10470.921) [-10454.188] (-10460.316) (-10452.399) -- 0:03:35 752000 -- (-10456.142) (-10464.805) (-10457.139) [-10463.692] * (-10458.925) (-10458.862) (-10463.501) [-10455.899] -- 0:03:34 753000 -- (-10456.275) [-10451.525] (-10450.803) (-10458.484) * (-10464.259) (-10457.917) [-10452.774] (-10470.662) -- 0:03:33 754000 -- (-10464.409) (-10453.041) (-10462.526) [-10458.650] * (-10465.473) (-10460.243) [-10461.453] (-10462.156) -- 0:03:32 755000 -- (-10457.968) [-10454.137] (-10485.233) (-10470.845) * (-10452.391) [-10454.601] (-10458.967) (-10470.068) -- 0:03:31 Average standard deviation of split frequencies: 0.011224 756000 -- (-10465.784) (-10458.237) [-10453.263] (-10458.418) * (-10457.990) [-10456.380] (-10469.467) (-10457.489) -- 0:03:30 757000 -- (-10462.085) (-10458.901) (-10453.302) [-10466.159] * (-10461.593) (-10461.717) [-10464.922] (-10460.078) -- 0:03:29 758000 -- [-10458.283] (-10462.131) (-10464.208) (-10472.819) * [-10455.377] (-10462.701) (-10457.818) (-10470.885) -- 0:03:29 759000 -- [-10453.556] (-10462.535) (-10468.590) (-10457.107) * (-10454.017) (-10460.032) [-10464.300] (-10459.396) -- 0:03:28 760000 -- (-10458.683) [-10461.491] (-10457.830) (-10454.623) * (-10451.292) (-10462.439) [-10454.918] (-10454.824) -- 0:03:27 Average standard deviation of split frequencies: 0.011679 761000 -- [-10459.262] (-10455.731) (-10457.429) (-10470.113) * (-10465.883) [-10455.245] (-10461.914) (-10457.518) -- 0:03:26 762000 -- (-10460.616) [-10457.064] (-10460.501) (-10467.878) * (-10470.120) (-10461.310) (-10461.826) [-10451.397] -- 0:03:25 763000 -- (-10457.608) (-10454.857) [-10448.746] (-10452.438) * (-10456.880) (-10460.972) [-10461.474] (-10457.484) -- 0:03:25 764000 -- (-10456.326) (-10460.670) [-10458.020] (-10452.524) * (-10456.289) (-10476.993) (-10456.760) [-10458.301] -- 0:03:23 765000 -- (-10461.175) (-10455.337) (-10460.713) [-10460.645] * (-10454.334) (-10464.225) (-10449.479) [-10461.415] -- 0:03:23 Average standard deviation of split frequencies: 0.011125 766000 -- (-10461.824) (-10457.467) (-10461.457) [-10458.650] * (-10456.843) (-10467.903) [-10458.034] (-10461.364) -- 0:03:22 767000 -- [-10462.804] (-10455.504) (-10459.478) (-10459.071) * [-10456.480] (-10461.576) (-10460.371) (-10463.912) -- 0:03:21 768000 -- (-10471.100) [-10455.617] (-10457.315) (-10458.284) * (-10454.568) (-10463.646) (-10454.061) [-10457.211] -- 0:03:20 769000 -- [-10457.038] (-10458.229) (-10461.383) (-10467.525) * (-10469.306) [-10459.109] (-10452.773) (-10454.736) -- 0:03:19 770000 -- (-10459.723) [-10459.753] (-10454.603) (-10456.659) * (-10469.729) (-10453.781) [-10456.298] (-10461.341) -- 0:03:18 Average standard deviation of split frequencies: 0.010493 771000 -- (-10458.169) (-10460.313) [-10454.161] (-10462.502) * [-10457.121] (-10457.949) (-10464.017) (-10464.346) -- 0:03:17 772000 -- [-10454.536] (-10456.152) (-10460.314) (-10456.237) * (-10456.416) (-10462.485) [-10454.558] (-10466.174) -- 0:03:16 773000 -- (-10462.281) (-10465.035) [-10462.796] (-10456.323) * (-10463.442) (-10464.287) (-10467.139) [-10461.266] -- 0:03:16 774000 -- [-10455.857] (-10466.180) (-10466.833) (-10451.207) * (-10452.762) [-10459.261] (-10454.862) (-10461.124) -- 0:03:15 775000 -- (-10457.345) (-10456.436) (-10454.560) [-10455.279] * (-10466.174) [-10457.190] (-10457.241) (-10457.698) -- 0:03:14 Average standard deviation of split frequencies: 0.009766 776000 -- (-10460.931) (-10454.860) [-10457.866] (-10461.814) * (-10461.815) (-10457.863) [-10454.977] (-10465.176) -- 0:03:13 777000 -- (-10470.125) (-10457.120) [-10459.815] (-10460.923) * (-10459.826) (-10467.157) [-10458.651] (-10457.821) -- 0:03:12 778000 -- (-10466.750) (-10458.497) [-10453.825] (-10457.825) * [-10455.246] (-10466.057) (-10462.619) (-10464.984) -- 0:03:11 779000 -- (-10466.302) [-10458.772] (-10450.881) (-10457.185) * (-10470.069) (-10462.135) [-10455.611] (-10469.736) -- 0:03:10 780000 -- [-10462.043] (-10455.092) (-10457.734) (-10469.321) * [-10458.361] (-10462.957) (-10463.523) (-10462.009) -- 0:03:10 Average standard deviation of split frequencies: 0.009569 781000 -- [-10456.922] (-10464.677) (-10466.425) (-10452.988) * (-10456.357) (-10458.144) (-10456.786) [-10455.303] -- 0:03:09 782000 -- [-10460.641] (-10465.033) (-10460.108) (-10451.507) * (-10459.703) (-10457.409) [-10454.896] (-10465.099) -- 0:03:08 783000 -- (-10463.178) [-10465.434] (-10466.003) (-10465.676) * (-10455.777) (-10456.132) (-10453.137) [-10453.602] -- 0:03:07 784000 -- (-10469.724) (-10456.183) (-10457.205) [-10459.347] * (-10459.571) [-10454.107] (-10452.831) (-10453.608) -- 0:03:06 785000 -- (-10463.664) (-10471.732) [-10463.752] (-10455.380) * (-10456.690) [-10457.520] (-10470.568) (-10456.207) -- 0:03:05 Average standard deviation of split frequencies: 0.010473 786000 -- (-10459.269) (-10462.939) [-10453.953] (-10456.983) * (-10456.007) (-10462.282) [-10454.795] (-10452.415) -- 0:03:04 787000 -- (-10449.987) (-10455.270) [-10464.588] (-10450.081) * (-10457.363) (-10458.841) (-10453.247) [-10456.968] -- 0:03:04 788000 -- (-10458.688) (-10461.581) (-10458.560) [-10460.848] * (-10456.034) (-10461.045) [-10458.028] (-10457.150) -- 0:03:03 789000 -- (-10452.715) [-10448.606] (-10456.592) (-10456.310) * (-10462.465) (-10462.337) [-10462.849] (-10460.216) -- 0:03:02 790000 -- (-10456.541) (-10464.636) (-10458.152) [-10453.104] * (-10461.931) (-10457.338) (-10450.558) [-10459.073] -- 0:03:01 Average standard deviation of split frequencies: 0.011190 791000 -- (-10453.574) (-10451.562) (-10460.814) [-10450.289] * [-10465.975] (-10458.413) (-10460.907) (-10464.554) -- 0:03:00 792000 -- (-10463.469) (-10462.358) (-10455.500) [-10454.573] * [-10463.707] (-10458.417) (-10467.948) (-10457.327) -- 0:02:59 793000 -- (-10456.828) (-10463.938) [-10464.990] (-10456.043) * [-10454.197] (-10461.848) (-10459.648) (-10456.312) -- 0:02:58 794000 -- (-10457.031) (-10466.832) [-10453.771] (-10454.388) * (-10458.920) (-10458.811) (-10455.963) [-10454.544] -- 0:02:57 795000 -- [-10455.684] (-10457.743) (-10457.162) (-10462.727) * (-10452.944) (-10470.834) (-10464.428) [-10456.966] -- 0:02:57 Average standard deviation of split frequencies: 0.010933 796000 -- (-10458.907) (-10462.833) [-10453.145] (-10455.839) * [-10459.709] (-10468.040) (-10456.596) (-10458.350) -- 0:02:56 797000 -- (-10463.255) (-10459.590) [-10452.906] (-10458.153) * (-10456.955) (-10467.901) (-10464.849) [-10458.656] -- 0:02:55 798000 -- (-10460.434) [-10456.413] (-10459.342) (-10461.064) * [-10457.155] (-10480.718) (-10458.630) (-10459.953) -- 0:02:54 799000 -- [-10461.785] (-10462.159) (-10460.317) (-10459.919) * (-10455.536) (-10457.292) [-10460.604] (-10470.095) -- 0:02:53 800000 -- (-10459.802) [-10457.795] (-10463.990) (-10455.880) * (-10453.779) (-10462.258) [-10456.454] (-10463.855) -- 0:02:52 Average standard deviation of split frequencies: 0.011549 801000 -- (-10462.012) [-10454.582] (-10457.172) (-10464.240) * (-10455.387) [-10453.458] (-10461.014) (-10464.369) -- 0:02:51 802000 -- (-10446.656) (-10465.819) (-10457.496) [-10461.439] * (-10462.586) (-10458.319) [-10457.714] (-10457.461) -- 0:02:51 803000 -- (-10457.467) (-10455.410) [-10456.406] (-10462.926) * (-10459.559) (-10462.061) [-10455.756] (-10462.905) -- 0:02:50 804000 -- (-10454.800) [-10453.220] (-10451.842) (-10461.947) * [-10455.401] (-10458.793) (-10462.884) (-10459.566) -- 0:02:49 805000 -- (-10458.625) (-10455.659) [-10455.482] (-10460.800) * [-10459.975] (-10460.899) (-10451.521) (-10461.012) -- 0:02:48 Average standard deviation of split frequencies: 0.012102 806000 -- [-10460.318] (-10456.480) (-10457.994) (-10454.119) * (-10456.866) [-10454.158] (-10456.263) (-10463.129) -- 0:02:47 807000 -- [-10457.196] (-10457.630) (-10453.833) (-10458.707) * [-10457.946] (-10463.835) (-10455.689) (-10459.696) -- 0:02:46 808000 -- [-10457.614] (-10469.493) (-10453.854) (-10453.184) * (-10460.064) (-10454.407) [-10456.865] (-10457.466) -- 0:02:45 809000 -- (-10457.342) [-10458.427] (-10461.151) (-10462.715) * (-10465.851) [-10455.668] (-10453.884) (-10454.011) -- 0:02:45 810000 -- (-10461.089) (-10451.542) [-10450.721] (-10465.023) * (-10456.594) (-10456.983) [-10452.393] (-10464.198) -- 0:02:44 Average standard deviation of split frequencies: 0.012748 811000 -- (-10456.454) (-10458.329) [-10458.362] (-10451.813) * (-10466.945) (-10457.348) [-10454.929] (-10454.110) -- 0:02:43 812000 -- (-10462.600) (-10455.894) (-10464.944) [-10459.226] * (-10456.223) (-10458.009) [-10459.043] (-10461.353) -- 0:02:42 813000 -- (-10467.654) [-10456.514] (-10453.208) (-10462.364) * (-10454.874) [-10452.994] (-10453.308) (-10457.753) -- 0:02:41 814000 -- (-10464.627) [-10454.349] (-10460.057) (-10459.013) * [-10454.300] (-10462.797) (-10465.217) (-10455.983) -- 0:02:40 815000 -- (-10458.801) (-10453.843) (-10462.693) [-10452.469] * (-10460.791) [-10457.299] (-10453.596) (-10462.035) -- 0:02:39 Average standard deviation of split frequencies: 0.012132 816000 -- (-10449.573) (-10460.786) (-10453.475) [-10452.608] * (-10460.250) (-10458.020) (-10457.978) [-10459.219] -- 0:02:38 817000 -- [-10458.421] (-10454.580) (-10450.375) (-10459.453) * (-10461.805) (-10462.951) (-10450.320) [-10453.134] -- 0:02:38 818000 -- (-10454.682) [-10457.217] (-10469.148) (-10458.991) * (-10454.627) [-10455.066] (-10459.307) (-10452.996) -- 0:02:37 819000 -- (-10460.388) [-10457.786] (-10464.322) (-10460.516) * (-10456.034) (-10461.902) [-10457.875] (-10454.913) -- 0:02:36 820000 -- (-10455.709) (-10456.870) (-10464.009) [-10453.670] * (-10460.937) [-10451.728] (-10462.164) (-10462.357) -- 0:02:35 Average standard deviation of split frequencies: 0.012063 821000 -- (-10456.473) (-10458.667) [-10448.534] (-10448.293) * (-10451.351) [-10463.093] (-10466.997) (-10470.357) -- 0:02:34 822000 -- (-10459.455) (-10468.309) (-10452.382) [-10462.688] * (-10460.833) (-10460.514) [-10449.535] (-10459.356) -- 0:02:33 823000 -- (-10452.401) [-10460.739] (-10455.750) (-10454.147) * (-10456.692) [-10459.975] (-10449.884) (-10468.898) -- 0:02:32 824000 -- (-10469.062) [-10461.961] (-10460.881) (-10453.722) * (-10452.707) [-10463.106] (-10450.427) (-10475.365) -- 0:02:32 825000 -- (-10461.383) (-10462.304) (-10453.640) [-10461.458] * [-10452.500] (-10448.280) (-10456.123) (-10459.024) -- 0:02:31 Average standard deviation of split frequencies: 0.012336 826000 -- (-10459.930) (-10456.227) [-10457.709] (-10457.127) * [-10461.917] (-10463.392) (-10460.811) (-10469.055) -- 0:02:30 827000 -- (-10453.269) [-10452.217] (-10464.617) (-10459.965) * (-10462.599) (-10467.690) [-10456.357] (-10448.829) -- 0:02:29 828000 -- [-10449.478] (-10463.676) (-10452.703) (-10461.144) * [-10455.900] (-10466.131) (-10461.984) (-10447.297) -- 0:02:28 829000 -- (-10463.767) (-10456.161) (-10474.136) [-10455.575] * [-10454.734] (-10463.041) (-10462.939) (-10459.703) -- 0:02:27 830000 -- (-10478.028) [-10449.779] (-10462.483) (-10461.644) * (-10456.358) (-10460.021) [-10455.841] (-10461.200) -- 0:02:26 Average standard deviation of split frequencies: 0.011918 831000 -- (-10460.952) (-10452.612) [-10451.720] (-10455.798) * (-10458.512) (-10477.885) [-10451.941] (-10453.850) -- 0:02:26 832000 -- (-10454.187) (-10456.303) (-10459.950) [-10459.726] * [-10476.872] (-10459.243) (-10450.974) (-10470.477) -- 0:02:25 833000 -- [-10454.559] (-10455.356) (-10467.369) (-10454.317) * (-10457.935) (-10462.039) (-10461.698) [-10460.922] -- 0:02:24 834000 -- (-10454.070) (-10462.337) [-10454.708] (-10465.275) * (-10454.041) (-10461.541) (-10456.025) [-10454.036] -- 0:02:23 835000 -- (-10457.554) (-10463.825) [-10452.485] (-10458.006) * (-10458.114) [-10456.118] (-10458.388) (-10468.635) -- 0:02:22 Average standard deviation of split frequencies: 0.011581 836000 -- (-10463.210) (-10461.168) (-10462.779) [-10458.019] * (-10461.453) (-10460.744) [-10456.019] (-10463.085) -- 0:02:21 837000 -- (-10459.085) (-10477.864) [-10457.392] (-10457.955) * (-10451.329) (-10455.370) [-10458.121] (-10458.564) -- 0:02:20 838000 -- (-10461.073) [-10458.766] (-10455.395) (-10460.084) * (-10465.979) (-10469.735) (-10455.346) [-10455.848] -- 0:02:19 839000 -- (-10462.490) [-10463.808] (-10460.729) (-10461.261) * [-10461.451] (-10472.935) (-10460.631) (-10462.657) -- 0:02:19 840000 -- (-10462.896) (-10455.260) [-10460.174] (-10459.038) * (-10453.620) (-10467.460) (-10451.325) [-10457.542] -- 0:02:18 Average standard deviation of split frequencies: 0.012164 841000 -- (-10451.879) (-10454.905) [-10462.036] (-10451.887) * (-10455.110) [-10463.035] (-10466.720) (-10455.712) -- 0:02:17 842000 -- (-10464.682) (-10454.122) [-10452.344] (-10458.656) * [-10459.385] (-10463.198) (-10455.753) (-10458.895) -- 0:02:16 843000 -- (-10471.876) (-10457.774) (-10456.916) [-10455.786] * (-10450.965) [-10453.079] (-10463.842) (-10459.592) -- 0:02:15 844000 -- (-10462.189) [-10448.791] (-10459.776) (-10460.415) * [-10451.700] (-10455.941) (-10462.173) (-10461.951) -- 0:02:14 845000 -- (-10458.005) (-10456.870) (-10452.829) [-10460.316] * [-10458.103] (-10468.191) (-10455.997) (-10463.645) -- 0:02:13 Average standard deviation of split frequencies: 0.011702 846000 -- [-10456.646] (-10462.912) (-10460.530) (-10465.884) * (-10453.670) (-10460.143) (-10453.035) [-10464.797] -- 0:02:13 847000 -- [-10452.411] (-10449.428) (-10458.258) (-10467.850) * (-10459.532) (-10453.291) (-10448.966) [-10458.053] -- 0:02:12 848000 -- (-10459.193) (-10454.575) (-10458.621) [-10461.960] * (-10459.865) (-10461.579) [-10457.566] (-10469.293) -- 0:02:11 849000 -- (-10459.121) [-10452.715] (-10461.724) (-10459.099) * (-10462.799) (-10451.932) [-10457.219] (-10450.527) -- 0:02:10 850000 -- (-10454.211) (-10452.272) (-10460.885) [-10455.737] * (-10463.550) (-10471.094) [-10462.674] (-10461.041) -- 0:02:09 Average standard deviation of split frequencies: 0.011978 851000 -- (-10461.180) (-10456.420) (-10467.355) [-10461.476] * (-10459.683) (-10456.937) (-10463.895) [-10454.085] -- 0:02:08 852000 -- (-10455.707) [-10455.622] (-10462.274) (-10456.264) * (-10455.230) [-10456.810] (-10466.988) (-10454.279) -- 0:02:07 853000 -- (-10458.107) [-10456.296] (-10460.187) (-10450.925) * (-10471.703) (-10467.180) [-10457.848] (-10454.854) -- 0:02:07 854000 -- [-10450.450] (-10457.405) (-10465.507) (-10449.677) * [-10458.967] (-10457.912) (-10453.318) (-10463.343) -- 0:02:06 855000 -- (-10451.828) (-10453.401) (-10467.603) [-10461.270] * [-10456.548] (-10455.649) (-10456.587) (-10469.658) -- 0:02:05 Average standard deviation of split frequencies: 0.011777 856000 -- (-10477.509) (-10459.416) [-10455.518] (-10471.036) * [-10468.798] (-10458.007) (-10458.420) (-10456.152) -- 0:02:04 857000 -- (-10465.353) (-10453.525) (-10468.487) [-10460.583] * (-10466.725) (-10455.747) [-10462.781] (-10464.929) -- 0:02:03 858000 -- (-10460.172) (-10469.852) [-10451.207] (-10455.400) * (-10457.247) (-10458.654) [-10453.098] (-10458.770) -- 0:02:02 859000 -- [-10459.424] (-10456.121) (-10457.786) (-10461.134) * (-10453.958) [-10460.350] (-10468.810) (-10454.597) -- 0:02:01 860000 -- (-10452.995) (-10463.800) (-10464.610) [-10453.940] * (-10456.816) (-10456.854) (-10465.052) [-10462.957] -- 0:02:00 Average standard deviation of split frequencies: 0.010702 861000 -- [-10450.629] (-10464.925) (-10457.001) (-10462.851) * (-10453.487) [-10459.195] (-10459.695) (-10455.489) -- 0:02:00 862000 -- (-10462.272) (-10456.852) (-10455.846) [-10464.300] * (-10458.811) (-10465.084) (-10456.872) [-10460.644] -- 0:01:59 863000 -- (-10463.924) (-10455.940) (-10459.638) [-10454.261] * [-10451.477] (-10460.357) (-10452.967) (-10463.394) -- 0:01:58 864000 -- (-10462.131) (-10451.772) (-10451.492) [-10456.475] * (-10469.277) (-10452.557) (-10462.715) [-10454.200] -- 0:01:57 865000 -- (-10465.603) (-10461.651) [-10452.749] (-10460.164) * (-10465.673) (-10455.444) [-10459.818] (-10470.830) -- 0:01:56 Average standard deviation of split frequencies: 0.011054 866000 -- [-10456.851] (-10461.824) (-10461.156) (-10463.297) * (-10462.693) (-10450.287) [-10455.786] (-10470.780) -- 0:01:55 867000 -- [-10463.834] (-10456.834) (-10456.482) (-10468.623) * (-10463.727) (-10461.199) [-10454.680] (-10464.357) -- 0:01:54 868000 -- (-10458.672) [-10455.008] (-10462.810) (-10468.350) * (-10454.519) [-10457.193] (-10465.728) (-10456.605) -- 0:01:54 869000 -- (-10462.336) [-10460.605] (-10466.687) (-10456.849) * (-10451.850) [-10458.318] (-10470.110) (-10467.591) -- 0:01:53 870000 -- (-10459.670) [-10456.297] (-10460.532) (-10461.620) * (-10456.471) [-10451.873] (-10465.255) (-10458.449) -- 0:01:52 Average standard deviation of split frequencies: 0.010912 871000 -- (-10452.035) (-10462.298) [-10450.643] (-10451.331) * [-10458.338] (-10454.244) (-10452.882) (-10459.368) -- 0:01:51 872000 -- (-10457.854) [-10454.724] (-10453.390) (-10455.153) * (-10460.142) (-10453.531) [-10460.851] (-10455.082) -- 0:01:50 873000 -- (-10458.813) [-10449.840] (-10452.657) (-10457.147) * (-10458.894) (-10461.016) (-10465.458) [-10453.248] -- 0:01:49 874000 -- (-10461.676) [-10457.800] (-10459.589) (-10453.861) * [-10451.065] (-10464.032) (-10469.087) (-10460.061) -- 0:01:48 875000 -- [-10452.498] (-10453.681) (-10453.666) (-10462.016) * (-10452.243) (-10456.677) [-10454.929] (-10457.871) -- 0:01:48 Average standard deviation of split frequencies: 0.010349 876000 -- [-10452.890] (-10461.448) (-10456.002) (-10453.184) * (-10460.542) (-10457.136) [-10447.491] (-10453.462) -- 0:01:47 877000 -- (-10452.403) [-10456.336] (-10458.430) (-10455.635) * (-10466.049) [-10457.106] (-10462.977) (-10457.564) -- 0:01:46 878000 -- (-10464.151) [-10454.654] (-10459.662) (-10463.545) * (-10476.814) (-10453.942) (-10461.010) [-10456.148] -- 0:01:45 879000 -- (-10457.873) (-10454.065) (-10469.284) [-10449.800] * (-10460.532) [-10459.611] (-10466.353) (-10455.956) -- 0:01:44 880000 -- (-10454.706) (-10471.264) [-10462.909] (-10472.972) * (-10457.120) (-10454.387) [-10457.643] (-10466.091) -- 0:01:43 Average standard deviation of split frequencies: 0.010294 881000 -- (-10457.129) [-10457.389] (-10464.438) (-10453.644) * (-10461.016) (-10455.018) (-10457.177) [-10449.750] -- 0:01:42 882000 -- (-10461.628) [-10457.487] (-10468.162) (-10458.287) * (-10455.409) (-10457.703) [-10452.601] (-10455.637) -- 0:01:41 883000 -- (-10458.978) (-10460.824) (-10461.630) [-10455.671] * [-10458.403] (-10451.565) (-10462.448) (-10459.861) -- 0:01:40 884000 -- (-10460.274) [-10451.947] (-10474.124) (-10458.990) * (-10461.539) (-10457.205) (-10449.857) [-10450.326] -- 0:01:40 885000 -- (-10454.926) (-10459.209) [-10450.821] (-10466.441) * (-10454.370) (-10460.689) (-10461.191) [-10459.364] -- 0:01:39 Average standard deviation of split frequencies: 0.009250 886000 -- (-10464.636) [-10453.310] (-10464.796) (-10469.570) * (-10449.694) (-10462.345) (-10457.661) [-10454.191] -- 0:01:38 887000 -- (-10461.730) (-10452.690) [-10456.805] (-10455.344) * (-10463.605) [-10450.022] (-10459.537) (-10460.208) -- 0:01:37 888000 -- (-10455.241) (-10481.347) [-10457.181] (-10456.781) * (-10472.530) (-10455.731) (-10459.192) [-10458.109] -- 0:01:36 889000 -- (-10449.726) (-10459.913) [-10459.424] (-10457.358) * [-10454.818] (-10447.486) (-10460.181) (-10453.812) -- 0:01:35 890000 -- [-10457.883] (-10466.183) (-10464.294) (-10456.868) * (-10453.203) (-10455.533) [-10465.647] (-10457.530) -- 0:01:34 Average standard deviation of split frequencies: 0.008631 891000 -- (-10456.301) (-10453.753) [-10452.043] (-10470.066) * (-10465.322) (-10461.557) (-10461.982) [-10459.957] -- 0:01:34 892000 -- [-10462.529] (-10467.406) (-10466.155) (-10470.289) * (-10462.065) [-10455.135] (-10465.987) (-10461.312) -- 0:01:33 893000 -- (-10454.268) (-10457.711) (-10452.352) [-10464.330] * [-10459.591] (-10453.250) (-10458.480) (-10453.054) -- 0:01:32 894000 -- (-10467.688) (-10452.660) (-10462.692) [-10456.272] * (-10457.155) (-10452.474) [-10463.918] (-10453.403) -- 0:01:31 895000 -- [-10459.574] (-10459.795) (-10457.019) (-10455.554) * (-10460.228) (-10462.310) (-10463.725) [-10453.999] -- 0:01:30 Average standard deviation of split frequencies: 0.008013 896000 -- (-10453.440) (-10453.416) (-10459.145) [-10455.518] * (-10452.223) (-10461.669) (-10455.497) [-10459.661] -- 0:01:29 897000 -- (-10453.773) (-10466.174) (-10458.309) [-10452.272] * (-10456.474) [-10452.199] (-10455.247) (-10455.942) -- 0:01:28 898000 -- [-10455.452] (-10455.758) (-10465.437) (-10458.137) * (-10458.069) [-10455.988] (-10468.331) (-10461.673) -- 0:01:28 899000 -- (-10451.031) (-10455.339) (-10460.796) [-10453.816] * (-10461.264) (-10460.076) (-10465.902) [-10459.273] -- 0:01:27 900000 -- (-10464.403) (-10466.984) (-10451.207) [-10452.154] * (-10461.555) [-10457.767] (-10461.999) (-10455.974) -- 0:01:26 Average standard deviation of split frequencies: 0.007046 901000 -- [-10462.987] (-10459.577) (-10453.156) (-10471.886) * [-10450.745] (-10465.648) (-10454.237) (-10468.934) -- 0:01:25 902000 -- [-10457.093] (-10458.037) (-10466.035) (-10465.425) * [-10457.764] (-10464.093) (-10457.796) (-10465.695) -- 0:01:24 903000 -- [-10457.640] (-10455.837) (-10458.426) (-10456.853) * (-10455.424) (-10470.476) [-10452.491] (-10469.714) -- 0:01:23 904000 -- (-10459.356) (-10459.035) [-10449.819] (-10465.092) * [-10454.062] (-10459.194) (-10460.773) (-10458.272) -- 0:01:22 905000 -- (-10462.975) [-10458.195] (-10460.739) (-10463.265) * (-10459.127) [-10457.275] (-10458.613) (-10452.504) -- 0:01:22 Average standard deviation of split frequencies: 0.006284 906000 -- (-10457.890) (-10466.945) (-10452.182) [-10457.180] * [-10458.310] (-10457.979) (-10460.168) (-10452.869) -- 0:01:21 907000 -- [-10462.001] (-10464.547) (-10465.719) (-10461.256) * [-10453.443] (-10460.398) (-10462.449) (-10457.631) -- 0:01:20 908000 -- (-10464.145) (-10459.911) (-10457.433) [-10459.487] * (-10467.619) [-10457.454] (-10465.100) (-10461.818) -- 0:01:19 909000 -- (-10467.617) (-10454.471) (-10457.317) [-10454.149] * [-10457.933] (-10460.052) (-10456.364) (-10469.138) -- 0:01:18 910000 -- (-10460.345) (-10456.205) (-10457.218) [-10456.019] * (-10461.764) (-10458.147) (-10465.301) [-10458.619] -- 0:01:17 Average standard deviation of split frequencies: 0.006291 911000 -- (-10453.528) (-10455.615) [-10450.593] (-10465.537) * (-10457.005) (-10465.372) [-10464.203] (-10458.657) -- 0:01:16 912000 -- (-10460.017) [-10457.108] (-10463.037) (-10456.180) * (-10466.132) (-10457.720) [-10455.539] (-10461.707) -- 0:01:16 913000 -- (-10459.644) (-10460.196) [-10455.350] (-10459.979) * [-10452.945] (-10473.413) (-10452.366) (-10454.299) -- 0:01:15 914000 -- (-10458.840) (-10458.485) [-10456.550] (-10469.226) * [-10450.162] (-10468.475) (-10463.288) (-10459.908) -- 0:01:14 915000 -- (-10455.877) [-10454.904] (-10455.786) (-10463.096) * (-10453.680) (-10459.376) [-10457.626] (-10464.212) -- 0:01:13 Average standard deviation of split frequencies: 0.006730 916000 -- (-10455.934) (-10458.952) (-10457.139) [-10458.645] * (-10457.055) [-10452.071] (-10472.211) (-10462.601) -- 0:01:12 917000 -- (-10453.266) (-10464.281) (-10461.958) [-10450.231] * (-10469.122) (-10451.638) [-10455.931] (-10463.872) -- 0:01:11 918000 -- (-10461.142) (-10462.667) (-10457.369) [-10447.629] * (-10458.708) (-10457.887) [-10452.150] (-10458.474) -- 0:01:10 919000 -- [-10456.363] (-10460.351) (-10466.147) (-10458.673) * (-10459.242) (-10465.729) (-10459.339) [-10463.910] -- 0:01:09 920000 -- (-10459.374) [-10457.632] (-10467.262) (-10459.863) * [-10455.350] (-10467.361) (-10455.614) (-10465.321) -- 0:01:09 Average standard deviation of split frequencies: 0.007287 921000 -- [-10453.582] (-10458.333) (-10460.522) (-10460.032) * (-10454.558) [-10452.451] (-10450.679) (-10465.503) -- 0:01:08 922000 -- (-10461.341) (-10452.158) [-10458.280] (-10464.051) * (-10461.151) (-10456.507) (-10458.537) [-10470.328] -- 0:01:07 923000 -- (-10456.318) [-10451.927] (-10456.394) (-10458.526) * (-10458.287) (-10471.547) [-10451.600] (-10463.654) -- 0:01:06 924000 -- [-10455.821] (-10455.670) (-10461.654) (-10457.845) * (-10472.576) (-10458.942) (-10467.734) [-10458.880] -- 0:01:05 925000 -- [-10452.288] (-10461.814) (-10464.804) (-10462.302) * (-10461.123) (-10455.257) [-10467.178] (-10466.308) -- 0:01:04 Average standard deviation of split frequencies: 0.007088 926000 -- (-10456.517) (-10455.998) (-10479.675) [-10450.747] * [-10461.992] (-10459.615) (-10461.131) (-10458.932) -- 0:01:03 927000 -- [-10461.301] (-10460.594) (-10466.522) (-10451.385) * (-10469.297) (-10458.488) (-10464.086) [-10457.046] -- 0:01:03 928000 -- (-10461.846) (-10471.658) [-10455.517] (-10453.738) * (-10459.052) [-10464.352] (-10463.221) (-10458.662) -- 0:01:02 929000 -- (-10451.441) (-10459.217) [-10448.330] (-10461.272) * (-10465.533) [-10460.890] (-10462.402) (-10458.626) -- 0:01:01 930000 -- (-10455.407) (-10457.308) [-10457.703] (-10467.539) * (-10455.929) (-10454.657) (-10457.251) [-10457.944] -- 0:01:00 Average standard deviation of split frequencies: 0.007052 931000 -- (-10456.121) [-10460.249] (-10462.672) (-10457.318) * (-10470.160) [-10469.052] (-10459.265) (-10467.325) -- 0:00:59 932000 -- (-10461.340) (-10456.017) [-10462.366] (-10453.127) * (-10460.724) [-10459.034] (-10452.980) (-10459.669) -- 0:00:58 933000 -- (-10456.490) [-10453.087] (-10470.560) (-10457.812) * (-10463.646) [-10452.231] (-10458.618) (-10466.499) -- 0:00:57 934000 -- (-10459.193) (-10457.620) (-10455.696) [-10455.551] * (-10467.773) [-10459.595] (-10460.816) (-10464.600) -- 0:00:57 935000 -- (-10461.627) (-10458.948) (-10459.665) [-10458.947] * [-10453.203] (-10454.903) (-10462.599) (-10451.156) -- 0:00:56 Average standard deviation of split frequencies: 0.007710 936000 -- (-10462.201) (-10461.267) (-10461.978) [-10455.927] * (-10459.460) [-10459.132] (-10455.067) (-10454.147) -- 0:00:55 937000 -- [-10463.400] (-10456.085) (-10465.456) (-10463.411) * (-10469.825) (-10456.417) [-10457.055] (-10458.328) -- 0:00:54 938000 -- (-10464.782) (-10468.327) (-10458.263) [-10451.283] * (-10458.668) [-10452.636] (-10461.821) (-10454.399) -- 0:00:53 939000 -- (-10453.453) [-10455.079] (-10456.853) (-10456.330) * (-10452.925) [-10453.346] (-10452.449) (-10454.706) -- 0:00:52 940000 -- (-10450.594) (-10461.129) (-10461.713) [-10455.419] * [-10458.259] (-10462.097) (-10449.643) (-10468.781) -- 0:00:51 Average standard deviation of split frequencies: 0.007787 941000 -- [-10453.851] (-10454.477) (-10454.790) (-10467.391) * (-10455.352) (-10463.684) (-10456.846) [-10453.784] -- 0:00:50 942000 -- (-10463.285) (-10456.098) [-10458.053] (-10459.871) * (-10456.983) (-10457.623) [-10454.242] (-10462.936) -- 0:00:50 943000 -- (-10456.067) [-10453.762] (-10461.586) (-10464.628) * (-10464.525) (-10459.117) (-10455.694) [-10460.706] -- 0:00:49 944000 -- (-10462.567) (-10457.174) (-10461.834) [-10460.437] * [-10459.652] (-10456.511) (-10463.345) (-10455.042) -- 0:00:48 945000 -- (-10456.503) [-10455.073] (-10471.649) (-10461.650) * [-10457.295] (-10468.730) (-10455.921) (-10458.145) -- 0:00:47 Average standard deviation of split frequencies: 0.007743 946000 -- [-10455.943] (-10460.866) (-10474.927) (-10460.976) * (-10454.033) [-10463.515] (-10456.012) (-10456.941) -- 0:00:46 947000 -- (-10452.773) (-10468.078) (-10467.606) [-10453.867] * [-10457.177] (-10461.164) (-10455.060) (-10463.010) -- 0:00:45 948000 -- (-10455.078) (-10466.962) [-10457.111] (-10456.158) * (-10453.081) (-10460.917) [-10461.292] (-10458.532) -- 0:00:44 949000 -- (-10461.384) (-10459.384) [-10458.014] (-10456.467) * [-10454.682] (-10466.974) (-10465.029) (-10459.210) -- 0:00:44 950000 -- (-10464.124) (-10455.928) [-10455.799] (-10462.199) * (-10452.291) (-10457.165) [-10457.369] (-10450.920) -- 0:00:43 Average standard deviation of split frequencies: 0.007209 951000 -- (-10456.683) [-10458.267] (-10453.794) (-10475.121) * (-10455.582) (-10461.199) [-10457.377] (-10459.714) -- 0:00:42 952000 -- [-10456.149] (-10447.996) (-10455.475) (-10473.805) * [-10454.672] (-10457.457) (-10456.813) (-10468.601) -- 0:00:41 953000 -- (-10461.497) [-10462.793] (-10458.842) (-10461.759) * (-10466.407) [-10456.523] (-10457.496) (-10465.240) -- 0:00:40 954000 -- (-10464.348) (-10460.172) (-10462.761) [-10460.908] * (-10466.909) [-10460.413] (-10450.539) (-10459.329) -- 0:00:39 955000 -- (-10458.786) (-10456.644) [-10459.579] (-10457.944) * (-10458.912) [-10454.948] (-10461.570) (-10457.583) -- 0:00:38 Average standard deviation of split frequencies: 0.007055 956000 -- (-10472.020) (-10458.121) (-10459.444) [-10462.285] * (-10462.884) [-10456.893] (-10467.634) (-10451.909) -- 0:00:38 957000 -- (-10465.892) [-10455.764] (-10458.950) (-10458.154) * (-10456.152) (-10456.978) [-10454.744] (-10452.843) -- 0:00:37 958000 -- (-10456.397) (-10451.350) [-10453.721] (-10460.957) * [-10456.736] (-10457.271) (-10453.493) (-10457.718) -- 0:00:36 959000 -- (-10463.113) (-10466.210) [-10461.390] (-10464.338) * (-10455.576) [-10460.335] (-10450.006) (-10453.986) -- 0:00:35 960000 -- [-10459.416] (-10472.639) (-10461.617) (-10457.023) * (-10465.573) (-10467.097) (-10457.102) [-10456.158] -- 0:00:34 Average standard deviation of split frequencies: 0.006983 961000 -- (-10456.047) (-10462.227) (-10458.437) [-10458.147] * (-10458.166) (-10457.948) (-10462.451) [-10457.479] -- 0:00:33 962000 -- (-10457.035) (-10468.349) (-10454.000) [-10464.945] * (-10461.634) (-10459.435) (-10458.805) [-10455.248] -- 0:00:32 963000 -- (-10453.853) (-10459.105) (-10464.155) [-10455.423] * [-10452.041] (-10462.523) (-10463.830) (-10451.705) -- 0:00:31 964000 -- (-10456.737) (-10452.171) [-10456.554] (-10460.131) * (-10463.176) (-10463.307) [-10447.600] (-10455.221) -- 0:00:31 965000 -- (-10463.060) [-10453.941] (-10452.863) (-10462.428) * (-10458.107) (-10459.895) (-10459.754) [-10453.331] -- 0:00:30 Average standard deviation of split frequencies: 0.007357 966000 -- (-10462.913) (-10463.623) [-10455.881] (-10461.247) * [-10455.751] (-10461.351) (-10459.747) (-10458.476) -- 0:00:29 967000 -- (-10467.888) [-10449.824] (-10462.859) (-10457.792) * [-10450.304] (-10457.653) (-10453.792) (-10464.993) -- 0:00:28 968000 -- (-10460.298) (-10457.774) [-10455.497] (-10447.847) * (-10459.719) (-10459.149) (-10458.389) [-10461.509] -- 0:00:27 969000 -- [-10459.653] (-10458.469) (-10464.723) (-10454.933) * (-10463.436) (-10462.372) (-10459.422) [-10456.663] -- 0:00:26 970000 -- (-10459.992) [-10461.759] (-10464.538) (-10451.680) * (-10455.891) (-10464.839) (-10453.211) [-10457.242] -- 0:00:25 Average standard deviation of split frequencies: 0.007285 971000 -- (-10458.768) (-10457.487) (-10463.357) [-10455.566] * (-10456.286) (-10458.338) (-10456.272) [-10450.368] -- 0:00:25 972000 -- (-10458.577) (-10461.969) (-10459.843) [-10454.460] * [-10454.870] (-10453.741) (-10462.246) (-10454.855) -- 0:00:24 973000 -- (-10464.604) [-10458.052] (-10459.002) (-10457.337) * (-10454.247) (-10462.292) (-10452.831) [-10455.528] -- 0:00:23 974000 -- (-10454.907) (-10451.621) (-10456.096) [-10459.119] * (-10463.313) (-10452.668) (-10454.834) [-10451.888] -- 0:00:22 975000 -- (-10458.396) [-10454.648] (-10455.155) (-10462.553) * [-10461.201] (-10463.934) (-10463.626) (-10454.712) -- 0:00:21 Average standard deviation of split frequencies: 0.007356 976000 -- (-10461.152) [-10460.738] (-10473.221) (-10458.964) * (-10450.618) [-10460.847] (-10468.498) (-10459.344) -- 0:00:20 977000 -- (-10460.215) (-10461.467) (-10466.252) [-10464.225] * (-10461.734) [-10460.280] (-10477.383) (-10468.383) -- 0:00:19 978000 -- (-10459.244) (-10463.423) (-10469.223) [-10453.222] * (-10458.548) [-10460.594] (-10458.128) (-10460.760) -- 0:00:19 979000 -- [-10455.251] (-10454.364) (-10465.991) (-10460.790) * (-10464.684) [-10461.417] (-10461.390) (-10460.552) -- 0:00:18 980000 -- (-10450.700) (-10465.546) (-10458.471) [-10452.073] * (-10456.337) (-10459.515) (-10470.280) [-10453.321] -- 0:00:17 Average standard deviation of split frequencies: 0.006915 981000 -- (-10457.717) (-10453.770) (-10462.295) [-10455.860] * [-10459.505] (-10452.068) (-10455.068) (-10458.793) -- 0:00:16 982000 -- (-10467.450) (-10457.104) (-10456.107) [-10457.984] * (-10462.019) (-10456.087) [-10449.158] (-10465.136) -- 0:00:15 983000 -- (-10462.147) (-10458.522) (-10450.429) [-10456.504] * (-10459.069) [-10454.907] (-10462.356) (-10463.564) -- 0:00:14 984000 -- [-10460.295] (-10463.314) (-10467.443) (-10459.114) * (-10459.414) [-10465.946] (-10465.425) (-10459.460) -- 0:00:13 985000 -- [-10458.281] (-10459.976) (-10462.136) (-10464.559) * [-10457.938] (-10457.388) (-10463.982) (-10451.162) -- 0:00:12 Average standard deviation of split frequencies: 0.006877 986000 -- (-10454.874) [-10461.152] (-10457.267) (-10462.175) * (-10465.238) (-10456.893) [-10462.849] (-10465.017) -- 0:00:12 987000 -- (-10457.351) [-10456.529] (-10461.439) (-10470.813) * (-10460.078) (-10457.540) (-10452.853) [-10470.028] -- 0:00:11 988000 -- [-10461.159] (-10457.337) (-10457.565) (-10460.380) * (-10459.479) (-10455.836) [-10459.996] (-10459.404) -- 0:00:10 989000 -- (-10462.667) (-10455.974) (-10458.667) [-10460.639] * [-10451.625] (-10469.807) (-10467.590) (-10461.179) -- 0:00:09 990000 -- (-10454.395) (-10456.112) [-10462.045] (-10458.825) * (-10461.187) (-10455.067) (-10459.580) [-10463.099] -- 0:00:08 Average standard deviation of split frequencies: 0.005820 991000 -- (-10462.510) (-10459.117) [-10460.860] (-10459.949) * (-10459.602) (-10457.167) (-10461.019) [-10464.992] -- 0:00:07 992000 -- (-10456.700) [-10459.319] (-10455.002) (-10476.811) * (-10450.406) [-10453.713] (-10459.214) (-10457.029) -- 0:00:06 993000 -- (-10456.008) [-10456.462] (-10455.176) (-10458.091) * (-10466.466) (-10456.262) (-10459.539) [-10454.025] -- 0:00:06 994000 -- (-10458.784) (-10457.828) (-10453.203) [-10455.864] * (-10455.012) (-10462.274) [-10456.661] (-10458.607) -- 0:00:05 995000 -- (-10458.401) (-10468.248) (-10461.033) [-10453.414] * [-10460.401] (-10456.071) (-10460.111) (-10456.297) -- 0:00:04 Average standard deviation of split frequencies: 0.006044 996000 -- (-10453.800) [-10451.989] (-10456.363) (-10457.350) * (-10451.575) (-10452.880) (-10457.079) [-10455.480] -- 0:00:03 997000 -- (-10456.395) [-10459.435] (-10456.141) (-10466.097) * (-10462.438) (-10458.170) [-10459.430] (-10452.662) -- 0:00:02 998000 -- (-10452.400) (-10462.686) (-10464.663) [-10456.649] * (-10457.021) (-10450.014) [-10458.633] (-10453.937) -- 0:00:01 999000 -- [-10453.004] (-10461.211) (-10454.086) (-10458.214) * (-10471.323) (-10460.485) (-10462.436) [-10455.091] -- 0:00:00 1000000 -- (-10455.218) (-10461.239) [-10456.603] (-10463.858) * (-10460.718) [-10462.748] (-10464.808) (-10452.970) -- 0:00:00 Average standard deviation of split frequencies: 0.005979 Analysis completed in 14 mins 25 seconds Analysis used 864.22 seconds of CPU time Likelihood of best state for "cold" chain of run 1 was -10444.13 Likelihood of best state for "cold" chain of run 2 was -10444.13 Acceptance rates for the moves in the "cold" chain of run 1: With prob. (last 100) chain accepted proposals by move 27.0 % ( 24 %) Dirichlet(Revmat{all}) 44.0 % ( 28 %) Slider(Revmat{all}) 9.6 % ( 9 %) Dirichlet(Pi{all}) 22.2 % ( 28 %) Slider(Pi{all}) 27.0 % ( 17 %) Multiplier(Alpha{1,2}) 44.6 % ( 33 %) Multiplier(Alpha{3}) 33.1 % ( 26 %) Slider(Pinvar{all}) 17.7 % ( 23 %) ExtSPR(Tau{all},V{all}) 9.6 % ( 8 %) ExtTBR(Tau{all},V{all}) 20.5 % ( 19 %) NNI(Tau{all},V{all}) 24.3 % ( 19 %) ParsSPR(Tau{all},V{all}) 26.4 % ( 29 %) Multiplier(V{all}) 21.5 % ( 20 %) Nodeslider(V{all}) 24.4 % ( 29 %) TLMultiplier(V{all}) Acceptance rates for the moves in the "cold" chain of run 2: With prob. (last 100) chain accepted proposals by move 26.9 % ( 31 %) Dirichlet(Revmat{all}) 44.7 % ( 30 %) Slider(Revmat{all}) 9.4 % ( 15 %) Dirichlet(Pi{all}) 22.0 % ( 21 %) Slider(Pi{all}) 27.0 % ( 31 %) Multiplier(Alpha{1,2}) 44.4 % ( 27 %) Multiplier(Alpha{3}) 33.3 % ( 26 %) Slider(Pinvar{all}) 17.7 % ( 17 %) ExtSPR(Tau{all},V{all}) 9.7 % ( 11 %) ExtTBR(Tau{all},V{all}) 20.6 % ( 21 %) NNI(Tau{all},V{all}) 24.5 % ( 29 %) ParsSPR(Tau{all},V{all}) 26.3 % ( 33 %) Multiplier(V{all}) 21.1 % ( 23 %) Nodeslider(V{all}) 24.3 % ( 21 %) TLMultiplier(V{all}) Chain swap information for run 1: 1 2 3 4 ---------------------------------- 1 | 0.78 0.60 0.45 2 | 166861 0.80 0.63 3 | 166701 166351 0.81 4 | 166926 166684 166477 Chain swap information for run 2: 1 2 3 4 ---------------------------------- 1 | 0.78 0.59 0.44 2 | 166524 0.80 0.62 3 | 166628 167114 0.81 4 | 166455 166925 166354 Upper diagonal: Proportion of successful state exchanges between chains Lower diagonal: Number of attempted state exchanges between chains Chain information: ID -- Heat ----------- 1 -- 1.00 (cold chain) 2 -- 0.91 3 -- 0.83 4 -- 0.77 Heat = 1 / (1 + T * (ID - 1)) (where T = 0.10 is the temperature and ID is the chain number) Setting burn-in to 2500 Summarizing parameters in files /data/mrbayes_input.nex.run1.p and /data/mrbayes_input.nex.run2.p Writing summary statistics to file /data/mrbayes_input.nex.pstat Using relative burnin ('relburnin=yes'), discarding the first 25 % of samples Below are rough plots of the generation (x-axis) versus the log probability of observing the data (y-axis). You can use these graphs to determine what the burn in for your analysis should be. When the log probability starts to plateau you may be at station- arity. Sample trees and parameters after the log probability plateaus. Of course, this is not a guarantee that you are at sta- tionarity. Also examine the convergence diagnostics provided by the 'sump' and 'sumt' commands for all the parameters in your model. Remember that the burn in is the number of samples to dis- card. There are a total of ngen / samplefreq samples taken during a MCMC analysis. Overlay plot for both runs: (1 = Run number 1; 2 = Run number 2; * = Both runs) +------------------------------------------------------------+ -10454.80 | * | | 1 1 * 1 | | 1 1 1 2 1 | | 2 2 2 1 1 * 2 2 11 1 | | 2 1 22 1 2 2 221 1 2 2 | | 21 1 1 2 *2 21 12 1 21 1111 2| | 2 2 1 2 1 2 2 22 1 | | 1 22121 1 22 2 11 2 2 2 2 1| |* 1 1 211 2 1 22 1 | | 1 2 12 21 2 1 2 | | 1 1 1 2 1 | | 2 1 1 2 2 | | 2 1 2 | | | | 1 2 | +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -10459.30 ^ ^ 250000 1000000 Estimated marginal likelihoods for runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": (Use the harmonic mean for Bayes factor comparisons of models) (Values are saved to the file /data/mrbayes_input.nex.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -10451.46 -10466.18 2 -10451.50 -10469.75 -------------------------------------- TOTAL -10451.48 -10469.08 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": Summaries are based on a total of 3002 samples from 2 runs. Each run produced 2001 samples of which 1501 samples were included. Parameter summaries saved to file "/data/mrbayes_input.nex.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.518238 0.000861 0.462056 0.576676 0.516951 1305.24 1373.36 1.000 r(A<->C){all} 0.090442 0.000169 0.066145 0.115789 0.090088 866.92 869.67 1.000 r(A<->G){all} 0.150380 0.000250 0.121230 0.182648 0.149672 775.75 899.80 1.000 r(A<->T){all} 0.112055 0.000141 0.089022 0.134771 0.112070 910.42 1015.83 1.000 r(C<->G){all} 0.042214 0.000104 0.023703 0.062686 0.041745 808.07 815.62 1.000 r(C<->T){all} 0.566266 0.000551 0.522435 0.611395 0.567014 504.23 672.70 1.000 r(G<->T){all} 0.038643 0.000062 0.023386 0.053388 0.038357 868.68 1076.35 1.002 pi(A){all} 0.269031 0.000045 0.255952 0.282524 0.268959 1001.55 1032.17 1.000 pi(C){all} 0.223151 0.000037 0.211045 0.234731 0.223005 919.45 964.09 1.000 pi(G){all} 0.194381 0.000035 0.183025 0.206032 0.194214 1093.01 1161.28 1.000 pi(T){all} 0.313436 0.000046 0.300560 0.327272 0.313284 952.91 1110.70 1.000 alpha{1,2} 0.142269 0.000206 0.116137 0.172300 0.141400 1111.82 1208.15 1.000 alpha{3} 5.664225 2.950055 2.861065 9.007021 5.425512 1190.50 1217.07 1.000 pinvar{all} 0.523670 0.000548 0.476061 0.566958 0.524544 1259.25 1343.98 1.001 ------------------------------------------------------------------------------------------------------ * Convergence diagnostic (ESS = Estimated Sample Size); min and avg values correspond to minimal and average ESS among runs. ESS value below 100 may indicate that the parameter is undersampled. + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge. Setting sumt conformat to Simple Setting urn-in to 2500 Summarizing trees in files "/data/mrbayes_input.nex.run1.t" and "/data/mrbayes_input.nex.run2.t" Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees Writing statistics to files /data/mrbayes_input.nex.<parts|tstat|vstat|trprobs|con> Examining first file ... Found one tree block in file "/data/mrbayes_input.nex.run1.t" with 2001 trees in last block Expecting the same number of trees in the last tree block of all files Tree reading status: 0 10 20 30 40 50 60 70 80 90 100 v-------v-------v-------v-------v-------v-------v-------v-------v-------v-------v ********************************************************************************* Read a total of 4002 trees in 2 files (sampling 3002 of them) (Each file contained 2001 trees of which 1501 were sampled) General explanation: In an unrooted tree, a taxon bipartition (split) is specified by removing a branch, thereby dividing the species into those to the left and those to the right of the branch. Here, taxa to one side of the removed branch are denoted '.' and those to the other side are denoted '*'. Specifically, the '.' symbol is used for the taxa on the same side as the outgroup. In a rooted or clock tree, the tree is rooted using the model and not by reference to an outgroup. Each bipartition therefore corresponds to a clade, that is, a group that includes all the descendants of a particular branch in the tree. Taxa that are included in each clade are denoted using '*', and taxa that are not included are denoted using the '.' symbol. The output first includes a key to all the bipartitions with frequency larger or equual to (Minpartfreq) in at least one run. Minpartfreq is a parameter to sumt command and currently it is set to 0.10. This is followed by a table with statistics for the informative bipartitions (those including at least two taxa), sorted from highest to lowest probability. For each bipartition, the table gives the number of times the partition or split was observed in all runs (#obs) and the posterior probability of the bipartition (Probab.), which is the same as the split frequency. If several runs are summarized, this is followed by the minimum split frequency (Min(s)), the maximum frequency (Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs. The latter value should approach 0 for all bipartitions as MCMC runs converge. This is followed by a table summarizing branch lengths, node heights (if a clock model was used) and relaxed clock parameters (if a relaxed clock model was used). The mean, variance, and 95 % credible interval are given for each of these parameters. If several runs are summarized, the potential scale reduction factor (PSRF) is also given; it should approach 1 as runs converge. Node heights will take calibration points into account, if such points were used in the analysis. Note that Stddev may be unreliable if the partition is not present in all runs (the last column indicates the number of runs that sampled the partition if more than one run is summarized). The PSRF is not calculated at all if the partition is not present in all runs.The PSRF is also sensitive to small sample sizes and it should only be considered a rough guide to convergence since some of the assumptions allowing one to interpret it as a true potential scale reduction factor are violated in MrBayes. List of taxa in bipartitions: 1 -- C1 2 -- C2 3 -- C3 4 -- C4 5 -- C5 6 -- C6 7 -- C7 8 -- C8 9 -- C9 Key to taxon bipartitions (saved to file "/data/mrbayes_input.nex.parts"): ID -- Partition --------------- 1 -- .******** 2 -- .*....... 3 -- ..*...... 4 -- ...*..... 5 -- ....*.... 6 -- .....*... 7 -- ......*.. 8 -- .......*. 9 -- ........* 10 -- .....***. 11 -- ...**.... 12 -- ...*****. 13 -- ......**. 14 -- .**...... 15 -- ..*.....* 16 -- .*.*****. 17 -- .*******. 18 -- .****.... 19 -- .****...* 20 -- .....**.. 21 -- .....*.*. 22 -- .*.**.... --------------- Summary statistics for informative taxon bipartitions (saved to file "/data/mrbayes_input.nex.tstat"): ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns ---------------------------------------------------------------- 10 3002 1.000000 0.000000 1.000000 1.000000 2 11 3002 1.000000 0.000000 1.000000 1.000000 2 12 2002 0.666889 0.005653 0.662891 0.670886 2 13 1715 0.571286 0.011777 0.562958 0.579614 2 14 1404 0.467688 0.003769 0.465023 0.470353 2 15 1361 0.453364 0.000471 0.453031 0.453698 2 16 1050 0.349767 0.005653 0.345769 0.353764 2 17 841 0.280147 0.000471 0.279813 0.280480 2 18 702 0.233844 0.004711 0.230513 0.237175 2 19 657 0.218854 0.005182 0.215190 0.222518 2 20 648 0.215856 0.009422 0.209194 0.222518 2 21 639 0.212858 0.021199 0.197868 0.227848 2 22 328 0.109260 0.009422 0.102598 0.115923 2 ---------------------------------------------------------------- + Convergence diagnostic (standard deviation of split frequencies) should approach 0.0 as runs converge. Summary statistics for branch and node parameters (saved to file "/data/mrbayes_input.nex.vstat"): 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median PSRF+ Nruns ------------------------------------------------------------------------------------------- length{all}[1] 0.104350 0.000106 0.085982 0.125700 0.103903 1.000 2 length{all}[2] 0.060776 0.000046 0.047811 0.074107 0.060410 1.002 2 length{all}[3] 0.054198 0.000045 0.041700 0.067659 0.053890 1.000 2 length{all}[4] 0.000325 0.000000 0.000000 0.000967 0.000222 1.000 2 length{all}[5] 0.000336 0.000000 0.000000 0.000995 0.000234 1.000 2 length{all}[6] 0.000867 0.000000 0.000035 0.001956 0.000760 1.000 2 length{all}[7] 0.000318 0.000000 0.000000 0.000947 0.000226 1.001 2 length{all}[8] 0.000328 0.000000 0.000000 0.000972 0.000225 1.000 2 length{all}[9] 0.079457 0.000073 0.063549 0.096536 0.079191 1.000 2 length{all}[10] 0.064675 0.000060 0.050056 0.079751 0.064288 1.000 2 length{all}[11] 0.131901 0.000176 0.106454 0.157384 0.131067 1.000 2 length{all}[12] 0.009577 0.000016 0.002003 0.016971 0.009229 1.000 2 length{all}[13] 0.000555 0.000000 0.000001 0.001406 0.000455 0.999 2 length{all}[14] 0.006356 0.000009 0.000841 0.012344 0.006127 1.001 2 length{all}[15] 0.008452 0.000011 0.002008 0.014866 0.008207 1.000 2 length{all}[16] 0.004546 0.000006 0.000396 0.009322 0.004392 0.999 2 length{all}[17] 0.005152 0.000010 0.000006 0.010751 0.004854 0.999 2 length{all}[18] 0.006013 0.000008 0.001215 0.011920 0.005689 0.999 2 length{all}[19] 0.007013 0.000014 0.000934 0.014341 0.006608 0.998 2 length{all}[20] 0.000332 0.000000 0.000000 0.001005 0.000214 1.000 2 length{all}[21] 0.000343 0.000000 0.000000 0.001012 0.000232 0.999 2 length{all}[22] 0.004199 0.000010 0.000030 0.010541 0.003657 1.001 2 ------------------------------------------------------------------------------------------- + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when deviation of parameter values within all runs is 0 or when a parameter value (a branch length, for instance) is not sampled in all runs. Summary statistics for partitions with frequency >= 0.10 in at least one run: Average standard deviation of split frequencies = 0.005979 Maximum standard deviation of split frequencies = 0.021199 Average PSRF for parameter values (excluding NA and >10.0) = 1.000 Maximum PSRF for parameter values = 1.002 Clade credibility values: /------------------------------------------------------------------------ C1 (1) | |------------------------------------------------------------------------ C2 (2) | |------------------------------------------------------------------------ C3 (3) | +------------------------------------------------------------------------ C9 (9) | | /------------------ C4 (4) | /----------------100----------------+ | | \------------------ C5 (5) | | \--------67-------+ /------------------------------------ C6 (6) | | \-------100-------+ /------------------ C7 (7) \--------57-------+ \------------------ C8 (8) Phylogram (based on average branch lengths): /----------------------------------------------------- C1 (1) | |------------------------------- C2 (2) | |---------------------------- C3 (3) | +----------------------------------------- C9 (9) | | / C4 (4) | /------------------------------------------------------------------+ | | \ C5 (5) | | \----+ / C6 (6) | | \--------------------------------+ C7 (7) | \ C8 (8) |---------| 0.020 expected changes per site Calculating tree probabilities... Credible sets of trees (93 trees sampled): 50 % credible set contains 5 trees 90 % credible set contains 33 trees 95 % credible set contains 45 trees 99 % credible set contains 70 trees Exiting mrbayes block Reached end of file Tasks completed, exiting program because mode is noninteractive To return control to the command line after completion of file processing, set mode to interactive with 'mb -i <filename>' (i is for interactive) or use 'set mode=interactive' -- Starting log on Tue Oct 25 21:15:10 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.08 sec, SCORE=1000, Nseq=9, Len=1360 C1 MIRSVLVLMCSLTFIGNRTSSQSVDVGPVGSGSCLRSQVRPEYFDIVRNT C2 MIRSVLVLMCSLTFIGNRTSSQSVDVGSAGSGSCLRSQVRPEYFDIARNT C3 MIRSVLALMCSLTFIGNRISSQSVDVGSAGSGSCLRSQVRPEYFDIVRNT C4 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTT C6 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C7 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C8 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNT C9 MIRSVLVLMCSLTFIGSRTSSQSVDVGTPASGSCLRSQVRPEYFDIVRNT ******.*********. ****:* :**** ***:*:**: .:.* C1 WPMPIDTSKADGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C2 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C3 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA C4 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C5 WPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSA C6 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C7 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C8 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSA C9 WPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSA **********:*************:**********:************** C1 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C2 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C3 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C4 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C5 PGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKI C6 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C7 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C8 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI C9 PNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKI *.:**:*******:****************:**********:******** C1 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTE C2 YPGFMLGHAVGNYTPTNITGRYFNHTLVILPDGCGTLVHAFYCILQPRTQ C3 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTQ C4 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C5 YPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQ C6 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C7 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C8 YPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQ C9 YPGFMLGHVVGNYTPANITGRYFNHTLVILPDGCGTLVHAFYCVLQPRTQ **.*:*** ******:* ****:*************::*****:*:***: C1 ANCPGAFSFTSVTLWDTPATDCASSDVYNSLANLNAFKLYFDLLNCTFKY C2 AYCPGASSFTSVTLWDTPATDCAPSGVYNPLANLNAFKLYFDLLNCTFKY C3 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY C4 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C5 QNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRY C6 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C7 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C8 ANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRY C9 ANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKY *.* .*.*::******:**. .. ** *.*.***:****:****:* C1 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C2 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C3 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C4 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C5 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C6 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C7 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C8 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL C9 NYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL ************************************************** C1 YYTVIPRSIRSPFNDRKAWAAFYIYKLYPLTYLLNFDVEGYITKAVDCGY C2 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C3 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C4 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C5 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C6 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C7 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C8 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY C9 YYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGY ***************************:********************** C1 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFSPMLTG C2 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTEECDFTPMLTG C3 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQAVTEECDFTPMLTG C4 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C5 DDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C6 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C7 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C8 DDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTG C9 DDFAQLQCSYESFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLSG **:********.*:***********************.*:****:***:* C1 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C2 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C3 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C4 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C5 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C6 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C7 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C8 TPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL C9 TPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSL ******:******************************************* C1 TVDYFSYPTSMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTSI C2 TVDYFAYSTEMSSYLQPGSAGEIGQFNYKQDFSNPTCRVLATVPQNLTTI C3 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI C4 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C5 TVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTI C6 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C7 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C8 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTI C9 TVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTI *****:*.*.*********** * ******************** ***:* C1 TKPSNYVHLTECYKFIAHGKNYLYNAPGGYTPCLSLASSGFSRDRQSHSQ C2 TKPSNYAYLTECYKTSSYGKNYLYNAPGGYTPCLSLASRGFSTKYQSYS- C3 TKPSNYAYLTECYKTTAYGKNYLYNAPGGYTPCLSLASRGFSIKYQSHS- C4 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C5 TKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS- C6 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C7 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C8 TKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSL C9 TKPSNYAYLTECYKTSAYGKNYLYNAPGGYTPCLSLASRGFSTTYQSHS- **.***.:****** ::**********.********* **: **:* C1 ELPDGSFLTTTGSVYSVGSNFQMAFIISVQYGTDTNSVCPMQALRNDTSI C2 ---DG-ELTTTGYVYPVSGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C3 ---DG-ELTTTGYIYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C4 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C5 ---DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C6 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C7 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C8 ELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI C9 ---DG-GLTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSI ** *.*** :*.* .*:***************************** C1 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C2 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C3 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C4 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C5 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C6 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C7 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C8 EDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG C9 EDKLDVCVEYSLHGITGCGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNG ***************** ******************************** C1 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C2 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C3 NYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTN C4 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C5 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C6 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C7 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C8 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN C9 NYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTN *******************.****************************** C1 LLARTTRGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTPSRV- C2 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C3 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRL- C4 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C5 LLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV- C6 LLPRTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C7 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C8 LPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF- C9 LLARTNPGPLQTTVGCAMGFINTSMVVDECQLPLGQSLCAIPPSPSARLA * .**. ***************:********************:..:*. C1 LRAASGVPHVFQIATLNFTSPLTLTPINSTGFVVAVPTNFTFGVTQEFIE C2 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C3 RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C4 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C5 RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C6 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C7 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C8 RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE C9 RSARSGNVDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIE * * .***************:************************* C1 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C2 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALRGANLRQDESI C3 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C4 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C5 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C6 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C7 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C8 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI C9 TTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESI ***************************************:********** C1 ANLFSSIKTQNTQPLQAGLNGDFNLTILQIPQVSTGERKYRSAIEDLLFN C2 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C3 SNLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFN C4 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C5 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C6 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C7 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C8 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFN C9 ANLFSSIKTQNTQPLQAGLNGDFNLTMLQVPQVTTGERKYRSAIEDLLFN :*************************:**:***:********:******* C1 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C2 KVTIADPGYMQGYDECMQQGLQSARDLICAQYVAGYKVLPPLYDTYMEAA C3 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C4 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C6 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C7 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C8 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA C9 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAA ******************** ***********************.***** C1 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C2 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C3 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C4 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C5 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C6 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C7 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C8 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI C9 YTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKI ************************************************** C1 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C2 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMTLSKLAAELSNTFGA C3 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C4 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C5 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C6 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C7 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C8 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA C9 IANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGA ***********************************:************** C1 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C2 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C3 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C4 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C5 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C6 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C7 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C8 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA C9 ISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSA ************************************************** C1 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C2 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C3 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C4 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C5 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C6 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C7 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C8 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSH C9 QLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTAH ************************************************:* C1 VNATAAYGLCNSENPPKCIAPIDGYFVLNQTTSAARSSDDQQWYYTGSSF C2 INATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTV-ANSDQQWYYTGSSF C3 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTISTV-ANSDQQWYYTGSSF C4 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C5 VNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF C6 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C7 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C8 VNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF C9 VNATAAYGLCNTETPPKCVAPIDGYFVLNQTTTTARVGADQQWYYTGSSF :**********:*.* **:************ ::. . **:******** C1 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKDELEEFFKN C2 FHPEPITEANSKYVSMDVKFKNLTNKLPPPLLSNSTDLDFKEKLEEFFKN C3 FYPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C4 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN C6 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C7 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C8 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKN C9 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKN *:******************:****:***************::******* C1 VSSQRPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C2 VSSQGPNFQEISKNYTTLLNLNTKLMVLSEVVKQLNESYIDLKELGNYTF C3 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C4 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C5 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C6 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C7 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C8 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF C9 VSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTF **** ******** ********:************************** C1 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C2 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C3 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C4 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C5 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C6 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C7 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C8 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD C9 YQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYD ************************************************** C1 EYEVEKIHVH C2 EYEVEKIHIH C3 EYEVEKIHVH C4 EYEVEKIHVH C5 EYEVEKIHVH C6 EYEVEKIHVH C7 EYEVEKIHVH C8 EYEVEKIHVH C9 EYEVEKIHVH ********:* -- Starting log on Tue Oct 25 21:58:40 GMT 2022 -- -- Iteration: /working_dir/pss_subsets/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result/original_alignment/codeml,TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result.1-- CODONML in paml version 4.9h, March 2018 ---------------------------------------------- Phe F TTT | Ser S TCT | Tyr Y TAT | Cys C TGT TTC | TCC | TAC | TGC Leu L TTA | TCA | *** * TAA | *** * TGA TTG | TCG | TAG | Trp W TGG ---------------------------------------------- Leu L CTT | Pro P CCT | His H CAT | Arg R CGT CTC | CCC | CAC | CGC CTA | CCA | Gln Q CAA | CGA CTG | CCG | CAG | CGG ---------------------------------------------- Ile I ATT | Thr T ACT | Asn N AAT | Ser S AGT ATC | ACC | AAC | AGC ATA | ACA | Lys K AAA | Arg R AGA Met M ATG | ACG | AAG | AGG ---------------------------------------------- Val V GTT | Ala A GCT | Asp D GAT | Gly G GGT GTC | GCC | GAC | GGC GTA | GCA | Glu E GAA | GGA GTG | GCG | GAG | GGG ---------------------------------------------- Nice code, uuh? NSsites batch run (ncatG as in YNGP2000): 1 2 7 8 processing fasta file reading seq# 1 C1 4080 sites reading seq# 2 C2 4080 sites reading seq# 3 C3 4080 sites reading seq# 4 C4 4080 sites reading seq# 5 C5 4080 sites reading seq# 6 C6 4080 sites reading seq# 7 C7 4080 sites reading seq# 8 C8 4080 sites reading seq# 9 C9 4080 sitesns = 9 ls = 4080 Reading sequences, sequential format.. Reading seq # 1: C1 Reading seq # 2: C2 Reading seq # 3: C3 Reading seq # 4: C4 Reading seq # 5: C5 Reading seq # 6: C6 Reading seq # 7: C7 Reading seq # 8: C8 Reading seq # 9: C9 Sites with gaps or missing data are removed. 3 ambiguity characters in seq. 1 21 ambiguity characters in seq. 2 21 ambiguity characters in seq. 3 24 ambiguity characters in seq. 4 24 ambiguity characters in seq. 5 9 ambiguity characters in seq. 6 9 ambiguity characters in seq. 7 9 ambiguity characters in seq. 8 15 ambiguity characters in seq. 9 9 sites are removed. 224 550 551 552 553 556 750 756 1186 Sequences read.. Counting site patterns.. 0:00 Compressing, 579 patterns at 1351 / 1351 sites (100.0%), 0:00 Collecting fpatt[] & pose[], 579 patterns at 1351 / 1351 sites (100.0%), 0:00 Counting codons.. 288 bytes for distance 565104 bytes for conP 50952 bytes for fhK 5000000 bytes for space Model 1: NearlyNeutral TREE # 1 (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 1412760 bytes for conP, adjusted 0.060630 0.054999 0.044817 0.107544 0.054247 0.097038 0.057926 0.024801 0.081302 0.057293 0.076808 0.062603 0.055137 0.300000 0.775985 0.584548 ntime & nrate & np: 13 2 16 Bounds (np=16): 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.000001 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 1.000000 Qfactor_NS = 10.967753 np = 16 lnL0 = -11828.947655 Iterating by ming2 Initial: fx= 11828.947655 x= 0.06063 0.05500 0.04482 0.10754 0.05425 0.09704 0.05793 0.02480 0.08130 0.05729 0.07681 0.06260 0.05514 0.30000 0.77598 0.58455 1 h-m-p 0.0000 0.0000 4855.0906 ++ 11446.221143 m 0.0000 21 | 1/16 2 h-m-p 0.0000 0.0000 6677.7678 ++ 11197.252314 m 0.0000 40 | 2/16 3 h-m-p 0.0000 0.0000 9031.1222 ++ 11180.874457 m 0.0000 59 | 3/16 4 h-m-p 0.0000 0.0000 29329.4857 ++ 11166.934620 m 0.0000 78 | 4/16 5 h-m-p 0.0000 0.0000 5668.8666 ++ 11128.295027 m 0.0000 97 | 4/16 6 h-m-p 0.0000 0.0000 2907.2711 h-m-p: 8.21391033e-20 4.10695516e-19 2.90727107e+03 11128.295027 .. | 4/16 7 h-m-p 0.0000 0.0000 89459.8024 -YYCYCCC 11124.982728 6 0.0000 143 | 4/16 8 h-m-p 0.0000 0.0000 2181.1966 +CYCYCYC 11115.209980 6 0.0000 173 | 4/16 9 h-m-p 0.0000 0.0001 11985.7999 ++ 10620.935371 m 0.0001 192 | 4/16 10 h-m-p 0.0000 0.0000 5710.4140 +YYYYYCCCCC 10400.400137 9 0.0000 225 | 4/16 11 h-m-p 0.0000 0.0000 3964.6175 YCYCCC 10382.038668 5 0.0000 252 | 4/16 12 h-m-p 0.0000 0.0009 1969.1248 ++YCCCC 10291.987628 4 0.0001 280 | 4/16 13 h-m-p 0.0003 0.0015 562.7054 +YYYCCCC 10086.938522 6 0.0011 309 | 4/16 14 h-m-p 0.0000 0.0002 1389.8025 +YYCCC 10045.544297 4 0.0001 335 | 4/16 15 h-m-p 0.0000 0.0001 756.3695 ++ 10028.706995 m 0.0001 354 | 4/16 16 h-m-p 0.0000 0.0000 132.0302 h-m-p: 1.49055868e-19 7.45279341e-19 1.32030216e+02 10028.706995 .. | 4/16 17 h-m-p 0.0000 0.0000 2926.0567 +CYCYYCC 10007.002121 6 0.0000 400 | 4/16 18 h-m-p 0.0000 0.0000 2862.1775 CYCCC 10005.341659 4 0.0000 426 | 4/16 19 h-m-p 0.0000 0.0000 860.9884 +YYYC 10002.587044 3 0.0000 449 | 4/16 20 h-m-p 0.0000 0.0000 2714.8312 YCCCC 9996.910549 4 0.0000 475 | 4/16 21 h-m-p 0.0000 0.0004 1259.9337 +CCC 9978.541148 2 0.0001 499 | 4/16 22 h-m-p 0.0002 0.0008 304.8884 CCCCC 9970.147884 4 0.0002 526 | 4/16 23 h-m-p 0.0005 0.0023 108.0175 CCC 9969.484943 2 0.0001 549 | 4/16 24 h-m-p 0.0004 0.0053 33.4573 CC 9969.405358 1 0.0002 570 | 4/16 25 h-m-p 0.0006 0.0601 8.7626 YC 9969.389134 1 0.0004 590 | 4/16 26 h-m-p 0.0002 0.1213 19.7347 +YC 9969.241799 1 0.0021 611 | 4/16 27 h-m-p 0.0003 0.0272 156.0191 YC 9968.980995 1 0.0005 631 | 4/16 28 h-m-p 0.0056 0.0280 13.5356 --CC 9968.975692 1 0.0001 654 | 4/16 29 h-m-p 0.1036 6.6740 0.0181 ++YCC 9966.320750 2 1.3603 678 | 4/16 30 h-m-p 0.6885 3.4426 0.0091 YCCC 9964.988668 3 1.6252 714 | 4/16 31 h-m-p 0.7554 3.7771 0.0049 CYC 9964.908595 2 0.7149 748 | 4/16 32 h-m-p 0.9654 4.8823 0.0036 YCC 9964.883414 2 0.6329 782 | 4/16 33 h-m-p 1.6000 8.0000 0.0012 YC 9964.880579 1 0.9775 814 | 4/16 34 h-m-p 1.6000 8.0000 0.0001 C 9964.880348 0 1.3440 845 | 4/16 35 h-m-p 1.6000 8.0000 0.0001 Y 9964.880337 0 0.9332 876 | 4/16 36 h-m-p 1.6000 8.0000 0.0000 -Y 9964.880337 0 0.0509 908 | 4/16 37 h-m-p 0.0566 8.0000 0.0000 Y 9964.880337 0 0.0375 939 | 4/16 38 h-m-p 0.0341 8.0000 0.0000 Y 9964.880337 0 0.0085 970 | 4/16 39 h-m-p 0.0160 8.0000 0.0000 -Y 9964.880337 0 0.0017 1002 Out.. lnL = -9964.880337 1003 lfun, 3009 eigenQcodon, 26078 P(t) end of tree file. Time used: 0:22 Model 2: PositiveSelection TREE # 1 (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 0.058338 0.062677 0.045860 0.037927 0.072472 0.107708 0.090418 0.021408 0.071262 0.020858 0.050709 0.033032 0.041394 2.021064 1.609622 0.481181 0.306939 1.495002 ntime & nrate & np: 13 3 18 Bounds (np=18): 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 -99.000000 -99.000000 0.000001 1.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 1.000000 999.000000 Qfactor_NS = 6.432078 np = 18 lnL0 = -11096.793119 Iterating by ming2 Initial: fx= 11096.793119 x= 0.05834 0.06268 0.04586 0.03793 0.07247 0.10771 0.09042 0.02141 0.07126 0.02086 0.05071 0.03303 0.04139 2.02106 1.60962 0.48118 0.30694 1.49500 1 h-m-p 0.0000 0.0000 5665.4033 ++ 10700.400620 m 0.0000 23 | 0/18 2 h-m-p 0.0000 0.0000 14653.6722 ++ 10698.607582 m 0.0000 44 | 1/18 3 h-m-p 0.0000 0.0000 4008.5228 ++ 10635.085517 m 0.0000 65 | 2/18 4 h-m-p 0.0000 0.0000 14383.7712 ++ 10602.792900 m 0.0000 86 | 3/18 5 h-m-p 0.0000 0.0000 6321.5042 ++ 10515.347140 m 0.0000 107 | 4/18 6 h-m-p 0.0000 0.0000 2505.8295 ++ 10436.554922 m 0.0000 128 | 4/18 7 h-m-p 0.0000 0.0000 48263.7182 h-m-p: 4.81957972e-22 2.40978986e-21 4.82637182e+04 10436.554922 .. | 4/18 8 h-m-p 0.0000 0.0002 126609.3094 ---CYYYC 10432.733573 4 0.0000 176 | 4/18 9 h-m-p 0.0000 0.0000 2609.3255 ++ 10415.405528 m 0.0000 197 | 5/18 10 h-m-p 0.0000 0.0001 2164.0678 ++ 10145.102386 m 0.0001 218 | 6/18 11 h-m-p 0.0006 0.0028 286.7161 CCCC 10128.375826 3 0.0005 245 | 6/18 12 h-m-p 0.0001 0.0006 580.0021 +YYCCC 10094.983858 4 0.0004 273 | 6/18 13 h-m-p 0.0003 0.0029 785.0598 CYCC 10065.958972 3 0.0004 299 | 5/18 14 h-m-p 0.0000 0.0001 39234.4016 YCCCC 10046.867736 4 0.0000 327 | 5/18 15 h-m-p 0.0003 0.0013 470.1664 CCCCC 10034.353051 4 0.0003 356 | 5/18 16 h-m-p 0.0023 0.0114 16.0227 +YYYYCCCC 10014.827686 7 0.0093 388 | 4/18 17 h-m-p 0.0000 0.0000 39971.5550 YYC 10014.176657 2 0.0000 411 | 4/18 18 h-m-p 0.0000 0.0000 452.3498 +YYYCYCCC 10010.608972 7 0.0000 443 | 4/18 19 h-m-p 0.0006 0.0065 25.8586 YC 10010.503729 1 0.0003 465 | 4/18 20 h-m-p 0.0007 0.0205 11.0266 +++ 10007.399369 m 0.0205 487 | 5/18 21 h-m-p 0.0002 0.0016 840.2425 +YCCC 10004.203004 3 0.0005 514 | 5/18 22 h-m-p 0.0553 0.4416 7.7694 CCCCC 9997.241223 4 0.0814 543 | 5/18 23 h-m-p 0.0552 0.2762 6.2340 CCCCC 9981.822118 4 0.0830 572 | 5/18 24 h-m-p 0.1181 0.5905 3.7789 CCCC 9973.473137 3 0.1866 599 | 5/18 25 h-m-p 0.1031 0.5156 0.4863 +YYYCCCC 9968.575478 6 0.4200 630 | 5/18 26 h-m-p 0.1690 1.9437 1.2084 CYCC 9966.520100 3 0.1215 669 | 5/18 27 h-m-p 0.7315 8.0000 0.2007 CCC 9965.124357 2 0.7492 694 | 5/18 28 h-m-p 1.6000 8.0000 0.0450 YC 9964.982006 1 0.7558 729 | 5/18 29 h-m-p 1.6000 8.0000 0.0153 CC 9964.913412 1 1.8598 765 | 5/18 30 h-m-p 1.6000 8.0000 0.0136 YC 9964.891130 1 1.0382 800 | 4/18 31 h-m-p 0.0609 8.0000 0.2326 YC 9964.886655 1 0.1257 835 | 4/18 32 h-m-p 1.3769 8.0000 0.0212 YC 9964.878873 1 0.8008 871 | 4/18 33 h-m-p 1.6000 8.0000 0.0051 YC 9964.878264 1 0.9828 907 | 4/18 34 h-m-p 1.0236 8.0000 0.0049 YC 9964.877722 1 2.0469 943 | 4/18 35 h-m-p 1.6000 8.0000 0.0038 C 9964.877559 0 1.4221 978 | 4/18 36 h-m-p 1.6000 8.0000 0.0021 +Y 9964.877462 0 4.3329 1014 | 4/18 37 h-m-p 1.6000 8.0000 0.0051 C 9964.877381 0 2.3803 1049 | 4/18 38 h-m-p 1.6000 8.0000 0.0056 ++ 9964.876853 m 8.0000 1084 | 4/18 39 h-m-p 0.0145 2.9675 3.0569 +CYC 9964.874688 2 0.0826 1123 | 4/18 40 h-m-p 1.4726 8.0000 0.1715 C 9964.874582 0 0.3227 1144 | 4/18 41 h-m-p 0.5069 5.1922 0.1092 ------------C 9964.874582 0 0.0000 1191 | 4/18 42 h-m-p 0.0160 8.0000 0.0060 +++YC 9964.871318 1 2.0862 1230 | 4/18 43 h-m-p 1.6000 8.0000 0.0031 CC 9964.868224 1 2.0941 1267 | 4/18 44 h-m-p 0.2963 8.0000 0.0222 +C 9964.867216 0 1.1852 1303 | 4/18 45 h-m-p 1.6000 8.0000 0.0040 Y 9964.867129 0 0.8847 1338 | 4/18 46 h-m-p 1.6000 8.0000 0.0006 ------------Y 9964.867129 0 0.0000 1385 Out.. lnL = -9964.867129 1386 lfun, 5544 eigenQcodon, 54054 P(t) BEBing (dim = 4). This may take several minutes. Calculating f(x_h|w): 10 categories 21 w sets. Calculating f(X), the marginal likelihood. log(fX) = -9989.099603 S = -9617.318849 -362.578585 Calculating f(w|X), posterior probabilities of site classes. did 10 / 579 patterns 1:08 did 20 / 579 patterns 1:08 did 30 / 579 patterns 1:08 did 40 / 579 patterns 1:08 did 50 / 579 patterns 1:08 did 60 / 579 patterns 1:09 did 70 / 579 patterns 1:09 did 80 / 579 patterns 1:09 did 90 / 579 patterns 1:09 did 100 / 579 patterns 1:09 did 110 / 579 patterns 1:09 did 120 / 579 patterns 1:09 did 130 / 579 patterns 1:09 did 140 / 579 patterns 1:09 did 150 / 579 patterns 1:09 did 160 / 579 patterns 1:09 did 170 / 579 patterns 1:09 did 180 / 579 patterns 1:09 did 190 / 579 patterns 1:09 did 200 / 579 patterns 1:09 did 210 / 579 patterns 1:09 did 220 / 579 patterns 1:09 did 230 / 579 patterns 1:09 did 240 / 579 patterns 1:09 did 250 / 579 patterns 1:09 did 260 / 579 patterns 1:09 did 270 / 579 patterns 1:09 did 280 / 579 patterns 1:10 did 290 / 579 patterns 1:10 did 300 / 579 patterns 1:10 did 310 / 579 patterns 1:10 did 320 / 579 patterns 1:10 did 330 / 579 patterns 1:10 did 340 / 579 patterns 1:10 did 350 / 579 patterns 1:10 did 360 / 579 patterns 1:10 did 370 / 579 patterns 1:10 did 380 / 579 patterns 1:10 did 390 / 579 patterns 1:10 did 400 / 579 patterns 1:10 did 410 / 579 patterns 1:10 did 420 / 579 patterns 1:10 did 430 / 579 patterns 1:10 did 440 / 579 patterns 1:10 did 450 / 579 patterns 1:10 did 460 / 579 patterns 1:10 did 470 / 579 patterns 1:10 did 480 / 579 patterns 1:10 did 490 / 579 patterns 1:10 did 500 / 579 patterns 1:11 did 510 / 579 patterns 1:11 did 520 / 579 patterns 1:11 did 530 / 579 patterns 1:11 did 540 / 579 patterns 1:11 did 550 / 579 patterns 1:11 did 560 / 579 patterns 1:11 did 570 / 579 patterns 1:11 did 579 / 579 patterns 1:11end of tree file. Time used: 1:11 Model 7: beta TREE # 1 (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 0.047503 0.039145 0.042882 0.018480 0.098814 0.101551 0.027673 0.073564 0.105726 0.024954 0.055964 0.074073 0.045361 2.031454 0.926877 1.646893 ntime & nrate & np: 13 1 16 Bounds (np=16): 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.005000 0.005000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 Qfactor_NS = 8.856176 np = 16 lnL0 = -11138.721348 Iterating by ming2 Initial: fx= 11138.721348 x= 0.04750 0.03915 0.04288 0.01848 0.09881 0.10155 0.02767 0.07356 0.10573 0.02495 0.05596 0.07407 0.04536 2.03145 0.92688 1.64689 1 h-m-p 0.0000 0.0000 9750.9384 ++ 10515.324875 m 0.0000 21 | 0/16 2 h-m-p 0.0000 0.0000 7013.3894 ++ 10502.217036 m 0.0000 40 | 1/16 3 h-m-p 0.0000 0.0000 3648.8843 ++ 10406.365297 m 0.0000 59 | 2/16 4 h-m-p 0.0000 0.0000 10220.7811 ++ 10355.459374 m 0.0000 78 | 2/16 5 h-m-p 0.0000 0.0000 8539.6132 h-m-p: 1.20435897e-20 6.02179487e-20 8.53961316e+03 10355.459374 .. | 2/16 6 h-m-p 0.0000 0.0000 10954.1327 CYYC 10353.638864 3 0.0000 118 | 2/16 7 h-m-p 0.0000 0.0000 2338.2865 ++ 10326.627719 m 0.0000 137 | 2/16 8 h-m-p 0.0000 0.0000 8827.7585 ++ 10310.684123 m 0.0000 156 | 3/16 9 h-m-p 0.0000 0.0000 5346.8434 ++ 10310.475229 m 0.0000 175 | 4/16 10 h-m-p 0.0000 0.0000 923.6610 ++ 10301.418233 m 0.0000 194 | 4/16 11 h-m-p -0.0000 -0.0000 2705.5655 h-m-p: -0.00000000e+00 -0.00000000e+00 2.70556549e+03 10301.418233 .. | 4/16 12 h-m-p 0.0000 0.0002 87778.2859 ---CCYYYYC 10298.084362 6 0.0000 240 | 4/16 13 h-m-p 0.0000 0.0000 971.6195 +YYYCCC 10296.704357 5 0.0000 267 | 4/16 14 h-m-p 0.0000 0.0000 3604.5056 +YYCCC 10251.241838 4 0.0000 293 | 4/16 15 h-m-p 0.0002 0.0017 659.5351 CYCCC 10230.440570 4 0.0002 319 | 4/16 16 h-m-p 0.0001 0.0009 888.7167 +YYYCYYYYCC 10027.435911 10 0.0007 351 | 4/16 17 h-m-p 0.0001 0.0003 686.2708 YYCC 10021.954811 3 0.0001 374 | 4/16 18 h-m-p 0.0006 0.0047 63.5728 YCC 10021.290840 2 0.0003 396 | 4/16 19 h-m-p 0.0002 0.0170 110.6905 +YCCC 10017.808957 3 0.0014 421 | 4/16 20 h-m-p 0.0022 0.0118 72.0468 -CCC 10017.562294 2 0.0002 445 | 4/16 21 h-m-p 0.0005 0.0129 28.6443 YC 10017.471983 1 0.0003 465 | 4/16 22 h-m-p 0.0019 0.2978 4.4488 +YC 10017.329643 1 0.0053 486 | 4/16 23 h-m-p 0.0002 0.0173 126.7352 ++YCCC 10015.732421 3 0.0019 512 | 4/16 24 h-m-p 0.1645 0.8223 0.3057 YCYCCC 9991.446884 5 0.4190 539 | 4/16 25 h-m-p 0.3415 5.5371 0.3751 +CCCCC 9984.929715 4 1.7856 579 | 4/16 26 h-m-p 0.4178 2.0888 0.7215 YCYYCCC 9973.921744 6 1.2365 620 | 4/16 27 h-m-p 0.1877 0.9387 0.6407 CYCCC 9971.669271 4 0.3019 658 | 4/16 28 h-m-p 0.4540 7.2578 0.4260 CCC 9968.735532 2 0.4097 693 | 4/16 29 h-m-p 0.8261 4.1307 0.1475 CCC 9968.168154 2 0.2867 728 | 4/16 30 h-m-p 1.4830 8.0000 0.0285 YCC 9968.060090 2 0.9529 762 | 4/16 31 h-m-p 1.6000 8.0000 0.0027 YC 9968.050850 1 0.9117 794 | 4/16 32 h-m-p 0.9556 8.0000 0.0026 C 9968.049892 0 0.9159 825 | 4/16 33 h-m-p 1.6000 8.0000 0.0001 Y 9968.049701 0 3.2477 856 | 4/16 34 h-m-p 1.6000 8.0000 0.0001 ++ 9968.048448 m 8.0000 887 | 4/16 35 h-m-p 1.6000 8.0000 0.0005 C 9968.047071 0 1.6980 918 | 4/16 36 h-m-p 1.5663 8.0000 0.0006 Y 9968.046885 0 1.1660 949 | 4/16 37 h-m-p 1.6000 8.0000 0.0002 Y 9968.046883 0 0.9806 980 | 4/16 38 h-m-p 1.6000 8.0000 0.0000 Y 9968.046883 0 3.7575 1011 | 4/16 39 h-m-p 1.3410 8.0000 0.0000 -C 9968.046883 0 0.0725 1043 | 4/16 40 h-m-p 0.0779 8.0000 0.0000 ---Y 9968.046883 0 0.0003 1077 Out.. lnL = -9968.046883 1078 lfun, 11858 eigenQcodon, 140140 P(t) end of tree file. Time used: 3:08 Model 8: beta&w>1 TREE # 1 (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 0.036785 0.094741 0.071327 0.019087 0.019869 0.038910 0.012001 0.048893 0.017313 0.083263 0.087546 0.106714 0.072782 2.017588 0.900000 0.347478 1.164304 1.300000 ntime & nrate & np: 13 2 18 Bounds (np=18): 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.005000 0.005000 1.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 99.000000 99.000000 999.000000 Qfactor_NS = 9.218910 np = 18 lnL0 = -11355.676740 Iterating by ming2 Initial: fx= 11355.676740 x= 0.03678 0.09474 0.07133 0.01909 0.01987 0.03891 0.01200 0.04889 0.01731 0.08326 0.08755 0.10671 0.07278 2.01759 0.90000 0.34748 1.16430 1.30000 1 h-m-p 0.0000 0.0000 11710.4045 ++ 10682.770159 m 0.0000 23 | 1/18 2 h-m-p 0.0000 0.0000 3148.0245 ++ 10410.323203 m 0.0000 44 | 2/18 3 h-m-p 0.0000 0.0000 16881.8579 ++ 10275.948290 m 0.0000 65 | 3/18 4 h-m-p 0.0000 0.0000 9027.8438 ++ 10229.116332 m 0.0000 86 | 3/18 5 h-m-p 0.0000 0.0000 5424.2167 +CCYYYYY 10212.779676 6 0.0000 116 | 3/18 6 h-m-p 0.0000 0.0000 3811.9193 ++ 10168.891409 m 0.0000 137 | 4/18 7 h-m-p 0.0000 0.0000 1286.0375 ++ 10151.741809 m 0.0000 158 | 5/18 8 h-m-p 0.0000 0.0003 954.4640 +YCYYCCCC 10077.470556 7 0.0002 191 | 4/18 9 h-m-p 0.0000 0.0000 9481.3511 CYCCC 10066.433539 4 0.0000 219 | 4/18 10 h-m-p 0.0000 0.0001 1441.2480 YCCCCC 10060.313369 5 0.0000 249 | 4/18 11 h-m-p 0.0001 0.0007 134.2722 YCCC 10055.385301 3 0.0003 275 | 4/18 12 h-m-p 0.0000 0.0002 258.7121 +YYCCC 10052.306600 4 0.0001 303 | 4/18 13 h-m-p 0.0004 0.0050 88.3236 YCCC 10050.189827 3 0.0007 329 | 4/18 14 h-m-p 0.0001 0.0013 476.6709 +YYC 10043.235804 2 0.0004 353 | 4/18 15 h-m-p 0.0173 0.2370 12.2485 CYC 10041.160453 2 0.0169 377 | 4/18 16 h-m-p 0.0270 0.2293 7.6378 YC 10039.930699 1 0.0138 399 | 4/18 17 h-m-p 0.0468 1.8120 2.2590 ++YCYC 10009.007703 3 0.5066 426 | 4/18 18 h-m-p 0.0142 0.0711 10.9286 +CYYCC 9982.827167 4 0.0630 454 | 4/18 19 h-m-p 0.0290 0.1452 8.5831 CCC 9981.299891 2 0.0259 479 | 4/18 20 h-m-p 0.9600 8.0000 0.2316 +YCCC 9961.892134 3 2.3915 506 | 4/18 21 h-m-p 1.6000 8.0000 0.0390 CYC 9960.757670 2 1.8744 544 | 4/18 22 h-m-p 1.6000 8.0000 0.0415 CY 9960.485110 1 1.5640 581 | 4/18 23 h-m-p 1.1882 8.0000 0.0546 CY 9960.419736 1 1.0721 618 | 4/18 24 h-m-p 1.6000 8.0000 0.0143 CC 9960.396422 1 1.9207 655 | 4/18 25 h-m-p 1.6000 8.0000 0.0126 +CC 9960.362608 1 5.8358 693 | 4/18 26 h-m-p 1.6000 8.0000 0.0134 YC 9960.339153 1 2.5826 729 | 4/18 27 h-m-p 1.6000 8.0000 0.0121 YC 9960.321739 1 2.9017 765 | 4/18 28 h-m-p 1.6000 8.0000 0.0049 YC 9960.318907 1 3.5593 801 | 4/18 29 h-m-p 1.6000 8.0000 0.0086 YC 9960.314653 1 3.9525 837 | 4/18 30 h-m-p 1.6000 8.0000 0.0114 YC 9960.310995 1 3.3188 873 | 4/18 31 h-m-p 1.6000 8.0000 0.0121 CC 9960.308673 1 2.2759 910 | 4/18 32 h-m-p 1.6000 8.0000 0.0056 Y 9960.308260 0 1.2467 945 | 4/18 33 h-m-p 1.6000 8.0000 0.0009 Y 9960.308175 0 3.7761 980 | 4/18 34 h-m-p 1.6000 8.0000 0.0019 C 9960.308097 0 2.0686 1015 | 4/18 35 h-m-p 1.6000 8.0000 0.0004 Y 9960.308044 0 3.1555 1050 | 4/18 36 h-m-p 1.4733 8.0000 0.0008 Y 9960.308035 0 1.1086 1085 | 4/18 37 h-m-p 1.6000 8.0000 0.0001 C 9960.308034 0 0.6041 1120 | 4/18 38 h-m-p 0.3888 8.0000 0.0001 C 9960.308034 0 0.4562 1155 | 4/18 39 h-m-p 0.4619 8.0000 0.0001 Y 9960.308034 0 0.3393 1190 | 4/18 40 h-m-p 0.3894 8.0000 0.0001 Y 9960.308034 0 0.2332 1225 | 4/18 41 h-m-p 0.2896 8.0000 0.0001 Y 9960.308034 0 0.1300 1260 | 4/18 42 h-m-p 0.1444 8.0000 0.0001 C 9960.308034 0 0.0578 1295 | 4/18 43 h-m-p 0.0599 8.0000 0.0001 --Y 9960.308034 0 0.0009 1332 | 4/18 44 h-m-p 0.0160 8.0000 0.0003 ----Y 9960.308034 0 0.0000 1371 Out.. lnL = -9960.308034 1372 lfun, 16464 eigenQcodon, 196196 P(t) BEBing (dim = 4). This may take several minutes. Calculating f(x_h|w): 10 categories 20 w sets. Calculating f(X), the marginal likelihood. log(fX) = -10008.618313 S = -9617.630330 -417.955446 Calculating f(w|X), posterior probabilities of site classes. did 10 / 579 patterns 5:52 did 20 / 579 patterns 5:52 did 30 / 579 patterns 5:52 did 40 / 579 patterns 5:52 did 50 / 579 patterns 5:53 did 60 / 579 patterns 5:53 did 70 / 579 patterns 5:53 did 80 / 579 patterns 5:53 did 90 / 579 patterns 5:53 did 100 / 579 patterns 5:54 did 110 / 579 patterns 5:54 did 120 / 579 patterns 5:54 did 130 / 579 patterns 5:54 did 140 / 579 patterns 5:54 did 150 / 579 patterns 5:54 did 160 / 579 patterns 5:55 did 170 / 579 patterns 5:55 did 180 / 579 patterns 5:55 did 190 / 579 patterns 5:55 did 200 / 579 patterns 5:55 did 210 / 579 patterns 5:55 did 220 / 579 patterns 5:56 did 230 / 579 patterns 5:56 did 240 / 579 patterns 5:56 did 250 / 579 patterns 5:56 did 260 / 579 patterns 5:56 did 270 / 579 patterns 5:57 did 280 / 579 patterns 5:57 did 290 / 579 patterns 5:57 did 300 / 579 patterns 5:57 did 310 / 579 patterns 5:57 did 320 / 579 patterns 5:57 did 330 / 579 patterns 5:58 did 340 / 579 patterns 5:58 did 350 / 579 patterns 5:58 did 360 / 579 patterns 5:58 did 370 / 579 patterns 5:58 did 380 / 579 patterns 5:58 did 390 / 579 patterns 5:59 did 400 / 579 patterns 5:59 did 410 / 579 patterns 5:59 did 420 / 579 patterns 5:59 did 430 / 579 patterns 5:59 did 440 / 579 patterns 6:00 did 450 / 579 patterns 6:00 did 460 / 579 patterns 6:00 did 470 / 579 patterns 6:00 did 480 / 579 patterns 6:00 did 490 / 579 patterns 6:00 did 500 / 579 patterns 6:01 did 510 / 579 patterns 6:01 did 520 / 579 patterns 6:01 did 530 / 579 patterns 6:01 did 540 / 579 patterns 6:01 did 550 / 579 patterns 6:02 did 560 / 579 patterns 6:02 did 570 / 579 patterns 6:02 did 579 / 579 patterns 6:02end of tree file. Time used: 6:02 The loglikelihoods for models M1, M2, M7 and M8 are -9964.880337 -9964.867129 -9968.046883 -9960.308034 respectively The loglikelihood for model M8 is significantly different from that for M7. Twice the difference is 15.477698
CLUSTAL W (1.8) multiple sequence alignment (ALTER 1.3.3) BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSSQSVDVGPVGSGSCLRSQVRPEYFDIVRNTWPMPIDTSKA BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSSQSVDVGSAGSGSCLRSQVRPEYFDIARNTWPMPIDTSKA BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLALMCSLTFIGNRISSQSVDVGSAGSGSCLRSQVRPEYFDIVRNTWPMPIDTSKA HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTTWPMPIDTSKA LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTTWPMPIDTSKA TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKA TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKA TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKA YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGSRTSSQSVDVGTPASGSCLRSQVRPEYFDIVRNTWPMPIDTSKA ******.*********. ****:* :**** ***:*:**: .:.*********** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 DGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPGRLNNLFVSNYSSQVESFD LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPGRLNNLFVSNYSSQVESFD TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 EGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFD :*************:**********:***************.:**:*******:****** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVIL BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYFNHTLVIL BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVIL HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAAANKTGTTVISQSTFKPIKKIYPAFLLGHSVGNYTPSNRTGRYLNHTLVIL LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAAANKTGTTVISQSTFKPIKKIYPAFLLGHSVGNYTPSNRTGRYLNHTLVIL TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVIL TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVIL TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVIL YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 DGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHVVGNYTPANITGRYFNHTLVIL **********:**********:**********.*:*** ******:* ****:******* BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCVLQPRTEANCPGAFSFTSVTLWDTPATDCASSDVYNSLANLNAFKLY BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCILQPRTQAYCPGASSFTSVTLWDTPATDCAPSGVYNPLANLNAFKLY BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCVLQPRTQANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLY HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTILHAFYCVLHPRTQQNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVY LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTILHAFYCVLHPRTQQNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVY TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLY TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLY TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLY YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 PDGCGTLVHAFYCVLQPRTQANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLY ******::*****:*:***: *.* .*.*::******:**. .. ** *.*.***:* BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKIL LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 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BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGLQSARDLICAQYVAGYKVLPPLYDTYMEAAYTSSLLGSIA BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 KVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIA ******************** ***********************.*************** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 GASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTN ************************************************************ BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMTLSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLT ***************:******************************************** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 SLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYF ************************************************************ BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNSENPPKCIAPIDGYFVLNQTTSAARSSDDQQWYYTGSSF BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHINATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTV-ANSDQQWYYTGSSF BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTISTV-ANSDQQWYYTGSSF HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSF TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSF YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHVGYQPTAHVNATAAYGLCNTETPPKCVAPIDGYFVLNQTTTTARVGADQQWYYTGSSF ********:*:**********:*.* **:************ ::. . **:******** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKDELEEFFKNVSSQRPNFQE BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFKNLTNKLPPPLLSNSTDLDFKEKLEEFFKNVSSQGPNFQE BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FYPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQE HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQE LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQE TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQE TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQE TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQE YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 FHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQE *:******************:****:***************::*********** ***** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ISKNYTTLLNLNTKLMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALA *** ********:********************************************** BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHIH BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 LCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH **************************************:*
>BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCGCACAAGCAGTCAAAGCGTTGATGTTGGTCCTGTTGGTTCGGGTTCCTGTCTACGGTCTCAAGTTAGACCTGAATATTTTGACATTGTCCGTAATACATGGCCAATGCCTATTGACACGAGTAAGGCTGATGGTGTCATTTACCCTAATGGCAAGTCCTACTCTAATATTACTCTAACTTATACTGGGCTGTACCCAAAGGCCAATGACCTTGGTAAGCAGTATTTGTTTTCTGACGGACATAGTGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTGGAGTCTTTTGATGATGGTTTCGTTGTTCGTATTGGAGCTGCTTCCAATAAGACCGGAACCACTGTCATCTCTCAAACAACTTTTAAACCCATTAAGAAAATATACCCTGGTTTTATGCTAGGGCATGCAGTGGGTAATTATACACCTACTAATATTACAGGCCGTTATCTTAACCACACTCTTGTCATCCTACCGGATGGATGTGGTACTCTAGTTCACGCATTCTACTGCGTTCTACAACCTCGCACAGAGGCTAATTGTCCTGGTGCTTTTTCATTCACTTCTGTCACATTGTGGGACACCCCTGCAACTGATTGTGCATCATCTGATGTTTACAATTCTTTGGCAAATTTGAATGCTTTCAAATTGTATTTTGACCTGCTTAATTGCACGTTCAAATACAATTATACTATAACAGAGGATGAAAACGCTGAGTGGTTTGGCATTACCCAAGATACACAAGGCGTACACCTCTATTCCTCTCGAAAAGAGAACGTGTTTAGAAACAACATGTTCCACTTTGCTACATTACCTGTGTACCAGAAAATCCTCTATTACACAGTCATTCCGCGCAGTATCAGAAGTCCTTTCAATGATAGAAAGGCCTGGGCTGCCTTCTACATTTATAAACTATATCCCCTCACATATCTGTTAAATTTTGATGTGGAGGGCTATATAACTAAAGCGGTAGACTGTGGCTATGATGATTTCGCACAGCTACAATGTTCATATGAAAACTTCGATGTTGAAACAGGTGTTTACTCTGTTTCATCCTTCGAAGCTTCTCCTAGAGGTGAGTTCATTGAACAGGCAACAACTCAAGAGTGTGATTTCTCACCTATGTTGACTGGTACACCTCCTCCTATATATGATTTCAAAAGGTTGGTCTTCACCAATTGCAATTACAACTTAACAAAACTCCTCTCACTGTTTCAAGTGAGTGAGTTTTCCTGTCATCAAGTATCGCCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACGGTGGACTACTTTTCGTACCCCACTAGTATGAGTTCTTATCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTTGCTACTGTTCCACAAAACCTTACATCAATTACTAAACCCAGTAATTATGTTCATCTTACAGAGTGTTACAAGTTCATAGCACATGGTAAGAATTACTTGTATAATGCCCCTGGTGGTTACACTCCTTGCTTATCTTTAGCCTCTAGTGGGTTTTCACGTGATAGACAGTCTCACAGTCAGGAATTACCTGATGGTAGTTTCTTAACTACTACTGGATCCGTTTACTCTGTAGGCTCTAACTTTCAAATGGCTTTCATCATTTCTGTCCAGTATGGAACTGACACTAATAGTGTCTGCCCCATGCAAGCATTAAGAAATGACACTAGCATTGAAGACAAGCTAGATGTTTGTGTTGAATACTCTCTCCATGGAATAACTGGCAGGGGAGTGTTCCATAATTGCACATCTGTTGGATTGAGAAACCAACGGTTTGTGTATGATACTTTCGACAATTTAGTTGGTTACCATTCAGATAATGGTAATTACTATTGTGTCAGACCTTGTGTCAGTGTGCCCGTCTCTGTGATTTATGACAAGGTATCTAATTCTCATGCCACATTATTTGGAAGCGTTGCATGTTCGCACGTTACCACTATGATGTCTCAATTCTCACGCATGACCAAAACCAATTTGCTCGCGCGTACTACTCGTGGCCCTTTGCAAACTACTGTTGGTTGTGCAATGGGCTTCATCAATTCTTCAATGGTTGTTGATGAATGTCAACTTCCCCTTGGTCAATCACTTTGTGCCATTCCACCAACTACTCCTTCACGCGTT---CTGCGTGCTGCTTCTGGCGTGCCTCACGTCTTTCAAATCGCTACCCTTAATTTTACTAGTCCACTAACACTAACACCAATAAATTCCACTGGATTTGTTGTTGCAGTGCCGACTAATTTCACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTAGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTTAAAGAATATGGTCAGTTCTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTAAATGGTGATTTTAACTTGACAATACTTCAAATACCTCAAGTATCTACGGGTGAACGTAAGTACAGGAGTGCTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGTTATATGCAAGGCTATGATGAGTGCATGCAACAAGGTCCTCAGTCAGCTCGTGACTTGATCTGTGCTCAATATGTTGCTGGTTACAAAGTGTTACCACCCTTGTATGACCCCTATATGGAAGCTGCTTATACATCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCTGGTCTGTCATCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAACGGTGTTGGCATTACTCAGCAGGTTCTGTCTGAGAATCAAAAGATTATTGCTAACAAGTTCAATCAAGCTCTTGGCGCCATGCAAACTGGCTTTACTACTACTAACCTAGCTTTTAACAAGGTTCAGGACGCAGTAAATGCTAACGCCATGGCTCTCTCTAAACTAGCTGCGGAATTGTCTAATACTTTCGGTGCTATTTCATCCTCTATCAGTGACATCCTTGCAAGGCTTGACACTGTCGAACAAGAGGCACAAATTGATCGACTGATCAATGGCCGCCTTACATCTCTTAATGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCTAGATCCGCCCAATTGGCTCAAGATAAGGTCAATGAGTGCGTCAAATCGCAATCCAAACGGAATGGATTCTGCGGAACTGGTACACATATTGTCTCATTTGCCATTAATGCTCCTAATGGCCTCTACTTTTTCCATGTTGGTTATCAGCCAACATCCCATGTTAATGCAACTGCCGCTTATGGCCTTTGCAACTCCGAAAATCCACCAAAGTGCATTGCACCCATTGATGGATACTTCGTTCTTAATCAAACTACCAGCGCTGCAAGAAGCAGTGATGACCAGCAATGGTATTATACTGGTAGTTCTTTCTTCCATCCGGAACCCATTACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTTGAAAACCTCACTAATAGACTTCCTCCACCACTCCTTAGCAATTCCACAGATTTGGATTTCAAGGATGAGCTGGAAGAATTCTTCAAAAATGTCTCCTCACAACGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTTAGTGAAGTAGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAGAAATGGCCATGGTACATATGGCTTGGTTTTATTGCAGGGCTTGTCGCTCTAGCTCTTTGTGTGTTCTTCATTTTATGCTGTACTGGTTGCGGTACCAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCGCACAAGCAGTCAAAGCGTTGATGTTGGCTCTGCTGGTTCAGGTTCTTGTTTACGGTCTCAAGTTAGACCAGAATACTTTGACATTGCCCGCAACACATGGCCAATGCCTATTGATACGAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCTAATATTTCTCTAACTTATACAGGACTGTACCCAAAGGCTAATGACCTTGGTAAACAGTATTTGTTTTCTGATGGACACAGCGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAAGTGGAGTCTTTTGATGATGGTTTCGTCGTCCGTATTGGAGCTGCTTCCAATAAGACCGGAACCACTGTCATTTCCCAAACAACTTTTAAACCCATCAAGAAAATATACCCTGGCTTTATGCTAGGGCATGCAGTGGGTAACTACACACCTACCAACATCACAGGTCGTTATTTTAACCACACTCTTGTCATCCTACCAGATGGCTGTGGTACTCTAGTTCATGCCTTCTATTGCATTCTTCAACCTCGCACACAGGCTTATTGTCCTGGTGCTTCCTCATTCACATCTGTCACATTATGGGACACCCCCGCAACTGATTGTGCACCCTCTGGTGTTTACAATCCTTTGGCAAATTTGAATGCTTTCAAATTGTATTTTGATCTGCTCAATTGCACGTTCAAATATAACTATACTATAACTGAGGATGAAAATGCTGAGTGGTTTGGCATAACCCAAGATACACAAGGCGTCCACCTCTATTCATCTCGAAAAGAGAATGTGTTTAGAAACAACATGTTCCACTTTGCCACTTTACCTGTGTACCAGAAAATCCTCTATTACACAGTCATTCCTCGCAGTATCCGAAGTCCTTTCAATGATAGAAAAGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACAAAAGCGGTAGACTGTGGCTATGATGATTTCGCACAGCTACAATGTTCATATGAAAACTTCGATGTTGAAACCGGTGTCTACTCCGTTTCTTCCTTCGAAGCTTCTCCTAGAGGTGAGTTTATTGAACAAGCCACAACAGAAGAGTGTGATTTCACACCTATGTTGACTGGCACACCTCCTCCTATATATAATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTGTTCCAAGTGAGTGAGTTTTCTTGTCACCAAGTTTCACCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACAGTGGACTATTTTGCATACTCCACTGAAATGAGTTCTTACCTGCAACCTGGCTCCGCGGGAGAAATTGGGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGGGTGCTTGCTACTGTTCCACAAAATCTTACTACAATTACTAAACCTAGTAATTATGCTTATCTTACAGAGTGTTATAAAACCAGTTCATATGGCAAGAATTACTTGTACAATGCACCTGGCGGTTACACTCCTTGTTTGTCTTTAGCCTCCCGTGGGTTCTCTACTAAATACCAGTCATATAGT------------GACGGA---GAGCTTACTACCACGGGTTACGTCTACCCTGTAAGTGGCAACCTTCAAATGGCTTTTATTATTTCTGTTCAGTATGGAACTGACACTAACAGTGTCTGCCCCATGCAAGCATTAAGAAATGACACTAGCATTGAAGACAAGCTAGACGTTTGTGTTGAATACTCCCTCCATGGTATAACAGGAAGAGGAGTTTTCCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAATTTAGTTGGTTACCATTCAGACAATGGTAATTACTATTGTGTCAGACCATGTGTCAGTGTGCCTGTCTCTGTGATCTATGACAAGGCATCTAATTCTCACGCTACATTATTTGGAAGCGTTGCATGTTCGCACGTTACCACTATGATGTCGCAATTTTCACGCATGACTAAAACTAATTTGCTCGCGCGTACAACTCCAGGTCCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTCATCAATTCCTCAATGGTAGTTGATGAATGTCAACTTCCACTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTTCACGCGTT---CGACGTGCTACTTCTGGTGTACCTGATGTGTTTCAAATCGCCACTCTCAACTTTACTAGTCCACTAACACTTGCACCAATAAATTCCACTGGGTTTGTTGTTGCAGTGCCGACTAATTTCACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCGTGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAACACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGAAGTGCTATAGAAGACCTTCTTTTCAATAAGGTTACTATTGCGGATCCTGGCTATATGCAAGGGTATGATGAATGTATGCAGCAAGGTCTTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGTTGCCACCTTTATATGACACCTATATGGAAGCTGCTTATACTTCTTCTCTATTGGGCAGTATTGCTGGAGCTAGTTGGACAGCAGGTCTGTCATCTTTCGCAGCAATACCATTTGCACAAAGCATCTTTTATCGCTTGAATGGTGTTGGTATCACTCAGCAGGTTCTGTCTGAGAATCAAAAGATTATTGCCAACAAGTTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAATCTTGCATTTAACAAGGTTCAGGATGCAGTAAATGCTAATGCCATGACTCTCTCTAAACTAGCTGCGGAATTGTCTAATACTTTCGGTGCTATTTCATCTTCTATCAGTGACATCCTTGCTAGGCTTGACACTGTTGAACAAGAGGCACAAATTGATCGACTGATTAATGGCCGTCTCACATCCCTTAACGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCCAGATCCGCCCAATTGGCCCAAGACAAGGTCAATGAGTGCGTAAAATCGCAATCCAAACGGAACGGATTCTGCGGAACTGGTACACATATTGTCTCATTTGCCATTAATGCTCCTAATGGCCTCTACTTCTTTCATGTTGGCTATCAACCAACATCACATATTAATGCAACTGCCGCATATGGCCTTTGCAACACTGAAAATCCACCAAAGTGCATTGCACCTATTGATGGATACTTCGTTCTAAATCAAACTACCAGCACTGTT---GCAAACAGTGACCAACAATGGTATTATACTGGTAGTTCATTCTTCCATCCGGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCAAAAACCTCACTAATAAACTTCCTCCACCGCTCCTTAGTAATTCCACAGATTTGGATTTCAAGGAAAAGCTGGAGGAATTTTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGAATTACACTACACTGCTTAACCTCAACACAAAGTTGATGGTGTTGAGTGAAGTTGTTAAACAGTTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAGAAATGGCCATGGTACATATGGCTTGGATTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATTCTATGCTGTACTGGTTGTGGTACCAGCTGCTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATATTCAT >BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGCACTGATGTGCTCGTTAACTTTTATAGGAAACCGCATAAGCAGTCAAAGCGTTGATGTTGGCTCTGCTGGTTCGGGTTCCTGTCTAAGGTCTCAAGTTAGACCAGAATACTTTGACATTGTCCGTAATACATGGCCAATGCCTATAGACACTAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCCAATATTTCTTTAACTTATACAGGACTGTATCCAAAGGCCAATGACCTAGGCAAACAGTATTTGTTTTCTGATGGACACAGTGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTGGAGTCTTTTGATGATGGTTTCGTTGTTCGTATTGGAGCAGCTTCCAATAAGACCGGAACCACTGTCATCTCTCAAACAACTTTCAAACCCATTAAGAAAATATACCCTGGCTTTATGCTAGGGCATGCTGTGGGTAATTATACACCTACCAACATCACAGGTCGTTACCTTAACCACACACTTGTCATCCTACCGGATGGCTGTGGTACCCTAGTTCACGCATTTTATTGCGTCCTACAACCTCGCACACAGGCTAATTGTCCTGGTGCTTCTTCATTCACATCTGTCACATTGTGGGACACTCCCGCAACGGATTGTGCACCAAATGGTGTTTACAACCCTTTGGCAAATTTGAATGCTTTCAAATTGTACTTTGATCTGCTTAATTGCACGTTCAAATACAATTATACTATAACAGAGGATGAGAACGCTGAGTGGTTTGGCATAACCCAAGACACACAAGGCGTACACCTCTATTCATCTCGAAAAGAGAATGTGTTCAGAAACAACATGTTCCACTTTGCTACATTACCTGTGTACCAGAAGATCCTCTATTACACAGTCATTCCTCGCAGTATTCGAAGTCCTTTCAATGACAGAAAGGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATCTGCTAAATTTTGATGTGGAGGGCTACATAACTAAAGCGGTAGACTGTGGCTATGATGATTTCGCACAGCTACAATGTTCGTATGAAAACTTCGATGTTGAAACAGGTGTTTATTCAGTCTCATCTTTCGAAGCTTCTCCTAGAGGTGAGTTCATTGAACAGGCAGTAACTGAAGAGTGTGATTTCACACCTATGTTAACTGGCACACCTCCTCCTATATATAATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTTTTTCAAGTGAGTGAGTTTTCTTGTCATCAAGTCTCACCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACAGTCGATTATTTTGCATACTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTTGCTACTGTTCCACAAAATCTTACTACAATTACTAAACCTAGTAATTACGCTTATCTTACAGAGTGTTATAAAACCACTGCATATGGCAAGAACTACTTGTACAATGCACCTGGCGGTTACACTCCTTGCTTGTCTTTAGCCTCTCGTGGGTTCTCTATTAAATATCAGTCACACAGT------------GATGGA---GAGTTAACCACCACTGGTTACATCTACCCTGTGAATGGCAATCTCCAAATGGCTTTTATTATTTCTGTTCAGTATGGCACTGACACTAATAGTGTCTGTCCCATGCAAGCTTTAAGAAATGACACTAGCATTGAAGATAAGCTAGATGTTTGTGTTGAATACTCCCTCCATGGAATAACAGGAAGAGGTGTTTTTCACAATTGCACATCTGTTGGATTGAGAAACCAGAGGTTTGTGTATGATACTTTCGACAATTTAGTTGGCTACCATTCTGATAATGGTAATTACTATTGTGTCAGACCATGTGTAAGTGTGCCTGTCTCTGTGATTTATGACAAGGTATCTAATTCCCATGCTACATTATTTGGTAGTGTTGCATGTTCGCACGTTACCACTATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCTCGCGCGTACTACTCCTGGCCCTTTGCAAACCACTGTTGGTTGTGCAATGGGCTTCATCAATTCTTCAATGGTAGTTGACGAATGTCAGCTTCCACTTGGTCAATCACTTTGTGCTATTCCCCCCACCACTTCTTCACGCCTT---CGACGTGCTACTTCTGGCGTGCCTGATGTGTTTCAAATCGCCACTCTTAACTTTACTAGTCCCCTAACACTTGCACCAATAAATTCCACTGGATTTGTTGTTGCAGTGCCGACTAATTTTACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTTGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAGTACGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTTCTAATCTATTCTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAATACCTCAAGTTACTACTGGTGAACGTAAGTACAGGAGTGCTATTGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGACCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTCGCTGGCTACAAAGTGTTGCCACCTTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGTAGTATTGCTGGTGCTAGTTGGACAGCCGGTCTGTCATCTTTCGCTGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATTATTGCCAACAAGTTCAACCAAGCTCTTGGCGCCATGCAAACTGGCTTTACTACCACTAACCTCGCTTTCAATAAGGTTCAGGATGCAGTAAATGCTAATGCCATGGCTCTTTCTAAACTAGCAGCGGAATTGTCTAACACTTTCGGTGCTATTTCATCCTCAATCAGTGACATCCTTGCAAGGCTTGACACTGTTGAACAAGAGGCTCAAATTGATCGATTGATCAATGGCCGTCTTACATCCCTTAACGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCTCGTTCCGCCCAATTGGCTCAAGATAAGGTCAATGAGTGCGTGAAATCGCAATCCAAACGGAATGGATTTTGCGGAACTGGTACACATATTGTCTCATTTGCCATTAATGCTCCTAATGGCCTCTATTTCTTCCATGTTGGTTATCAACCAACATCCCATGTTAATGCAACTGCCGCCTACGGCCTTTGCAACACTGAAAACCCACCAAAGTGCATTGCACCCATTGATGGGTATTTTGTCTTAAATCAAACTATCAGCACTGTT---GCAAACAGTGATCAACAATGGTATTATACTGGTAGTTCTTTCTTCTATCCGGAACCCATCACAGAAGCGAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAAAACCTCACTAATCGACTCCCTCCACCTCTCCTTAGTAACTCCACAGATCTGGATTTCAAGGAAGAGCTGGAAGAATTCTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTCAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTACATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAGAAATGGCCATGGTACATATGGCTTGGATTTATTGCAGGGCTTGTCGCTCTTGCTCTTTGTGTGTTCTTCATTCTATGCTGTACCGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCTCACAAGAGGTCAAAGTGTTGATATGGGACACAATGGCACTGGTTCATGTTTAGATTCCCAGGTACAACCTGATTATTTTGAATCTGTGCATACTACTTGGCCCATGCCTATTGACACGAGTAAGGCTGAAGGTGTCATTTATCCTAATGGCAAGTCCTACTCTAATATTACTCTAACTTATACGGGACTGTACCCCAAGGCTAATGACCTTGGTAAACAGTATTTATTCTCTGACGGACATAGTGCCCCAGGACGTCTTAATAACTTATTTGTCAGTAATTACTCCTCACAAGTGGAGTCCTTTGATGATGGCTTTGTGGTCCGTATTGGTGCTGCTGCCAATAAAACTGGAACCACTGTCATATCTCAATCCACATTTAAACCCATTAAGAAAATCTATCCAGCCTTTTTGCTTGGACATTCTGTGGGTAATTATACACCGTCCAATAGGACAGGTCGTTATCTCAACCACACGCTTGTCATCCTACCGGATGGCTGTGGTACTATTTTACATGCATTCTATTGTGTTCTTCACCCTCGCACACAACAAAATTGTGCTGGTGAAACAAATTTCAAATCCCTCTCGCTTTGGGATACTCCTGCATCAGACTGTGTC---TCTGGTTCTTATAACCAAGAAGCCACATTAGGTGCTTTCAAAGTGTATTTTGACTTGATTAATTGCACGTTCAGATACAATTATACTATAACAGAGGATGAAAACGCTGAGTGGTTCGGCATTACCCAAGACACACAAGGCGTTCACCTCTATTCATCTCGAAAAGAGAACGTGTTCAGAAATAACATGTTCCACTTTGCTACTTTACCTGTGTACCAGAAAATCCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCCTGGGCTGCATTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACTAAAGCTGTAGACTGTGGCTACGATGATCTAGCACAGCTACAATGTTCCTACGAATCCTTCGAAGTCGAAACAGGCGTTTATTCCGTTTCATCGTTCGAAGCTTCTCCTAGAGGTGAGTTCATTGAACAGGCAACAACTCAAGAGTGTGATTTCACACCTATGTTGACTGGTACACCTCCTCCTATATATAATTTCAAAAGGTTGGTCTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTGTTTCAAGTGAGCGAGTTTTCTTGTCATCAAGTTTCACCTAGTAGTCTTGCTACCGGTTGTTACTCTTCTCTTACAGTGGACTATTTCGCTTATTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGCAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTTGCTACTGTTCCACAAAATCTTACTACAATTACTAAACCTAGTAATTATGCTTATCTTACAGAGTGTTATAAAACCAGTGCATATGGCAAGAATTACTTGTACAATGCGCCTGGCGCTTACACTCCTTGCTTATCTTTAGCCTCTCGTGGGTTCTCTACTAAATACCAGTCACATAGT------------GATGGC---GAGCTAACCACTACTGGTTACATTTATCCTGTCACTGGAAATCTTCAAATGGCTTTCATAATTTCTGTTCAGTATGGAACTGACACTAACAGTGTCTGCCCCATGCAAGCATTAAGAAATGATACTAGCATTGAAGATAAGCTAGACGTTTGTGTTGAATACTCGCTCCATGGTATAACTGGAAGGGGGGTTTTCCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAATTTAGTTGGTTACCATTCTGACAATGGTAATTACTATTGTGTCAGACCTTGTGTCAGTGTGCCTGTCTCTGTGATTTACGACAAGGCATCTAATTCTCATGCTACATTATTCGGAAGCGTTGCATGTTCGCACGTTACCACAATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCTCGCGCGTACAACTCCAGGTCCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTTATCAATTCCTCAATGGTAGTTGACGAATGTCAACTTCCGCTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTTCACGCGTT---CGACGTGCTACTTCTGGTGCATCTGATGTGTTTCAAATCGCCACTCTTAACTTTACTAGTCCATTAACACTCGCACCAATAAATTCTACTGGATTTGTTGTTGCTGTGCCGACTAATTTCACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGACGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACTATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGGAGTACTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTGTCGTCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATCATTGCCAACAAATTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAACCTTGCTTTCAACAAGGTTCAGGATGCAGTAAATGCTAATGCAATGGCTCTTTCCAAACTAGCTGCGGAATTGTCTAACACTTTCGGTGCTATTTCATCATCAATCAGTGACATCCTTGCAAGGCTTGACACTGTTGAACAAGAGGCTCAAATTGATCGGTTGATCAATGGACGTCTTACATCCCTTAACGCATTCGTTGCGCAACAACTCGTGCGTACTGAAGCTGCTGCTAGATCTGCCCAATTGGCTCAAGATAAGGTCAATGAGTGCGTGAAGTCGCAATCCAAACGGAATGGATTCTGCGGAACTGGCACACATATTGTTTCATTTGCCATTAATGCTCCTAATGGCCTCTACTTCTTCCATGTTGGTTACCAGCCAACATCCCATGTCAATGCAACTGCCGCTTATGGCCTTTGCAACACTGAAAATCCACAAAAGTGCATTGCACCTATTGATGGATACTTCGTCTTAAACCAAACTACCAGCACTGTC---GCAGACAGTGACCAACAATGGTATTATACTGGTAGTTCCTTCTTCCATCCTGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAAAACCTCACTAATAGGCTTCCTCCACCGCTCCTTAGTAATTCAACAGATTTGGATTTCAAGGAAGAGCTGGAAGAATTCTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAAAAATGGCCATGGTATATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCTTATGCTGTACTGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCTCACAAGAGGTCAAAGTGTTGATATGGGACACAATGGCACTGGTTCATGTTTAGATTCCCAGGTACAACCTGATTATTTTGAATCTGTGCATACTACTTGGCCCATGCCTATTGACACGAGTAAGGCTGAAGGTGTCATTTATCCTAATGGCAAGTCCTACTCTAATATTACTCTAACTTATACGGGACTGTACCCCAAGGCTAATGACCTTGGTAAACAGTATTTATTCTCTGACGGACATAGTGCCCCAGGACGTCTTAATAACTTATTTGTCAGTAATTACTCCTCACAAGTGGAGTCCTTTGATGATGGCTTTGTGGTCCGTATTGGTGCTGCTGCCAATAAAACTGGAACCACTGTCATATCTCAATCCACATTTAAACCCATTAAGAAAATCTATCCAGCCTTTTTGCTTGGACATTCTGTGGGTAATTATACACCGTCCAATAGGACAGGTCGTTATCTCAACCACACGCTTGTCATCCTACCGGATGGCTGTGGTACTATTTTACATGCATTCTATTGTGTTCTTCACCCTCGCACACAACAAAATTGTGCTGGTGAAACAAATTTCAAATCCCTCTCGCTTTGGGATACTCCTGCATCAGACTGTGTC---TCTGGTTCTTATAACCAAGAAGCCACATTAGGTGCTTTCAAAGTGTATTTTGACTTGATTAATTGCACGTTCAGATACAATTATACTATAACAGAGGATGAAAACGCTGAGTGGTTCGGCATTACCCAAGACACACAAGGCGTTCACCTCTATTCATCTCGAAAAGAGAACGTGTTCAGAAATAACATGTTCCACTTTGCTACTTTACCTGTGTACCAGAAAATCCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCCTGGGCTGCATTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACTAAAGCTGTAGACTGTGGCTACGATGATCTAGCACAGCTACAATGTTCCTACGAATCCTTCGAAGTCGAAACAGGCGTTTATTCCGTTTCATCGTTCGAAGCTTCTCCTAGAGGTGAGTTCATTGAACAGGCAACAACTCAAGAGTGTGATTTCACACCTATGTTGACTGGTACACCTCCTCCTATATATAATTTCAAAAGGTTGGTCTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTGTTTCAAGTGAGCGAGTTTTCTTGTCATCAAGTTTCACCTAGTAGTCTTGCTACCGGTTGTTACTCTTCTCTTACAGTGGACTATTTCGCTTATTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGCAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTTGCTACTGTTCCACAAAATCTTACTACAATTACTAAACCTAGTAATTATGCTTATCTTACAGAGTGTTATAAAACCAGTGCATATGGCAAGAATTACTTGTACAATGCGCCTGGCGCTTACACTCCTTGCTTATCTTTAGCCTCTCGTGGGTTCTCTACTAAATACCAGTCACATAGT------------GATGGC---GAGCTAACCACTACTGGTTACATTTATCCTGTCACTGGAAATCTTCAAATGGCTTTCATAATTTCTGTTCAGTATGGAACTGACACTAACAGTGTCTGCCCCATGCAAGCATTAAGAAATGATACTAGCATTGAAGATAAGCTAGACGTTTGTGTTGAATACTCGCTCCATGGTATAACTGGAAGGGGGGTTTTCCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAATTTAGTTGGTTACCATTCTGACAATGGTAATTACTATTGTGTCAGACCTTGTGTCAGTGTGCCTGTCTCTGTGATTTACGACAAGGCATCTAATTCTCATGCTACATTATTCGGAAGCGTTGCATGTTCGCACGTTACCACAATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCTCGCGCGTACAACTCCAGGTCCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTTATCAATTCCTCAATGGTAGTTGACGAATGTCAACTTCCGCTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTTCACGCGTT---CGACGTGCTACTTCTGGTGCATCTGATGTGTTTCAAATCGCCACTCTTAACTTTACTAGTCCATTAACACTCGCACCAATAAATTCTACTGGATTTGTTGTTGCTGTGCCGACTAATTTCACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGACGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACTATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGGAGTACTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTGTCGTCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATCATTGCCAACAAATTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAACCTTGCTTTCAACAAGGTTCAGGATGCAGTAAATGCTAATGCAATGGCTCTTTCCAAACTAGCTGCGGAATTGTCTAACACTTTCGGTGCTATTTCATCATCAATCAGTGACATCCTTGCAAGGCTTGACACTGTTGAACAAGAGGCTCAAATTGATCGGTTGATCAATGGACGTCTTACATCCCTTAACGCATTCGTTGCGCAACAACTCGTGCGTACTGAAGCTGCTGCTAGATCTGCCCAATTGGCTCAAGATAAGGTCAATGAGTGCGTGAAGTCGCAATCCAAACGGAATGGATTCTGCGGAACTGGCACACATATTGTTTCATTTGCCATTAATGCTCCTAATGGCCTCTACTTCTTCCATGTTGGTTACCAGCCAACATCCCATGTCAATGCAACTGCCGCTTATGGCCTTTGCAACACTGAAAATCCACAAAAGTGCATTGCACCTATTGATGGATACTTCGTCTTAAACCAAACTACCAGCACTGTC---GCAGACAGTGACCAACAATGGTATTATACTGGTAGTTCCTTCTTCCATCCTGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAAAACCTCACTAATAGGCTTCCTCCACCGCTCCTTAGTAATTCAACAGATTTGGATTTCAAGGAAGAGCTGGAAGAATTCTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAAAAATGGCCATGGTATATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCTTATGCTGTACTGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCGCACAAGCTGTCAAAGCGTTGATATTGGCACGCCTGTCACGGGTTCATGTCTACGGTCTCAAGTTAGACCAGAATATTTTGACATTGTCCATAACACATGGCCAATGCCTATTGATACGAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCTAATATTTCCCTAACTTATACTGGACTGTACCCAAAGGCTAAGGACCTTGGCAAACAGTATTTGTTTTCTGATGGACACAGTGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTAGAGTCTTTTGATGATGGTTTCGTTGTTCGTATTGGAGCAGCTTCCAATAAGACCGGAACCACTGTCATCTCTCAAACAACTTTTAAACCCATTAAGAAAATATACCCTGGCTTTATGCTAGGGCATGCTGTGGGTAATTACACACCTACCAACATCACAGGTCGGTATCTTAACCACACCCTTGTAATCCTACCGGATGGCTGTGGTACTCTAGTTCATGCATTCTATTGCATCCTTCAACCTCGCACACAGGCTAACTGTCCTGGTGCTTCTTCATTCACATCTGTCACATTGTGGGACACTCCCGCAACAGATTGCGCACCAAGTGGTGTTTACAATTCTTTGGCAAATTTGAATGCTTTTAAATTGTATTTTGACCTGATCAATTGCACGTTCAGATACAATTATACTATAACAGAGGATGAAAATGCTGAGTGGTTTGGCATTACCCAAGATACACAAGGCGTTCACCTCTATTCCTCTCGAAAAGAGAACGTGTTCAGAAATAACATGTTCCACTTTGCTACTTTACCTGTGTATCAGAAAATTCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACCAAAGCTGTAGACTGTGGCTATGATGATTTTGCACAGCTACAATGTTCATATGAAAACTTCGATGTTGAAACTGGTGTTTATTCCGTTTCATCTTTCGAAGCTTCTCCTAGAGGTGAGTTTATTGAACAGGCAACAACTCAAGAGTGTGATTTCACACCCATGTTGACTGGCACACCTCCTCCTATATATGATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTTTTCCAAGTGAGTGAGTTTTCGTGTCATCAAGTTTCACCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACAGTGGATTATTTTGCATACTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTCGCTACTGTTCCAACCAATCTTACTACAATTACTAAATCTAGTAATTATGTTCATCTTACGGAGTGTTATAAAAGCACCGCATATGGCAAGAATTACTTGTACAATGCACCTGGTGGCTACACTCCTTGTCTATCTCTCGCATCGCGCGGGTTTACTACTAACCGTCAATCACACAGCCTTGAGCTGCCTGATGGT---TATTTAGTCACAACAGGTTCTGTCTACCCCGTAAATGGTAACCTTCAAATGGCTTTCATTATTTCTGTTCAGTATGGAACTGACACTAATAGTGTCTGTCCCATGCAAGCTCTAAGAAATGACACTAGCATTGAAGATAAGCTAGATGTCTGTGTTGAATACTCCCTTCATGGCATAACAGGAAGAGGAGTATTTCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAACCTAGTTGGTTACCATTCAGATAATGGTAATTACTATTGTGTCAGACCTTGTGTTAGTGTGCCTGTCTCTGTGATTTATGACAAGGCATCTAATTCTCATGCCACACTATTTGGAAGCGTTGCATGTTCGCACGTTACCACTATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCTCCCGCGTACAACTCCTGGACCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTCATTAATTCTTCAATGGTAGTTGATGAATGTCAACTTCCTCTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTACACGCTTT---CGACGTGCTACTTCT---ATACCTGATGTGTTTCAAATCGCCACTCTAAACTTTACTAGTCCTTTAACACTCGCACCAATAAATTCAACTGGATTTGTTGTTGCGGTGCCGACTAATTTCACATTTGGTGTTACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGGAGTACTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTGTCGTCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATCATTGCCAACAAATTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAACCTTGCTTTCAACAAGGTTCAGGATGCAGTAAATGCTAACGCAATGGCTCTTTCCAAATTAGCTGCGGAATTATCTAACACTTTCGGTGCTATTTCATCTTCTATCAGTGACATCCTCGCGAGGCTTGACACTGTTGAACAAGAGGCACAAATTGATCGACTGATCAATGGCCGTCTTACATCTCTTAACGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCCAGATCCGCTCAATTGGCCCAAGATAAGGTCAATGAGTGCGTCAAATCGCAATCCAAACGAAATGGATTTTGCGGAACTGGCACACATATTGTTTCATTTGCCATTAATGCCCCTAATGGCCTCTATTTTTTCCATGTTGGTTACCAGCCAACATCCCATGTTAATGCAACCGCTGCCTACGGCCTTTGCAACACTGAGAATCCACCAAAGTGCATTGCACCTATTGATGGCTACTTTGTTTTAAATCAAACTACCAGCACTGCAAGAAGTAGTGGAGACCAACATTGGTATTATACTGGTAGTTCTTTCTTCCATCCTGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAGAACCTCACTAATAAACTTCCTCCACCTCTCCTTAGTAATTCCACAGATTTGGATTTCAAGGATGAGCTGGAGGAATTTTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAAAAATGGCCATGGTATATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCTTATGCTGTACTGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCGCACAAGCTGTCAAAGCGTTGATATTGGCACGCCTGTCACGGGTTCATGTCTACGGTCTCAAGTTAGACCAGAATATTTTGACATTGTCCATAACACATGGCCAATGCCTATTGATACGAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCTAATATTTCCCTAACTTATACTGGACTGTACCCAAAGGCTAAGGACCTTGGCAAACAGTATTTGTTTTCTGATGGACACAGTGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTAGAGTCTTTTGATGATGGTTTCGTTGTTCGTATTGGAGCAGCTTCCAATAAGACCGGAACCACTGTCATCTCTCAAACAACTTTTAAACCCATTAAGAAAATATACCCTGGCTTTATGCTAGGGCATGCTGTGGGTAATTACACACCTACCAACATCACAGGTCGGTATCTTAACCACACCCTTGTAATCCTACCGGATGGCTGTGGTACTCTAGTTCATGCATTCTATTGCATCCTTCAACCTCGCACACAGGCTAACTGTCCTGGTGCTTCTTCATTCACATCTGTCACATTGTGGGACACTCCCGCAACAGATTGCGCACCAAGTGGTGTTTACAATTCTTTGGCAAATTTGAATGCTTTTAAATTGTATTTTGACCTGATCAATTGCACGTTCAGATACAATTATACTATAACAGAGGATGAAAATGCTGAGTGGTTTGGCATTACCCAAGATACACAAGGCGTTCACCTCTATTCCTCTCGAAAAGAGAACGTGTTCAGAAATAACATGTTCCACTTTGCTACTTTACCTGTGTATCAGAAAATTCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACCAAAGCTGTAGACTGTGGCTATGATGATTTTGCACAGCTACAATGTTCATATGAAAACTTCGATGTTGAAACTGGTGTTTATTCCGTTTCATCTTTCGAAGCTTCTCCTAGAGGTGAGTTTATTGAACAGGCAACAACTCAAGAGTGTGATTTCACACCCATGTTGACTGGCACACCTCCTCCTATATATGATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTTTTCCAAGTGAGTGAGTTTTCGTGTCATCAAGTTTCACCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACAGTGGATTATTTTGCATACTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTCGCTACTGTTCCAACCAATCTTACTACAATTACTAAATCTAGTAATTATGTTCATCTTACGGAGTGTTATAAAAGCACCGCATATGGCAAGAATTACTTGTACAATGCACCTGGTGGCTACACTCCTTGTCTATCTCTCGCATCGCGCGGGTTTACTACTAACCGTCAATCACACAGCCTTGAGCTGCCTGATGGT---TATTTAGTCACAACAGGTTCTGTCTACCCCGTAAATGGTAACCTTCAAATGGCTTTCATTATTTCTGTTCAGTATGGAACTGACACTAATAGTGTCTGTCCCATGCAAGCTCTAAGAAATGACACTAGCATTGAAGATAAGCTAGATGTCTGTGTTGAATACTCCCTTCATGGCATAACAGGAAGAGGAGTATTTCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAACCTAGTTGGTTACCATTCAGATAATGGTAATTACTATTGTGTCAGACCTTGTGTTAGTGTGCCTGTCTCTGTGATTTATGACAAGGCATCTAATTCTCATGCCACACTATTTGGAAGCGTTGCATGTTCGCACGTTACCACTATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCCCGCGCGTACAACTCCTGGACCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTCATTAATTCTTCAATGGTAGTTGATGAATGTCAACTTCCTCTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTACACGCTTT---CGACGTGCTACTTCT---ATACCTGATGTGTTTCAAATCGCCACTCTAAACTTTACTAGTCCTTTAACACTCGCACCAATAAATTCAACTGGATTTGTTGTTGCGGTGCCGACTAATTTCACATTTGGTGTTACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGGAGTACTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTGTCGTCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATCATTGCCAACAAATTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAACCTTGCTTTCAACAAGGTTCAGGATGCAGTAAATGCTAACGCAATGGCTCTTTCCAAATTAGCTGCGGAATTATCTAACACTTTCGGTGCTATTTCATCTTCTATCAGTGACATCCTCGCGAGGCTTGACACTGTTGAACAAGAGGCACAAATTGATCGACTGATCAATGGCCGTCTTACATCTCTTAACGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCCAGATCCGCTCAATTGGCCCAAGATAAGGTCAATGAGTGCGTCAAATCGCAATCCAAACGAAATGGATTTTGCGGAACTGGCACACATATTGTTTCATTTGCCATTAATGCCCCTAATGGCCTCTATTTTTTCCATGTTGGTTACCAGCCAACATCCCATGTTAATGCAACCGCTGCCTACGGCCTTTGCAACACTGAGAATCCACCAAAGTGCATTGCACCTATTGATGGCTACTTTGTTTTAAATCAAACTACCAGCACTGCAAGAAGTAGTGGAGACCAACATTGGTATTATACTGGTAGTTCTTTCTTCCATCCTGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAGAACCTCACTAATAAACTTCCTCCACCTCTCCTTAGTAATTCCACAGATTTGGATTTCAAGGATGAGCTGGAGGAATTTTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAAAAATGGCCATGGTATATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCTTATGCTGTACTGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAACCGCACAAGCTGTCAAAGCGTTGATATTGGCACGCCTGTCACGGGTTCATGTCTACGGTCTCAAGTTAGACCAGAATATTTTGACATTGTCCATAACACATGGCCAATGCCTATTGATACGAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCTAATATTTCCCTAACTTATACTGGACTGTACCCAAAGGCTAAGGACCTTGGCAAACAGTATTTGTTTTCTGATGGACACAGTGCTCCTAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTAGAGTCTTTTGATGATGGTTTCGTTGTTCGTATTGGAGCAGCTTCCAATAAGACCGGAACCACTGTCATCTCTCAAACAACTTTTAAACCCATTAAGAAAATATACCCTGGCTTTATGCTAGGGCATGCTGTGGGTAATTACACACCTACCAACATCACAGGTCGGTATCTTAACCACACCCTTGTAATCCTACCGGATGGCTGTGGTACTCTAGTTCATGCATTCTATTGCATCCTTCAACCTCGCACACAGGCTAACTGTCCTGGTGCTTCTTCATTCACATCTGTCACATTGTGGGACACTCCCGCAACAGATTGCGCACCAAGTGGTGTTTACAATTCTTTGGCAAATTTGAATGCTTTTAAATTGTATTTTGACCTGATCAATTGCACGTTCAGATACAATTATACTATAACAGAGGATGAAAATGCTGAGTGGTTTGGCATTACCCAAGATACACAAGGCGTTCACCTCTATTCCTCTCGAAAAGAGAACGTGTTCAGAAATAACATGTTCCACTTTGCTACTTTACCTGTGTATCAGAAAATTCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATTTGCTAAATTTTGATGTGGAGGGCTATATAACCAAAGCTGTAGACTGTGGCTATGATGATTTTGCACAGCTACAATGTTCATATGAAAACTTCGATGTTGAAACTGGTGTTTATTCCGTTTCATCTTTCGAAGCTTCTCCTAGAGGTGAGTTTATTGAACAGGCAACAACTCAAGAGTGTGATTTCACACCCATGTTGACTGGCACACCTCCTCCTATATATGATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTTTTCCAAGTGAGTGAGTTTTCGTGTCATCAAGTTTCACCTAGTAGTCTTGCTACTGGCTGTTACTCTTCTCTTACAGTGGATTATTTTGCATACTCCACTGATATGAGTTCTTACCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCCACGTGTAGAGTGCTCGCTACTGTTCCAACCAATCTTACTACAATTACTAAATCTAGTAATTATGTTCATCTTACGGAGTGTTATAAAAGCACCGCATATGGCAAGAATTACTTGTACAATGCACCTGGTGGCTACACTCCTTGTCTATCTCTCGCATCGCGCGGGTTTACTACTAACCGTCAATCACACAGCCTTGAGCTGCCTGATGGT---TATTTAGTCACAACAGGTTCTGTCTACCCCGTAAATGGTAACCTTCAAATGGCTTTCATTATTTCTGTTCAGTATGGAACTGACACTAATAGTGTCTGTCCCATGCAAGCTCTAAGAAATGACACTAGCATTGAAGATAAGCTAGATGTCTGTGTTGAATACTCCCTTCATGGCATAACAGGAAGAGGAGTATTTCACAATTGCACATCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAACCTAGTTGGTTACCATTCAGATAATGGTAATTACTATTGTGTCAGACCTTGTGTTAGTGTGCCTGTCTCTGTGATTTATGACAAGGCATCTAATTCTCATGCCACACTATTTGGAAGCGTTGCATGTTCGCACGTTACCACTATGATGTCGCAATTTTCACGCATGACCAAAACTAATTTGCCCGCGCGTACAACTCCTGGACCATTGCAAACTACTGTTGGTTGTGCAATGGGCTTCATTAATTCTTCAATGGTAGTTGATGAATGTCAACTTCCTCTTGGTCAATCACTTTGTGCTATTCCACCAACTACTTCTACACGCTTT---CGACGTGCTACTTCT---ATACCTGATGTGTTTCAAATCGCCACTCTAAACTTTACTAGTCCTTTAACACTCGCACCAATAAATTCAACTGGATTTGTTGTTGCGGTGCCGACTAATTTCACATTTGGTGTTACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAAGAATATGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAATACCTCAAGTTACTACAGGTGAACGTAAGTACAGGAGTACTATCGAAGACCTTCTTTTCAATAAGGTTACTATTGCTGATCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCTCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTGTCGTCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTCTGTCTGAGAATCAGAAGATCATTGCCAACAAATTCAATCAAGCTCTTGGTGCCATGCAAACTGGCTTTACTACTACTAACCTTGCTTTCAACAAGGTTCAGGATGCAGTAAATGCTAACGCAATGGCTCTTTCCAAATTAGCTGCGGAATTATCTAACACTTTCGGTGCTATTTCATCTTCTATCAGTGACATCCTCGCGAGGCTTGACACTGTTGAACAAGAGGCACAAATTGATCGACTGATCAATGGCCGTCTTACATCTCTTAACGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCCAGATCCGCTCAATTGGCCCAAGATAAGGTCAATGAGTGCGTCAAATCGCAATCCAAACGAAATGGATTTTGCGGAACTGGCACACATATTGTTTCATTTGCCATTAATGCCCCTAATGGCCTCTATTTTTTCCATGTTGGTTACCAGCCAACATCCCATGTTAATGCAACCGCTGCCTACGGCCTTTGCAACACTGAGAATCCACCAAAGTGCATTGCACCTATTGATGGCTACTTTGTTTTAAATCAAACTACCAGCACTGCAAGAAGTAGTGGAGACCAACATTGGTATTATACTGGTAGTTCTTTCTTCCATCCTGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTCGAGAACCTCACTAATAAACTTCCTCCACCTCTCCTTAGTAATTCCACAGATTTGGATTTCAAGGATGAGCTGGAGGAATTTTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTATATCGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAAAAATGGCCATGGTATATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCTTATGCTGTACTGGCTGTGGTACTAGCTGTTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT >YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ATGATACGCTCAGTGTTAGTACTGATGTGCTCGTTAACTTTTATAGGAAGCCGTACAAGCAGTCAAAGCGTTGATGTTGGCACTCCTGCTTCAGGTTCGTGTTTAAGGTCTCAAGTTAGACCTGAATATTTTGACATTGTCCGTAATACATGGCCAATGCCTATTGATACGAGTAAGGCTGAAGGTGTCATTTACCCTAATGGCAAGTCATACTCTAATATTTCCCTAACTTATACTGGACTGTACCCAAAGGCTAATGACCTTGGTAAACAGTATTTGTTTTCTGATGGACACAGTGCTCCAAATCAGCTTAATGATCTATTTGTCAGTAATTATTCTGCACAGGTGGAGTCTTTTGATGATGGTTTTGTTGTTCGTATTGGAGCTGCCTCCAATAAAACCGGAACCACTGTCATCTCTCAAACTACTTTTAAACCCATTAAGAAAATATACCCTGGCTTCATGCTAGGGCATGTAGTGGGTAATTATACACCTGCCAACATTACAGGTCGTTATTTTAACCACACCCTTGTCATCCTACCTGATGGCTGTGGTACTTTAGTTCACGCATTTTATTGCGTACTACAACCACGCACTCAGGCTAATTGCCCAGGTGCTTCTTCATTCACCTCTGTCACATTGTGGGACACACCCGCAACCGATTGTGCACCAAACGGTGTTTACAATCCTCTGGCAAATTTGAATGCTTTCAAATTGTATTTTGATTTGCTCAATTGCACGTTCAAATACAATTATACTATAACAGAGGATGAAAACGCTGAGTGGTTTGGCATTACCCAAGATACACAAGGCGTCCACCTCTATTCCTCTCGAAAAGAGAATGTGTTCAGAAATAACATGTTCCACTTTGCTACCTTACCTGTGTACCAGAAAATCCTCTATTACACAGTCATTCCTCGCAGCATCCGAAGTCCTTTCAATGACAGAAAAGCTTGGGCTGCCTTCTACATTTATAAACTACATCCACTCACATATCTGTTAAATTTTGATGTGGAGGGCTATATAACTAAAGCGGTAGACTGTGGCTATGATGATTTCGCACAGCTACAATGTTCATATGAAAGCTTCGATGTTGAAACTGGTGTCTATTCCGTTTCATCCTTCGAAGCTTCTCCTAGAGGTGAGTTCATTGAACAGGCAACTACTCAAGAGTGTGATTTCACACCCATGTTGTCTGGCACACCTCCTCCTATATATAATTTCAAAAGGTTGGTTTTCACCAATTGCAATTACAACTTAACAAAACTCCTTTCACTGTTTCAAGTGAGCGAGTTTTCTTGTCACCAAGTTTCACCTAGTAGCCTTGCTACTGGCTGTTACTCTTCTCTTACAGTGGATTATTTTGCATATTCCACTGATATGAGTTCTTATCTGCAACCTGGCTCCGCTGGAGAAATTGTGCAGTTTAATTACAAACAAGACTTTAGCAATCCAACGTGTAGAGTGCTTGCTACTGTCCCACAAAATCTTACTACAATTACTAAACCTAGTAATTATGCTTATCTTACAGAGTGTTACAAAACCAGTGCATATGGCAAGAATTACTTGTATAATGCACCTGGCGGTTACACTCCTTGCTTATCTTTAGCCTCTCGTGGGTTCTCTACTACATATCAGTCACACAGT------------GACGGA---GGGCTAACCACCACTGGTTATATCTACCCTGTGACTGGCAACCTGCAAATGGCTTTTATTATCTCTGTTCAGTATGGTACTGACACTAATAGTGTCTGCCCCATGCAAGCTTTAAGAAATGACACTAGCATTGAAGACAAGCTAGATGTTTGTGTTGAATACTCCCTTCATGGTATAACCGGCTGTGGAGTTTTCCACAATTGCACTTCTGTTGGACTGAGAAACCAGCGGTTTGTGTATGATACTTTCGACAATTTAGTTGGTTACCATTCAGATAATGGTAATTACTATTGTGTCAGACCTTGTGTAAGTGTACCTGTCTCTGTCATTTACGACAAGGCTTCTAATTCTCATGCCACATTATTTGGTAGTGTTGCATGTTCGCACGTTACCACAATGATGTCGCAATTTTCACGCATGACTAAAACCAATTTACTCGCGCGTACTAATCCAGGTCCTTTGCAAACTACAGTTGGTTGTGCAATGGGCTTTATCAATACTTCAATGGTAGTTGACGAATGTCAGCTCCCTCTTGGTCAATCACTTTGTGCTATTCCACCAAGTCCTTCTGCTCGTCTTGCACGTTCAGCTCGTTCTGGCAACGTTGATGTCTTTCAAATTGCCACCCTTAATTTTACTAGTCCTTTAACACTCGCACCAATCAATTCAACTGGATTTGTTGTTGCAGTGCCGACTAACTTCACATTTGGTGTCACTCAAGAATTCATTGAGACTACCATTCAAAAGATTACTGTCGATTGCAAGCAGTACGTTTGTAATGGTTTTAAGAAGTGCGAAGACTTGCTCAAGGAATACGGCCAGTTTTGCTCTAAAATTAACCAGGCTCTTCATGGTGCAAACCTACGTCAAGATGAGTCTATTGCTAATCTATTTTCAAGTATTAAAACCCAGAATACCCAGCCTCTTCAGGCGGGATTGAATGGTGATTTTAACTTGACAATGCTTCAAGTACCTCAAGTTACTACTGGTGAACGTAAGTACAGGAGTGCCATTGAAGACCTTCTTTTCAACAAGGTTACTATTGCTGACCCTGGCTATATGCAAGGCTATGATGAATGTATGCAGCAAGGTCCCCAGTCAGCTCGAGACTTGATCTGTGCACAATATGTTGCTGGCTACAAAGTGCTGCCACCCTTATATGACCCCTATATGGAAGCTGCTTACACTTCTTCCCTATTGGGCAGTATTGCTGGTGCTAGTTGGACAGCAGGTCTATCATCTTTCGCAGCAATACCATTTGCACAAAGTATCTTTTATCGCTTGAATGGTGTTGGCATCACTCAGCAGGTTTTGTCTGAGAATCAGAAGATTATTGCCAACAAGTTTAACCAAGCTCTTGGCGCTATGCAAACTGGCTTTACTACTACCAACCTCGCGTTTAACAAGGTTCAGGATGCAGTAAATGCTAATGCCATGGCTTTATCTAAACTAGCAGCGGAATTGTCTAACACTTTCGGTGCTATTTCTTCCTCTATCAGTGACATCCTTGCTAGGCTTGACACTGTTGAACAGGAGGCACAAATTGATCGACTGATCAATGGCCGTCTCACATCTCTTAATGCATTCGTTGCGCAACAACTTGTGCGTACTGAAGCTGCTGCCAGATCCGCCCAATTGGCTCAAGATAAGGTCAATGAGTGCGTGAAATCGCAATCCAAACGGAATGGGTTTTGCGGAACTGGTACACATATTGTCTCATTTGCCATTAATGCTCCTAATGGCCTCTACTTTTTCCATGTTGGTTACCAGCCAACTGCTCATGTTAATGCAACCGCCGCATACGGCCTTTGCAACACTGAAACACCACCAAAGTGCGTTGCACCTATTGATGGTTACTTTGTTCTTAATCAAACTACCACGACCGCACGAGTCGGTGCTGACCAACAATGGTATTACACTGGTAGTTCTTTCTTCCATCCGGAACCCATCACAGAAGCAAATTCTAAGTATGTGTCCATGGATGTAAAATTTGAAAACCTTACTAATAGACTTCCTCCACCTCTCCTTAGCAATTCAACAGACCTGGATTTCAAGGAAGAGCTGGAAGAATTCTTCAAAAACGTCTCCTCACAAGGACCAAACTTCCAGGAGATTTCTAAGATTAACACTACACTGCTTAACCTCAACACAGAGTTGATGGTGCTGAGTGAAGTTGTTAAACAATTAAATGAATCCTACATTGACTTGAAAGAGTTGGGGAATTATACTTTTTACCAGAAATGGCCATGGTACATATGGCTTGGCTTTATTGCAGGGCTTGTTGCTCTTGCTCTTTGTGTGTTCTTCATCCTATGCTGTACTGGCTGCGGTACTAGCTGCTTGGGGAAACTAAAATGTAATCGTTGTTGTGACTCGTATGATGAGTATGAGGTCGAGAAGATCCATGTTCAT
>BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSSQSVDVGPVGSGSCLRSQVRPEYFDIVRNTWPMPIDTSKADGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTEANCPGAFSFTSVTLWDTPATDCASSDVYNSLANLNAFKLYFDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLYPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFSPMLTGTPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFSYPTSMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTSITKPSNYVHLTECYKFIAHGKNYLYNAPGGYTPCLSLASSGFSRDRQSHSQELPDGSFLTTTGSVYSVGSNFQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTTRGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTPSRV-LRAASGVPHVFQIATLNFTSPLTLTPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTILQIPQVSTGERKYRSAIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNSENPPKCIAPIDGYFVLNQTTSAARSSDDQQWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKDELEEFFKNVSSQRPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSSQSVDVGSAGSGSCLRSQVRPEYFDIARNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYFNHTLVILPDGCGTLVHAFYCILQPRTQAYCPGASSFTSVTLWDTPATDCAPSGVYNPLANLNAFKLYFDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTEECDFTPMLTGTPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTEMSSYLQPGSAGEIGQFNYKQDFSNPTCRVLATVPQNLTTITKPSNYAYLTECYKTSSYGKNYLYNAPGGYTPCLSLASRGFSTKYQSYS----DG-ELTTTGYVYPVSGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV-RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALRGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFNKVTIADPGYMQGYDECMQQGLQSARDLICAQYVAGYKVLPPLYDTYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMTLSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHINATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTV-ANSDQQWYYTGSSFFHPEPITEANSKYVSMDVKFKNLTNKLPPPLLSNSTDLDFKEKLEEFFKNVSSQGPNFQEISKNYTTLLNLNTKLMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHIH >BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLALMCSLTFIGNRISSQSVDVGSAGSGSCLRSQVRPEYFDIVRNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCVLQPRTQANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQAVTEECDFTPMLTGTPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTITKPSNYAYLTECYKTTAYGKNYLYNAPGGYTPCLSLASRGFSIKYQSHS----DG-ELTTTGYIYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKVSNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRL-RRATSGVPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESISNLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSAIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTISTV-ANSDQQWYYTGSSFFYPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTTWPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKIYPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQQNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTGTPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTITKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS----DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV-RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNLTRGQSVDMGHNGTGSCLDSQVQPDYFESVHTTWPMPIDTSKAEGVIYPNGKSYSNITLTYTGLYPKANDLGKQYLFSDGHSAPGRLNNLFVSNYSSQVESFDDGFVVRIGAAANKTGTTVISQSTFKPIKKIYPAFLLGHSVGNYTPSNRTGRYLNHTLVILPDGCGTILHAFYCVLHPRTQQNCAGETNFKSLSLWDTPASDCV-SGSYNQEATLGAFKVYFDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDLAQLQCSYESFEVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTGTPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGAIVQFNYKQDFSNPTCRVLATVPQNLTTITKPSNYAYLTECYKTSAYGKNYLYNAPGAYTPCLSLASRGFSTKYQSHS----DG-ELTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSSRV-RRATSGASDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPQKCIAPIDGYFVLNQTTSTV-ADSDQQWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTGTPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTITKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSLELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLLPRTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF-RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTGTPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTITKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSLELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF-RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGNRTSCQSVDIGTPVTGSCLRSQVRPEYFDIVHNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKAKDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHAVGNYTPTNITGRYLNHTLVILPDGCGTLVHAFYCILQPRTQANCPGASSFTSVTLWDTPATDCAPSGVYNSLANLNAFKLYFDLINCTFRYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYENFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLTGTPPPIYDFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPTNLTTITKSSNYVHLTECYKSTAYGKNYLYNAPGGYTPCLSLASRGFTTNRQSHSLELPDG-YLVTTGSVYPVNGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGRGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLPARTTPGPLQTTVGCAMGFINSSMVVDECQLPLGQSLCAIPPTTSTRF-RRATS-IPDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQIPQVTTGERKYRSTIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTSHVNATAAYGLCNTENPPKCIAPIDGYFVLNQTTSTARSSGDQHWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNKLPPPLLSNSTDLDFKDELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH >YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 MIRSVLVLMCSLTFIGSRTSSQSVDVGTPASGSCLRSQVRPEYFDIVRNTWPMPIDTSKAEGVIYPNGKSYSNISLTYTGLYPKANDLGKQYLFSDGHSAPNQLNDLFVSNYSAQVESFDDGFVVRIGAASNKTGTTVISQTTFKPIKKIYPGFMLGHVVGNYTPANITGRYFNHTLVILPDGCGTLVHAFYCVLQPRTQANCPGASSFTSVTLWDTPATDCAPNGVYNPLANLNAFKLYFDLLNCTFKYNYTITEDENAEWFGITQDTQGVHLYSSRKENVFRNNMFHFATLPVYQKILYYTVIPRSIRSPFNDRKAWAAFYIYKLHPLTYLLNFDVEGYITKAVDCGYDDFAQLQCSYESFDVETGVYSVSSFEASPRGEFIEQATTQECDFTPMLSGTPPPIYNFKRLVFTNCNYNLTKLLSLFQVSEFSCHQVSPSSLATGCYSSLTVDYFAYSTDMSSYLQPGSAGEIVQFNYKQDFSNPTCRVLATVPQNLTTITKPSNYAYLTECYKTSAYGKNYLYNAPGGYTPCLSLASRGFSTTYQSHS----DG-GLTTTGYIYPVTGNLQMAFIISVQYGTDTNSVCPMQALRNDTSIEDKLDVCVEYSLHGITGCGVFHNCTSVGLRNQRFVYDTFDNLVGYHSDNGNYYCVRPCVSVPVSVIYDKASNSHATLFGSVACSHVTTMMSQFSRMTKTNLLARTNPGPLQTTVGCAMGFINTSMVVDECQLPLGQSLCAIPPSPSARLARSARSGNVDVFQIATLNFTSPLTLAPINSTGFVVAVPTNFTFGVTQEFIETTIQKITVDCKQYVCNGFKKCEDLLKEYGQFCSKINQALHGANLRQDESIANLFSSIKTQNTQPLQAGLNGDFNLTMLQVPQVTTGERKYRSAIEDLLFNKVTIADPGYMQGYDECMQQGPQSARDLICAQYVAGYKVLPPLYDPYMEAAYTSSLLGSIAGASWTAGLSSFAAIPFAQSIFYRLNGVGITQQVLSENQKIIANKFNQALGAMQTGFTTTNLAFNKVQDAVNANAMALSKLAAELSNTFGAISSSISDILARLDTVEQEAQIDRLINGRLTSLNAFVAQQLVRTEAAARSAQLAQDKVNECVKSQSKRNGFCGTGTHIVSFAINAPNGLYFFHVGYQPTAHVNATAAYGLCNTETPPKCVAPIDGYFVLNQTTTTARVGADQQWYYTGSSFFHPEPITEANSKYVSMDVKFENLTNRLPPPLLSNSTDLDFKEELEEFFKNVSSQGPNFQEISKINTTLLNLNTELMVLSEVVKQLNESYIDLKELGNYTFYQKWPWYIWLGFIAGLVALALCVFFILCCTGCGTSCLGKLKCNRCCDSYDEYEVEKIHVH
Reading sequence file /data//pss_subsets/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result/original_alignment/codeml/fasta/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result.1 Found 9 sequences of length 4080 Alignment looks like a valid DNA alignment. Estimated diversity is (pairwise deletion - ignoring missing/ambig): 6.9% Found 440 informative sites. Writing alignment of informative sites to: Phi.inf.sites Writing list of informative sites to: Phi.inf.list Calculating all pairwise incompatibilities... Done: 0.0% 40.3% 70.3% 89.9% 99.2%100.0% Using a window size of 80 with k as 9 Calculating analytical mean and variance Doing permutation test for PHI Doing permutation test for NSS Doing Permutation test for MAXCHI Writing alignment of polymorphic unambig sites to: Phi.poly.sites Window size is 477 polymorphic sites **p-Value(s)** ---------- NSS: 0.00e+00 (1000 permutations) Max Chi^2: 0.00e+00 (1000 permutations) PHI (Permutation): 7.07e-01 (1000 permutations) PHI (Normal): 6.91e-01
#NEXUS [ID: 4997242410] begin taxa; dimensions ntax=9; taxlabels BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5 HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5 YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ; end; begin trees; translate 1 BY140535_S_AWH65910_1_2014_06_26_China_Unknown_Pipistrellus_bat_coronavirus_HKU5, 2 BY140562_S_AWH65921_1_2014_06_28_China_Unknown_Pipistrellus_bat_coronavirus_HKU5, 3 BtPa_GD2013_NA_AIA62343_1_2013_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 4 HKU5_1_LMH03f_S_YP_001039962_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 5 LMH03f_S_ABN10875_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 6 TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 7 TT06f_S_ABN10893_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 8 TT07f_S_ABN10902_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5, 9 YD13403_S_AWH65932_1_2013_06_03_China_Unknown_Pipistrellus_bat_coronavirus_HKU5 ; [Note: This tree contains information on the topology, branch lengths (if present), and the probability of the partition indicated by the branch.] tree con_50_majrule = (1:1.039034e-01,2:6.040975e-02,3:5.388974e-02,9:7.919105e-02,((4:2.221698e-04,5:2.344841e-04)1.000:1.310666e-01,(6:7.604664e-04,(7:2.262637e-04,8:2.251173e-04)0.571:4.549943e-04)1.000:6.428824e-02)0.667:9.228640e-03); [Note: This tree contains information only on the topology and branch lengths (median of the posterior probability density).] tree con_50_majrule = (1:1.039034e-01,2:6.040975e-02,3:5.388974e-02,9:7.919105e-02,((4:2.221698e-04,5:2.344841e-04):1.310666e-01,(6:7.604664e-04,(7:2.262637e-04,8:2.251173e-04):4.549943e-04):6.428824e-02):9.228640e-03); end;
Estimated marginal likelihoods for runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": (Use the harmonic mean for Bayes factor comparisons of models) (Values are saved to the file /data/mrbayes_input.nex.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -10451.46 -10466.18 2 -10451.50 -10469.75 -------------------------------------- TOTAL -10451.48 -10469.08 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p": Summaries are based on a total of 3002 samples from 2 runs. Each run produced 2001 samples of which 1501 samples were included. Parameter summaries saved to file "/data/mrbayes_input.nex.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.518238 0.000861 0.462056 0.576676 0.516951 1305.24 1373.36 1.000 r(A<->C){all} 0.090442 0.000169 0.066145 0.115789 0.090088 866.92 869.67 1.000 r(A<->G){all} 0.150380 0.000250 0.121230 0.182648 0.149672 775.75 899.80 1.000 r(A<->T){all} 0.112055 0.000141 0.089022 0.134771 0.112070 910.42 1015.83 1.000 r(C<->G){all} 0.042214 0.000104 0.023703 0.062686 0.041745 808.07 815.62 1.000 r(C<->T){all} 0.566266 0.000551 0.522435 0.611395 0.567014 504.23 672.70 1.000 r(G<->T){all} 0.038643 0.000062 0.023386 0.053388 0.038357 868.68 1076.35 1.002 pi(A){all} 0.269031 0.000045 0.255952 0.282524 0.268959 1001.55 1032.17 1.000 pi(C){all} 0.223151 0.000037 0.211045 0.234731 0.223005 919.45 964.09 1.000 pi(G){all} 0.194381 0.000035 0.183025 0.206032 0.194214 1093.01 1161.28 1.000 pi(T){all} 0.313436 0.000046 0.300560 0.327272 0.313284 952.91 1110.70 1.000 alpha{1,2} 0.142269 0.000206 0.116137 0.172300 0.141400 1111.82 1208.15 1.000 alpha{3} 5.664225 2.950055 2.861065 9.007021 5.425512 1190.50 1217.07 1.000 pinvar{all} 0.523670 0.000548 0.476061 0.566958 0.524544 1259.25 1343.98 1.001 ------------------------------------------------------------------------------------------------------ * Convergence diagnostic (ESS = Estimated Sample Size); min and avg values correspond to minimal and average ESS among runs. ESS value below 100 may indicate that the parameter is undersampled. + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge.
CODONML (in paml version 4.9h, March 2018) /data/fasta_checked/TT03f_S_ABN10884_1_NA_China_Bat_Pipistrellus_bat_coronavirus_HKU5.result.1 Model: One dN/dS ratio, Codon frequency model: F3x4 Site-class models: ns = 9 ls = 1351 Codon usage in sequences -------------------------------------------------------------------------------------------------------------------------------------- Phe TTT 38 39 37 31 31 42 | Ser TCT 42 38 38 35 35 38 | Tyr TAT 41 44 40 44 44 43 | Cys TGT 26 28 29 29 29 30 TTC 41 37 38 43 43 34 | TCC 19 18 18 22 22 16 | TAC 30 33 35 30 30 29 | TGC 17 15 14 14 14 14 Leu TTA 15 12 14 19 19 12 | TCA 19 23 20 21 21 19 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0 TTG 24 26 25 22 22 23 | TCG 7 5 7 9 9 8 | TAG 0 0 0 0 0 0 | Trp TGG 9 9 9 9 9 9 -------------------------------------------------------------------------------------------------------------------------------------- Leu CTT 35 36 35 37 37 36 | Pro CCT 31 31 34 29 29 34 | His CAT 16 11 12 17 17 17 | Arg CGT 12 11 12 11 11 9 CTC 12 15 15 16 16 14 | CCC 12 5 10 8 8 9 | CAC 7 8 8 7 7 7 | CGC 8 8 7 6 6 8 CTA 19 17 18 13 13 19 | CCA 16 22 16 17 17 17 | Gln CAA 45 45 42 48 48 43 | CGA 3 5 6 4 4 6 CTG 12 11 11 11 11 12 | CCG 4 3 3 5 5 3 | CAG 23 23 26 23 23 24 | CGG 3 3 1 3 3 3 -------------------------------------------------------------------------------------------------------------------------------------- Ile ATT 39 38 38 36 36 38 | Thr ACT 58 61 57 67 67 61 | Asn AAT 62 59 61 59 59 58 | Ser AGT 26 25 26 24 24 24 ATC 15 16 17 18 18 19 | ACC 14 16 18 12 12 16 | AAC 25 29 30 27 27 30 | AGC 9 9 6 7 7 10 ATA 13 13 14 12 12 12 | ACA 33 37 35 34 34 38 | Lys AAA 27 33 29 32 32 31 | Arg AGA 12 10 9 10 10 11 Met ATG 21 22 22 22 22 22 | ACG 5 4 3 5 5 6 | AAG 26 25 25 22 22 23 | AGG 4 3 5 6 6 3 -------------------------------------------------------------------------------------------------------------------------------------- Val GTT 39 38 38 35 35 43 | Ala GCT 46 39 45 46 46 42 | Asp GAT 37 32 35 30 30 39 | Gly GGT 40 35 33 35 35 32 GTC 22 21 22 22 22 18 | GCC 12 15 12 12 12 10 | GAC 24 24 22 27 27 20 | GGC 20 24 30 26 26 30 GTA 11 8 8 6 6 9 | GCA 26 30 28 28 28 31 | Glu GAA 27 30 29 32 32 26 | GGA 17 19 16 20 20 18 GTG 21 19 22 24 24 19 | GCG 5 7 6 5 5 5 | GAG 23 21 24 22 22 24 | GGG 6 8 6 5 5 5 -------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------- Phe TTT 42 42 43 | Ser TCT 38 38 38 | Tyr TAT 43 43 41 | Cys TGT 30 30 26 TTC 34 34 33 | TCC 16 16 15 | TAC 29 29 33 | TGC 14 14 18 Leu TTA 12 12 17 | TCA 19 19 21 | *** TAA 0 0 0 | *** TGA 0 0 0 TTG 23 23 22 | TCG 8 8 6 | TAG 0 0 0 | Trp TGG 9 9 9 -------------------------------------------------------------------------------------- Leu CTT 36 36 34 | Pro CCT 34 34 34 | His CAT 17 17 12 | Arg CGT 9 9 14 CTC 13 13 14 | CCC 10 10 8 | CAC 7 7 9 | CGC 8 8 5 CTA 19 19 16 | CCA 17 17 20 | Gln CAA 43 43 41 | CGA 6 6 4 CTG 12 12 14 | CCG 2 2 2 | CAG 24 24 28 | CGG 3 3 2 -------------------------------------------------------------------------------------- Ile ATT 38 38 38 | Thr ACT 61 61 59 | Asn AAT 58 58 62 | Ser AGT 24 24 23 ATC 19 19 17 | ACC 16 16 22 | AAC 30 30 26 | AGC 10 10 11 ATA 12 12 9 | ACA 38 38 31 | Lys AAA 31 31 30 | Arg AGA 11 11 10 Met ATG 22 22 22 | ACG 6 6 4 | AAG 23 23 23 | AGG 3 3 4 -------------------------------------------------------------------------------------- Val GTT 43 43 41 | Ala GCT 42 42 46 | Asp GAT 39 39 33 | Gly GGT 32 32 37 GTC 18 18 22 | GCC 10 10 13 | GAC 20 20 24 | GGC 30 30 29 GTA 9 9 10 | GCA 31 31 30 | Glu GAA 26 26 30 | GGA 18 18 13 GTG 19 19 19 | GCG 6 6 6 | GAG 24 24 21 | GGG 5 5 7 -------------------------------------------------------------------------------------- Codon position x base (3x4) table for each sequence. #1: C1 position 1: T:0.24278 C:0.19097 A:0.28793 G:0.27831 position 2: T:0.27905 C:0.25833 A:0.30570 G:0.15692 position 3: T:0.43523 C:0.21244 A:0.20947 G:0.14286 Average T:0.31902 C:0.22058 A:0.26770 G:0.19270 #2: C2 position 1: T:0.24204 C:0.18801 A:0.29608 G:0.27387 position 2: T:0.27239 C:0.26203 A:0.30866 G:0.15692 position 3: T:0.41821 C:0.21688 A:0.22502 G:0.13990 Average T:0.31088 C:0.22230 A:0.27659 G:0.19023 #3: C3 position 1: T:0.23982 C:0.18949 A:0.29238 G:0.27831 position 2: T:0.27683 C:0.25907 A:0.30940 G:0.15470 position 3: T:0.42191 C:0.22354 A:0.21021 G:0.14434 Average T:0.31285 C:0.22403 A:0.27066 G:0.19245 #4: C4 position 1: T:0.24278 C:0.18875 A:0.29090 G:0.27757 position 2: T:0.27165 C:0.26277 A:0.31088 G:0.15470 position 3: T:0.41821 C:0.21984 A:0.21910 G:0.14286 Average T:0.31088 C:0.22378 A:0.27362 G:0.19171 #5: C5 position 1: T:0.24278 C:0.18875 A:0.29090 G:0.27757 position 2: T:0.27165 C:0.26277 A:0.31088 G:0.15470 position 3: T:0.41821 C:0.21984 A:0.21910 G:0.14286 Average T:0.31088 C:0.22378 A:0.27362 G:0.19171 #6: C6 position 1: T:0.23464 C:0.19319 A:0.29756 G:0.27461 position 2: T:0.27535 C:0.26129 A:0.30644 G:0.15692 position 3: T:0.43375 C:0.21021 A:0.21614 G:0.13990 Average T:0.31458 C:0.22156 A:0.27338 G:0.19048 #7: C7 position 1: T:0.23464 C:0.19245 A:0.29756 G:0.27535 position 2: T:0.27461 C:0.26203 A:0.30644 G:0.15692 position 3: T:0.43375 C:0.21021 A:0.21614 G:0.13990 Average T:0.31434 C:0.22156 A:0.27338 G:0.19072 #8: C8 position 1: T:0.23464 C:0.19245 A:0.29756 G:0.27535 position 2: T:0.27461 C:0.26203 A:0.30644 G:0.15692 position 3: T:0.43375 C:0.21021 A:0.21614 G:0.13990 Average T:0.31434 C:0.22156 A:0.27338 G:0.19072 #9: C9 position 1: T:0.23834 C:0.19023 A:0.28942 G:0.28201 position 2: T:0.27461 C:0.26277 A:0.30570 G:0.15692 position 3: T:0.43005 C:0.22132 A:0.20873 G:0.13990 Average T:0.31434 C:0.22477 A:0.26795 G:0.19294 Sums of codon usage counts ------------------------------------------------------------------------------ Phe F TTT 345 | Ser S TCT 340 | Tyr Y TAT 383 | Cys C TGT 257 TTC 337 | TCC 162 | TAC 278 | TGC 134 Leu L TTA 132 | TCA 182 | *** * TAA 0 | *** * TGA 0 TTG 210 | TCG 67 | TAG 0 | Trp W TGG 81 ------------------------------------------------------------------------------ Leu L CTT 322 | Pro P CCT 290 | His H CAT 136 | Arg R CGT 98 CTC 128 | CCC 80 | CAC 67 | CGC 64 CTA 153 | CCA 159 | Gln Q CAA 398 | CGA 44 CTG 106 | CCG 29 | CAG 218 | CGG 24 ------------------------------------------------------------------------------ Ile I ATT 339 | Thr T ACT 552 | Asn N AAT 536 | Ser S AGT 220 ATC 158 | ACC 142 | AAC 254 | AGC 79 ATA 109 | ACA 318 | Lys K AAA 276 | Arg R AGA 94 Met M ATG 197 | ACG 44 | AAG 212 | AGG 37 ------------------------------------------------------------------------------ Val V GTT 355 | Ala A GCT 394 | Asp D GAT 314 | Gly G GGT 311 GTC 185 | GCC 106 | GAC 208 | GGC 245 GTA 76 | GCA 263 | Glu E GAA 258 | GGA 159 GTG 186 | GCG 51 | GAG 205 | GGG 52 ------------------------------------------------------------------------------ Codon position x base (3x4) table, overall position 1: T:0.23916 C:0.19048 A:0.29336 G:0.27700 position 2: T:0.27453 C:0.26145 A:0.30784 G:0.15618 position 3: T:0.42701 C:0.21605 A:0.21556 G:0.14138 Average T:0.31357 C:0.22266 A:0.27225 G:0.19152 Model 1: NearlyNeutral (2 categories) TREE # 1: (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 lnL(ntime: 13 np: 16): -9964.880337 +0.000000 10..1 10..2 10..3 10..9 10..11 11..12 12..4 12..5 11..13 13..6 13..14 14..7 14..8 0.186567 0.118597 0.114882 0.155666 0.029957 0.203235 0.000004 0.000004 0.115564 0.000775 0.000762 0.000004 0.000004 2.021064 0.928782 0.024020 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.926021 (1: 0.186567, 2: 0.118597, 3: 0.114882, 9: 0.155666, ((4: 0.000004, 5: 0.000004): 0.203235, (6: 0.000775, (7: 0.000004, 8: 0.000004): 0.000762): 0.115564): 0.029957); (C1: 0.186567, C2: 0.118597, C3: 0.114882, C9: 0.155666, ((C4: 0.000004, C5: 0.000004): 0.203235, (C6: 0.000775, (C7: 0.000004, C8: 0.000004): 0.000762): 0.115564): 0.029957); Detailed output identifying parameters kappa (ts/tv) = 2.02106 MLEs of dN/dS (w) for site classes (K=2) p: 0.92878 0.07122 w: 0.02402 1.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 10..1 0.187 3115.2 937.8 0.0935 0.0192 0.2051 59.7 192.3 10..2 0.119 3115.2 937.8 0.0935 0.0122 0.1304 38.0 122.2 10..3 0.115 3115.2 937.8 0.0935 0.0118 0.1263 36.8 118.4 10..9 0.156 3115.2 937.8 0.0935 0.0160 0.1711 49.9 160.5 10..11 0.030 3115.2 937.8 0.0935 0.0031 0.0329 9.6 30.9 11..12 0.203 3115.2 937.8 0.0935 0.0209 0.2234 65.1 209.5 12..4 0.000 3115.2 937.8 0.0935 0.0000 0.0000 0.0 0.0 12..5 0.000 3115.2 937.8 0.0935 0.0000 0.0000 0.0 0.0 11..13 0.116 3115.2 937.8 0.0935 0.0119 0.1270 37.0 119.1 13..6 0.001 3115.2 937.8 0.0935 0.0001 0.0009 0.2 0.8 13..14 0.001 3115.2 937.8 0.0935 0.0001 0.0008 0.2 0.8 14..7 0.000 3115.2 937.8 0.0935 0.0000 0.0000 0.0 0.0 14..8 0.000 3115.2 937.8 0.0935 0.0000 0.0000 0.0 0.0 Time used: 0:22 Model 2: PositiveSelection (3 categories) TREE # 1: (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 lnL(ntime: 13 np: 18): -9964.867129 +0.000000 10..1 10..2 10..3 10..9 10..11 11..12 12..4 12..5 11..13 13..6 13..14 14..7 14..8 0.186677 0.118660 0.114862 0.155734 0.030082 0.203396 0.000004 0.000004 0.115512 0.000775 0.000761 0.000004 0.000004 2.031454 0.931551 0.042955 0.024932 1.138238 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.926475 (1: 0.186677, 2: 0.118660, 3: 0.114862, 9: 0.155734, ((4: 0.000004, 5: 0.000004): 0.203396, (6: 0.000775, (7: 0.000004, 8: 0.000004): 0.000761): 0.115512): 0.030082); (C1: 0.186677, C2: 0.118660, C3: 0.114862, C9: 0.155734, ((C4: 0.000004, C5: 0.000004): 0.203396, (C6: 0.000775, (C7: 0.000004, C8: 0.000004): 0.000761): 0.115512): 0.030082); Detailed output identifying parameters kappa (ts/tv) = 2.03145 MLEs of dN/dS (w) for site classes (K=3) p: 0.93155 0.04295 0.02549 w: 0.02493 1.00000 1.13824 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 10..1 0.187 3114.4 938.6 0.0952 0.0194 0.2042 60.5 191.7 10..2 0.119 3114.4 938.6 0.0952 0.0124 0.1298 38.5 121.8 10..3 0.115 3114.4 938.6 0.0952 0.0120 0.1256 37.3 117.9 10..9 0.156 3114.4 938.6 0.0952 0.0162 0.1704 50.5 159.9 10..11 0.030 3114.4 938.6 0.0952 0.0031 0.0329 9.8 30.9 11..12 0.203 3114.4 938.6 0.0952 0.0212 0.2225 66.0 208.8 12..4 0.000 3114.4 938.6 0.0952 0.0000 0.0000 0.0 0.0 12..5 0.000 3114.4 938.6 0.0952 0.0000 0.0000 0.0 0.0 11..13 0.116 3114.4 938.6 0.0952 0.0120 0.1264 37.5 118.6 13..6 0.001 3114.4 938.6 0.0952 0.0001 0.0008 0.3 0.8 13..14 0.001 3114.4 938.6 0.0952 0.0001 0.0008 0.2 0.8 14..7 0.000 3114.4 938.6 0.0952 0.0000 0.0000 0.0 0.0 14..8 0.000 3114.4 938.6 0.0952 0.0000 0.0000 0.0 0.0 Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 224 S 0.500 1.069 551 F 0.506 1.070 Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118) Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.730 1.372 +- 0.241 29 V 0.700 1.356 +- 0.247 36 R 0.619 1.281 +- 0.347 208 S 0.536 1.202 +- 0.411 224 S 0.824 1.420 +- 0.213 229 S 0.582 1.291 +- 0.272 230 L 0.548 1.212 +- 0.406 361 N 0.585 1.290 +- 0.280 494 Q 0.557 1.236 +- 0.371 514 F 0.619 1.310 +- 0.273 515 I 0.554 1.270 +- 0.289 543 D 0.639 1.324 +- 0.256 544 R 0.727 1.370 +- 0.241 551 F 0.836 1.426 +- 0.208 558 V 0.567 1.278 +- 0.286 562 G 0.686 1.349 +- 0.249 741 S 0.510 1.175 +- 0.429 743 V 0.555 1.271 +- 0.290 749 V 0.763 1.389 +- 0.233 1177 A 0.582 1.287 +- 0.282 1178 S 0.821 1.418 +- 0.214 1179 S 0.705 1.359 +- 0.246 1180 D 0.706 1.359 +- 0.245 The grid (see ternary graph for p0-p1) w0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950 w2: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500 Posterior on the grid w0: 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 w2: 0.992 0.008 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Posterior for p0-p1 (see the ternary graph) (YWN2015, fig. 1) 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000 sum of density on p0-p1 = 1.000000 Time used: 1:11 Model 7: beta (10 categories) TREE # 1: (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 lnL(ntime: 13 np: 16): -9968.046883 +0.000000 10..1 10..2 10..3 10..9 10..11 11..12 12..4 12..5 11..13 13..6 13..14 14..7 14..8 0.188018 0.119543 0.116213 0.157108 0.029404 0.204687 0.000004 0.000004 0.117238 0.000788 0.000769 0.000004 0.000004 2.017588 0.055418 0.517912 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.933783 (1: 0.188018, 2: 0.119543, 3: 0.116213, 9: 0.157108, ((4: 0.000004, 5: 0.000004): 0.204687, (6: 0.000788, (7: 0.000004, 8: 0.000004): 0.000769): 0.117238): 0.029404); (C1: 0.188018, C2: 0.119543, C3: 0.116213, C9: 0.157108, ((C4: 0.000004, C5: 0.000004): 0.204687, (C6: 0.000788, (C7: 0.000004, C8: 0.000004): 0.000769): 0.117238): 0.029404); Detailed output identifying parameters kappa (ts/tv) = 2.01759 Parameters in M7 (beta): p = 0.05542 q = 0.51791 MLEs of dN/dS (w) for site classes (K=10) p: 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 w: 0.00000 0.00000 0.00000 0.00000 0.00000 0.00007 0.00143 0.01875 0.16685 0.77539 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 10..1 0.188 3115.5 937.5 0.0962 0.0198 0.2053 61.6 192.5 10..2 0.120 3115.5 937.5 0.0962 0.0126 0.1305 39.1 122.4 10..3 0.116 3115.5 937.5 0.0962 0.0122 0.1269 38.0 119.0 10..9 0.157 3115.5 937.5 0.0962 0.0165 0.1715 51.4 160.8 10..11 0.029 3115.5 937.5 0.0962 0.0031 0.0321 9.6 30.1 11..12 0.205 3115.5 937.5 0.0962 0.0215 0.2235 67.0 209.5 12..4 0.000 3115.5 937.5 0.0962 0.0000 0.0000 0.0 0.0 12..5 0.000 3115.5 937.5 0.0962 0.0000 0.0000 0.0 0.0 11..13 0.117 3115.5 937.5 0.0962 0.0123 0.1280 38.4 120.0 13..6 0.001 3115.5 937.5 0.0962 0.0001 0.0009 0.3 0.8 13..14 0.001 3115.5 937.5 0.0962 0.0001 0.0008 0.3 0.8 14..7 0.000 3115.5 937.5 0.0962 0.0000 0.0000 0.0 0.0 14..8 0.000 3115.5 937.5 0.0962 0.0000 0.0000 0.0 0.0 Time used: 3:08 Model 8: beta&w>1 (11 categories) TREE # 1: (1, 2, 3, 9, ((4, 5), (6, (7, 8)))); MP score: 962 lnL(ntime: 13 np: 18): -9960.308034 +0.000000 10..1 10..2 10..3 10..9 10..11 11..12 12..4 12..5 11..13 13..6 13..14 14..7 14..8 0.188186 0.119360 0.115364 0.156811 0.030383 0.204436 0.000004 0.000004 0.116041 0.000775 0.000763 0.000004 0.000004 2.033792 0.983942 0.093949 1.278865 2.192481 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.932134 (1: 0.188186, 2: 0.119360, 3: 0.115364, 9: 0.156811, ((4: 0.000004, 5: 0.000004): 0.204436, (6: 0.000775, (7: 0.000004, 8: 0.000004): 0.000763): 0.116041): 0.030383); (C1: 0.188186, C2: 0.119360, C3: 0.115364, C9: 0.156811, ((C4: 0.000004, C5: 0.000004): 0.204436, (C6: 0.000775, (C7: 0.000004, C8: 0.000004): 0.000763): 0.116041): 0.030383); Detailed output identifying parameters kappa (ts/tv) = 2.03379 Parameters in M8 (beta&w>1): p0 = 0.98394 p = 0.09395 q = 1.27886 (p1 = 0.01606) w = 2.19248 MLEs of dN/dS (w) for site classes (K=11) p: 0.09839 0.09839 0.09839 0.09839 0.09839 0.09839 0.09839 0.09839 0.09839 0.09839 0.01606 w: 0.00000 0.00000 0.00000 0.00001 0.00014 0.00120 0.00711 0.03283 0.12758 0.45925 2.19248 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 10..1 0.188 3114.3 938.7 0.0970 0.0199 0.2049 61.9 192.3 10..2 0.119 3114.3 938.7 0.0970 0.0126 0.1300 39.3 122.0 10..3 0.115 3114.3 938.7 0.0970 0.0122 0.1256 37.9 117.9 10..9 0.157 3114.3 938.7 0.0970 0.0166 0.1707 51.6 160.3 10..11 0.030 3114.3 938.7 0.0970 0.0032 0.0331 10.0 31.1 11..12 0.204 3114.3 938.7 0.0970 0.0216 0.2226 67.2 208.9 12..4 0.000 3114.3 938.7 0.0970 0.0000 0.0000 0.0 0.0 12..5 0.000 3114.3 938.7 0.0970 0.0000 0.0000 0.0 0.0 11..13 0.116 3114.3 938.7 0.0970 0.0123 0.1263 38.2 118.6 13..6 0.001 3114.3 938.7 0.0970 0.0001 0.0008 0.3 0.8 13..14 0.001 3114.3 938.7 0.0970 0.0001 0.0008 0.3 0.8 14..7 0.000 3114.3 938.7 0.0970 0.0000 0.0000 0.0 0.0 14..8 0.000 3114.3 938.7 0.0970 0.0000 0.0000 0.0 0.0 Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.920 2.054 29 V 0.875 1.975 36 R 0.609 1.504 224 S 0.989* 2.173 514 F 0.591 1.479 543 D 0.690 1.653 544 R 0.916 2.046 551 F 0.991** 2.177 562 G 0.846 1.926 749 V 0.946 2.099 1178 S 0.986* 2.168 1179 S 0.882 1.988 1180 D 0.884 1.992 Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118) Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.946 1.457 +- 0.195 29 V 0.932 1.444 +- 0.220 36 R 0.785 1.277 +- 0.446 166 T 0.503 0.941 +- 0.590 208 S 0.666 1.138 +- 0.534 224 S 0.980* 1.486 +- 0.116 229 S 0.798 1.310 +- 0.393 230 L 0.682 1.156 +- 0.526 361 N 0.784 1.293 +- 0.411 389 Q 0.534 0.980 +- 0.583 494 Q 0.713 1.198 +- 0.497 514 F 0.825 1.335 +- 0.374 515 I 0.738 1.244 +- 0.446 542 R 0.609 1.106 +- 0.513 543 D 0.876 1.391 +- 0.303 544 R 0.945 1.456 +- 0.197 551 F 0.982* 1.487 +- 0.111 557 S 0.529 0.973 +- 0.585 558 V 0.756 1.263 +- 0.434 562 G 0.924 1.437 +- 0.231 563 S 0.555 1.006 +- 0.578 612 R 0.507 0.943 +- 0.593 741 S 0.628 1.094 +- 0.552 743 V 0.737 1.243 +- 0.448 747 A 0.599 1.094 +- 0.517 749 V 0.954* 1.463 +- 0.184 750 P 0.637 1.137 +- 0.501 1177 A 0.776 1.284 +- 0.418 1178 S 0.977* 1.483 +- 0.128 1179 S 0.933 1.445 +- 0.218 1180 D 0.936 1.448 +- 0.212 1217 R 0.533 0.978 +- 0.585 The grid p0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950 p : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900 q : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900 ws: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500 Posterior on the grid p0: 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000 p : 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 q : 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.027 0.973 ws: 0.999 0.001 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Time used: 6:02
Model 1: NearlyNeutral -9964.880337 Model 2: PositiveSelection -9964.867129 Model 7: beta -9968.046883 Model 8: beta&w>1 -9960.308034 Model 2 vs 1 .026416 Model 8 vs 7 15.477698 Additional information for M7 vs M8: Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.920 2.054 29 V 0.875 1.975 36 R 0.609 1.504 224 S 0.989* 2.173 514 F 0.591 1.479 543 D 0.690 1.653 544 R 0.916 2.046 551 F 0.991** 2.177 562 G 0.846 1.926 749 V 0.946 2.099 1178 S 0.986* 2.168 1179 S 0.882 1.988 1180 D 0.884 1.992 Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118) Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: C1) Pr(w>1) post mean +- SE for w 28 P 0.946 1.457 +- 0.195 29 V 0.932 1.444 +- 0.220 36 R 0.785 1.277 +- 0.446 166 T 0.503 0.941 +- 0.590 208 S 0.666 1.138 +- 0.534 224 S 0.980* 1.486 +- 0.116 229 S 0.798 1.310 +- 0.393 230 L 0.682 1.156 +- 0.526 361 N 0.784 1.293 +- 0.411 389 Q 0.534 0.980 +- 0.583 494 Q 0.713 1.198 +- 0.497 514 F 0.825 1.335 +- 0.374 515 I 0.738 1.244 +- 0.446 542 R 0.609 1.106 +- 0.513 543 D 0.876 1.391 +- 0.303 544 R 0.945 1.456 +- 0.197 551 F 0.982* 1.487 +- 0.111 557 S 0.529 0.973 +- 0.585 558 V 0.756 1.263 +- 0.434 562 G 0.924 1.437 +- 0.231 563 S 0.555 1.006 +- 0.578 612 R 0.507 0.943 +- 0.593 741 S 0.628 1.094 +- 0.552 743 V 0.737 1.243 +- 0.448 747 A 0.599 1.094 +- 0.517 749 V 0.954* 1.463 +- 0.184 750 P 0.637 1.137 +- 0.501 1177 A 0.776 1.284 +- 0.418 1178 S 0.977* 1.483 +- 0.128 1179 S 0.933 1.445 +- 0.218 1180 D 0.936 1.448 +- 0.212 1217 R 0.533 0.978 +- 0.585
Not all of the following information may be relevant for the case being handled, since this project may be part of a much larger auto-PSS-genome project where several methods of detection of positively selected sites have been used. As such the aligned.score_ascii file may have more sequences than the file effectively used to detect positively selected codons, since the content of this file reflects the content of the file used for the master alignment, from which a subsample may have been taken. # ### General parameters ### # # The maximum number of sequences to use for the master file sequence_limit=90 # The random seed random_seed=3976763 # ### Alignment ### # # The alignment method: clustalw, muscle, kalign, t_coffee, or amap align_method=muscle # Minimum support value for amino acid positions in the alignment tcoffee_min_score=3 # ### MrBayes ### # # Number of iterations in MrBayes mrbayes_generations=1000000 # MrBayes burnin mrbayes_burnin=2500 # ### FUBAR ### # # The maximum number of sequences to be used by FUBAR. fubar_sequence_limit=90 # The number of FUBAR runs fubar_runs=1 # ### codeML ### # # The maximum number of sequences to be used by CodeML codeml_sequence_limit=30 # The number of CodeML runs codeml_runs=1 # The CodeML models to be run, one or more of: '1', '2', '7', and/or '8'. codeml_models=1 2 7 8 # ### OmegaMap ### # # The maximum number of sequences to use in OmegaMap omegamap_sequence_limit=90 # The number of OmegaMap runs omegamap_runs=1 # The number of OmegaMap iterations omegamap_iterations=2500