--- 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 -10965.12 -10977.27 2 -10965.16 -10978.99 -------------------------------------- TOTAL -10965.14 -10978.46 -------------------------------------- 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} 0.278132 0.005220 0.166657 0.426976 0.263210 764.17 782.31 1.003 r(A<->C){all} 0.015820 0.000169 0.000001 0.041363 0.012773 464.02 489.39 1.000 r(A<->G){all} 0.229520 0.003218 0.119593 0.335495 0.226965 357.84 395.90 1.002 r(A<->T){all} 0.026187 0.000136 0.003742 0.048219 0.025687 382.44 427.92 1.001 r(C<->G){all} 0.009256 0.000073 0.000003 0.026439 0.006728 634.03 737.51 1.000 r(C<->T){all} 0.697561 0.004115 0.577532 0.829919 0.699641 348.82 393.61 1.002 r(G<->T){all} 0.021656 0.000088 0.004341 0.040837 0.021015 833.08 865.48 1.001 pi(A){all} 0.248606 0.000026 0.238876 0.258558 0.248546 1120.36 1162.17 1.001 pi(C){all} 0.166934 0.000019 0.158560 0.175681 0.166990 1054.25 1073.28 1.000 pi(G){all} 0.252809 0.000027 0.242176 0.262378 0.252879 985.91 1082.39 1.000 pi(T){all} 0.331651 0.000030 0.320480 0.342120 0.331778 1062.13 1172.58 1.001 alpha{1,2} 0.032197 0.000412 0.000011 0.068081 0.030939 996.55 1148.23 1.002 alpha{3} 3.430607 2.134510 1.135814 6.402277 3.174421 1194.19 1262.02 1.001 pinvar{all} 0.732051 0.000389 0.690670 0.767055 0.733152 839.35 944.18 1.000 ------------------------------------------------------------------------------------------------------ * 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 -9403.640326 Model 2: PositiveSelection -9403.279198 Model 7: beta -9403.756008 Model 8: beta&w>1 -9403.243218 Model 2 vs 1 .722256 Model 8 vs 7 1.025580
-- Starting log on Wed Nov 02 20:11:12 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.09 sec, SCORE=1000, Nseq=4, Len=2309 C1 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C2 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C3 GKKVVFNDKPKVKEVPSTRKIKIIFALDATFDSVLSKACSEFEVDKDVTL C4 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL **** *******:::******** ************************** C1 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C2 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C3 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAEDYVYLFDEGGDEV C4 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV ************************************ ************* C1 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C2 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C3 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDADDSVVLVADAQ-EDGVA C4 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA *********************************:**.*****:* ***** C1 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C2 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C3 KEQVEVDSEICVAHTGGQDELTEPDAVGSQTPIASAEKTEVGEASDREGI C4 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI * ***.**********.*:**:***************:************ C1 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C2 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C3 AEAKATVCADDLDACPDQVEAFEIEEVEDSILDELQTELNAPADRTYEDV C4 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV ********** :*************:******************:***** C1 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C2 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C3 LAFDAIYSKALSAVYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C4 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS *****: *:****.************************************ C1 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C2 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C3 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPRSIILPQGGYVADFAY C4 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY **********************************:*************** C1 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C2 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C3 YFLSQCSFKAHANWRCLKCDMASKLQGLDAMFFYGDVVSHMCKCGSGMTL C4 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL :*********:******:*** **********************..*** C1 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C2 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C3 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVDGKLI C4 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI *********************************************:** * C1 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C2 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C3 DGKNVTKFTGDKFDFMVGHGMTFSMSPFETAQLYGSCITPNVCFVKGDVI C4 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI *** **** *********:********** ******************** C1 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C2 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C3 KVARLVEAEVIVNPANGRMAHGAGVAGAIAKAAGKFFIKETADMVKNQGV C4 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV **.***:***********************: **. *****:**** *** C1 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C2 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C3 CLVGECYESAGGKLCKKVLNIVGPDARGQGRQCYSLLERAYQHINKCDNV C4 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV * **************************:*:******************* C1 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C2 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C3 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNKDDFDVIEKCQVTSV C4 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV ***********************************:************** C1 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C2 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C3 AGTKALSLQLAKNLCRDVKFETNACDTLFGASCFVASYDVLQEVELLRHD C4 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD ******************** ****.:**. ****:********* **** C1 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C2 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C3 IQLDDDARVFVQANMDCLPTDWRLVNKLDVVDGVRTIKYFECPGEIFVSS C4 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS ***************************:* ************** ***** C1 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C2 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C3 QGKKFGYVQNGLFKVASVSQIRALLANKVDVLCTVDGVNFRSCCVTEGEV C4 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV *********** ** ******************************:**** C1 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C2 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C3 FGKTLGSVFCDGINVTKVRCSAIHKGKVFFQYSGLSEADLVAVKDAFGFD C4 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD ***********************:*********.**************** C1 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C2 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C3 EPQLLKYYNMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLNLKF C4 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF ********.*************************************.*** C1 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C2 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C3 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSTDFIRVVLREAD C4 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD ************************************** **:******** C1 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C2 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C3 LSGATCDLEFICKCGVKQDQRKGVDAVMHFGTLDKSDLVKGYNIACTCGS C4 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS ******:***:*******:****************.***:********** C1 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C2 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C3 KLVHCTQFNVPFLICSYTPEGRKLPDDVVAANIFTGGSLGHYTHVKCKPK C4 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK **************** *********************:*********** C1 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C2 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C3 YQLYDACNVSKVSEAKGNFTDCLYLKNLKQTFSSVLTTYYLDDVKCVEYK C4 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK *********.****************************:*********** C1 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C2 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C3 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C4 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK ************************************************** C1 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C2 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C3 LGFDCDSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C4 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL *****:******************************************** C1 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C2 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C3 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKEPVPAAVLVTGVP C4 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP ************************************* ************ C1 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C2 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C3 SADASADAGTAKEQKACASDNVEEQVVTEVHQEPSVSAVDVKEVKLNGVK C4 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK .*****.** ********* .**:******:*******.*********** C1 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C2 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C3 KPVKVEDSVVVNDPTSDTKVVKSLSIVD--DMFLTGCKYVVWTANELSRL C4 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL ******.*********:*********** ******************** C1 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C2 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C3 VNSPTVREYVKW--GKIVIPTKLLLLRDERQEFVAPKVVKAKAIACYGAV C4 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV ************ **** *:********:***************** ** C1 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C2 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C3 KWFFFYCFSWIKFNTDNKVIYTTELASKLTFKLCCLAFKNALQTFNWSVV C4 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV ***::*******************:************************* C1 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C2 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C3 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGSLPTFVGQIVAWFKTTF C4 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF *********************************.**************** C1 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C2 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C3 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDSYDAINVVQHVV C4 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV **************************************.*********** C1 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C2 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C3 DRRVSFDYISILKLVVELIIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C4 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM ***:******::******:******************************* C1 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C2 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C3 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSNP C4 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP ************************************************:* C1 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C2 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C3 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCDS C4 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS ************************************************:* C1 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C2 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C3 WKPGNTFITLEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C4 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER ********* **************************************** C1 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C2 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C3 DGQRVYDDVSASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C4 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV *********.**************************************** C1 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C2 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C3 FYAQSLYRPMLMVEKKLITTANTGLSVSQTMFDLYVDSLLNVLDVDRKSL C4 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL ****************************:********************* C1 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C2 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C3 TSFVNAAHNSLKEGVQLEQVMDTFVGCARRKCAIDSDVETRSITKSVMSA C4 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA ************************:***************:********* C1 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C2 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C3 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQSNVAKAAN C4 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN ******************************************:******* C1 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C2 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C3 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C4 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF ************************************************** C1 SLKGGAVFSRMLQWLFVANLICFIVLWALMPTYAVHKSDMQLPLYASFKV C2 SLKGG--------------------------------------------- C3 SLKGG--------------------------------------------- C4 SLKGG--------------------------------------------- ***** C1 IDNGVLRDVSVTDACFANKFNQFDQWYESTFGLAYYRNSKACPVVVAVID C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 QDIGHTLFNVPTTVLRYGFHVLHFITHAFATDSVQCYTPHMQIPYDNFYA C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 SGCVLSSLCTMLAHADGTPHPYCYTGGVMHNASLYSSLAPHVRYNLASSN C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 GYIRFPEVVSEGIVRVVRTRSMTYCRVGLCEEAEEGICFNFNRSWVLNNP C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 YYRAMPGTFCGRNAFDLIHQVLGGLVRPIDFFALTASSVAGAILAIIVVL C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 AFYYLIKLK C2 --------- C3 --------- C4 --------- -- Starting log on Wed Nov 02 20:13:57 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.10 sec, SCORE=999, Nseq=4, Len=2309 C1 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C2 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C3 GKKVVFNDKPKVKEVPSTRKIKIIFALDATFDSVLSKACSEFEVDKDVTL C4 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL **** *******:::******** ************************** C1 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C2 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C3 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAEDYVYLFDEGGDEV C4 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV ************************************ ************* C1 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C2 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C3 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDADDSVVLVADAQ-EDGVA C4 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA *********************************:**.*****:* ***** C1 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C2 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C3 KEQVEVDSEICVAHTGGQDELTEPDAVGSQTPIASAEKTEVGEASDREGI C4 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI * ***.**********.*:**:***************:************ C1 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C2 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C3 AEAKATVCADDLDACPDQVEAFEIEEVEDSILDELQTELNAPADRTYEDV C4 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV ********** :*************:******************:***** C1 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C2 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C3 LAFDAIYSKALSAVYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C4 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS *****: *:****.************************************ C1 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C2 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C3 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPRSIILPQGGYVADFAY C4 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY **********************************:*************** C1 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C2 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C3 YFLSQCSFKAHANWRCLKCDMASKLQGLDAMFFYGDVVSHMCKCGSGMTL C4 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL :*********:******:*** **********************..*** C1 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C2 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C3 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVDGKLI C4 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI *********************************************:** * C1 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C2 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C3 DGKNVTKFTGDKFDFMVGHGMTFSMSPFETAQLYGSCITPNVCFVKGDVI C4 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI *** **** *********:********** ******************** C1 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C2 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C3 KVARLVEAEVIVNPANGRMAHGAGVAGAIAKAAGKFFIKETADMVKNQGV C4 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV **.***:***********************: **. *****:**** *** C1 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C2 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C3 CLVGECYESAGGKLCKKVLNIVGPDARGQGRQCYSLLERAYQHINKCDNV C4 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV * **************************:*:******************* C1 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C2 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C3 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNKDDFDVIEKCQVTSV C4 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV ***********************************:************** C1 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C2 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C3 AGTKALSLQLAKNLCRDVKFETNACDTLFGASCFVASYDVLQEVELLRHD C4 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD ******************** ****.:**. ****:********* **** C1 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C2 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C3 IQLDDDARVFVQANMDCLPTDWRLVNKLDVVDGVRTIKYFECPGEIFVSS C4 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS ***************************:* ************** ***** C1 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C2 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C3 QGKKFGYVQNGLFKVASVSQIRALLANKVDVLCTVDGVNFRSCCVTEGEV C4 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV *********** ** ******************************:**** C1 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C2 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C3 FGKTLGSVFCDGINVTKVRCSAIHKGKVFFQYSGLSEADLVAVKDAFGFD C4 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD ***********************:*********.**************** C1 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C2 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C3 EPQLLKYYNMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLNLKF C4 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF ********.*************************************.*** C1 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C2 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C3 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSTDFIRVVLREAD C4 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD ************************************** **:******** C1 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C2 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C3 LSGATCDLEFICKCGVKQDQRKGVDAVMHFGTLDKSDLVKGYNIACTCGS C4 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS ******:***:*******:****************.***:********** C1 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C2 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C3 KLVHCTQFNVPFLICSYTPEGRKLPDDVVAANIFTGGSLGHYTHVKCKPK C4 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK **************** *********************:*********** C1 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C2 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C3 YQLYDACNVSKVSEAKGNFTDCLYLKNLKQTFSSVLTTYYLDDVKCVEYK C4 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK *********.****************************:*********** C1 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C2 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C3 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C4 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK ************************************************** C1 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C2 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C3 LGFDCDSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C4 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL *****:******************************************** C1 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C2 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C3 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKEPVPAAVLVTGVP C4 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP ************************************* ************ C1 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C2 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C3 SADASADAGTAKEQKACASDNVEEQVVTEVHQEPSVSAVDVKEVKLNGVK C4 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK .*****.** ********* .**:******:*******.*********** C1 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C2 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C3 KPVKVEDSVVVNDPTSDTKVVKSLSIVD--DMFLTGCKYVVWTANELSRL C4 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL ******.*********:*********** ******************** C1 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C2 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C3 VNSPTVREYVKW--GKIVIPTKLLLLRDERQEFVAPKVVKAKAIACYGAV C4 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV ************ **** *:********:***************** ** C1 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C2 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C3 KWFFFYCFSWIKFNTDNKVIYTTELASKLTFKLCCLAFKNALQTFNWSVV C4 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV ***::*******************:************************* C1 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C2 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C3 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGSLPTFVGQIVAWFKTTF C4 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF *********************************.**************** C1 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C2 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C3 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDSYDAINVVQHVV C4 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV **************************************.*********** C1 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C2 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C3 DRRVSFDYISILKLVVELIIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C4 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM ***:******::******:******************************* C1 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C2 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C3 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSNP C4 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP ************************************************:* C1 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C2 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C3 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCDS C4 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS ************************************************:* C1 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C2 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C3 WKPGNTFITLEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C4 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER ********* **************************************** C1 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C2 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C3 DGQRVYDDVSASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C4 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV *********.**************************************** C1 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C2 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C3 FYAQSLYRPMLMVEKKLITTANTGLSVSQTMFDLYVDSLLNVLDVDRKSL C4 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL ****************************:********************* C1 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C2 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C3 TSFVNAAHNSLKEGVQLEQVMDTFVGCARRKCAIDSDVETRSITKSVMSA C4 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA ************************:***************:********* C1 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C2 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C3 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQSNVAKAAN C4 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN ******************************************:******* C1 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C2 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C3 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C4 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF ************************************************** C1 SLKGGAVFSRMLQWLFVANLICFIVLWALMPTYAVHKSDMQLPLYASFKV C2 SLKGG--------------------------------------------- C3 SLKGG--------------------------------------------- C4 SLKGG--------------------------------------------- ***** C1 IDNGVLRDVSVTDACFANKFNQFDQWYESTFGLAYYRNSKACPVVVAVID C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 QDIGHTLFNVPTTVLRYGFHVLHFITHAFATDSVQCYTPHMQIPYDNFYA C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 SGCVLSSLCTMLAHADGTPHPYCYTGGVMHNASLYSSLAPHVRYNLASSN C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 GYIRFPEVVSEGIVRVVRTRSMTYCRVGLCEEAEEGICFNFNRSWVLNNP C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 YYRAMPGTFCGRNAFDLIHQVLGGLVRPIDFFALTASSVAGAILAIIVVL C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 AFYYLIKLK C2 --------- C3 --------- C4 --------- -- Starting log on Wed Nov 02 21:46:10 GMT 2022 -- -- Iteration: /working_dir/pss_subsets/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result/gapped_alignment/codeml,A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.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 4 taxa and 6927 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 Successfully read matrix Setting default partition (does not divide up characters) Setting model defaults Seed (for generating default start values) = 1667425573 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) = 1103032411 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 = 8730171575 Seed = 133183857 Swapseed = 1667425573 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 1.00 % Dirichlet(Revmat{all}) 1.00 % Slider(Revmat{all}) 1.00 % Dirichlet(Pi{all}) 1.00 % Slider(Pi{all}) 2.00 % Multiplier(Alpha{1,2}) 2.00 % Multiplier(Alpha{3}) 2.00 % Slider(Pinvar{all}) 10.00 % ExtSPR(Tau{all},V{all}) 10.00 % NNI(Tau{all},V{all}) 10.00 % ParsSPR(Tau{all},V{all}) 40.00 % Multiplier(V{all}) 14.00 % Nodeslider(V{all}) 6.00 % TLMultiplier(V{all}) Division 1 has 21 unique site patterns Division 2 has 20 unique site patterns Division 3 has 24 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 -- -12026.544874 -- 13.556448 Chain 2 -- -12026.544875 -- 13.556448 Chain 3 -- -12026.544875 -- 13.556448 Chain 4 -- -12026.544875 -- 13.556448 Initial log likelihoods and log prior probs for run 2: Chain 1 -- -12026.544875 -- 13.556448 Chain 2 -- -12026.544875 -- 13.556448 Chain 3 -- -12026.544875 -- 13.556448 Chain 4 -- -12026.544874 -- 13.556448 Using a relative burnin of 25.0 % for diagnostics Chain results (1000000 generations requested): 0 -- [-12026.545] (-12026.545) (-12026.545) (-12026.545) * [-12026.545] (-12026.545) (-12026.545) (-12026.545) 1000 -- (-11173.151) (-11081.407) [-11090.642] (-11190.119) * (-11150.181) (-11129.260) [-11108.452] (-11139.525) -- 0:00:00 2000 -- (-11066.822) [-11039.561] (-11064.417) (-11124.859) * (-11085.643) (-11091.250) [-11055.670] (-11072.022) -- 0:00:00 3000 -- (-11047.092) [-10990.100] (-11017.000) (-11048.652) * (-11027.945) (-11054.793) (-11051.622) [-11021.738] -- 0:00:00 4000 -- (-11023.226) [-10971.930] (-10990.543) (-11028.259) * [-10994.666] (-11008.951) (-11038.729) (-11000.012) -- 0:00:00 5000 -- (-11020.346) [-10966.613] (-10983.594) (-10985.877) * (-10975.362) [-10988.624] (-11013.311) (-10989.394) -- 0:03:19 Average standard deviation of split frequencies: 0.209513 6000 -- (-11006.571) [-10965.560] (-10972.224) (-10973.881) * (-10975.090) [-10978.875] (-10977.046) (-10983.794) -- 0:02:45 7000 -- (-10985.728) [-10968.251] (-10973.838) (-10967.651) * [-10971.309] (-10978.117) (-10982.051) (-10969.419) -- 0:02:21 8000 -- (-10976.314) [-10969.667] (-10971.886) (-10965.943) * (-10975.292) [-10973.713] (-10972.365) (-10972.115) -- 0:02:04 9000 -- [-10968.570] (-10973.731) (-10971.595) (-10970.553) * [-10978.343] (-10974.193) (-10970.028) (-10970.573) -- 0:01:50 10000 -- (-10969.423) (-10972.582) (-10969.034) [-10965.142] * [-10968.255] (-10969.978) (-10964.948) (-10973.638) -- 0:01:39 Average standard deviation of split frequencies: 0.088388 11000 -- (-10975.956) (-10977.996) [-10971.777] (-10969.891) * [-10969.405] (-10971.120) (-10968.379) (-10973.159) -- 0:02:59 12000 -- (-10968.847) (-10967.687) [-10970.373] (-10969.252) * [-10966.041] (-10965.752) (-10966.538) (-10969.077) -- 0:02:44 13000 -- (-10971.184) (-10977.970) (-10974.581) [-10966.221] * (-10968.273) [-10971.986] (-10966.154) (-10971.011) -- 0:02:31 14000 -- (-10977.605) (-10969.864) [-10974.356] (-10964.408) * (-10965.964) (-10968.265) (-10974.969) [-10973.631] -- 0:02:20 15000 -- [-10970.309] (-10971.048) (-10970.362) (-10973.094) * (-10983.789) [-10969.144] (-10965.865) (-10973.555) -- 0:02:11 Average standard deviation of split frequencies: 0.058926 16000 -- (-10966.907) (-10973.079) [-10967.457] (-10971.510) * (-10970.608) [-10966.632] (-10964.348) (-10970.609) -- 0:02:03 17000 -- (-10967.131) [-10970.501] (-10967.095) (-10971.895) * [-10969.901] (-10971.348) (-10962.262) (-10962.840) -- 0:02:53 18000 -- (-10965.246) [-10967.079] (-10970.032) (-10971.732) * (-10970.665) [-10975.591] (-10969.380) (-10974.547) -- 0:02:43 19000 -- (-10974.851) [-10966.371] (-10974.428) (-10978.955) * [-10970.140] (-10966.633) (-10979.030) (-10969.772) -- 0:02:34 20000 -- (-10974.222) (-10971.473) [-10969.805] (-10975.908) * (-10964.815) (-10967.669) (-10972.542) [-10970.709] -- 0:02:27 Average standard deviation of split frequencies: 0.045620 21000 -- (-10968.008) (-10972.882) (-10970.599) [-10967.772] * (-10969.596) (-10965.797) (-10968.425) [-10966.993] -- 0:02:19 22000 -- [-10971.880] (-10972.306) (-10967.946) (-10965.319) * (-10970.739) [-10969.200] (-10964.688) (-10980.116) -- 0:02:13 23000 -- (-10974.495) (-10972.547) [-10966.243] (-10971.128) * (-10967.297) (-10971.374) (-10966.977) [-10967.409] -- 0:02:49 24000 -- [-10971.316] (-10972.145) (-10974.222) (-10967.423) * (-10971.257) (-10974.391) [-10968.489] (-10970.964) -- 0:02:42 25000 -- (-10966.243) [-10966.676] (-10973.696) (-10964.599) * (-10972.755) (-10968.975) [-10964.654] (-10977.419) -- 0:02:36 Average standard deviation of split frequencies: 0.024175 26000 -- [-10967.647] (-10969.117) (-10973.647) (-10965.217) * (-10972.966) (-10969.324) [-10971.243] (-10966.464) -- 0:02:29 27000 -- (-10968.719) [-10966.108] (-10969.122) (-10965.827) * (-10965.073) (-10975.139) (-10969.143) [-10965.143] -- 0:02:24 28000 -- [-10967.627] (-10968.708) (-10966.599) (-10964.606) * [-10969.260] (-10978.956) (-10967.438) (-10971.990) -- 0:02:18 29000 -- (-10975.015) [-10966.722] (-10971.805) (-10969.724) * [-10968.808] (-10970.825) (-10971.276) (-10967.353) -- 0:02:47 30000 -- (-10973.821) (-10968.056) [-10973.476] (-10968.536) * (-10967.346) (-10971.604) (-10972.000) [-10972.094] -- 0:02:41 Average standard deviation of split frequencies: 0.030744 31000 -- (-10970.569) (-10969.135) (-10972.906) [-10966.060] * (-10970.968) [-10968.520] (-10968.222) (-10966.985) -- 0:02:36 32000 -- (-10967.716) (-10968.432) (-10974.014) [-10970.928] * (-10963.542) [-10967.392] (-10967.909) (-10971.273) -- 0:02:31 33000 -- (-10970.211) [-10967.577] (-10967.020) (-10967.041) * [-10969.471] (-10990.262) (-10973.839) (-10966.776) -- 0:02:26 34000 -- [-10968.818] (-10969.899) (-10974.558) (-10964.097) * (-10977.329) (-10976.951) (-10971.935) [-10966.544] -- 0:02:22 35000 -- (-10964.522) [-10971.273] (-10969.754) (-10968.571) * [-10974.027] (-10968.443) (-10971.568) (-10969.359) -- 0:02:45 Average standard deviation of split frequencies: 0.043649 36000 -- (-10974.919) [-10974.917] (-10969.387) (-10967.242) * (-10974.617) [-10973.810] (-10967.976) (-10976.207) -- 0:02:40 37000 -- (-10969.735) (-10967.945) (-10970.501) [-10973.555] * (-10971.058) (-10965.972) [-10965.555] (-10966.648) -- 0:02:36 38000 -- [-10964.614] (-10969.587) (-10971.505) (-10965.554) * (-10970.776) [-10966.402] (-10966.920) (-10971.778) -- 0:02:31 39000 -- [-10964.960] (-10969.721) (-10971.819) (-10966.494) * (-10967.938) (-10971.638) [-10963.013] (-10967.466) -- 0:02:27 40000 -- [-10972.234] (-10964.229) (-10970.319) (-10971.456) * (-10966.555) [-10970.943] (-10972.558) (-10964.616) -- 0:02:24 Average standard deviation of split frequencies: 0.046368 41000 -- (-10968.514) [-10965.537] (-10971.259) (-10969.877) * (-10974.249) (-10966.687) (-10967.486) [-10968.426] -- 0:02:43 42000 -- (-10967.537) [-10964.071] (-10966.599) (-10979.076) * [-10974.257] (-10982.475) (-10975.636) (-10966.241) -- 0:02:39 43000 -- [-10968.150] (-10975.680) (-10967.305) (-10971.313) * (-10972.812) [-10975.272] (-10971.917) (-10968.444) -- 0:02:35 44000 -- (-10970.742) (-10966.378) (-10970.457) [-10966.918] * (-10966.591) (-10971.594) (-10972.898) [-10963.942] -- 0:02:32 45000 -- (-10969.833) (-10971.297) [-10968.033] (-10970.438) * [-10974.240] (-10977.669) (-10969.249) (-10964.529) -- 0:02:28 Average standard deviation of split frequencies: 0.047824 46000 -- (-10972.784) [-10963.721] (-10972.697) (-10972.174) * (-10965.033) (-10969.583) (-10972.838) [-10964.113] -- 0:02:25 47000 -- (-10966.696) [-10966.902] (-10972.450) (-10970.209) * (-10967.810) [-10967.303] (-10967.986) (-10978.570) -- 0:02:42 48000 -- (-10972.630) [-10968.126] (-10968.102) (-10973.761) * [-10964.473] (-10969.766) (-10987.106) (-10972.451) -- 0:02:38 49000 -- [-10965.852] (-10969.045) (-10970.845) (-10971.956) * (-10964.723) (-10977.270) [-10974.521] (-10979.158) -- 0:02:35 50000 -- (-10972.124) (-10971.093) (-10968.813) [-10975.869] * (-10973.741) (-10966.367) (-10975.972) [-10971.290] -- 0:02:32 Average standard deviation of split frequencies: 0.037216 51000 -- (-10976.849) [-10965.393] (-10975.423) (-10967.559) * [-10970.199] (-10963.542) (-10976.057) (-10970.142) -- 0:02:28 52000 -- (-10967.107) (-10968.704) (-10968.221) [-10964.581] * (-10969.043) [-10967.648] (-10977.208) (-10977.386) -- 0:02:25 53000 -- (-10970.986) (-10970.774) [-10964.220] (-10968.308) * (-10969.216) (-10968.994) [-10970.434] (-10968.817) -- 0:02:40 54000 -- (-10966.886) (-10968.667) [-10970.169] (-10966.504) * [-10965.731] (-10972.222) (-10981.395) (-10970.512) -- 0:02:37 55000 -- (-10978.908) (-10971.932) (-10968.320) [-10971.226] * (-10967.262) [-10968.160] (-10974.393) (-10965.676) -- 0:02:34 Average standard deviation of split frequencies: 0.044896 56000 -- (-10972.790) (-10972.385) (-10976.126) [-10974.852] * (-10972.769) [-10972.036] (-10969.832) (-10966.169) -- 0:02:31 57000 -- (-10976.138) (-10979.985) [-10972.316] (-10970.762) * (-10973.036) (-10967.018) (-10967.913) [-10967.209] -- 0:02:28 58000 -- (-10973.168) (-10973.174) [-10984.223] (-10970.360) * (-10968.359) [-10969.719] (-10969.178) (-10964.996) -- 0:02:26 59000 -- (-10969.418) (-10974.854) [-10970.143] (-10966.230) * (-10971.586) (-10967.396) (-10972.200) [-10963.042] -- 0:02:23 60000 -- [-10962.372] (-10972.708) (-10966.694) (-10969.543) * [-10964.282] (-10969.495) (-10964.657) (-10968.063) -- 0:02:36 Average standard deviation of split frequencies: 0.020721 61000 -- [-10965.084] (-10971.299) (-10968.868) (-10974.077) * (-10970.671) [-10967.410] (-10969.866) (-10966.414) -- 0:02:33 62000 -- (-10968.871) (-10973.456) [-10965.189] (-10977.050) * (-10971.877) (-10976.727) (-10974.127) [-10968.628] -- 0:02:31 63000 -- [-10966.304] (-10975.241) (-10966.709) (-10974.973) * (-10970.970) [-10967.822] (-10975.518) (-10973.488) -- 0:02:28 64000 -- [-10967.044] (-10973.089) (-10963.261) (-10970.392) * (-10972.729) [-10970.791] (-10974.630) (-10974.819) -- 0:02:26 65000 -- [-10964.584] (-10969.613) (-10967.237) (-10963.029) * [-10978.710] (-10967.199) (-10979.229) (-10971.371) -- 0:02:38 Average standard deviation of split frequencies: 0.019047 66000 -- (-10970.578) (-10970.637) [-10965.095] (-10966.795) * (-10972.144) [-10971.442] (-10972.753) (-10969.275) -- 0:02:35 67000 -- (-10976.268) (-10970.402) (-10968.280) [-10966.165] * (-10967.781) [-10964.047] (-10967.787) (-10969.368) -- 0:02:33 68000 -- (-10972.155) (-10970.697) (-10969.375) [-10966.196] * (-10974.583) [-10965.600] (-10977.530) (-10978.107) -- 0:02:30 69000 -- (-10972.122) (-10978.322) (-10964.093) [-10966.944] * (-10977.773) [-10966.368] (-10973.416) (-10968.632) -- 0:02:28 70000 -- (-10968.250) [-10970.693] (-10972.180) (-10975.940) * [-10968.706] (-10976.816) (-10972.427) (-10976.690) -- 0:02:26 Average standard deviation of split frequencies: 0.013342 71000 -- (-10975.188) [-10964.655] (-10971.588) (-10969.538) * (-10981.104) [-10970.927] (-10971.027) (-10968.565) -- 0:02:23 72000 -- (-10977.870) [-10974.340] (-10968.436) (-10981.920) * (-10966.946) [-10965.625] (-10968.156) (-10967.363) -- 0:02:34 73000 -- (-10972.816) [-10966.595] (-10969.680) (-10975.237) * (-10968.995) [-10971.676] (-10971.918) (-10966.021) -- 0:02:32 74000 -- (-10974.638) (-10969.405) (-10970.972) [-10964.525] * (-10964.956) (-10974.689) [-10970.246] (-10967.457) -- 0:02:30 75000 -- (-10968.119) (-10974.972) (-10965.802) [-10969.990] * (-10962.053) (-10965.728) (-10972.051) [-10968.006] -- 0:02:28 Average standard deviation of split frequencies: 0.016541 76000 -- (-10976.701) [-10968.428] (-10965.064) (-10969.544) * (-10965.255) [-10966.632] (-10967.546) (-10971.567) -- 0:02:25 77000 -- (-10968.698) (-10965.990) (-10973.476) [-10967.177] * [-10963.724] (-10969.122) (-10974.707) (-10971.055) -- 0:02:23 78000 -- (-10972.597) (-10976.603) (-10972.260) [-10968.853] * [-10963.168] (-10963.757) (-10971.451) (-10977.051) -- 0:02:33 79000 -- (-10964.819) (-10966.319) [-10969.697] (-10965.351) * [-10967.025] (-10966.264) (-10975.757) (-10973.677) -- 0:02:31 80000 -- [-10966.727] (-10973.832) (-10965.646) (-10976.066) * [-10963.809] (-10969.711) (-10981.179) (-10966.969) -- 0:02:29 Average standard deviation of split frequencies: 0.023375 81000 -- [-10965.504] (-10964.732) (-10969.270) (-10972.218) * (-10967.435) [-10969.285] (-10973.377) (-10976.469) -- 0:02:27 82000 -- (-10970.317) (-10969.406) [-10963.821] (-10970.625) * (-10969.602) (-10966.351) [-10966.985] (-10974.214) -- 0:02:25 83000 -- (-10966.595) (-10973.461) [-10971.013] (-10972.676) * [-10973.521] (-10969.596) (-10970.985) (-10971.659) -- 0:02:23 84000 -- (-10964.303) (-10975.408) [-10962.380] (-10971.196) * (-10965.528) (-10971.004) (-10969.366) [-10975.792] -- 0:02:32 85000 -- (-10972.143) [-10970.814] (-10965.317) (-10970.908) * [-10970.210] (-10976.912) (-10980.118) (-10976.315) -- 0:02:30 Average standard deviation of split frequencies: 0.032889 86000 -- [-10970.166] (-10970.217) (-10964.400) (-10973.519) * (-10970.816) (-10970.482) [-10968.687] (-10968.735) -- 0:02:28 87000 -- (-10968.242) [-10967.468] (-10967.596) (-10971.469) * [-10967.106] (-10970.524) (-10970.647) (-10972.009) -- 0:02:26 88000 -- (-10967.197) [-10970.863] (-10964.385) (-10978.980) * (-10967.366) (-10972.214) [-10976.261] (-10972.725) -- 0:02:25 89000 -- (-10969.827) (-10968.962) [-10963.351] (-10968.682) * (-10965.456) [-10972.863] (-10976.719) (-10975.122) -- 0:02:23 90000 -- (-10970.511) (-10968.385) (-10966.223) [-10966.790] * (-10967.437) (-10977.981) (-10967.339) [-10972.924] -- 0:02:21 Average standard deviation of split frequencies: 0.020797 91000 -- (-10970.347) [-10970.331] (-10971.070) (-10968.030) * [-10969.775] (-10978.738) (-10966.407) (-10979.466) -- 0:02:29 92000 -- (-10965.506) (-10974.407) [-10965.326] (-10970.768) * (-10969.307) (-10969.067) (-10975.686) [-10977.357] -- 0:02:28 93000 -- (-10966.897) (-10966.108) [-10962.641] (-10965.316) * (-10972.339) (-10972.424) (-10974.383) [-10965.512] -- 0:02:26 94000 -- (-10970.678) [-10968.164] (-10963.768) (-10967.292) * [-10970.181] (-10968.606) (-10974.792) (-10968.461) -- 0:02:24 95000 -- (-10966.001) (-10973.447) [-10966.254] (-10971.859) * (-10974.135) (-10974.620) [-10975.659] (-10969.138) -- 0:02:22 Average standard deviation of split frequencies: 0.022915 96000 -- (-10964.282) (-10968.441) [-10977.219] (-10972.614) * [-10969.273] (-10973.089) (-10976.069) (-10969.694) -- 0:02:21 97000 -- (-10971.509) (-10967.200) (-10974.657) [-10967.124] * (-10969.895) [-10972.665] (-10968.165) (-10968.994) -- 0:02:28 98000 -- (-10970.349) (-10971.139) (-10972.859) [-10965.982] * (-10968.277) (-10973.464) (-10976.388) [-10974.527] -- 0:02:27 99000 -- [-10963.692] (-10971.062) (-10963.469) (-10968.083) * (-10969.834) (-10971.043) [-10973.377] (-10977.301) -- 0:02:25 100000 -- (-10967.948) (-10970.748) [-10969.737] (-10970.759) * (-10972.834) [-10963.855] (-10968.091) (-10967.790) -- 0:02:24 Average standard deviation of split frequencies: 0.024975 101000 -- (-10967.448) [-10968.927] (-10968.709) (-10972.961) * (-10970.186) (-10967.750) (-10969.510) [-10967.198] -- 0:02:22 102000 -- (-10975.522) (-10965.824) [-10969.251] (-10970.521) * (-10972.527) [-10968.894] (-10978.423) (-10963.181) -- 0:02:20 103000 -- [-10967.724] (-10969.219) (-10975.361) (-10965.100) * (-10972.220) (-10972.211) (-10969.575) [-10965.332] -- 0:02:28 104000 -- (-10976.924) (-10968.605) [-10973.297] (-10966.964) * (-10972.221) [-10968.129] (-10970.821) (-10966.571) -- 0:02:26 105000 -- (-10979.612) (-10969.301) (-10973.270) [-10965.107] * (-10972.979) [-10975.950] (-10971.099) (-10971.700) -- 0:02:24 Average standard deviation of split frequencies: 0.038543 106000 -- (-10970.459) [-10963.974] (-10973.618) (-10965.628) * (-10971.698) [-10967.598] (-10972.639) (-10968.338) -- 0:02:23 107000 -- (-10971.137) (-10977.593) (-10970.349) [-10965.156] * (-10963.559) [-10965.462] (-10974.978) (-10973.067) -- 0:02:21 108000 -- [-10965.847] (-10963.358) (-10969.481) (-10970.633) * [-10968.790] (-10971.052) (-10975.500) (-10967.734) -- 0:02:20 109000 -- (-10966.434) (-10965.053) [-10966.181] (-10969.950) * (-10965.364) (-10970.248) (-10969.063) [-10967.467] -- 0:02:27 110000 -- (-10966.648) (-10963.101) [-10967.927] (-10964.787) * [-10967.163] (-10967.060) (-10969.782) (-10968.823) -- 0:02:25 Average standard deviation of split frequencies: 0.042597 111000 -- (-10969.369) (-10968.039) (-10966.057) [-10971.542] * [-10967.208] (-10973.197) (-10967.117) (-10965.509) -- 0:02:24 112000 -- [-10966.706] (-10969.181) (-10968.696) (-10965.760) * (-10970.625) [-10970.412] (-10970.056) (-10965.023) -- 0:02:22 113000 -- (-10969.703) [-10969.203] (-10968.970) (-10967.986) * (-10971.582) (-10968.590) (-10974.256) [-10964.377] -- 0:02:21 114000 -- (-10973.233) (-10971.691) [-10968.799] (-10967.048) * (-10982.451) (-10966.120) (-10970.146) [-10966.942] -- 0:02:19 115000 -- (-10967.934) (-10968.756) (-10966.362) [-10968.149] * (-10972.031) (-10968.833) [-10966.063] (-10966.381) -- 0:02:26 Average standard deviation of split frequencies: 0.035220 116000 -- (-10966.833) (-10967.487) [-10965.175] (-10971.427) * (-10966.306) [-10964.786] (-10976.070) (-10969.834) -- 0:02:24 117000 -- (-10969.047) (-10969.883) [-10967.991] (-10973.479) * (-10970.150) [-10968.258] (-10964.597) (-10971.813) -- 0:02:23 118000 -- (-10970.115) (-10975.720) [-10967.318] (-10970.577) * (-10970.629) (-10971.446) [-10966.476] (-10968.316) -- 0:02:22 119000 -- (-10968.758) (-10972.478) [-10970.085] (-10965.315) * (-10983.651) [-10971.131] (-10974.559) (-10973.274) -- 0:02:20 120000 -- (-10970.260) (-10973.474) (-10968.583) [-10969.329] * (-10978.275) (-10969.809) [-10971.620] (-10968.374) -- 0:02:19 Average standard deviation of split frequencies: 0.031253 121000 -- (-10967.379) (-10970.287) [-10973.891] (-10970.266) * [-10966.900] (-10971.750) (-10976.291) (-10976.141) -- 0:02:25 122000 -- (-10967.549) [-10971.027] (-10967.601) (-10965.724) * (-10971.235) (-10969.837) [-10970.339] (-10971.940) -- 0:02:23 123000 -- (-10966.485) (-10973.198) (-10971.895) [-10964.553] * (-10970.735) [-10965.918] (-10974.164) (-10965.401) -- 0:02:22 124000 -- [-10965.699] (-10965.683) (-10973.706) (-10981.463) * (-10976.751) (-10969.984) [-10967.519] (-10970.776) -- 0:02:21 125000 -- (-10963.121) (-10974.197) (-10978.273) [-10965.388] * (-10969.776) (-10967.654) (-10971.088) [-10966.305] -- 0:02:20 Average standard deviation of split frequencies: 0.027436 126000 -- (-10969.154) (-10966.486) [-10968.808] (-10969.066) * (-10970.082) (-10980.665) [-10963.852] (-10967.071) -- 0:02:18 127000 -- [-10970.322] (-10969.485) (-10973.756) (-10972.863) * (-10973.161) (-10968.604) (-10969.124) [-10968.350] -- 0:02:24 128000 -- (-10970.880) (-10966.429) [-10965.678] (-10970.342) * (-10976.658) (-10973.611) (-10978.327) [-10965.793] -- 0:02:23 129000 -- (-10965.147) [-10971.483] (-10972.141) (-10964.218) * (-10969.184) [-10967.240] (-10973.083) (-10969.965) -- 0:02:21 130000 -- [-10971.729] (-10969.624) (-10975.249) (-10968.787) * [-10970.416] (-10970.252) (-10973.804) (-10966.753) -- 0:02:20 Average standard deviation of split frequencies: 0.024051 131000 -- (-10973.446) (-10971.923) (-10968.164) [-10962.139] * (-10972.482) [-10971.364] (-10973.811) (-10966.525) -- 0:02:19 132000 -- (-10968.208) (-10977.103) [-10969.183] (-10969.846) * [-10976.618] (-10966.201) (-10973.172) (-10964.873) -- 0:02:18 133000 -- (-10970.987) (-10968.357) (-10968.600) [-10969.137] * (-10978.223) [-10971.623] (-10965.493) (-10968.825) -- 0:02:16 134000 -- (-10975.188) [-10971.548] (-10970.132) (-10971.502) * (-10980.670) [-10962.885] (-10966.614) (-10973.516) -- 0:02:22 135000 -- (-10963.651) (-10972.663) [-10968.037] (-10971.212) * (-10970.634) (-10970.227) (-10970.350) [-10972.743] -- 0:02:20 Average standard deviation of split frequencies: 0.016176 136000 -- (-10969.053) (-10973.124) [-10965.022] (-10970.105) * (-10970.713) (-10965.121) (-10975.324) [-10969.197] -- 0:02:19 137000 -- (-10967.295) (-10977.594) (-10966.786) [-10965.638] * (-10968.145) (-10967.714) [-10976.450] (-10972.547) -- 0:02:18 138000 -- (-10965.607) (-10971.253) [-10974.447] (-10972.360) * (-10967.088) [-10967.533] (-10973.967) (-10975.826) -- 0:02:17 139000 -- (-10973.627) (-10974.759) (-10966.744) [-10967.195] * [-10967.826] (-10968.402) (-10968.833) (-10969.078) -- 0:02:16 140000 -- (-10974.568) (-10973.592) (-10979.803) [-10968.154] * [-10966.577] (-10966.752) (-10966.316) (-10965.611) -- 0:02:21 Average standard deviation of split frequencies: 0.017873 141000 -- (-10969.902) (-10994.630) (-10967.938) [-10966.889] * [-10963.519] (-10972.414) (-10966.015) (-10967.621) -- 0:02:20 142000 -- [-10963.047] (-10970.631) (-10970.273) (-10965.290) * (-10966.826) (-10968.017) [-10968.889] (-10970.688) -- 0:02:18 143000 -- (-10965.330) (-10972.973) (-10971.193) [-10965.732] * [-10965.310] (-10973.564) (-10968.427) (-10965.958) -- 0:02:17 144000 -- (-10967.137) [-10967.086] (-10972.720) (-10970.221) * (-10967.570) (-10968.428) (-10968.118) [-10968.158] -- 0:02:16 145000 -- [-10970.574] (-10974.292) (-10975.841) (-10968.870) * (-10970.483) (-10968.075) [-10968.699] (-10967.924) -- 0:02:15 Average standard deviation of split frequencies: 0.017220 146000 -- (-10974.615) (-10969.257) (-10971.072) [-10968.703] * [-10962.445] (-10968.354) (-10966.398) (-10974.114) -- 0:02:20 147000 -- (-10976.111) (-10966.841) [-10967.176] (-10970.607) * (-10971.995) (-10971.162) [-10967.772] (-10979.015) -- 0:02:19 148000 -- (-10970.819) [-10966.870] (-10966.201) (-10973.923) * [-10967.347] (-10976.077) (-10970.724) (-10973.674) -- 0:02:18 149000 -- (-10966.340) (-10962.671) (-10974.799) [-10975.542] * [-10971.850] (-10976.169) (-10971.932) (-10969.921) -- 0:02:17 150000 -- (-10970.353) (-10967.629) [-10970.765] (-10970.304) * (-10966.716) (-10967.932) [-10967.785] (-10970.552) -- 0:02:21 Average standard deviation of split frequencies: 0.014601 151000 -- [-10970.369] (-10968.720) (-10968.227) (-10967.815) * (-10977.814) (-10965.971) [-10968.351] (-10967.194) -- 0:02:20 152000 -- (-10965.569) (-10968.357) (-10971.830) [-10969.022] * (-10964.817) (-10970.340) [-10966.514] (-10970.868) -- 0:02:19 153000 -- (-10973.703) (-10964.629) (-10964.526) [-10966.638] * (-10969.767) [-10963.558] (-10969.166) (-10974.656) -- 0:02:18 154000 -- (-10973.990) (-10972.235) (-10969.566) [-10964.343] * (-10974.656) (-10967.319) [-10967.842] (-10965.443) -- 0:02:17 155000 -- (-10968.499) (-10968.106) [-10966.961] (-10965.737) * [-10972.547] (-10981.469) (-10966.185) (-10972.174) -- 0:02:16 Average standard deviation of split frequencies: 0.014102 156000 -- [-10969.064] (-10973.692) (-10968.514) (-10965.203) * [-10962.631] (-10982.040) (-10975.470) (-10964.368) -- 0:02:20 157000 -- [-10969.316] (-10976.831) (-10968.824) (-10968.130) * (-10964.730) [-10975.184] (-10971.457) (-10965.725) -- 0:02:19 158000 -- [-10965.643] (-10976.195) (-10968.732) (-10973.355) * (-10965.142) (-10968.916) (-10971.331) [-10967.780] -- 0:02:18 159000 -- (-10965.326) (-10969.904) (-10971.829) [-10962.776] * (-10971.075) (-10972.488) [-10973.311] (-10968.887) -- 0:02:17 160000 -- (-10977.051) (-10968.777) (-10986.766) [-10969.871] * (-10968.624) (-10972.147) (-10971.697) [-10967.920] -- 0:02:16 Average standard deviation of split frequencies: 0.003912 161000 -- (-10967.526) (-10964.569) (-10969.848) [-10967.382] * (-10968.977) (-10965.806) [-10970.436] (-10964.350) -- 0:02:15 162000 -- (-10970.528) (-10967.260) [-10967.327] (-10963.855) * (-10968.090) [-10970.045] (-10969.744) (-10968.014) -- 0:02:14 163000 -- (-10966.694) (-10970.330) (-10967.170) [-10968.422] * (-10972.595) (-10965.744) [-10974.403] (-10971.221) -- 0:02:18 164000 -- (-10967.519) (-10967.285) (-10970.181) [-10967.337] * [-10968.274] (-10973.784) (-10966.970) (-10966.195) -- 0:02:17 165000 -- (-10970.488) (-10965.799) (-10963.746) [-10965.336] * (-10973.335) (-10967.589) [-10969.729] (-10967.500) -- 0:02:16 Average standard deviation of split frequencies: 0.005680 166000 -- (-10971.036) [-10965.467] (-10967.461) (-10971.276) * [-10964.427] (-10968.629) (-10969.733) (-10970.778) -- 0:02:15 167000 -- [-10968.497] (-10967.139) (-10974.634) (-10973.934) * [-10966.502] (-10967.946) (-10971.053) (-10970.615) -- 0:02:14 168000 -- (-10963.160) (-10963.828) (-10968.276) [-10965.993] * (-10974.605) (-10966.701) (-10975.581) [-10965.650] -- 0:02:13 169000 -- [-10965.434] (-10971.093) (-10974.453) (-10967.801) * [-10965.503] (-10963.442) (-10972.603) (-10971.968) -- 0:02:17 170000 -- (-10968.633) [-10966.431] (-10970.409) (-10970.031) * (-10972.531) (-10968.628) [-10969.514] (-10963.278) -- 0:02:16 Average standard deviation of split frequencies: 0.003683 171000 -- [-10968.374] (-10972.669) (-10971.961) (-10967.979) * (-10966.991) [-10975.364] (-10967.223) (-10969.014) -- 0:02:15 172000 -- (-10972.405) [-10970.781] (-10977.932) (-10973.853) * (-10970.157) (-10972.674) (-10970.034) [-10968.212] -- 0:02:14 173000 -- (-10966.980) (-10971.747) (-10971.005) [-10965.924] * (-10968.067) (-10973.853) [-10969.022] (-10977.349) -- 0:02:13 174000 -- (-10975.147) [-10967.241] (-10969.412) (-10969.499) * (-10972.170) [-10970.535] (-10970.580) (-10971.347) -- 0:02:12 175000 -- [-10964.985] (-10974.112) (-10970.778) (-10972.139) * [-10969.963] (-10974.024) (-10969.307) (-10968.315) -- 0:02:16 Average standard deviation of split frequencies: 0.003571 176000 -- (-10967.831) (-10961.612) [-10964.372] (-10973.080) * [-10968.003] (-10973.042) (-10973.301) (-10971.815) -- 0:02:15 177000 -- (-10966.923) [-10967.813] (-10968.325) (-10969.261) * (-10965.536) [-10970.084] (-10971.493) (-10971.387) -- 0:02:14 178000 -- (-10971.902) (-10966.930) [-10974.149] (-10968.830) * (-10965.598) (-10967.033) [-10968.427] (-10968.357) -- 0:02:13 179000 -- [-10969.225] (-10965.468) (-10969.555) (-10967.776) * (-10964.711) (-10976.744) [-10966.385] (-10972.500) -- 0:02:13 180000 -- (-10971.163) (-10971.122) [-10970.681] (-10967.789) * (-10966.998) [-10967.973] (-10966.935) (-10968.001) -- 0:02:12 Average standard deviation of split frequencies: 0.006958 181000 -- (-10969.531) [-10972.818] (-10973.602) (-10973.588) * [-10971.248] (-10970.529) (-10968.780) (-10973.380) -- 0:02:15 182000 -- (-10971.257) (-10967.318) [-10967.910] (-10967.170) * [-10968.556] (-10967.649) (-10972.613) (-10973.970) -- 0:02:14 183000 -- (-10971.797) (-10967.493) [-10965.267] (-10967.160) * (-10969.154) [-10964.877] (-10971.087) (-10965.329) -- 0:02:13 184000 -- (-10969.555) (-10972.024) (-10976.328) [-10969.641] * [-10965.832] (-10968.350) (-10967.806) (-10965.739) -- 0:02:13 185000 -- (-10968.892) (-10973.003) (-10977.438) [-10966.358] * (-10967.977) [-10967.450] (-10969.698) (-10968.452) -- 0:02:12 Average standard deviation of split frequencies: 0.005069 186000 -- (-10969.040) (-10963.522) [-10968.629] (-10971.546) * (-10974.569) (-10967.855) [-10971.556] (-10963.351) -- 0:02:11 187000 -- [-10975.236] (-10964.580) (-10965.071) (-10970.224) * [-10967.928] (-10967.057) (-10967.984) (-10971.287) -- 0:02:14 188000 -- [-10966.455] (-10965.454) (-10967.755) (-10971.815) * (-10970.269) (-10975.430) (-10976.926) [-10968.391] -- 0:02:13 189000 -- (-10966.289) [-10966.877] (-10968.185) (-10969.425) * [-10963.012] (-10968.781) (-10967.579) (-10966.785) -- 0:02:13 190000 -- (-10968.954) [-10965.078] (-10974.962) (-10972.156) * (-10965.148) (-10967.136) (-10967.649) [-10975.026] -- 0:02:12 Average standard deviation of split frequencies: 0.004945 191000 -- (-10966.749) [-10966.955] (-10977.994) (-10970.293) * [-10965.961] (-10967.936) (-10969.182) (-10964.179) -- 0:02:11 192000 -- (-10972.497) (-10969.919) (-10976.501) [-10965.621] * (-10970.070) (-10965.818) [-10967.342] (-10971.155) -- 0:02:10 193000 -- [-10965.732] (-10970.243) (-10973.633) (-10970.370) * (-10971.105) (-10970.740) (-10967.600) [-10966.966] -- 0:02:13 194000 -- (-10965.391) [-10969.339] (-10968.679) (-10964.724) * (-10965.664) [-10970.072] (-10964.836) (-10974.578) -- 0:02:12 195000 -- (-10977.276) (-10970.237) [-10977.353] (-10964.731) * (-10966.891) (-10972.014) [-10971.959] (-10971.313) -- 0:02:12 Average standard deviation of split frequencies: 0.008017 196000 -- (-10973.216) [-10967.553] (-10971.573) (-10975.479) * (-10968.592) (-10968.732) (-10971.278) [-10968.985] -- 0:02:11 197000 -- [-10974.210] (-10974.204) (-10973.193) (-10973.628) * [-10970.900] (-10967.499) (-10968.931) (-10967.263) -- 0:02:10 198000 -- (-10977.765) (-10966.871) (-10972.134) [-10970.549] * [-10968.057] (-10967.108) (-10969.326) (-10967.293) -- 0:02:09 199000 -- (-10969.624) [-10968.291] (-10975.526) (-10976.634) * (-10970.928) (-10964.750) (-10968.714) [-10962.895] -- 0:02:12 200000 -- (-10970.405) (-10984.846) (-10967.480) [-10967.246] * (-10974.771) [-10965.125] (-10973.030) (-10966.615) -- 0:02:12 Average standard deviation of split frequencies: 0.004698 201000 -- (-10966.939) (-10976.122) (-10971.715) [-10967.423] * (-10978.215) (-10967.042) (-10968.633) [-10966.713] -- 0:02:11 202000 -- (-10974.011) [-10974.580] (-10969.742) (-10967.628) * (-10972.020) [-10964.142] (-10967.798) (-10975.868) -- 0:02:10 203000 -- (-10966.527) (-10974.477) [-10964.760] (-10971.080) * (-10975.058) (-10969.216) [-10966.498] (-10972.283) -- 0:02:09 204000 -- (-10966.509) (-10974.194) [-10966.554] (-10967.425) * (-10968.670) (-10967.145) [-10969.045] (-10970.156) -- 0:02:08 205000 -- [-10965.393] (-10975.533) (-10970.587) (-10967.108) * (-10967.907) (-10964.715) [-10971.576] (-10973.723) -- 0:02:11 Average standard deviation of split frequencies: 0.003051 206000 -- (-10974.454) [-10969.648] (-10968.018) (-10969.383) * (-10974.664) (-10978.034) [-10968.028] (-10968.833) -- 0:02:11 207000 -- (-10970.055) [-10970.110] (-10972.031) (-10967.408) * (-10972.830) (-10971.016) (-10969.458) [-10969.240] -- 0:02:10 208000 -- [-10964.026] (-10973.569) (-10967.808) (-10974.249) * (-10970.344) (-10978.678) [-10965.990] (-10970.293) -- 0:02:09 209000 -- (-10975.119) (-10970.972) [-10966.503] (-10969.274) * [-10969.286] (-10975.235) (-10973.103) (-10967.585) -- 0:02:08 210000 -- (-10964.786) (-10974.596) (-10965.382) [-10969.613] * (-10965.651) [-10962.846] (-10966.394) (-10966.300) -- 0:02:07 Average standard deviation of split frequencies: 0.005967 211000 -- (-10962.656) (-10974.024) [-10963.647] (-10970.971) * (-10969.295) [-10966.610] (-10967.604) (-10967.099) -- 0:02:10 212000 -- [-10966.434] (-10975.005) (-10977.326) (-10974.997) * (-10963.730) (-10977.523) [-10968.290] (-10968.775) -- 0:02:10 213000 -- (-10969.068) [-10968.819] (-10969.550) (-10972.750) * (-10970.476) (-10965.595) (-10968.612) [-10971.689] -- 0:02:09 214000 -- [-10965.151] (-10964.113) (-10969.371) (-10969.510) * [-10967.980] (-10965.900) (-10974.392) (-10967.981) -- 0:02:08 215000 -- (-10967.009) [-10964.293] (-10972.234) (-10969.579) * (-10971.181) (-10980.558) (-10977.993) [-10967.924] -- 0:02:07 Average standard deviation of split frequencies: 0.013095 216000 -- (-10966.350) [-10971.569] (-10969.891) (-10972.009) * (-10960.763) [-10965.535] (-10964.531) (-10963.578) -- 0:02:07 217000 -- (-10969.805) (-10972.442) [-10964.573] (-10969.672) * (-10966.582) (-10974.891) (-10976.881) [-10962.988] -- 0:02:06 218000 -- (-10975.862) (-10971.672) (-10976.447) [-10968.207] * (-10972.163) (-10972.352) (-10969.198) [-10970.790] -- 0:02:09 219000 -- (-10973.976) [-10967.592] (-10973.373) (-10968.573) * [-10973.779] (-10968.769) (-10980.701) (-10970.111) -- 0:02:08 220000 -- (-10972.346) [-10965.960] (-10970.073) (-10970.375) * (-10967.923) (-10967.268) (-10974.486) [-10969.780] -- 0:02:07 Average standard deviation of split frequencies: 0.014242 221000 -- (-10966.954) (-10967.450) [-10965.542] (-10969.075) * [-10965.821] (-10966.634) (-10978.159) (-10970.844) -- 0:02:06 222000 -- (-10967.012) (-10969.196) [-10967.823] (-10971.932) * (-10967.503) [-10972.305] (-10968.277) (-10970.810) -- 0:02:06 223000 -- (-10970.946) [-10970.461] (-10967.957) (-10965.343) * [-10967.778] (-10973.515) (-10976.877) (-10970.472) -- 0:02:05 224000 -- (-10962.875) [-10975.315] (-10969.025) (-10963.623) * [-10970.020] (-10964.042) (-10982.403) (-10971.223) -- 0:02:08 225000 -- (-10964.816) [-10968.899] (-10965.644) (-10967.516) * (-10975.216) (-10972.876) [-10966.613] (-10973.237) -- 0:02:07 Average standard deviation of split frequencies: 0.011125 226000 -- [-10974.126] (-10967.798) (-10970.877) (-10966.107) * (-10975.621) (-10964.269) [-10967.507] (-10971.121) -- 0:02:06 227000 -- (-10973.793) (-10970.317) (-10966.594) [-10966.644] * (-10975.383) [-10972.768] (-10969.446) (-10971.371) -- 0:02:05 228000 -- (-10972.964) (-10974.461) [-10967.290] (-10967.285) * (-10973.766) (-10973.835) (-10969.161) [-10965.832] -- 0:02:05 229000 -- [-10966.749] (-10969.356) (-10965.510) (-10965.180) * (-10979.424) (-10980.458) [-10967.832] (-10968.097) -- 0:02:04 230000 -- (-10968.183) (-10976.040) (-10970.787) [-10965.149] * (-10968.459) (-10967.309) (-10972.944) [-10970.256] -- 0:02:07 Average standard deviation of split frequencies: 0.006812 231000 -- (-10966.512) (-10968.184) (-10974.592) [-10962.223] * (-10972.015) (-10973.062) (-10970.996) [-10965.372] -- 0:02:06 232000 -- [-10970.694] (-10968.624) (-10969.868) (-10966.826) * (-10970.851) [-10972.498] (-10967.614) (-10967.595) -- 0:02:05 233000 -- (-10967.346) (-10968.074) (-10971.461) [-10970.281] * (-10962.583) (-10967.327) [-10968.594] (-10965.756) -- 0:02:05 234000 -- [-10978.426] (-10964.754) (-10968.359) (-10974.021) * (-10969.933) (-10966.815) [-10970.601] (-10970.178) -- 0:02:04 235000 -- (-10970.963) [-10974.072] (-10968.440) (-10973.409) * (-10967.974) (-10968.674) (-10966.437) [-10965.569] -- 0:02:03 Average standard deviation of split frequencies: 0.005327 236000 -- (-10970.957) (-10967.959) [-10966.143] (-10976.056) * (-10979.918) (-10964.762) (-10969.877) [-10976.949] -- 0:02:06 237000 -- [-10966.617] (-10968.791) (-10968.310) (-10977.193) * (-10970.217) (-10967.514) (-10969.160) [-10965.830] -- 0:02:05 238000 -- (-10967.431) (-10966.483) (-10972.639) [-10977.034] * [-10970.146] (-10971.590) (-10964.007) (-10965.520) -- 0:02:04 239000 -- [-10972.409] (-10964.926) (-10964.145) (-10968.877) * [-10965.724] (-10974.056) (-10965.253) (-10974.440) -- 0:02:04 240000 -- (-10971.466) [-10968.456] (-10964.726) (-10970.017) * (-10968.409) (-10966.648) (-10963.086) [-10966.965] -- 0:02:03 Average standard deviation of split frequencies: 0.005223 241000 -- [-10970.527] (-10974.220) (-10969.387) (-10969.551) * (-10972.780) (-10974.557) [-10964.025] (-10965.370) -- 0:02:02 242000 -- (-10974.826) [-10970.418] (-10974.035) (-10971.681) * (-10969.771) (-10975.483) (-10968.439) [-10967.368] -- 0:02:05 243000 -- (-10970.440) (-10966.592) [-10966.140] (-10968.955) * (-10969.844) [-10968.831] (-10973.578) (-10966.098) -- 0:02:04 244000 -- (-10977.883) [-10973.320] (-10969.121) (-10967.980) * (-10969.842) (-10971.518) (-10971.786) [-10970.772] -- 0:02:03 245000 -- (-10966.783) (-10970.860) [-10964.232] (-10965.117) * (-10972.669) [-10967.630] (-10971.318) (-10970.137) -- 0:02:03 Average standard deviation of split frequencies: 0.002555 246000 -- (-10974.051) [-10967.100] (-10965.084) (-10966.725) * [-10974.459] (-10975.256) (-10967.617) (-10968.005) -- 0:02:02 247000 -- (-10968.736) (-10964.512) (-10966.770) [-10968.208] * (-10972.558) (-10967.709) [-10965.674] (-10971.734) -- 0:02:01 248000 -- [-10968.800] (-10963.679) (-10975.497) (-10960.649) * (-10978.114) [-10971.779] (-10970.602) (-10968.816) -- 0:02:04 249000 -- [-10964.723] (-10961.149) (-10975.147) (-10965.296) * (-10972.131) (-10974.819) [-10970.922] (-10966.269) -- 0:02:03 250000 -- (-10966.829) (-10973.418) [-10974.025] (-10976.891) * (-10968.601) [-10967.290] (-10968.044) (-10968.371) -- 0:02:03 Average standard deviation of split frequencies: 0.001254 251000 -- (-10967.393) [-10964.393] (-10968.540) (-10968.055) * (-10969.845) [-10964.219] (-10970.530) (-10965.518) -- 0:02:02 252000 -- (-10970.048) [-10963.854] (-10963.734) (-10977.000) * (-10973.689) (-10966.436) [-10967.083] (-10967.912) -- 0:02:01 253000 -- [-10967.958] (-10973.970) (-10962.273) (-10970.064) * (-10968.092) [-10963.983] (-10964.152) (-10969.647) -- 0:02:01 254000 -- [-10971.827] (-10967.863) (-10973.181) (-10966.538) * (-10969.401) (-10970.656) [-10966.819] (-10972.597) -- 0:02:03 255000 -- (-10970.142) (-10966.013) (-10965.825) [-10966.115] * [-10969.449] (-10972.265) (-10965.518) (-10970.747) -- 0:02:02 Average standard deviation of split frequencies: 0.006138 256000 -- (-10970.400) (-10967.526) [-10968.939] (-10968.144) * (-10966.005) (-10972.774) [-10968.191] (-10968.165) -- 0:02:02 257000 -- (-10975.368) (-10964.436) [-10969.196] (-10964.394) * [-10967.005] (-10977.648) (-10970.181) (-10969.272) -- 0:02:01 258000 -- (-10965.155) [-10965.030] (-10975.657) (-10971.828) * [-10971.108] (-10969.194) (-10969.125) (-10972.472) -- 0:02:00 259000 -- (-10972.954) (-10968.756) [-10965.851] (-10973.060) * (-10966.712) [-10968.283] (-10964.874) (-10969.659) -- 0:02:00 260000 -- (-10974.552) [-10970.966] (-10970.966) (-10970.541) * (-10969.803) [-10966.652] (-10963.624) (-10965.172) -- 0:02:02 Average standard deviation of split frequencies: 0.004823 261000 -- (-10974.770) (-10966.354) [-10969.735] (-10971.068) * (-10964.153) [-10969.665] (-10974.745) (-10969.498) -- 0:02:01 262000 -- (-10970.185) (-10966.634) [-10965.324] (-10967.773) * (-10966.028) [-10966.278] (-10971.917) (-10966.398) -- 0:02:01 263000 -- (-10965.498) (-10968.952) [-10969.857] (-10967.297) * (-10971.005) (-10966.265) (-10966.785) [-10966.876] -- 0:02:00 264000 -- [-10961.471] (-10963.929) (-10971.568) (-10966.556) * (-10973.034) (-10964.188) [-10970.038] (-10970.770) -- 0:01:59 265000 -- (-10963.788) (-10963.597) (-10971.670) [-10971.750] * [-10968.355] (-10972.535) (-10967.124) (-10967.100) -- 0:01:59 Average standard deviation of split frequencies: 0.008270 266000 -- (-10965.203) [-10969.436] (-10971.611) (-10962.961) * (-10970.193) (-10970.439) [-10969.484] (-10970.797) -- 0:01:58 267000 -- [-10965.774] (-10971.506) (-10969.017) (-10964.255) * [-10964.286] (-10965.212) (-10970.799) (-10966.378) -- 0:02:00 268000 -- (-10975.114) (-10965.794) [-10965.950] (-10965.204) * (-10966.280) (-10972.980) [-10966.563] (-10971.285) -- 0:02:00 269000 -- (-10976.867) (-10969.011) [-10971.150] (-10966.834) * (-10967.205) (-10971.082) (-10971.382) [-10966.128] -- 0:01:59 270000 -- (-10974.302) (-10970.124) [-10969.811] (-10975.484) * (-10969.489) (-10970.286) (-10969.463) [-10977.366] -- 0:01:58 Average standard deviation of split frequencies: 0.008128 271000 -- (-10973.988) (-10963.587) (-10970.034) [-10971.220] * [-10964.994] (-10973.946) (-10968.059) (-10968.222) -- 0:01:58 272000 -- (-10969.108) (-10965.755) (-10965.491) [-10980.636] * [-10967.023] (-10971.797) (-10976.749) (-10966.377) -- 0:01:57 273000 -- [-10970.012] (-10981.573) (-10975.045) (-10973.465) * (-10972.175) (-10973.134) [-10973.722] (-10972.210) -- 0:01:59 274000 -- [-10967.877] (-10973.368) (-10966.459) (-10968.520) * [-10967.332] (-10967.407) (-10967.714) (-10974.220) -- 0:01:59 275000 -- (-10962.758) (-10969.591) [-10965.405] (-10981.779) * (-10972.490) (-10971.322) [-10969.349] (-10968.304) -- 0:01:58 Average standard deviation of split frequencies: 0.011387 276000 -- [-10972.825] (-10976.284) (-10964.187) (-10970.713) * [-10964.970] (-10973.125) (-10969.452) (-10962.030) -- 0:01:58 277000 -- (-10966.231) [-10969.014] (-10970.265) (-10967.272) * (-10975.724) (-10970.190) [-10967.466] (-10971.464) -- 0:02:00 278000 -- (-10972.027) (-10964.400) (-10969.116) [-10967.051] * [-10970.901] (-10970.710) (-10970.262) (-10967.184) -- 0:01:59 279000 -- (-10973.695) [-10968.204] (-10969.014) (-10964.330) * (-10973.321) (-10967.447) [-10966.013] (-10968.392) -- 0:01:58 280000 -- [-10965.481] (-10971.710) (-10970.799) (-10973.337) * (-10970.373) (-10975.972) (-10973.063) [-10970.473] -- 0:01:58 Average standard deviation of split frequencies: 0.013437 281000 -- (-10967.805) [-10965.603] (-10969.092) (-10971.829) * (-10969.280) [-10969.126] (-10968.654) (-10965.134) -- 0:01:57 282000 -- (-10974.187) (-10965.013) (-10974.001) [-10970.967] * (-10967.606) (-10981.611) [-10970.916] (-10965.660) -- 0:01:57 283000 -- [-10968.068] (-10972.438) (-10968.325) (-10965.161) * (-10966.692) (-10975.743) [-10970.984] (-10968.464) -- 0:01:56 284000 -- (-10972.237) [-10970.649] (-10967.419) (-10969.835) * (-10970.941) (-10968.058) [-10973.177] (-10969.027) -- 0:01:58 285000 -- [-10973.186] (-10976.499) (-10976.406) (-10969.795) * (-10965.572) [-10969.019] (-10972.148) (-10972.301) -- 0:01:57 Average standard deviation of split frequencies: 0.018680 286000 -- (-10966.486) (-10970.926) [-10965.757] (-10967.562) * [-10971.954] (-10970.698) (-10967.868) (-10969.451) -- 0:01:57 287000 -- (-10971.455) [-10970.093] (-10967.832) (-10973.281) * [-10967.903] (-10967.668) (-10968.916) (-10975.733) -- 0:01:56 288000 -- [-10975.622] (-10976.095) (-10974.410) (-10968.113) * (-10963.203) (-10972.769) [-10965.495] (-10972.221) -- 0:01:56 289000 -- [-10969.950] (-10971.901) (-10969.867) (-10964.825) * [-10966.506] (-10970.314) (-10970.182) (-10972.642) -- 0:01:55 290000 -- (-10967.127) [-10978.019] (-10968.194) (-10962.242) * (-10974.617) (-10975.168) [-10966.410] (-10973.907) -- 0:01:57 Average standard deviation of split frequencies: 0.017299 291000 -- (-10963.137) (-10973.087) (-10973.479) [-10974.442] * (-10967.634) (-10963.718) [-10968.863] (-10974.906) -- 0:01:56 292000 -- (-10971.451) [-10969.365] (-10970.012) (-10971.595) * (-10969.261) (-10970.946) [-10966.426] (-10973.012) -- 0:01:56 293000 -- (-10971.526) (-10972.251) (-10971.759) [-10972.687] * (-10975.101) [-10972.205] (-10969.823) (-10976.126) -- 0:01:55 294000 -- (-10969.366) (-10968.183) [-10967.424] (-10963.845) * (-10980.115) (-10968.734) [-10965.656] (-10974.705) -- 0:01:55 295000 -- (-10973.718) (-10970.306) [-10967.491] (-10972.786) * (-10972.021) (-10968.035) [-10969.782] (-10979.274) -- 0:01:54 Average standard deviation of split frequencies: 0.020173 296000 -- (-10969.420) (-10971.233) (-10970.539) [-10969.602] * [-10969.132] (-10968.268) (-10974.334) (-10980.465) -- 0:01:56 297000 -- [-10968.222] (-10968.894) (-10964.281) (-10971.543) * [-10966.021] (-10972.600) (-10970.087) (-10978.062) -- 0:01:55 298000 -- (-10967.214) (-10968.020) [-10969.172] (-10970.418) * [-10966.526] (-10968.279) (-10968.988) (-10974.481) -- 0:01:55 299000 -- [-10966.276] (-10963.101) (-10963.000) (-10967.025) * (-10968.564) [-10966.778] (-10969.834) (-10974.375) -- 0:01:54 300000 -- (-10972.437) (-10968.746) [-10967.676] (-10969.101) * (-10968.554) [-10968.272] (-10971.306) (-10970.244) -- 0:01:54 Average standard deviation of split frequencies: 0.019860 301000 -- (-10966.916) (-10966.394) [-10972.876] (-10967.348) * (-10969.031) (-10967.402) [-10967.534] (-10967.989) -- 0:01:53 302000 -- [-10967.496] (-10968.148) (-10967.499) (-10964.519) * [-10964.402] (-10966.835) (-10968.285) (-10970.243) -- 0:01:55 303000 -- (-10972.094) (-10977.214) (-10970.583) [-10963.241] * (-10963.538) [-10968.199] (-10970.173) (-10976.731) -- 0:01:55 304000 -- (-10971.409) [-10971.243] (-10971.428) (-10966.745) * [-10966.200] (-10978.899) (-10969.670) (-10970.617) -- 0:01:54 305000 -- (-10968.434) (-10965.096) [-10968.549] (-10975.237) * (-10966.074) [-10969.867] (-10973.346) (-10980.827) -- 0:01:53 Average standard deviation of split frequencies: 0.018486 306000 -- (-10971.080) (-10970.986) [-10966.489] (-10965.317) * (-10972.176) (-10970.707) (-10973.818) [-10971.692] -- 0:01:53 307000 -- [-10968.669] (-10975.253) (-10963.802) (-10972.179) * (-10971.338) (-10968.692) [-10964.691] (-10966.842) -- 0:01:52 308000 -- (-10968.954) [-10971.328] (-10977.364) (-10965.421) * (-10972.041) (-10976.196) (-10962.374) [-10969.474] -- 0:01:54 309000 -- (-10967.574) (-10978.712) (-10970.522) [-10966.270] * [-10967.687] (-10973.786) (-10969.107) (-10975.855) -- 0:01:54 310000 -- (-10971.456) [-10973.760] (-10973.661) (-10969.922) * (-10968.114) (-10967.886) (-10970.524) [-10965.344] -- 0:01:53 Average standard deviation of split frequencies: 0.016186 311000 -- (-10963.981) (-10970.643) (-10967.724) [-10971.883] * (-10966.887) (-10971.853) (-10975.199) [-10966.531] -- 0:01:52 312000 -- [-10967.722] (-10974.362) (-10965.992) (-10974.313) * [-10965.606] (-10961.430) (-10976.846) (-10965.946) -- 0:01:52 313000 -- (-10970.348) [-10970.215] (-10969.303) (-10968.883) * (-10975.161) (-10967.720) (-10973.324) [-10969.957] -- 0:01:51 314000 -- (-10970.605) (-10973.020) [-10963.495] (-10970.291) * [-10970.150] (-10968.231) (-10967.037) (-10968.708) -- 0:01:51 315000 -- (-10971.607) [-10968.761] (-10967.585) (-10964.636) * (-10975.175) (-10964.087) [-10965.905] (-10970.979) -- 0:01:53 Average standard deviation of split frequencies: 0.016907 316000 -- (-10964.818) (-10972.877) [-10967.157] (-10968.315) * (-10968.594) (-10971.418) (-10969.944) [-10969.972] -- 0:01:52 317000 -- [-10964.674] (-10971.993) (-10970.810) (-10974.130) * [-10970.223] (-10966.995) (-10971.127) (-10974.149) -- 0:01:52 318000 -- (-10979.169) (-10966.262) (-10968.477) [-10968.593] * (-10966.518) (-10969.996) (-10978.908) [-10966.430] -- 0:01:51 319000 -- [-10969.850] (-10969.422) (-10968.867) (-10967.986) * (-10967.869) [-10969.381] (-10973.265) (-10965.488) -- 0:01:51 320000 -- (-10967.540) (-10970.163) [-10966.145] (-10969.717) * (-10976.688) [-10972.482] (-10973.611) (-10968.364) -- 0:01:50 Average standard deviation of split frequencies: 0.014701 321000 -- (-10968.019) (-10974.857) (-10970.845) [-10967.078] * [-10965.243] (-10967.705) (-10970.847) (-10964.482) -- 0:01:52 322000 -- (-10969.559) [-10969.688] (-10968.385) (-10970.666) * (-10969.478) (-10970.894) (-10970.603) [-10969.382] -- 0:01:51 323000 -- [-10970.775] (-10967.853) (-10966.428) (-10970.210) * (-10973.631) (-10971.638) [-10969.066] (-10972.351) -- 0:01:51 324000 -- [-10973.687] (-10974.972) (-10966.778) (-10964.498) * [-10970.320] (-10980.711) (-10972.748) (-10971.728) -- 0:01:50 325000 -- (-10971.850) [-10975.660] (-10962.020) (-10965.122) * [-10966.853] (-10969.364) (-10973.927) (-10974.341) -- 0:01:50 Average standard deviation of split frequencies: 0.013496 326000 -- (-10965.968) (-10968.399) (-10967.344) [-10971.382] * (-10967.513) (-10969.547) (-10971.388) [-10966.776] -- 0:01:49 327000 -- [-10967.797] (-10970.695) (-10967.255) (-10973.617) * (-10965.808) [-10966.564] (-10967.484) (-10978.890) -- 0:01:51 328000 -- (-10969.036) [-10966.974] (-10966.147) (-10974.425) * [-10967.446] (-10970.117) (-10972.493) (-10966.872) -- 0:01:50 329000 -- (-10971.295) (-10968.219) [-10971.707] (-10973.182) * (-10965.098) (-10966.495) [-10966.107] (-10972.262) -- 0:01:50 330000 -- (-10970.325) [-10967.715] (-10978.205) (-10966.589) * (-10971.967) (-10969.766) [-10966.009] (-10968.629) -- 0:01:49 Average standard deviation of split frequencies: 0.013306 331000 -- (-10982.036) (-10966.599) (-10974.444) [-10970.561] * (-10964.849) (-10968.626) (-10970.526) [-10963.449] -- 0:01:49 332000 -- [-10964.476] (-10974.761) (-10971.673) (-10973.525) * (-10971.625) (-10966.516) (-10971.603) [-10968.899] -- 0:01:48 333000 -- (-10968.322) (-10966.102) (-10967.118) [-10978.687] * (-10976.368) (-10970.738) (-10966.584) [-10966.331] -- 0:01:50 334000 -- (-10968.361) (-10971.804) [-10965.967] (-10969.087) * (-10966.972) [-10969.416] (-10971.264) (-10967.915) -- 0:01:49 335000 -- [-10971.394] (-10973.331) (-10973.808) (-10971.421) * (-10971.468) (-10966.025) [-10972.974] (-10965.898) -- 0:01:49 Average standard deviation of split frequencies: 0.016836 336000 -- (-10967.706) [-10964.535] (-10967.552) (-10968.410) * (-10968.899) (-10970.607) [-10968.467] (-10972.302) -- 0:01:48 337000 -- (-10970.739) (-10969.066) [-10965.197] (-10970.340) * (-10966.239) [-10962.585] (-10974.310) (-10967.783) -- 0:01:48 338000 -- (-10969.884) (-10968.876) (-10963.547) [-10968.307] * (-10967.130) (-10969.723) (-10967.041) [-10969.474] -- 0:01:47 339000 -- (-10966.517) [-10967.093] (-10965.010) (-10968.772) * (-10963.804) [-10969.583] (-10969.851) (-10964.650) -- 0:01:49 340000 -- (-10976.981) (-10966.512) [-10969.757] (-10971.122) * [-10970.150] (-10977.937) (-10970.842) (-10966.981) -- 0:01:48 Average standard deviation of split frequencies: 0.016605 341000 -- (-10972.404) [-10975.078] (-10966.535) (-10964.226) * (-10973.701) (-10968.068) (-10972.642) [-10963.854] -- 0:01:48 342000 -- [-10967.945] (-10969.465) (-10967.268) (-10966.789) * (-10964.619) [-10971.858] (-10973.571) (-10963.683) -- 0:01:47 343000 -- (-10972.058) (-10970.552) [-10960.967] (-10970.478) * (-10976.701) (-10972.118) [-10971.011] (-10970.957) -- 0:01:47 344000 -- (-10969.710) (-10968.193) (-10964.476) [-10970.718] * [-10963.627] (-10966.007) (-10974.935) (-10964.812) -- 0:01:46 345000 -- (-10965.712) (-10968.009) [-10970.957] (-10972.883) * (-10969.717) [-10965.219] (-10967.293) (-10967.260) -- 0:01:48 Average standard deviation of split frequencies: 0.016349 346000 -- (-10966.813) (-10966.939) (-10966.689) [-10967.020] * (-10966.850) (-10964.831) (-10963.705) [-10966.400] -- 0:01:47 347000 -- (-10969.399) (-10967.879) [-10968.960] (-10969.485) * (-10965.948) (-10970.342) (-10974.795) [-10971.073] -- 0:01:47 348000 -- (-10972.444) (-10975.907) (-10966.710) [-10967.773] * (-10970.860) (-10969.122) [-10973.640] (-10967.174) -- 0:01:46 349000 -- (-10966.160) (-10973.187) [-10965.657] (-10968.487) * (-10971.774) (-10968.837) (-10970.539) [-10969.251] -- 0:01:46 350000 -- (-10971.003) [-10965.275] (-10975.996) (-10971.345) * (-10975.330) (-10966.727) (-10966.878) [-10969.358] -- 0:01:45 Average standard deviation of split frequencies: 0.017028 351000 -- (-10974.573) [-10970.443] (-10967.071) (-10973.625) * (-10975.215) (-10970.733) (-10970.019) [-10966.634] -- 0:01:45 352000 -- (-10963.923) (-10966.964) (-10966.218) [-10966.993] * (-10962.879) [-10964.504] (-10967.583) (-10972.608) -- 0:01:46 353000 -- (-10967.569) [-10966.590] (-10968.045) (-10964.532) * (-10977.448) [-10964.516] (-10971.550) (-10969.984) -- 0:01:46 354000 -- [-10974.422] (-10965.087) (-10969.076) (-10974.621) * (-10966.635) (-10970.577) [-10964.832] (-10973.567) -- 0:01:45 355000 -- (-10973.884) [-10962.859] (-10968.127) (-10972.733) * (-10968.678) (-10970.042) [-10966.129] (-10972.413) -- 0:01:45 Average standard deviation of split frequencies: 0.017656 356000 -- (-10969.145) (-10968.045) (-10973.854) [-10976.874] * (-10965.728) [-10968.496] (-10967.404) (-10970.649) -- 0:01:44 357000 -- (-10971.758) [-10964.629] (-10973.090) (-10968.807) * (-10973.687) [-10964.521] (-10969.429) (-10967.840) -- 0:01:44 358000 -- (-10968.617) (-10972.122) [-10969.391] (-10965.382) * (-10966.935) [-10965.889] (-10968.361) (-10966.129) -- 0:01:45 359000 -- [-10966.123] (-10973.193) (-10967.585) (-10962.470) * (-10970.153) (-10969.545) (-10969.344) [-10964.017] -- 0:01:45 360000 -- (-10971.626) (-10968.064) (-10978.082) [-10964.984] * (-10965.741) (-10972.863) (-10974.251) [-10971.410] -- 0:01:44 Average standard deviation of split frequencies: 0.016556 361000 -- (-10967.520) (-10967.044) [-10969.476] (-10964.483) * [-10965.217] (-10967.276) (-10970.206) (-10969.650) -- 0:01:44 362000 -- (-10973.743) (-10966.311) [-10966.929] (-10966.380) * (-10975.343) (-10965.913) [-10972.721] (-10970.721) -- 0:01:43 363000 -- [-10965.739] (-10974.424) (-10969.982) (-10971.028) * (-10972.055) (-10968.156) [-10974.130] (-10965.786) -- 0:01:43 364000 -- (-10966.541) (-10966.595) (-10970.529) [-10966.595] * (-10970.208) (-10967.937) [-10970.455] (-10969.498) -- 0:01:44 365000 -- (-10971.431) (-10968.050) [-10965.424] (-10974.839) * (-10969.684) (-10970.150) (-10978.239) [-10968.909] -- 0:01:44 Average standard deviation of split frequencies: 0.015456 366000 -- (-10972.381) (-10962.907) [-10967.165] (-10970.055) * (-10972.420) (-10964.094) [-10970.810] (-10968.794) -- 0:01:43 367000 -- (-10967.526) (-10967.645) (-10967.047) [-10973.371] * [-10966.682] (-10964.976) (-10976.539) (-10964.520) -- 0:01:43 368000 -- (-10973.827) [-10967.640] (-10969.950) (-10966.289) * (-10965.567) (-10964.001) (-10974.848) [-10963.986] -- 0:01:43 369000 -- (-10969.453) (-10976.750) (-10971.038) [-10970.658] * (-10973.910) (-10966.954) [-10971.204] (-10967.936) -- 0:01:42 370000 -- [-10972.913] (-10974.464) (-10973.529) (-10969.808) * [-10967.402] (-10966.388) (-10972.262) (-10975.793) -- 0:01:43 Average standard deviation of split frequencies: 0.017805 371000 -- (-10968.223) (-10965.358) (-10966.278) [-10968.860] * (-10969.291) [-10972.285] (-10982.104) (-10968.743) -- 0:01:43 372000 -- (-10969.375) (-10973.363) (-10962.506) [-10965.187] * (-10972.017) (-10970.677) [-10973.443] (-10964.725) -- 0:01:42 373000 -- [-10967.113] (-10968.235) (-10965.539) (-10963.223) * (-10964.540) [-10966.317] (-10974.076) (-10968.203) -- 0:01:42 374000 -- (-10970.840) (-10973.260) [-10965.032] (-10969.688) * (-10969.998) (-10966.863) (-10972.321) [-10964.780] -- 0:01:42 375000 -- (-10970.795) (-10969.208) [-10972.524] (-10981.783) * [-10968.361] (-10972.943) (-10974.809) (-10977.157) -- 0:01:41 Average standard deviation of split frequencies: 0.013373 376000 -- (-10970.598) [-10966.188] (-10969.340) (-10969.918) * (-10973.394) [-10967.075] (-10976.079) (-10968.625) -- 0:01:42 377000 -- (-10973.027) (-10975.287) [-10967.578] (-10971.859) * [-10967.868] (-10972.907) (-10968.830) (-10969.125) -- 0:01:42 378000 -- [-10969.381] (-10968.764) (-10966.713) (-10966.220) * (-10971.722) [-10967.355] (-10966.252) (-10964.177) -- 0:01:42 379000 -- (-10967.430) [-10965.784] (-10971.203) (-10969.449) * (-10965.119) (-10973.575) (-10966.783) [-10968.172] -- 0:01:41 380000 -- (-10967.840) (-10973.545) [-10966.295] (-10970.518) * (-10969.663) (-10972.623) (-10976.415) [-10964.065] -- 0:01:41 Average standard deviation of split frequencies: 0.009907 381000 -- (-10974.365) (-10973.100) (-10970.032) [-10970.628] * (-10969.823) [-10972.330] (-10967.225) (-10980.205) -- 0:01:40 382000 -- (-10978.253) (-10965.941) [-10970.230] (-10984.878) * [-10962.018] (-10969.811) (-10974.679) (-10974.716) -- 0:01:41 383000 -- (-10970.097) (-10975.850) (-10972.370) [-10968.637] * (-10969.057) [-10968.865] (-10966.577) (-10968.099) -- 0:01:41 384000 -- [-10972.797] (-10968.656) (-10977.754) (-10975.156) * [-10967.292] (-10967.470) (-10971.836) (-10968.590) -- 0:01:41 385000 -- (-10972.262) (-10975.611) (-10975.615) [-10963.140] * [-10969.325] (-10973.558) (-10969.714) (-10965.214) -- 0:01:40 Average standard deviation of split frequencies: 0.011398 386000 -- (-10967.878) (-10978.630) (-10973.527) [-10963.568] * (-10968.302) (-10967.619) [-10974.354] (-10966.188) -- 0:01:40 387000 -- [-10964.181] (-10965.616) (-10969.578) (-10971.480) * (-10969.661) (-10969.671) [-10965.327] (-10971.814) -- 0:01:39 388000 -- (-10964.412) (-10965.359) [-10965.487] (-10973.115) * [-10970.093] (-10967.574) (-10973.191) (-10974.085) -- 0:01:40 389000 -- (-10970.355) [-10964.181] (-10973.431) (-10966.701) * (-10972.308) [-10969.001] (-10972.921) (-10971.722) -- 0:01:40 390000 -- (-10972.389) (-10965.937) [-10963.514] (-10978.556) * [-10969.366] (-10969.860) (-10971.222) (-10965.286) -- 0:01:40 Average standard deviation of split frequencies: 0.012067 391000 -- [-10966.112] (-10963.165) (-10974.876) (-10968.322) * (-10967.902) [-10965.873] (-10969.835) (-10971.538) -- 0:01:39 392000 -- [-10968.136] (-10967.857) (-10970.936) (-10971.697) * (-10966.576) (-10974.777) [-10969.031] (-10969.961) -- 0:01:39 393000 -- (-10968.004) (-10974.039) [-10965.542] (-10973.626) * [-10969.509] (-10970.034) (-10973.491) (-10977.354) -- 0:01:38 394000 -- (-10968.113) (-10967.600) [-10970.318] (-10973.128) * (-10967.226) [-10966.971] (-10966.426) (-10971.600) -- 0:01:38 395000 -- (-10968.598) (-10968.802) (-10970.704) [-10971.475] * (-10975.641) [-10968.008] (-10976.079) (-10974.393) -- 0:01:39 Average standard deviation of split frequencies: 0.014285 396000 -- (-10967.473) (-10967.187) [-10967.860] (-10979.406) * (-10977.749) (-10967.919) (-10977.177) [-10968.394] -- 0:01:39 397000 -- (-10966.290) (-10969.531) [-10968.574] (-10964.913) * [-10965.092] (-10974.265) (-10972.423) (-10974.159) -- 0:01:38 398000 -- (-10967.670) (-10973.570) (-10977.527) [-10967.213] * [-10968.299] (-10970.319) (-10980.032) (-10970.406) -- 0:01:38 399000 -- (-10969.818) (-10967.247) [-10970.381] (-10971.996) * [-10968.414] (-10969.208) (-10969.871) (-10972.240) -- 0:01:37 400000 -- [-10966.392] (-10970.834) (-10972.298) (-10969.887) * (-10971.760) [-10964.662] (-10967.405) (-10970.065) -- 0:01:37 Average standard deviation of split frequencies: 0.011766 401000 -- [-10971.231] (-10970.639) (-10973.294) (-10987.591) * [-10971.073] (-10967.816) (-10964.254) (-10975.203) -- 0:01:38 402000 -- [-10974.493] (-10983.431) (-10977.270) (-10969.837) * (-10967.849) (-10969.678) [-10968.388] (-10976.595) -- 0:01:38 403000 -- (-10970.001) (-10974.487) (-10976.650) [-10967.011] * (-10971.567) (-10969.169) [-10964.721] (-10971.868) -- 0:01:37 404000 -- (-10977.183) (-10973.674) [-10976.126] (-10974.799) * [-10969.344] (-10967.843) (-10964.226) (-10971.306) -- 0:01:37 405000 -- [-10964.671] (-10972.123) (-10970.170) (-10971.927) * (-10968.320) (-10973.712) (-10966.775) [-10967.222] -- 0:01:36 Average standard deviation of split frequencies: 0.011611 406000 -- [-10964.765] (-10968.019) (-10966.533) (-10968.375) * [-10967.949] (-10968.787) (-10967.835) (-10968.233) -- 0:01:36 407000 -- (-10969.134) (-10970.237) [-10974.856] (-10979.806) * (-10970.942) [-10967.981] (-10971.112) (-10967.012) -- 0:01:37 408000 -- (-10971.866) (-10970.854) (-10975.855) [-10968.589] * [-10967.608] (-10977.177) (-10965.670) (-10965.658) -- 0:01:37 409000 -- [-10975.814] (-10973.589) (-10968.942) (-10971.918) * (-10970.370) [-10973.800] (-10982.655) (-10965.566) -- 0:01:36 410000 -- [-10969.954] (-10971.646) (-10972.449) (-10971.519) * (-10977.466) [-10966.093] (-10973.441) (-10970.945) -- 0:01:36 Average standard deviation of split frequencies: 0.013010 411000 -- (-10968.300) [-10973.373] (-10969.077) (-10965.538) * (-10978.376) (-10969.530) [-10968.554] (-10969.548) -- 0:01:36 412000 -- (-10977.361) (-10974.293) (-10969.520) [-10965.004] * (-10966.894) [-10971.025] (-10969.566) (-10966.449) -- 0:01:35 413000 -- (-10980.987) (-10975.477) (-10962.991) [-10966.375] * [-10964.304] (-10973.522) (-10970.265) (-10972.084) -- 0:01:36 414000 -- (-10968.365) (-10971.912) (-10973.430) [-10966.067] * [-10967.189] (-10971.051) (-10974.946) (-10973.156) -- 0:01:36 415000 -- (-10976.555) [-10971.016] (-10973.174) (-10967.498) * (-10969.362) [-10967.682] (-10972.860) (-10972.964) -- 0:01:35 Average standard deviation of split frequencies: 0.015865 416000 -- [-10963.905] (-10970.366) (-10969.551) (-10961.569) * (-10971.294) (-10972.412) [-10970.039] (-10973.025) -- 0:01:35 417000 -- (-10969.874) (-10972.436) (-10967.350) [-10967.102] * (-10968.698) [-10969.456] (-10968.712) (-10971.326) -- 0:01:35 418000 -- [-10968.971] (-10970.391) (-10974.360) (-10968.739) * (-10971.010) (-10970.086) [-10965.475] (-10967.340) -- 0:01:34 419000 -- (-10968.674) [-10970.491] (-10969.542) (-10972.270) * (-10969.646) (-10964.708) [-10969.129] (-10973.810) -- 0:01:35 420000 -- (-10966.605) (-10972.902) (-10969.390) [-10973.463] * [-10964.308] (-10968.765) (-10965.506) (-10972.961) -- 0:01:35 Average standard deviation of split frequencies: 0.017183 421000 -- (-10977.163) (-10965.303) [-10967.399] (-10964.175) * (-10970.758) [-10966.354] (-10969.880) (-10975.975) -- 0:01:34 422000 -- (-10971.059) (-10970.689) [-10970.098] (-10968.756) * (-10973.919) [-10971.475] (-10968.898) (-10973.601) -- 0:01:34 423000 -- (-10967.126) (-10969.288) [-10967.462] (-10968.879) * [-10964.496] (-10972.660) (-10970.018) (-10971.706) -- 0:01:34 424000 -- (-10971.279) (-10970.200) [-10962.727] (-10964.134) * (-10961.691) (-10964.587) (-10973.189) [-10964.405] -- 0:01:33 425000 -- (-10977.087) (-10971.579) [-10970.512] (-10966.333) * [-10962.865] (-10973.265) (-10977.221) (-10969.648) -- 0:01:34 Average standard deviation of split frequencies: 0.017705 426000 -- (-10977.536) (-10964.645) (-10966.078) [-10965.226] * [-10969.068] (-10970.522) (-10967.148) (-10967.828) -- 0:01:34 427000 -- (-10968.347) (-10962.752) [-10971.418] (-10967.127) * (-10975.623) (-10975.779) (-10973.175) [-10969.296] -- 0:01:33 428000 -- (-10969.261) [-10966.075] (-10975.383) (-10966.346) * (-10967.435) (-10975.312) [-10971.729] (-10965.732) -- 0:01:33 429000 -- (-10978.263) (-10968.893) [-10965.385] (-10969.311) * (-10967.866) [-10970.012] (-10971.276) (-10975.775) -- 0:01:33 430000 -- (-10968.008) (-10969.292) [-10965.643] (-10969.504) * (-10966.142) (-10968.908) [-10970.584] (-10968.290) -- 0:01:32 Average standard deviation of split frequencies: 0.023351 431000 -- (-10965.754) [-10964.784] (-10963.543) (-10969.222) * (-10965.864) (-10971.039) (-10970.685) [-10969.442] -- 0:01:32 432000 -- [-10961.660] (-10967.430) (-10968.171) (-10970.431) * (-10974.684) [-10967.367] (-10981.844) (-10963.258) -- 0:01:33 433000 -- (-10965.582) (-10969.777) (-10970.144) [-10968.084] * [-10970.375] (-10969.370) (-10980.384) (-10971.262) -- 0:01:32 434000 -- (-10964.778) (-10969.771) (-10963.219) [-10962.340] * [-10965.439] (-10964.717) (-10976.290) (-10963.845) -- 0:01:32 435000 -- (-10968.408) [-10971.223] (-10967.449) (-10966.499) * (-10966.553) (-10970.835) [-10967.530] (-10972.577) -- 0:01:32 Average standard deviation of split frequencies: 0.021624 436000 -- (-10963.256) [-10967.622] (-10971.462) (-10965.572) * (-10968.309) [-10970.330] (-10973.410) (-10974.503) -- 0:01:31 437000 -- [-10965.626] (-10967.903) (-10978.046) (-10976.739) * (-10966.687) (-10974.373) [-10967.582] (-10975.074) -- 0:01:31 438000 -- (-10967.157) [-10968.804] (-10973.412) (-10970.784) * (-10968.502) (-10967.350) [-10973.618] (-10978.148) -- 0:01:32 439000 -- (-10972.347) (-10966.286) [-10969.096] (-10970.092) * (-10971.867) [-10962.141] (-10968.286) (-10969.220) -- 0:01:32 440000 -- [-10971.038] (-10972.871) (-10968.543) (-10978.817) * (-10969.457) [-10967.477] (-10968.500) (-10973.718) -- 0:01:31 Average standard deviation of split frequencies: 0.019969 441000 -- (-10972.100) (-10964.842) (-10974.045) [-10976.951] * (-10969.648) (-10967.318) [-10969.570] (-10971.951) -- 0:01:31 442000 -- (-10970.525) [-10970.937] (-10968.602) (-10973.965) * (-10971.194) (-10972.893) (-10969.424) [-10972.850] -- 0:01:30 443000 -- (-10970.734) (-10970.299) [-10967.846] (-10969.138) * (-10963.879) (-10967.211) (-10972.361) [-10970.444] -- 0:01:30 444000 -- (-10968.227) (-10967.927) (-10971.075) [-10964.157] * (-10969.417) [-10964.885] (-10970.010) (-10968.694) -- 0:01:31 445000 -- (-10967.756) (-10968.747) (-10974.486) [-10965.221] * (-10968.214) (-10964.932) [-10977.650] (-10975.764) -- 0:01:31 Average standard deviation of split frequencies: 0.019025 446000 -- (-10973.213) (-10969.896) [-10968.118] (-10968.803) * (-10969.796) (-10968.785) [-10971.645] (-10970.451) -- 0:01:30 447000 -- (-10971.644) [-10968.379] (-10963.619) (-10966.827) * (-10969.736) [-10966.466] (-10967.846) (-10970.452) -- 0:01:30 448000 -- [-10970.201] (-10974.417) (-10975.372) (-10967.192) * [-10966.354] (-10968.194) (-10973.254) (-10969.146) -- 0:01:29 449000 -- [-10971.542] (-10973.640) (-10965.850) (-10966.251) * (-10975.666) (-10970.909) [-10967.996] (-10969.551) -- 0:01:29 450000 -- (-10974.610) [-10972.511] (-10971.317) (-10973.389) * (-10971.548) (-10966.111) (-10969.019) [-10972.134] -- 0:01:30 Average standard deviation of split frequencies: 0.018828 451000 -- (-10969.314) (-10969.532) (-10972.589) [-10975.663] * (-10985.206) (-10971.111) [-10968.927] (-10968.827) -- 0:01:30 452000 -- (-10966.390) [-10964.886] (-10971.531) (-10964.395) * (-10970.432) [-10965.645] (-10962.958) (-10972.600) -- 0:01:29 453000 -- (-10975.196) (-10973.011) [-10965.404] (-10966.694) * (-10977.398) (-10962.195) [-10968.127] (-10972.991) -- 0:01:29 454000 -- (-10967.687) (-10977.437) [-10969.054] (-10967.654) * [-10966.469] (-10965.456) (-10971.922) (-10971.514) -- 0:01:28 455000 -- [-10966.229] (-10974.894) (-10969.747) (-10971.900) * (-10971.578) [-10969.991] (-10971.229) (-10973.748) -- 0:01:28 Average standard deviation of split frequencies: 0.016541 456000 -- [-10963.142] (-10971.890) (-10971.582) (-10970.285) * (-10972.680) (-10963.109) [-10968.923] (-10970.468) -- 0:01:29 457000 -- (-10968.964) [-10972.148] (-10976.789) (-10968.569) * (-10964.454) [-10968.105] (-10968.061) (-10967.990) -- 0:01:29 458000 -- (-10971.568) [-10971.549] (-10963.605) (-10965.949) * (-10971.610) [-10966.556] (-10968.811) (-10969.569) -- 0:01:28 459000 -- (-10969.834) (-10965.859) [-10966.934] (-10969.975) * (-10971.262) [-10969.012] (-10962.362) (-10966.589) -- 0:01:28 460000 -- (-10964.829) [-10975.268] (-10975.325) (-10963.920) * (-10976.772) (-10974.681) (-10974.026) [-10968.970] -- 0:01:28 Average standard deviation of split frequencies: 0.017737 461000 -- (-10967.188) (-10971.768) [-10965.429] (-10976.065) * (-10969.300) (-10966.265) [-10968.101] (-10973.143) -- 0:01:27 462000 -- (-10971.086) (-10970.973) [-10975.039] (-10975.239) * (-10967.043) (-10965.471) (-10968.510) [-10966.994] -- 0:01:28 463000 -- [-10973.644] (-10970.158) (-10981.909) (-10968.581) * (-10964.499) (-10966.029) (-10967.849) [-10965.367] -- 0:01:28 464000 -- (-10975.825) (-10968.051) [-10967.360] (-10978.706) * (-10971.413) (-10966.233) (-10963.027) [-10962.816] -- 0:01:27 465000 -- [-10967.839] (-10974.640) (-10971.609) (-10970.460) * (-10969.298) (-10967.006) (-10976.019) [-10963.495] -- 0:01:27 Average standard deviation of split frequencies: 0.018209 466000 -- (-10968.248) (-10969.452) [-10968.042] (-10967.456) * [-10970.687] (-10968.267) (-10975.845) (-10967.717) -- 0:01:27 467000 -- (-10969.753) (-10972.786) (-10970.112) [-10967.855] * [-10967.144] (-10967.254) (-10964.996) (-10968.628) -- 0:01:26 468000 -- [-10967.481] (-10968.553) (-10981.115) (-10973.888) * (-10966.295) (-10973.944) (-10968.764) [-10969.285] -- 0:01:27 469000 -- [-10970.677] (-10975.054) (-10967.276) (-10968.291) * [-10973.707] (-10971.364) (-10970.449) (-10970.590) -- 0:01:27 470000 -- (-10970.411) [-10973.525] (-10972.839) (-10968.166) * (-10968.044) [-10967.431] (-10971.369) (-10967.344) -- 0:01:26 Average standard deviation of split frequencies: 0.020031 471000 -- (-10973.673) (-10971.797) (-10969.834) [-10979.708] * (-10966.917) [-10964.469] (-10971.453) (-10967.250) -- 0:01:26 472000 -- [-10969.282] (-10970.401) (-10979.653) (-10968.975) * [-10973.883] (-10967.815) (-10968.718) (-10969.615) -- 0:01:26 473000 -- [-10965.553] (-10968.699) (-10969.478) (-10965.991) * (-10973.680) (-10967.658) (-10964.385) [-10969.931] -- 0:01:25 474000 -- (-10967.250) [-10972.430] (-10970.430) (-10969.267) * (-10974.751) (-10975.626) (-10966.607) [-10968.733] -- 0:01:25 475000 -- (-10970.723) (-10968.808) (-10963.795) [-10966.410] * (-10971.266) (-10968.466) (-10966.986) [-10965.276] -- 0:01:26 Average standard deviation of split frequencies: 0.023768 476000 -- (-10976.749) (-10970.898) (-10969.668) [-10967.714] * (-10968.736) (-10973.521) [-10963.253] (-10971.929) -- 0:01:25 477000 -- (-10973.651) (-10972.448) (-10966.085) [-10969.384] * (-10967.585) (-10976.173) (-10966.586) [-10968.841] -- 0:01:25 478000 -- (-10970.112) [-10973.524] (-10965.763) (-10965.964) * (-10972.636) [-10963.609] (-10967.548) (-10971.312) -- 0:01:25 479000 -- (-10973.585) (-10965.908) (-10967.338) [-10963.738] * (-10977.568) (-10979.475) (-10974.431) [-10969.650] -- 0:01:24 480000 -- (-10986.420) [-10969.539] (-10972.071) (-10969.091) * (-10970.291) (-10977.765) (-10962.352) [-10968.802] -- 0:01:24 Average standard deviation of split frequencies: 0.021576 481000 -- (-10973.073) (-10973.184) (-10972.022) [-10963.580] * (-10979.665) [-10970.064] (-10965.277) (-10968.580) -- 0:01:25 482000 -- (-10970.862) (-10970.876) (-10963.384) [-10973.265] * (-10966.992) (-10969.530) (-10972.558) [-10971.248] -- 0:01:24 483000 -- (-10966.952) (-10966.379) [-10971.983] (-10964.850) * (-10967.307) [-10967.952] (-10971.979) (-10973.566) -- 0:01:24 484000 -- (-10970.217) [-10968.093] (-10971.013) (-10971.537) * (-10968.918) [-10968.412] (-10976.374) (-10966.019) -- 0:01:24 485000 -- (-10968.515) (-10969.781) [-10972.021] (-10975.095) * (-10967.417) (-10967.276) [-10969.553] (-10971.682) -- 0:01:23 Average standard deviation of split frequencies: 0.019399 486000 -- (-10974.987) (-10967.346) (-10968.062) [-10969.005] * (-10966.232) [-10967.971] (-10968.049) (-10972.096) -- 0:01:23 487000 -- (-10972.101) (-10968.585) [-10970.807] (-10970.227) * (-10966.951) (-10970.799) [-10966.353] (-10963.339) -- 0:01:24 488000 -- [-10972.551] (-10965.603) (-10968.245) (-10964.909) * (-10965.992) (-10965.604) (-10967.889) [-10969.792] -- 0:01:23 489000 -- (-10969.610) [-10967.553] (-10969.379) (-10966.211) * (-10968.866) [-10969.904] (-10977.299) (-10967.841) -- 0:01:23 490000 -- (-10968.425) (-10965.195) [-10974.600] (-10969.967) * (-10963.538) (-10971.980) (-10969.786) [-10970.959] -- 0:01:23 Average standard deviation of split frequencies: 0.020496 491000 -- (-10979.019) [-10968.337] (-10969.037) (-10971.328) * (-10970.318) (-10962.200) [-10966.186] (-10974.618) -- 0:01:22 492000 -- (-10975.253) [-10969.459] (-10982.869) (-10969.171) * [-10964.971] (-10969.669) (-10967.192) (-10974.152) -- 0:01:22 493000 -- (-10975.268) (-10969.049) (-10979.095) [-10968.463] * (-10963.359) (-10973.265) (-10968.971) [-10966.257] -- 0:01:23 494000 -- (-10977.422) (-10964.232) [-10975.612] (-10973.357) * (-10976.956) [-10969.479] (-10972.853) (-10973.373) -- 0:01:22 495000 -- [-10967.265] (-10969.243) (-10972.242) (-10973.185) * (-10974.031) (-10968.461) (-10973.325) [-10973.763] -- 0:01:22 Average standard deviation of split frequencies: 0.019642 496000 -- (-10970.183) (-10969.948) (-10978.158) [-10968.429] * (-10967.846) (-10972.886) [-10975.292] (-10968.975) -- 0:01:22 497000 -- (-10973.351) (-10967.356) (-10976.300) [-10965.879] * [-10976.128] (-10971.775) (-10971.968) (-10969.301) -- 0:01:21 498000 -- (-10982.262) [-10969.068] (-10980.996) (-10976.944) * (-10969.372) [-10973.711] (-10975.190) (-10972.891) -- 0:01:21 499000 -- [-10966.583] (-10975.948) (-10971.812) (-10970.902) * [-10966.370] (-10969.575) (-10973.755) (-10974.770) -- 0:01:21 500000 -- (-10967.198) (-10964.774) (-10970.995) [-10971.888] * (-10970.093) (-10971.916) [-10970.773] (-10964.101) -- 0:01:22 Average standard deviation of split frequencies: 0.019459 501000 -- (-10973.330) (-10963.982) (-10972.521) [-10970.294] * (-10971.124) (-10978.075) [-10962.026] (-10974.984) -- 0:01:21 502000 -- (-10971.710) (-10970.845) [-10968.079] (-10982.880) * (-10966.663) (-10969.755) [-10969.113] (-10977.415) -- 0:01:21 503000 -- (-10970.841) (-10974.601) [-10964.530] (-10974.184) * (-10968.404) (-10967.059) (-10965.382) [-10964.713] -- 0:01:21 504000 -- [-10964.858] (-10967.584) (-10966.011) (-10969.652) * [-10962.900] (-10969.182) (-10969.926) (-10967.293) -- 0:01:20 505000 -- [-10969.381] (-10968.283) (-10964.942) (-10970.770) * (-10975.799) (-10968.692) [-10967.971] (-10971.754) -- 0:01:20 Average standard deviation of split frequencies: 0.018633 506000 -- [-10966.798] (-10968.728) (-10964.106) (-10972.178) * [-10966.919] (-10965.284) (-10968.641) (-10978.973) -- 0:01:21 507000 -- [-10971.487] (-10966.126) (-10961.774) (-10979.228) * [-10968.650] (-10968.091) (-10981.098) (-10973.550) -- 0:01:20 508000 -- (-10971.195) (-10981.544) [-10964.245] (-10969.578) * (-10966.737) (-10967.194) (-10969.533) [-10967.505] -- 0:01:20 509000 -- (-10970.226) (-10967.599) [-10964.732] (-10981.467) * (-10965.895) (-10969.599) (-10968.431) [-10965.048] -- 0:01:20 510000 -- (-10966.290) (-10968.669) [-10966.689] (-10971.244) * (-10971.328) (-10972.913) (-10966.789) [-10966.366] -- 0:01:19 Average standard deviation of split frequencies: 0.022155 511000 -- [-10965.827] (-10969.295) (-10964.956) (-10972.245) * (-10965.856) (-10969.016) (-10971.706) [-10967.949] -- 0:01:19 512000 -- [-10969.343] (-10977.080) (-10970.072) (-10966.324) * (-10973.030) (-10967.161) [-10964.977] (-10972.208) -- 0:01:20 513000 -- [-10969.136] (-10968.840) (-10977.194) (-10972.315) * (-10977.067) (-10972.671) (-10979.925) [-10965.652] -- 0:01:19 514000 -- (-10963.272) [-10968.659] (-10972.625) (-10974.513) * [-10965.825] (-10972.314) (-10973.450) (-10965.694) -- 0:01:19 515000 -- (-10967.750) (-10978.331) (-10964.236) [-10969.752] * (-10966.975) (-10976.751) (-10972.854) [-10969.321] -- 0:01:19 Average standard deviation of split frequencies: 0.021926 516000 -- [-10966.524] (-10977.878) (-10969.647) (-10967.746) * (-10967.537) [-10966.644] (-10975.064) (-10971.607) -- 0:01:18 517000 -- (-10964.507) [-10965.179] (-10971.005) (-10970.645) * (-10969.977) [-10965.963] (-10974.880) (-10974.015) -- 0:01:18 518000 -- (-10972.396) (-10962.101) (-10973.262) [-10965.006] * (-10965.333) (-10974.591) [-10970.757] (-10970.333) -- 0:01:19 519000 -- (-10967.773) (-10965.735) (-10967.617) [-10965.833] * (-10969.032) (-10973.919) (-10971.378) [-10966.000] -- 0:01:18 520000 -- [-10970.699] (-10964.905) (-10973.435) (-10966.285) * (-10972.565) [-10966.609] (-10967.077) (-10970.277) -- 0:01:18 Average standard deviation of split frequencies: 0.024144 521000 -- (-10971.924) [-10973.273] (-10964.524) (-10970.348) * [-10969.716] (-10973.262) (-10969.288) (-10966.779) -- 0:01:18 522000 -- (-10971.976) [-10968.075] (-10975.001) (-10971.314) * (-10972.343) [-10968.616] (-10968.464) (-10969.137) -- 0:01:17 523000 -- (-10974.105) [-10966.324] (-10968.674) (-10971.078) * (-10967.837) [-10968.978] (-10971.106) (-10971.701) -- 0:01:17 524000 -- [-10964.810] (-10975.418) (-10969.745) (-10972.321) * (-10968.302) (-10967.303) (-10966.262) [-10968.755] -- 0:01:18 525000 -- (-10965.439) [-10965.532] (-10970.116) (-10962.598) * [-10966.218] (-10966.652) (-10966.793) (-10968.330) -- 0:01:17 Average standard deviation of split frequencies: 0.020911 526000 -- (-10970.514) (-10969.887) [-10961.872] (-10965.334) * [-10972.747] (-10972.321) (-10977.793) (-10971.429) -- 0:01:17 527000 -- [-10964.260] (-10968.453) (-10967.209) (-10964.696) * (-10967.893) (-10973.895) [-10966.084] (-10969.675) -- 0:01:17 528000 -- (-10964.812) (-10971.403) [-10969.717] (-10967.083) * (-10968.770) (-10967.201) [-10970.515] (-10967.921) -- 0:01:16 529000 -- [-10968.883] (-10970.660) (-10965.698) (-10970.037) * (-10971.462) (-10969.270) [-10966.717] (-10968.555) -- 0:01:16 530000 -- (-10967.917) (-10965.823) (-10969.495) [-10963.384] * (-10970.199) (-10971.017) (-10970.664) [-10968.198] -- 0:01:16 Average standard deviation of split frequencies: 0.020728 531000 -- (-10976.842) (-10968.931) [-10966.608] (-10974.267) * (-10971.893) (-10964.521) [-10966.646] (-10966.415) -- 0:01:16 532000 -- (-10968.687) (-10971.839) [-10969.654] (-10968.512) * (-10968.936) (-10973.095) [-10970.618] (-10967.009) -- 0:01:16 533000 -- (-10969.908) (-10966.150) [-10967.846] (-10973.300) * (-10969.492) (-10964.199) [-10968.438] (-10967.739) -- 0:01:16 534000 -- [-10975.059] (-10970.790) (-10983.870) (-10970.926) * [-10964.858] (-10973.811) (-10972.358) (-10968.313) -- 0:01:15 535000 -- (-10970.411) (-10966.781) [-10969.594] (-10972.372) * [-10967.494] (-10966.892) (-10966.499) (-10968.464) -- 0:01:15 Average standard deviation of split frequencies: 0.018176 536000 -- [-10969.678] (-10969.170) (-10976.146) (-10966.513) * (-10968.937) [-10968.737] (-10972.983) (-10970.744) -- 0:01:15 537000 -- (-10973.059) (-10974.134) (-10981.991) [-10966.055] * (-10970.735) (-10966.030) [-10970.458] (-10973.145) -- 0:01:15 538000 -- (-10969.760) (-10973.926) (-10973.428) [-10968.360] * [-10970.211] (-10973.232) (-10971.271) (-10968.438) -- 0:01:15 539000 -- [-10963.937] (-10973.277) (-10965.829) (-10969.343) * [-10969.782] (-10971.310) (-10970.843) (-10966.913) -- 0:01:15 540000 -- [-10965.071] (-10970.097) (-10966.214) (-10968.106) * (-10968.019) (-10974.885) [-10970.599] (-10965.394) -- 0:01:14 Average standard deviation of split frequencies: 0.016857 541000 -- (-10965.479) [-10968.885] (-10965.378) (-10970.147) * (-10968.778) (-10971.379) (-10972.334) [-10967.227] -- 0:01:14 542000 -- (-10965.506) [-10964.418] (-10964.520) (-10971.725) * (-10965.963) (-10967.677) [-10972.319] (-10973.992) -- 0:01:14 543000 -- (-10975.194) (-10968.923) [-10963.016] (-10975.340) * [-10967.006] (-10968.100) (-10965.916) (-10967.668) -- 0:01:14 544000 -- (-10970.533) [-10970.233] (-10965.084) (-10975.099) * (-10965.518) (-10968.241) (-10971.295) [-10965.936] -- 0:01:14 545000 -- (-10967.006) [-10966.496] (-10967.007) (-10968.719) * (-10983.918) (-10964.097) [-10972.849] (-10969.457) -- 0:01:14 Average standard deviation of split frequencies: 0.017268 546000 -- (-10970.373) (-10975.881) (-10971.207) [-10967.961] * [-10969.534] (-10964.755) (-10965.638) (-10965.879) -- 0:01:14 547000 -- (-10968.131) [-10965.894] (-10968.237) (-10975.239) * (-10964.068) (-10971.386) (-10966.019) [-10967.927] -- 0:01:13 548000 -- (-10973.133) (-10979.005) (-10964.189) [-10978.963] * (-10968.563) (-10968.166) (-10966.979) [-10964.285] -- 0:01:13 549000 -- [-10965.376] (-10967.485) (-10967.153) (-10972.344) * (-10970.079) [-10967.097] (-10969.679) (-10968.607) -- 0:01:13 550000 -- (-10969.999) (-10972.512) [-10969.691] (-10969.040) * (-10963.966) [-10962.781] (-10962.744) (-10976.135) -- 0:01:13 Average standard deviation of split frequencies: 0.015980 551000 -- (-10964.442) (-10972.691) (-10966.653) [-10970.051] * [-10970.018] (-10967.446) (-10965.586) (-10975.681) -- 0:01:13 552000 -- (-10971.627) [-10966.803] (-10968.384) (-10973.035) * (-10970.798) [-10971.259] (-10973.805) (-10970.677) -- 0:01:13 553000 -- (-10967.711) (-10968.732) [-10964.234] (-10970.579) * [-10976.024] (-10973.588) (-10973.327) (-10965.122) -- 0:01:12 554000 -- (-10971.624) (-10973.406) [-10968.933] (-10965.906) * (-10966.097) (-10970.436) [-10964.823] (-10969.888) -- 0:01:12 555000 -- (-10974.641) (-10972.555) [-10970.321] (-10975.312) * (-10972.156) (-10969.193) (-10973.832) [-10972.142] -- 0:01:12 Average standard deviation of split frequencies: 0.016957 556000 -- (-10971.316) [-10966.537] (-10968.540) (-10972.133) * (-10971.214) (-10987.519) [-10971.512] (-10965.491) -- 0:01:12 557000 -- (-10970.872) (-10966.550) [-10969.519] (-10973.261) * [-10966.763] (-10975.677) (-10972.730) (-10963.682) -- 0:01:12 558000 -- (-10967.415) (-10975.421) [-10971.121] (-10970.119) * (-10972.928) [-10977.053] (-10969.700) (-10973.388) -- 0:01:12 559000 -- (-10969.453) (-10974.814) [-10966.699] (-10973.706) * [-10964.458] (-10966.870) (-10967.772) (-10973.902) -- 0:01:11 560000 -- (-10971.876) (-10972.037) [-10963.576] (-10982.671) * (-10970.986) (-10968.204) [-10969.596] (-10963.031) -- 0:01:11 Average standard deviation of split frequencies: 0.016255 561000 -- (-10981.167) [-10974.140] (-10969.870) (-10969.509) * (-10970.096) (-10970.436) [-10970.261] (-10969.313) -- 0:01:11 562000 -- (-10971.886) (-10973.529) [-10968.391] (-10971.082) * (-10976.559) (-10968.191) [-10970.695] (-10967.015) -- 0:01:11 563000 -- [-10967.134] (-10976.898) (-10970.237) (-10969.139) * [-10974.130] (-10966.524) (-10981.794) (-10974.363) -- 0:01:11 564000 -- (-10977.560) (-10971.467) [-10964.609] (-10968.323) * (-10976.402) [-10971.629] (-10973.876) (-10969.165) -- 0:01:11 565000 -- (-10974.230) [-10970.542] (-10969.781) (-10964.842) * [-10972.269] (-10967.247) (-10986.583) (-10967.368) -- 0:01:10 Average standard deviation of split frequencies: 0.014992 566000 -- (-10968.494) (-10968.766) [-10962.383] (-10962.268) * (-10972.163) [-10969.123] (-10977.623) (-10973.626) -- 0:01:10 567000 -- [-10972.780] (-10968.308) (-10967.725) (-10973.593) * (-10970.079) [-10969.196] (-10982.316) (-10966.835) -- 0:01:11 568000 -- (-10967.271) [-10962.877] (-10977.106) (-10968.349) * (-10965.660) (-10973.792) [-10975.965] (-10966.428) -- 0:01:10 569000 -- (-10967.203) (-10974.307) [-10965.762] (-10977.459) * (-10972.317) [-10967.418] (-10979.515) (-10964.649) -- 0:01:10 570000 -- (-10967.173) (-10972.486) [-10969.037] (-10966.678) * (-10968.469) (-10975.579) (-10984.792) [-10965.207] -- 0:01:10 Average standard deviation of split frequencies: 0.015970 571000 -- [-10964.755] (-10970.711) (-10976.426) (-10972.069) * (-10969.212) (-10967.457) [-10973.403] (-10965.640) -- 0:01:09 572000 -- [-10967.363] (-10973.809) (-10971.165) (-10966.325) * (-10966.224) (-10964.143) (-10978.955) [-10964.657] -- 0:01:09 573000 -- (-10970.668) (-10975.383) (-10975.933) [-10967.793] * (-10966.620) [-10961.524] (-10975.928) (-10971.544) -- 0:01:10 574000 -- (-10968.536) (-10972.789) [-10968.203] (-10969.373) * (-10965.349) (-10963.101) (-10977.978) [-10963.618] -- 0:01:09 575000 -- (-10966.451) (-10970.824) [-10969.144] (-10967.267) * (-10965.398) [-10967.699] (-10977.552) (-10968.187) -- 0:01:09 Average standard deviation of split frequencies: 0.016914 576000 -- (-10970.469) (-10962.807) (-10968.666) [-10972.442] * (-10968.140) (-10968.039) (-10977.361) [-10972.357] -- 0:01:09 577000 -- [-10970.321] (-10967.149) (-10970.009) (-10966.948) * (-10967.276) [-10967.934] (-10970.062) (-10968.166) -- 0:01:08 578000 -- (-10968.883) (-10968.374) [-10969.369] (-10964.150) * [-10974.458] (-10966.428) (-10974.738) (-10960.785) -- 0:01:08 579000 -- (-10969.570) (-10966.179) (-10971.373) [-10968.709] * (-10968.664) (-10966.403) (-10972.122) [-10966.921] -- 0:01:08 580000 -- (-10968.684) (-10969.945) (-10967.749) [-10971.160] * (-10974.125) (-10975.105) (-10980.605) [-10963.778] -- 0:01:08 Average standard deviation of split frequencies: 0.017860 581000 -- (-10975.997) [-10967.622] (-10964.516) (-10966.789) * (-10975.437) (-10967.167) (-10969.968) [-10966.075] -- 0:01:08 582000 -- (-10980.293) [-10973.331] (-10969.704) (-10975.002) * (-10974.551) (-10967.968) [-10969.887] (-10974.006) -- 0:01:08 583000 -- (-10974.496) (-10972.929) [-10971.169] (-10975.560) * (-10969.771) [-10976.375] (-10974.095) (-10969.036) -- 0:01:07 584000 -- (-10977.385) (-10971.327) [-10972.719] (-10967.594) * (-10974.397) (-10979.716) (-10967.665) [-10969.546] -- 0:01:07 585000 -- (-10975.474) [-10967.666] (-10962.018) (-10967.757) * (-10969.802) (-10973.453) [-10966.870] (-10966.297) -- 0:01:07 Average standard deviation of split frequencies: 0.017161 586000 -- (-10969.398) (-10976.565) (-10969.542) [-10974.837] * (-10973.352) (-10974.699) (-10964.263) [-10966.296] -- 0:01:07 587000 -- (-10970.495) (-10978.118) (-10972.084) [-10975.418] * (-10974.488) (-10973.403) [-10973.744] (-10978.476) -- 0:01:07 588000 -- (-10969.073) (-10979.119) [-10971.893] (-10967.089) * (-10973.684) (-10971.456) (-10973.364) [-10966.037] -- 0:01:07 589000 -- [-10972.426] (-10970.302) (-10968.364) (-10966.958) * (-10972.406) (-10971.573) (-10972.589) [-10973.456] -- 0:01:06 590000 -- (-10972.577) (-10974.729) (-10968.360) [-10967.357] * (-10971.920) (-10966.488) [-10964.997] (-10979.444) -- 0:01:06 Average standard deviation of split frequencies: 0.017558 591000 -- [-10967.176] (-10976.590) (-10968.500) (-10967.363) * (-10971.939) (-10978.669) [-10966.587] (-10970.153) -- 0:01:06 592000 -- (-10973.302) (-10966.775) (-10966.984) [-10969.528] * [-10967.690] (-10965.337) (-10972.480) (-10970.642) -- 0:01:06 593000 -- [-10960.647] (-10968.308) (-10970.247) (-10966.254) * (-10970.947) (-10968.577) [-10964.671] (-10980.602) -- 0:01:06 594000 -- (-10971.023) (-10972.600) [-10970.158] (-10972.720) * [-10969.291] (-10974.073) (-10970.481) (-10970.382) -- 0:01:06 595000 -- (-10968.885) (-10964.255) (-10969.589) [-10967.600] * [-10968.985] (-10972.900) (-10970.651) (-10972.575) -- 0:01:06 Average standard deviation of split frequencies: 0.017401 596000 -- (-10971.543) (-10971.447) [-10967.463] (-10965.345) * (-10969.152) (-10968.230) (-10979.892) [-10968.152] -- 0:01:05 597000 -- (-10973.521) (-10979.953) (-10968.751) [-10966.566] * (-10977.263) [-10970.623] (-10979.477) (-10970.722) -- 0:01:05 598000 -- (-10972.704) [-10970.653] (-10971.573) (-10968.108) * (-10966.594) [-10970.309] (-10971.405) (-10968.441) -- 0:01:05 599000 -- [-10966.292] (-10965.801) (-10965.799) (-10977.068) * (-10967.592) [-10962.980] (-10967.942) (-10971.015) -- 0:01:05 600000 -- (-10971.639) (-10965.868) (-10965.526) [-10968.557] * (-10969.504) [-10965.993] (-10969.500) (-10972.859) -- 0:01:05 Average standard deviation of split frequencies: 0.019358 601000 -- (-10969.916) (-10965.457) (-10970.868) [-10967.827] * (-10973.440) (-10967.141) [-10969.008] (-10975.053) -- 0:01:05 602000 -- [-10968.108] (-10968.238) (-10968.087) (-10973.316) * (-10974.389) (-10974.999) (-10965.629) [-10970.854] -- 0:01:04 603000 -- [-10967.368] (-10966.875) (-10963.481) (-10974.435) * (-10969.140) (-10979.660) (-10965.457) [-10963.469] -- 0:01:04 604000 -- (-10969.333) [-10966.145] (-10965.729) (-10967.667) * (-10972.357) (-10972.520) [-10967.900] (-10967.223) -- 0:01:04 605000 -- [-10964.709] (-10967.323) (-10973.434) (-10973.365) * (-10970.353) [-10967.241] (-10966.038) (-10969.416) -- 0:01:04 Average standard deviation of split frequencies: 0.019188 606000 -- (-10965.164) (-10966.357) (-10969.398) [-10970.319] * (-10972.954) (-10973.254) [-10966.397] (-10978.281) -- 0:01:04 607000 -- (-10968.301) (-10966.459) [-10967.263] (-10970.120) * (-10969.516) (-10977.899) [-10966.197] (-10972.474) -- 0:01:04 608000 -- [-10970.263] (-10974.863) (-10969.567) (-10967.420) * (-10970.268) [-10975.758] (-10965.874) (-10971.571) -- 0:01:03 609000 -- (-10986.469) [-10966.773] (-10968.203) (-10968.023) * [-10972.380] (-10973.629) (-10965.974) (-10972.905) -- 0:01:03 610000 -- (-10975.813) (-10970.398) [-10968.144] (-10966.730) * (-10974.270) (-10974.103) (-10972.105) [-10969.280] -- 0:01:03 Average standard deviation of split frequencies: 0.018527 611000 -- [-10970.317] (-10969.681) (-10972.757) (-10974.159) * (-10969.214) (-10967.403) [-10967.058] (-10972.380) -- 0:01:03 612000 -- (-10972.696) (-10971.082) [-10965.991] (-10973.091) * [-10967.949] (-10971.613) (-10967.456) (-10966.139) -- 0:01:03 613000 -- (-10968.585) [-10971.191] (-10972.071) (-10968.200) * (-10970.652) (-10974.374) (-10971.200) [-10975.297] -- 0:01:03 614000 -- (-10967.422) (-10969.027) (-10976.062) [-10965.450] * (-10970.360) (-10972.973) (-10973.955) [-10965.845] -- 0:01:02 615000 -- [-10963.349] (-10970.270) (-10970.157) (-10970.609) * (-10969.786) [-10970.086] (-10970.923) (-10970.855) -- 0:01:02 Average standard deviation of split frequencies: 0.016836 616000 -- (-10979.503) (-10967.971) [-10965.621] (-10967.106) * (-10968.110) (-10972.421) [-10962.894] (-10967.493) -- 0:01:02 617000 -- (-10972.813) (-10971.902) [-10965.948] (-10967.678) * (-10967.671) [-10969.840] (-10973.831) (-10971.884) -- 0:01:02 618000 -- (-10970.667) (-10968.671) (-10964.218) [-10967.473] * (-10969.609) [-10967.170] (-10967.960) (-10967.159) -- 0:01:02 619000 -- (-10970.056) (-10972.441) (-10966.797) [-10968.034] * (-10971.709) [-10975.293] (-10973.138) (-10967.949) -- 0:01:02 620000 -- (-10966.920) [-10972.024] (-10974.044) (-10973.705) * (-10976.291) (-10971.600) [-10968.525] (-10972.014) -- 0:01:01 Average standard deviation of split frequencies: 0.018228 621000 -- (-10965.280) (-10972.513) (-10967.694) [-10970.660] * (-10965.511) (-10973.797) [-10967.706] (-10970.464) -- 0:01:01 622000 -- (-10971.486) (-10969.480) (-10970.513) [-10967.560] * (-10978.607) (-10974.867) [-10968.599] (-10967.610) -- 0:01:01 623000 -- (-10966.372) (-10969.991) (-10969.261) [-10966.875] * [-10974.999] (-10965.687) (-10975.048) (-10977.800) -- 0:01:01 624000 -- (-10969.132) [-10966.461] (-10971.075) (-10968.421) * (-10968.703) [-10964.307] (-10968.875) (-10975.449) -- 0:01:01 625000 -- [-10961.269] (-10967.316) (-10971.906) (-10968.414) * [-10972.496] (-10965.807) (-10962.650) (-10969.875) -- 0:01:01 Average standard deviation of split frequencies: 0.019579 626000 -- [-10970.148] (-10978.477) (-10968.889) (-10967.212) * (-10966.822) [-10962.076] (-10968.568) (-10975.900) -- 0:01:00 627000 -- (-10965.789) (-10971.756) (-10973.661) [-10972.256] * (-10970.895) (-10968.802) [-10966.484] (-10971.969) -- 0:01:00 628000 -- (-10968.504) (-10964.557) (-10966.927) [-10966.192] * (-10969.845) [-10967.547] (-10970.611) (-10973.817) -- 0:01:00 629000 -- (-10964.471) (-10972.480) (-10970.764) [-10969.054] * (-10973.916) [-10965.545] (-10970.542) (-10976.244) -- 0:01:00 630000 -- [-10964.210] (-10970.358) (-10970.602) (-10969.620) * (-10976.842) [-10970.073] (-10974.308) (-10966.475) -- 0:01:00 Average standard deviation of split frequencies: 0.018936 631000 -- (-10965.939) (-10972.753) (-10967.437) [-10970.715] * (-10971.796) (-10967.239) (-10972.593) [-10968.517] -- 0:01:00 632000 -- (-10972.455) [-10970.059] (-10970.095) (-10966.772) * (-10972.015) (-10970.238) [-10965.792] (-10971.165) -- 0:00:59 633000 -- (-10971.380) (-10972.652) (-10968.092) [-10965.271] * [-10973.437] (-10968.217) (-10962.011) (-10969.189) -- 0:00:59 634000 -- [-10966.124] (-10973.125) (-10967.537) (-10972.022) * (-10964.695) (-10971.474) [-10964.669] (-10970.250) -- 0:00:59 635000 -- (-10972.003) [-10974.323] (-10971.903) (-10968.380) * (-10971.672) (-10968.058) (-10969.749) [-10971.946] -- 0:00:59 Average standard deviation of split frequencies: 0.019765 636000 -- (-10969.296) (-10975.780) (-10965.972) [-10967.482] * (-10968.532) (-10975.354) [-10969.443] (-10971.682) -- 0:00:59 637000 -- (-10971.752) [-10976.159] (-10969.135) (-10967.114) * [-10965.461] (-10966.479) (-10977.822) (-10966.235) -- 0:00:59 638000 -- (-10966.647) (-10973.620) (-10968.461) [-10971.594] * (-10982.330) (-10967.959) (-10965.572) [-10968.831] -- 0:00:59 639000 -- (-10968.356) [-10964.441] (-10967.748) (-10978.402) * (-10970.309) [-10966.478] (-10974.328) (-10980.466) -- 0:00:58 640000 -- [-10968.016] (-10975.438) (-10968.206) (-10966.828) * (-10970.957) [-10967.702] (-10967.223) (-10966.672) -- 0:00:58 Average standard deviation of split frequencies: 0.021093 641000 -- [-10968.869] (-10974.935) (-10968.394) (-10974.967) * (-10971.442) (-10967.031) (-10970.504) [-10967.631] -- 0:00:58 642000 -- (-10975.181) (-10981.467) (-10967.568) [-10967.779] * [-10972.156] (-10975.177) (-10965.705) (-10969.416) -- 0:00:58 643000 -- (-10971.986) (-10975.093) (-10968.531) [-10969.332] * (-10971.185) (-10972.267) (-10965.651) [-10966.940] -- 0:00:58 644000 -- (-10985.489) (-10974.743) [-10973.515] (-10968.021) * [-10966.411] (-10964.128) (-10970.501) (-10971.644) -- 0:00:58 645000 -- (-10968.908) (-10966.990) [-10966.980] (-10973.353) * [-10964.651] (-10970.880) (-10966.165) (-10981.096) -- 0:00:57 Average standard deviation of split frequencies: 0.020919 646000 -- (-10974.515) (-10974.245) (-10963.922) [-10967.541] * (-10968.357) [-10967.621] (-10963.359) (-10965.395) -- 0:00:57 647000 -- [-10966.463] (-10973.331) (-10968.431) (-10970.189) * (-10968.608) [-10966.788] (-10969.663) (-10974.209) -- 0:00:57 648000 -- (-10968.766) [-10965.938] (-10967.979) (-10968.750) * (-10967.693) (-10969.953) [-10966.886] (-10971.266) -- 0:00:57 649000 -- [-10968.597] (-10976.794) (-10972.761) (-10967.957) * [-10965.811] (-10964.073) (-10965.884) (-10970.865) -- 0:00:57 650000 -- [-10968.776] (-10973.020) (-10964.519) (-10969.969) * (-10965.008) [-10967.394] (-10968.463) (-10964.238) -- 0:00:57 Average standard deviation of split frequencies: 0.020769 651000 -- [-10967.119] (-10967.231) (-10969.269) (-10967.386) * (-10966.724) (-10969.546) [-10963.050] (-10978.364) -- 0:00:56 652000 -- (-10969.864) (-10971.542) (-10976.747) [-10967.607] * (-10970.327) (-10971.830) [-10966.774] (-10967.179) -- 0:00:56 653000 -- (-10969.052) (-10966.538) [-10971.829] (-10976.074) * (-10966.031) (-10972.221) [-10964.075] (-10972.805) -- 0:00:56 654000 -- [-10966.284] (-10972.786) (-10972.065) (-10965.832) * [-10970.147] (-10971.063) (-10967.086) (-10970.151) -- 0:00:56 655000 -- (-10967.406) [-10965.429] (-10969.334) (-10966.649) * (-10969.551) [-10969.019] (-10972.679) (-10969.945) -- 0:00:56 Average standard deviation of split frequencies: 0.022516 656000 -- (-10969.404) (-10973.004) [-10973.844] (-10971.087) * (-10970.797) (-10968.734) [-10967.392] (-10975.481) -- 0:00:56 657000 -- (-10968.771) (-10978.154) (-10974.683) [-10966.911] * (-10973.671) [-10967.111] (-10966.131) (-10967.184) -- 0:00:55 658000 -- [-10963.228] (-10966.886) (-10971.158) (-10963.798) * [-10968.454] (-10966.620) (-10969.071) (-10970.100) -- 0:00:55 659000 -- (-10970.368) (-10980.162) [-10969.745] (-10968.774) * [-10965.478] (-10971.161) (-10967.024) (-10966.115) -- 0:00:55 660000 -- (-10977.568) (-10973.838) [-10967.053] (-10971.304) * (-10970.527) [-10971.919] (-10970.790) (-10964.540) -- 0:00:55 Average standard deviation of split frequencies: 0.022357 661000 -- (-10967.361) [-10962.215] (-10965.196) (-10972.653) * (-10973.665) (-10970.811) (-10971.134) [-10964.186] -- 0:00:55 662000 -- (-10965.542) (-10968.681) (-10966.906) [-10970.632] * (-10971.926) (-10964.764) [-10966.433] (-10967.657) -- 0:00:55 663000 -- (-10978.476) (-10968.334) (-10969.268) [-10966.363] * (-10970.325) (-10971.890) [-10971.118] (-10968.884) -- 0:00:54 664000 -- (-10971.152) [-10970.664] (-10972.172) (-10969.409) * (-10966.535) (-10969.764) (-10979.551) [-10970.545] -- 0:00:54 665000 -- (-10970.120) (-10965.431) [-10967.872] (-10968.624) * [-10965.213] (-10967.083) (-10965.125) (-10972.120) -- 0:00:54 Average standard deviation of split frequencies: 0.022178 666000 -- (-10969.630) [-10964.855] (-10975.859) (-10966.173) * (-10969.196) [-10973.886] (-10968.619) (-10970.553) -- 0:00:54 667000 -- (-10967.572) (-10976.019) [-10968.141] (-10973.225) * [-10964.796] (-10967.568) (-10968.436) (-10967.591) -- 0:00:54 668000 -- (-10968.891) (-10975.394) [-10966.402] (-10966.448) * (-10965.244) [-10968.048] (-10973.027) (-10969.468) -- 0:00:54 669000 -- (-10972.810) [-10967.087] (-10967.509) (-10974.504) * (-10962.502) [-10968.057] (-10965.205) (-10967.013) -- 0:00:53 670000 -- (-10973.717) (-10977.386) (-10963.494) [-10968.349] * [-10969.916] (-10971.795) (-10966.811) (-10973.083) -- 0:00:53 Average standard deviation of split frequencies: 0.022961 671000 -- (-10968.385) (-10967.843) (-10965.846) [-10964.972] * (-10971.669) [-10975.272] (-10972.563) (-10964.902) -- 0:00:53 672000 -- (-10974.435) (-10973.673) (-10968.092) [-10964.468] * (-10964.135) (-10965.093) (-10973.659) [-10968.203] -- 0:00:53 673000 -- (-10966.457) (-10966.466) [-10971.105] (-10968.899) * (-10967.709) (-10971.179) [-10966.615] (-10976.081) -- 0:00:53 674000 -- [-10967.983] (-10967.598) (-10969.100) (-10967.902) * (-10976.603) (-10968.359) [-10973.313] (-10968.632) -- 0:00:53 675000 -- (-10968.465) (-10968.324) [-10969.009] (-10965.963) * (-10982.353) (-10969.588) [-10965.811] (-10969.514) -- 0:00:52 Average standard deviation of split frequencies: 0.021850 676000 -- [-10965.678] (-10967.541) (-10970.659) (-10965.592) * (-10975.571) (-10973.233) (-10967.791) [-10966.104] -- 0:00:52 677000 -- (-10965.535) (-10967.532) (-10964.308) [-10968.622] * (-10972.121) (-10974.079) [-10963.503] (-10967.603) -- 0:00:52 678000 -- (-10966.427) (-10975.124) [-10968.847] (-10971.042) * (-10967.917) (-10969.756) [-10967.850] (-10975.827) -- 0:00:52 679000 -- [-10973.495] (-10966.720) (-10968.722) (-10966.858) * (-10970.371) (-10968.468) [-10963.816] (-10967.484) -- 0:00:52 680000 -- (-10972.149) (-10965.027) (-10971.110) [-10967.605] * (-10976.309) [-10966.316] (-10966.343) (-10965.857) -- 0:00:52 Average standard deviation of split frequencies: 0.023085 681000 -- (-10973.538) (-10970.039) (-10974.324) [-10967.971] * (-10971.663) [-10966.756] (-10969.264) (-10969.977) -- 0:00:51 682000 -- (-10972.762) (-10966.680) [-10966.690] (-10963.607) * (-10965.606) [-10967.574] (-10971.854) (-10971.713) -- 0:00:51 683000 -- [-10970.573] (-10967.154) (-10974.276) (-10972.596) * (-10963.836) (-10972.601) (-10969.153) [-10965.339] -- 0:00:51 684000 -- (-10965.064) [-10972.460] (-10971.817) (-10964.324) * (-10970.401) (-10964.320) [-10967.545] (-10973.657) -- 0:00:51 685000 -- (-10965.337) [-10964.212] (-10964.621) (-10967.965) * (-10972.974) [-10963.914] (-10970.191) (-10976.938) -- 0:00:51 Average standard deviation of split frequencies: 0.022448 686000 -- [-10963.980] (-10980.750) (-10969.152) (-10968.434) * (-10971.214) (-10971.195) [-10967.570] (-10968.395) -- 0:00:51 687000 -- (-10969.181) (-10969.832) (-10966.307) [-10963.557] * [-10962.235] (-10967.387) (-10977.397) (-10968.097) -- 0:00:51 688000 -- (-10972.966) [-10971.701] (-10974.093) (-10967.211) * (-10970.684) (-10975.160) (-10972.937) [-10970.001] -- 0:00:50 689000 -- (-10969.031) (-10968.353) [-10971.355] (-10966.766) * [-10963.317] (-10967.439) (-10964.351) (-10966.827) -- 0:00:50 690000 -- (-10969.151) (-10967.010) (-10977.570) [-10967.619] * (-10967.525) [-10969.384] (-10977.140) (-10971.620) -- 0:00:50 Average standard deviation of split frequencies: 0.022296 691000 -- (-10969.898) (-10966.124) [-10970.750] (-10975.519) * (-10965.889) [-10972.177] (-10967.291) (-10967.135) -- 0:00:50 692000 -- (-10965.569) (-10965.954) (-10971.040) [-10967.343] * (-10967.527) (-10965.368) [-10974.712] (-10964.298) -- 0:00:50 693000 -- [-10969.955] (-10962.227) (-10967.517) (-10975.572) * (-10964.859) (-10966.929) [-10963.580] (-10968.630) -- 0:00:50 694000 -- (-10967.650) (-10970.599) (-10971.850) [-10968.341] * (-10964.180) (-10967.982) (-10968.442) [-10967.731] -- 0:00:49 695000 -- [-10967.282] (-10976.331) (-10975.368) (-10974.365) * (-10966.176) [-10963.196] (-10968.885) (-10967.664) -- 0:00:49 Average standard deviation of split frequencies: 0.022577 696000 -- (-10975.838) (-10974.930) (-10976.468) [-10978.876] * (-10971.958) (-10967.968) (-10968.477) [-10966.401] -- 0:00:49 697000 -- (-10967.641) (-10971.098) [-10973.209] (-10975.389) * (-10971.667) [-10969.729] (-10977.359) (-10971.124) -- 0:00:49 698000 -- (-10969.672) (-10965.778) (-10973.669) [-10966.367] * [-10974.160] (-10972.148) (-10969.182) (-10964.744) -- 0:00:49 699000 -- [-10968.951] (-10967.971) (-10976.299) (-10969.078) * (-10972.805) (-10969.243) [-10968.900] (-10971.984) -- 0:00:49 700000 -- (-10970.095) (-10964.373) [-10970.883] (-10973.852) * (-10968.439) [-10964.539] (-10966.778) (-10967.328) -- 0:00:48 Average standard deviation of split frequencies: 0.021081 701000 -- (-10970.868) (-10967.004) [-10968.359] (-10969.126) * (-10967.702) (-10968.824) [-10964.103] (-10971.831) -- 0:00:48 702000 -- (-10970.010) (-10972.109) (-10972.254) [-10968.163] * [-10968.331] (-10971.727) (-10966.267) (-10968.325) -- 0:00:48 703000 -- [-10972.102] (-10980.537) (-10967.389) (-10971.026) * (-10970.238) (-10971.402) (-10971.002) [-10967.842] -- 0:00:48 704000 -- (-10977.669) (-10972.318) [-10969.430] (-10968.451) * [-10964.215] (-10974.063) (-10971.408) (-10969.049) -- 0:00:48 705000 -- (-10976.044) (-10971.346) (-10977.081) [-10965.348] * (-10970.411) [-10963.685] (-10972.931) (-10967.321) -- 0:00:48 Average standard deviation of split frequencies: 0.020476 706000 -- [-10966.005] (-10973.876) (-10967.018) (-10966.639) * (-10970.235) (-10977.755) (-10963.416) [-10975.601] -- 0:00:47 707000 -- (-10966.083) (-10969.823) (-10970.919) [-10963.985] * (-10972.867) (-10974.611) [-10963.916] (-10968.065) -- 0:00:47 708000 -- (-10969.210) [-10964.739] (-10966.878) (-10974.706) * (-10967.183) (-10965.350) (-10967.715) [-10967.972] -- 0:00:47 709000 -- (-10967.310) [-10961.037] (-10976.253) (-10974.769) * (-10977.141) (-10971.722) (-10969.783) [-10966.099] -- 0:00:47 710000 -- (-10965.009) (-10968.946) (-10973.223) [-10975.444] * (-10975.508) (-10973.081) [-10971.510] (-10974.990) -- 0:00:47 Average standard deviation of split frequencies: 0.021226 711000 -- (-10966.212) [-10968.011] (-10973.375) (-10973.350) * (-10970.809) (-10968.831) [-10972.143] (-10968.235) -- 0:00:47 712000 -- (-10967.316) [-10974.885] (-10968.729) (-10976.162) * (-10966.434) (-10965.164) [-10968.154] (-10972.975) -- 0:00:46 713000 -- (-10969.590) [-10966.745] (-10970.071) (-10979.961) * (-10966.832) (-10968.145) [-10966.342] (-10969.734) -- 0:00:46 714000 -- (-10971.961) (-10971.683) (-10971.616) [-10967.332] * (-10971.841) (-10970.616) (-10965.195) [-10970.223] -- 0:00:46 715000 -- (-10976.247) (-10981.497) (-10974.374) [-10965.553] * (-10967.214) (-10973.710) [-10965.068] (-10968.110) -- 0:00:46 Average standard deviation of split frequencies: 0.019752 716000 -- (-10974.941) (-10968.717) (-10973.825) [-10967.360] * [-10966.962] (-10963.203) (-10972.927) (-10966.289) -- 0:00:46 717000 -- (-10972.110) (-10980.023) [-10966.699] (-10971.243) * (-10968.376) (-10972.049) [-10963.516] (-10970.591) -- 0:00:46 718000 -- (-10974.884) [-10971.447] (-10977.128) (-10982.485) * (-10971.772) [-10967.237] (-10965.017) (-10967.726) -- 0:00:45 719000 -- (-10966.676) (-10967.250) [-10974.511] (-10969.582) * (-10966.093) (-10967.506) (-10967.542) [-10972.297] -- 0:00:45 720000 -- (-10968.075) (-10969.804) (-10968.923) [-10966.336] * [-10963.773] (-10967.307) (-10967.445) (-10969.380) -- 0:00:45 Average standard deviation of split frequencies: 0.018752 721000 -- (-10971.931) [-10970.393] (-10971.747) (-10967.750) * (-10966.748) (-10969.351) (-10968.892) [-10970.890] -- 0:00:45 722000 -- (-10978.874) [-10964.145] (-10971.130) (-10978.067) * [-10967.277] (-10966.465) (-10982.696) (-10969.631) -- 0:00:45 723000 -- [-10969.539] (-10970.555) (-10968.591) (-10964.360) * (-10967.407) [-10968.884] (-10971.068) (-10972.065) -- 0:00:45 724000 -- (-10973.858) [-10969.151] (-10974.538) (-10970.435) * [-10968.551] (-10966.116) (-10974.926) (-10968.388) -- 0:00:44 725000 -- (-10968.546) [-10972.349] (-10975.568) (-10969.137) * (-10966.660) (-10979.378) (-10968.249) [-10969.830] -- 0:00:44 Average standard deviation of split frequencies: 0.018614 726000 -- (-10973.956) (-10969.197) (-10974.318) [-10968.626] * (-10964.304) (-10969.232) (-10967.203) [-10968.041] -- 0:00:44 727000 -- (-10967.069) (-10980.256) (-10969.916) [-10975.670] * (-10964.718) (-10975.938) (-10962.772) [-10970.450] -- 0:00:44 728000 -- [-10971.237] (-10969.246) (-10968.094) (-10979.368) * (-10975.896) (-10966.512) [-10961.699] (-10973.644) -- 0:00:44 729000 -- (-10968.524) (-10970.817) [-10968.056] (-10967.454) * (-10972.538) [-10966.817] (-10963.918) (-10974.818) -- 0:00:44 730000 -- [-10969.143] (-10973.434) (-10971.061) (-10978.577) * (-10969.323) (-10966.928) (-10969.234) [-10968.386] -- 0:00:44 Average standard deviation of split frequencies: 0.019355 731000 -- [-10971.964] (-10969.089) (-10962.974) (-10970.769) * (-10970.398) [-10965.970] (-10965.155) (-10968.230) -- 0:00:43 732000 -- (-10970.592) [-10968.014] (-10971.534) (-10973.541) * (-10977.156) (-10964.405) (-10973.438) [-10970.037] -- 0:00:43 733000 -- [-10968.321] (-10975.307) (-10965.869) (-10969.901) * (-10972.590) [-10968.001] (-10967.492) (-10965.011) -- 0:00:43 734000 -- (-10969.080) [-10967.060] (-10972.715) (-10972.215) * [-10970.482] (-10967.026) (-10968.108) (-10970.470) -- 0:00:43 735000 -- (-10972.949) (-10972.233) [-10971.505] (-10967.374) * (-10974.140) (-10968.883) (-10972.884) [-10965.592] -- 0:00:43 Average standard deviation of split frequencies: 0.020069 736000 -- (-10976.361) (-10977.383) [-10969.267] (-10972.106) * (-10978.456) (-10974.171) (-10962.461) [-10966.241] -- 0:00:43 737000 -- (-10970.172) (-10973.369) [-10967.878] (-10972.767) * (-10976.368) [-10969.290] (-10971.894) (-10973.293) -- 0:00:42 738000 -- (-10970.698) (-10967.063) (-10969.548) [-10972.334] * (-10975.366) (-10969.607) (-10968.184) [-10968.969] -- 0:00:42 739000 -- (-10969.291) [-10966.841] (-10969.348) (-10969.125) * [-10968.824] (-10967.709) (-10972.009) (-10972.542) -- 0:00:42 740000 -- [-10967.269] (-10965.395) (-10973.487) (-10970.528) * (-10966.833) [-10966.505] (-10969.838) (-10969.798) -- 0:00:42 Average standard deviation of split frequencies: 0.021215 741000 -- [-10966.898] (-10967.921) (-10967.476) (-10970.861) * (-10973.050) (-10966.453) (-10969.993) [-10968.819] -- 0:00:42 742000 -- (-10967.709) [-10971.286] (-10979.798) (-10972.114) * (-10973.714) (-10964.426) [-10971.688] (-10970.130) -- 0:00:42 743000 -- [-10966.230] (-10974.131) (-10974.299) (-10966.814) * (-10973.933) (-10972.548) (-10966.654) [-10970.608] -- 0:00:41 744000 -- (-10965.807) (-10969.256) [-10966.635] (-10969.019) * (-10972.746) [-10965.052] (-10974.236) (-10973.229) -- 0:00:41 745000 -- [-10964.156] (-10967.336) (-10970.150) (-10973.096) * (-10965.240) (-10966.375) (-10965.698) [-10965.879] -- 0:00:41 Average standard deviation of split frequencies: 0.019800 746000 -- (-10964.858) (-10969.603) [-10978.743] (-10972.438) * (-10965.055) [-10965.536] (-10965.111) (-10971.369) -- 0:00:41 747000 -- (-10968.620) (-10970.826) [-10966.231] (-10970.435) * (-10968.581) (-10973.286) (-10967.865) [-10973.783] -- 0:00:41 748000 -- [-10965.910] (-10966.088) (-10966.731) (-10972.117) * (-10969.598) (-10964.915) (-10963.710) [-10967.677] -- 0:00:41 749000 -- (-10965.293) [-10965.074] (-10976.623) (-10964.156) * (-10976.868) (-10972.577) [-10971.146] (-10966.990) -- 0:00:40 750000 -- (-10965.631) [-10972.313] (-10965.882) (-10965.866) * [-10965.213] (-10970.586) (-10966.161) (-10967.410) -- 0:00:40 Average standard deviation of split frequencies: 0.018839 751000 -- (-10970.629) [-10967.728] (-10968.173) (-10967.902) * (-10972.772) (-10972.089) (-10968.124) [-10975.387] -- 0:00:40 752000 -- (-10971.185) [-10968.166] (-10972.592) (-10977.868) * [-10965.567] (-10976.185) (-10966.456) (-10971.287) -- 0:00:40 753000 -- (-10971.262) (-10966.803) (-10969.629) [-10965.339] * (-10969.719) (-10972.723) [-10963.347] (-10970.208) -- 0:00:40 754000 -- (-10972.607) (-10971.619) [-10967.148] (-10970.472) * (-10969.398) [-10963.929] (-10965.855) (-10969.532) -- 0:00:40 755000 -- [-10972.587] (-10978.711) (-10968.191) (-10965.713) * (-10967.677) (-10964.648) [-10964.662] (-10971.806) -- 0:00:39 Average standard deviation of split frequencies: 0.020369 756000 -- (-10968.598) (-10972.538) [-10966.126] (-10965.830) * (-10968.348) [-10971.645] (-10962.179) (-10967.879) -- 0:00:39 757000 -- (-10970.922) (-10968.550) (-10964.700) [-10967.715] * [-10964.496] (-10971.225) (-10966.042) (-10966.411) -- 0:00:39 758000 -- [-10967.972] (-10968.417) (-10969.627) (-10966.517) * (-10968.879) [-10967.219] (-10970.064) (-10971.348) -- 0:00:39 759000 -- (-10966.803) [-10966.851] (-10969.543) (-10973.288) * (-10967.754) (-10970.039) (-10964.295) [-10970.321] -- 0:00:39 760000 -- (-10965.638) [-10968.361] (-10969.863) (-10973.207) * (-10967.018) (-10970.059) [-10968.304] (-10970.307) -- 0:00:39 Average standard deviation of split frequencies: 0.020658 761000 -- (-10968.581) [-10966.660] (-10972.257) (-10974.443) * (-10981.072) (-10980.214) (-10969.689) [-10966.866] -- 0:00:38 762000 -- [-10965.533] (-10965.907) (-10968.225) (-10974.721) * (-10972.432) (-10969.595) (-10967.316) [-10968.613] -- 0:00:38 763000 -- [-10968.195] (-10972.969) (-10970.352) (-10974.941) * (-10966.555) [-10970.850] (-10964.578) (-10966.742) -- 0:00:38 764000 -- (-10973.931) (-10975.896) (-10967.719) [-10972.177] * (-10971.686) (-10972.217) (-10971.011) [-10966.906] -- 0:00:38 765000 -- (-10967.662) (-10975.954) (-10969.718) [-10967.622] * [-10964.026] (-10975.046) (-10967.745) (-10969.170) -- 0:00:38 Average standard deviation of split frequencies: 0.019283 766000 -- (-10975.056) [-10969.393] (-10969.135) (-10981.632) * [-10966.008] (-10967.309) (-10974.268) (-10970.033) -- 0:00:38 767000 -- (-10972.098) (-10970.814) [-10969.947] (-10971.573) * (-10979.566) [-10977.025] (-10974.797) (-10971.321) -- 0:00:37 768000 -- (-10969.152) (-10967.625) (-10967.852) [-10966.161] * [-10966.149] (-10979.448) (-10969.450) (-10971.242) -- 0:00:37 769000 -- (-10968.034) (-10969.579) (-10969.027) [-10970.848] * [-10971.167] (-10973.642) (-10969.888) (-10968.196) -- 0:00:37 770000 -- [-10962.512] (-10971.307) (-10968.368) (-10972.494) * (-10967.036) [-10967.243] (-10971.461) (-10974.793) -- 0:00:37 Average standard deviation of split frequencies: 0.016719 771000 -- (-10972.845) (-10967.315) [-10965.207] (-10972.888) * (-10964.735) (-10975.792) (-10970.742) [-10970.820] -- 0:00:37 772000 -- (-10968.765) (-10973.069) [-10971.054] (-10973.319) * (-10968.245) (-10966.124) [-10972.066] (-10964.234) -- 0:00:37 773000 -- (-10972.698) (-10968.186) (-10969.578) [-10975.370] * (-10965.682) (-10965.767) (-10972.225) [-10965.880] -- 0:00:37 774000 -- (-10966.759) (-10971.794) [-10977.334] (-10969.295) * (-10970.812) [-10967.210] (-10970.767) (-10972.885) -- 0:00:36 775000 -- (-10971.092) (-10969.739) [-10972.131] (-10968.811) * (-10972.140) (-10966.341) [-10963.285] (-10965.738) -- 0:00:36 Average standard deviation of split frequencies: 0.017819 776000 -- (-10965.577) (-10977.379) [-10965.688] (-10974.390) * (-10965.418) (-10978.531) (-10971.994) [-10966.835] -- 0:00:36 777000 -- (-10970.012) (-10972.338) [-10965.535] (-10974.990) * (-10967.528) (-10969.677) [-10970.759] (-10967.293) -- 0:00:36 778000 -- (-10970.116) (-10971.105) (-10968.024) [-10972.539] * [-10970.153] (-10971.706) (-10967.190) (-10974.997) -- 0:00:36 779000 -- (-10967.904) (-10966.664) [-10963.643] (-10968.711) * (-10968.974) [-10963.895] (-10967.280) (-10968.556) -- 0:00:36 780000 -- [-10972.609] (-10967.008) (-10974.540) (-10973.880) * [-10971.323] (-10971.465) (-10967.042) (-10964.553) -- 0:00:35 Average standard deviation of split frequencies: 0.017713 781000 -- (-10970.782) (-10977.530) [-10965.464] (-10971.465) * (-10971.768) (-10966.894) [-10968.658] (-10967.863) -- 0:00:35 782000 -- (-10974.333) (-10966.833) [-10966.890] (-10966.743) * (-10969.687) [-10965.141] (-10966.898) (-10967.344) -- 0:00:35 783000 -- (-10975.434) (-10973.480) [-10965.637] (-10971.688) * (-10968.300) (-10964.745) [-10967.941] (-10972.677) -- 0:00:35 784000 -- (-10977.748) (-10970.479) [-10962.626] (-10966.631) * [-10965.745] (-10966.505) (-10975.839) (-10971.763) -- 0:00:35 785000 -- [-10973.305] (-10974.890) (-10966.272) (-10974.439) * (-10976.287) [-10973.926] (-10967.154) (-10972.649) -- 0:00:35 Average standard deviation of split frequencies: 0.017993 786000 -- (-10975.899) (-10972.926) (-10972.316) [-10963.538] * (-10965.491) (-10967.977) (-10963.310) [-10967.263] -- 0:00:34 787000 -- [-10975.588] (-10971.493) (-10978.269) (-10969.235) * (-10968.186) (-10967.987) [-10966.702] (-10973.206) -- 0:00:34 788000 -- (-10967.100) (-10973.735) [-10978.071] (-10972.123) * (-10969.838) [-10966.816] (-10973.037) (-10968.328) -- 0:00:34 789000 -- [-10973.003] (-10969.058) (-10967.772) (-10966.650) * (-10970.619) [-10963.132] (-10969.417) (-10979.779) -- 0:00:34 790000 -- (-10971.636) [-10970.716] (-10979.840) (-10973.749) * (-10967.982) (-10973.610) [-10965.310] (-10968.453) -- 0:00:34 Average standard deviation of split frequencies: 0.018681 791000 -- [-10967.244] (-10968.120) (-10973.260) (-10970.999) * (-10976.492) (-10979.645) [-10966.203] (-10971.365) -- 0:00:34 792000 -- (-10968.646) (-10967.220) [-10973.905] (-10968.980) * (-10977.855) (-10972.814) [-10970.946] (-10972.937) -- 0:00:33 793000 -- (-10981.709) (-10965.986) (-10968.504) [-10970.504] * (-10975.980) (-10978.146) (-10963.300) [-10965.867] -- 0:00:33 794000 -- (-10968.772) [-10970.758] (-10974.342) (-10965.441) * (-10979.865) (-10974.486) [-10962.610] (-10964.887) -- 0:00:33 795000 -- (-10971.231) (-10972.538) (-10965.596) [-10966.081] * [-10968.325] (-10968.594) (-10967.189) (-10962.181) -- 0:00:33 Average standard deviation of split frequencies: 0.017767 796000 -- (-10968.167) (-10966.200) (-10968.311) [-10970.291] * (-10972.554) [-10968.834] (-10972.167) (-10967.119) -- 0:00:33 797000 -- [-10963.842] (-10971.828) (-10970.517) (-10971.569) * [-10971.214] (-10970.197) (-10969.317) (-10966.320) -- 0:00:33 798000 -- (-10977.232) [-10969.456] (-10965.726) (-10974.887) * (-10970.288) [-10971.838] (-10972.650) (-10967.450) -- 0:00:32 799000 -- [-10972.628] (-10969.689) (-10965.487) (-10969.320) * (-10972.004) (-10974.450) [-10969.590] (-10967.732) -- 0:00:32 800000 -- (-10970.779) (-10967.789) (-10973.211) [-10970.106] * [-10972.966] (-10974.353) (-10968.023) (-10971.337) -- 0:00:32 Average standard deviation of split frequencies: 0.016878 801000 -- [-10968.411] (-10970.086) (-10966.901) (-10970.226) * (-10966.149) (-10976.508) [-10964.953] (-10972.838) -- 0:00:32 802000 -- (-10968.674) (-10966.678) [-10970.042] (-10972.354) * (-10968.689) (-10969.493) (-10969.934) [-10969.139] -- 0:00:32 803000 -- [-10967.938] (-10970.551) (-10983.073) (-10968.610) * (-10976.247) (-10970.153) (-10966.161) [-10973.488] -- 0:00:32 804000 -- (-10966.782) (-10969.403) (-10982.690) [-10970.482] * (-10971.051) (-10966.732) [-10971.928] (-10966.120) -- 0:00:31 805000 -- (-10970.377) [-10977.700] (-10973.491) (-10969.366) * [-10970.756] (-10973.067) (-10973.646) (-10980.170) -- 0:00:31 Average standard deviation of split frequencies: 0.016376 806000 -- (-10969.040) (-10969.906) (-10966.605) [-10963.459] * (-10972.277) (-10967.300) [-10972.257] (-10974.732) -- 0:00:31 807000 -- [-10967.189] (-10966.255) (-10965.674) (-10976.678) * [-10968.006] (-10970.462) (-10971.068) (-10974.894) -- 0:00:31 808000 -- (-10972.205) (-10970.669) (-10969.071) [-10972.651] * [-10966.626] (-10968.393) (-10969.144) (-10969.979) -- 0:00:31 809000 -- (-10967.746) (-10965.272) [-10975.572] (-10972.091) * (-10966.567) (-10974.784) [-10969.494] (-10966.933) -- 0:00:31 810000 -- (-10974.546) (-10962.436) [-10971.178] (-10967.419) * (-10970.480) [-10973.178] (-10966.000) (-10967.682) -- 0:00:30 Average standard deviation of split frequencies: 0.015119 811000 -- (-10969.949) [-10967.783] (-10972.022) (-10974.405) * [-10970.453] (-10970.878) (-10973.304) (-10965.678) -- 0:00:30 812000 -- (-10974.707) [-10961.680] (-10983.689) (-10969.771) * [-10968.882] (-10967.763) (-10970.998) (-10964.763) -- 0:00:30 813000 -- (-10966.822) (-10969.117) [-10967.165] (-10968.217) * (-10972.040) (-10970.967) (-10971.348) [-10967.488] -- 0:00:30 814000 -- [-10970.837] (-10967.824) (-10969.908) (-10973.600) * (-10968.278) [-10965.171] (-10970.278) (-10964.766) -- 0:00:30 815000 -- (-10972.986) [-10968.745] (-10967.688) (-10968.446) * (-10966.544) [-10970.544] (-10979.379) (-10971.776) -- 0:00:30 Average standard deviation of split frequencies: 0.015405 816000 -- (-10975.657) (-10969.839) (-10968.958) [-10968.886] * (-10968.149) [-10965.504] (-10981.080) (-10964.949) -- 0:00:29 817000 -- (-10972.756) (-10981.052) [-10968.596] (-10970.248) * (-10971.299) [-10966.839] (-10973.925) (-10976.835) -- 0:00:29 818000 -- (-10967.251) (-10976.468) [-10968.275] (-10968.792) * (-10972.078) (-10964.809) [-10965.311] (-10968.541) -- 0:00:29 819000 -- (-10966.080) [-10972.444] (-10975.204) (-10963.594) * (-10969.159) (-10966.583) [-10966.829] (-10967.791) -- 0:00:29 820000 -- (-10963.649) (-10966.310) (-10966.842) [-10962.755] * [-10973.202] (-10969.424) (-10973.576) (-10969.046) -- 0:00:29 Average standard deviation of split frequencies: 0.014935 821000 -- (-10968.304) (-10967.111) (-10964.421) [-10971.220] * (-10965.429) (-10971.839) (-10970.831) [-10964.651] -- 0:00:29 822000 -- (-10967.304) (-10974.402) (-10972.702) [-10971.821] * [-10967.434] (-10969.902) (-10971.082) (-10985.138) -- 0:00:29 823000 -- (-10973.291) (-10967.033) (-10971.111) [-10967.334] * (-10967.045) (-10965.982) [-10967.220] (-10973.961) -- 0:00:28 824000 -- (-10972.256) (-10964.831) [-10972.865] (-10973.156) * (-10967.419) [-10970.866] (-10970.906) (-10964.277) -- 0:00:28 825000 -- (-10971.646) [-10968.142] (-10968.293) (-10974.459) * (-10965.700) (-10971.959) [-10970.498] (-10968.195) -- 0:00:28 Average standard deviation of split frequencies: 0.014458 826000 -- (-10975.410) [-10969.262] (-10971.009) (-10967.038) * (-10960.904) (-10967.798) (-10969.113) [-10967.461] -- 0:00:28 827000 -- [-10972.844] (-10965.265) (-10973.730) (-10970.872) * (-10967.887) (-10972.254) (-10976.006) [-10966.955] -- 0:00:28 828000 -- (-10977.922) (-10969.747) [-10969.554] (-10973.881) * [-10964.109] (-10968.649) (-10971.476) (-10972.270) -- 0:00:28 829000 -- (-10977.837) (-10967.406) [-10966.671] (-10972.516) * [-10968.121] (-10976.235) (-10964.212) (-10968.798) -- 0:00:28 830000 -- (-10971.087) [-10962.640] (-10967.253) (-10979.691) * (-10964.581) (-10972.136) [-10967.738] (-10970.123) -- 0:00:27 Average standard deviation of split frequencies: 0.013620 831000 -- [-10967.974] (-10971.416) (-10967.828) (-10973.691) * (-10967.623) (-10967.793) (-10971.831) [-10963.701] -- 0:00:27 832000 -- [-10975.889] (-10975.418) (-10969.451) (-10967.631) * (-10971.737) (-10972.382) [-10969.526] (-10979.264) -- 0:00:27 833000 -- (-10974.264) [-10966.299] (-10968.386) (-10975.678) * (-10966.537) (-10975.679) [-10968.396] (-10972.959) -- 0:00:27 834000 -- (-10967.012) (-10971.557) (-10969.846) [-10974.601] * (-10969.412) (-10970.383) [-10965.990] (-10977.055) -- 0:00:27 835000 -- (-10964.722) (-10974.122) (-10971.452) [-10967.106] * (-10971.613) (-10966.991) (-10977.197) [-10972.037] -- 0:00:27 Average standard deviation of split frequencies: 0.013157 836000 -- (-10975.842) [-10972.349] (-10972.969) (-10972.241) * [-10972.520] (-10963.028) (-10972.108) (-10973.141) -- 0:00:26 837000 -- [-10965.398] (-10966.656) (-10970.571) (-10968.705) * (-10970.270) [-10966.825] (-10967.481) (-10970.389) -- 0:00:26 838000 -- (-10973.867) [-10967.401] (-10974.784) (-10969.055) * (-10966.634) (-10973.927) [-10973.453] (-10976.937) -- 0:00:26 839000 -- [-10968.530] (-10967.013) (-10965.750) (-10970.899) * (-10972.541) [-10964.567] (-10974.184) (-10967.544) -- 0:00:26 840000 -- [-10970.131] (-10966.250) (-10973.680) (-10972.623) * [-10965.943] (-10969.132) (-10969.234) (-10965.025) -- 0:00:26 Average standard deviation of split frequencies: 0.011963 841000 -- [-10969.073] (-10973.857) (-10966.508) (-10974.414) * (-10967.745) (-10966.917) [-10969.284] (-10971.053) -- 0:00:26 842000 -- [-10972.321] (-10968.863) (-10969.884) (-10964.277) * (-10973.173) [-10964.222] (-10971.756) (-10979.717) -- 0:00:25 843000 -- (-10969.437) [-10973.415] (-10967.483) (-10967.723) * (-10969.779) [-10975.757] (-10969.535) (-10968.368) -- 0:00:25 844000 -- (-10969.992) (-10978.984) (-10966.308) [-10967.502] * [-10965.951] (-10970.298) (-10970.672) (-10971.917) -- 0:00:25 845000 -- (-10971.128) (-10971.508) [-10978.934] (-10969.334) * [-10966.230] (-10965.808) (-10970.165) (-10968.639) -- 0:00:25 Average standard deviation of split frequencies: 0.012259 846000 -- (-10965.374) (-10970.399) [-10965.554] (-10972.757) * (-10972.209) (-10967.253) [-10971.627] (-10969.995) -- 0:00:25 847000 -- [-10964.741] (-10971.066) (-10971.464) (-10967.600) * (-10968.452) [-10965.064] (-10975.437) (-10971.685) -- 0:00:25 848000 -- (-10966.762) (-10972.085) [-10967.250] (-10967.679) * (-10968.575) [-10967.434] (-10971.481) (-10976.279) -- 0:00:24 849000 -- [-10969.295] (-10974.666) (-10975.687) (-10968.928) * (-10969.050) [-10970.219] (-10969.866) (-10977.327) -- 0:00:24 850000 -- (-10973.995) [-10971.305] (-10968.425) (-10972.187) * (-10974.844) [-10973.625] (-10969.746) (-10979.607) -- 0:00:24 Average standard deviation of split frequencies: 0.011453 851000 -- (-10968.737) (-10964.792) [-10968.976] (-10969.636) * [-10967.722] (-10975.985) (-10965.555) (-10975.229) -- 0:00:24 852000 -- [-10968.541] (-10967.097) (-10966.923) (-10970.072) * (-10973.125) (-10973.901) [-10963.598] (-10976.050) -- 0:00:24 853000 -- [-10966.331] (-10969.493) (-10966.042) (-10967.803) * (-10973.347) [-10978.911] (-10964.803) (-10976.217) -- 0:00:24 854000 -- (-10966.688) [-10969.408] (-10966.477) (-10969.683) * [-10976.097] (-10970.204) (-10969.615) (-10967.402) -- 0:00:23 855000 -- (-10965.044) (-10966.933) (-10971.079) [-10964.230] * (-10969.291) (-10967.937) [-10963.918] (-10967.554) -- 0:00:23 Average standard deviation of split frequencies: 0.011381 856000 -- [-10964.678] (-10966.488) (-10971.518) (-10966.960) * (-10971.862) (-10966.371) (-10979.114) [-10964.957] -- 0:00:23 857000 -- (-10968.023) (-10974.518) [-10969.792] (-10967.413) * (-10971.426) (-10970.199) (-10973.279) [-10962.426] -- 0:00:23 858000 -- (-10968.288) (-10971.118) [-10970.216] (-10971.651) * (-10969.038) (-10973.360) (-10970.965) [-10965.636] -- 0:00:23 859000 -- (-10969.901) (-10967.317) (-10979.346) [-10967.659] * [-10966.575] (-10973.615) (-10967.139) (-10969.282) -- 0:00:23 860000 -- (-10973.767) (-10966.877) [-10970.458] (-10970.336) * (-10969.002) (-10965.902) [-10971.522] (-10964.147) -- 0:00:22 Average standard deviation of split frequencies: 0.010954 861000 -- (-10973.748) (-10970.599) [-10976.640] (-10964.974) * [-10966.579] (-10967.216) (-10969.608) (-10969.611) -- 0:00:22 862000 -- (-10972.331) (-10963.625) [-10968.502] (-10968.816) * (-10970.011) [-10966.489] (-10963.161) (-10968.656) -- 0:00:22 863000 -- (-10969.195) (-10970.674) [-10967.998] (-10965.009) * (-10976.299) [-10975.616] (-10973.481) (-10973.380) -- 0:00:22 864000 -- (-10970.018) (-10974.094) (-10973.130) [-10972.232] * (-10968.956) (-10974.468) (-10971.328) [-10971.940] -- 0:00:22 865000 -- [-10972.251] (-10968.845) (-10968.003) (-10966.959) * [-10978.488] (-10971.179) (-10965.989) (-10967.193) -- 0:00:22 Average standard deviation of split frequencies: 0.011976 866000 -- (-10972.225) (-10969.226) (-10965.308) [-10968.947] * [-10974.904] (-10970.299) (-10962.295) (-10972.345) -- 0:00:21 867000 -- (-10973.930) [-10967.518] (-10974.828) (-10964.921) * [-10974.958] (-10967.557) (-10971.500) (-10976.461) -- 0:00:21 868000 -- (-10965.653) [-10962.766] (-10972.636) (-10966.764) * (-10971.372) [-10966.095] (-10967.687) (-10974.410) -- 0:00:21 869000 -- (-10972.347) [-10968.998] (-10965.747) (-10974.921) * (-10966.457) (-10969.833) (-10971.672) [-10969.361] -- 0:00:21 870000 -- (-10974.330) (-10974.810) [-10965.680] (-10973.189) * [-10967.169] (-10970.047) (-10970.801) (-10970.479) -- 0:00:21 Average standard deviation of split frequencies: 0.011190 871000 -- (-10966.971) [-10978.501] (-10970.325) (-10970.471) * (-10967.605) [-10973.417] (-10969.334) (-10974.331) -- 0:00:21 872000 -- (-10971.136) (-10974.156) [-10974.822] (-10978.664) * (-10965.583) (-10965.566) (-10967.315) [-10969.078] -- 0:00:20 873000 -- (-10967.805) (-10974.396) [-10970.191] (-10977.463) * (-10975.755) (-10978.913) (-10972.442) [-10970.271] -- 0:00:20 874000 -- (-10970.534) (-10978.012) [-10969.512] (-10969.168) * (-10970.135) (-10973.186) (-10965.944) [-10969.992] -- 0:00:20 875000 -- (-10968.755) (-10972.035) (-10967.764) [-10974.269] * [-10970.179] (-10968.959) (-10963.924) (-10964.899) -- 0:00:20 Average standard deviation of split frequencies: 0.011839 876000 -- (-10970.543) (-10977.565) (-10972.904) [-10963.990] * (-10968.386) [-10976.859] (-10975.223) (-10967.008) -- 0:00:20 877000 -- (-10972.791) (-10974.938) [-10970.004] (-10964.410) * [-10973.853] (-10968.798) (-10967.464) (-10968.321) -- 0:00:20 878000 -- (-10965.268) (-10974.872) [-10968.228] (-10968.479) * (-10973.230) [-10964.363] (-10967.463) (-10964.922) -- 0:00:20 879000 -- (-10971.341) [-10966.382] (-10976.332) (-10965.956) * (-10975.016) [-10967.014] (-10975.727) (-10964.106) -- 0:00:19 880000 -- (-10971.134) [-10972.030] (-10965.622) (-10970.490) * (-10976.299) (-10970.560) (-10972.727) [-10969.814] -- 0:00:19 Average standard deviation of split frequencies: 0.011062 881000 -- (-10975.270) (-10979.373) (-10967.275) [-10966.479] * (-10971.852) (-10970.753) (-10974.320) [-10967.192] -- 0:00:19 882000 -- [-10969.647] (-10969.733) (-10969.251) (-10964.874) * (-10972.489) (-10969.761) [-10968.601] (-10966.536) -- 0:00:19 883000 -- (-10968.471) (-10984.031) [-10969.564] (-10967.988) * (-10968.867) [-10967.730] (-10971.122) (-10963.731) -- 0:00:19 884000 -- (-10973.715) (-10974.795) (-10969.502) [-10967.845] * (-10966.603) [-10967.387] (-10970.970) (-10969.563) -- 0:00:19 885000 -- (-10968.719) (-10967.908) (-10969.033) [-10966.750] * [-10972.492] (-10973.425) (-10970.295) (-10968.788) -- 0:00:18 Average standard deviation of split frequencies: 0.011705 886000 -- (-10982.804) [-10967.163] (-10967.114) (-10971.080) * (-10968.587) (-10968.834) [-10969.741] (-10973.888) -- 0:00:18 887000 -- [-10968.120] (-10969.512) (-10965.444) (-10968.469) * (-10971.171) [-10970.580] (-10971.531) (-10967.436) -- 0:00:18 888000 -- (-10974.127) [-10973.973] (-10972.572) (-10971.505) * [-10968.272] (-10979.295) (-10968.852) (-10972.248) -- 0:00:18 889000 -- [-10967.063] (-10978.067) (-10970.924) (-10969.878) * (-10971.635) (-10965.464) (-10979.461) [-10968.235] -- 0:00:18 890000 -- [-10967.582] (-10970.233) (-10968.884) (-10965.697) * (-10965.760) (-10969.337) (-10979.266) [-10966.276] -- 0:00:17 Average standard deviation of split frequencies: 0.010938 891000 -- (-10964.376) (-10973.695) [-10968.244] (-10965.508) * [-10965.691] (-10966.335) (-10970.216) (-10969.678) -- 0:00:17 892000 -- (-10966.360) (-10964.006) (-10969.429) [-10964.347] * (-10969.044) [-10968.631] (-10979.392) (-10971.729) -- 0:00:17 893000 -- (-10968.389) (-10967.095) [-10966.934] (-10963.890) * (-10970.027) [-10966.933] (-10979.574) (-10969.147) -- 0:00:17 894000 -- [-10967.684] (-10982.331) (-10969.285) (-10966.686) * [-10969.608] (-10977.832) (-10973.049) (-10969.185) -- 0:00:17 895000 -- (-10970.240) (-10974.193) (-10971.346) [-10971.963] * [-10969.764] (-10969.162) (-10975.515) (-10970.473) -- 0:00:17 Average standard deviation of split frequencies: 0.011224 896000 -- (-10971.472) (-10984.143) (-10965.835) [-10974.053] * (-10966.197) (-10971.003) [-10966.331] (-10972.609) -- 0:00:16 897000 -- (-10964.455) (-10966.362) [-10964.805] (-10978.641) * (-10966.664) (-10973.486) [-10971.564] (-10978.894) -- 0:00:16 898000 -- (-10974.697) [-10965.848] (-10965.050) (-10970.940) * (-10969.523) (-10970.445) [-10969.826] (-10977.437) -- 0:00:16 899000 -- (-10974.090) (-10967.608) [-10970.093] (-10967.353) * [-10969.696] (-10962.760) (-10971.096) (-10970.494) -- 0:00:16 900000 -- [-10969.615] (-10973.252) (-10966.742) (-10973.570) * (-10974.984) (-10973.715) [-10970.015] (-10972.676) -- 0:00:16 Average standard deviation of split frequencies: 0.012213 901000 -- (-10972.281) (-10978.989) (-10971.722) [-10966.017] * [-10972.383] (-10973.066) (-10969.166) (-10964.662) -- 0:00:16 902000 -- (-10966.774) (-10972.835) [-10976.280] (-10968.068) * [-10969.396] (-10974.918) (-10968.241) (-10969.925) -- 0:00:15 903000 -- [-10973.193] (-10969.512) (-10975.149) (-10968.705) * [-10967.069] (-10975.884) (-10971.199) (-10970.162) -- 0:00:15 904000 -- (-10976.774) [-10966.239] (-10975.397) (-10966.385) * (-10975.332) (-10971.095) (-10973.031) [-10969.139] -- 0:00:15 905000 -- [-10967.382] (-10961.918) (-10987.483) (-10981.411) * (-10965.739) (-10971.264) (-10969.767) [-10968.865] -- 0:00:15 Average standard deviation of split frequencies: 0.011794 906000 -- (-10961.583) (-10967.274) (-10975.473) [-10968.313] * (-10973.872) (-10976.257) [-10967.066] (-10970.233) -- 0:00:15 907000 -- (-10966.152) (-10963.401) [-10964.488] (-10973.049) * (-10971.782) [-10966.393] (-10963.785) (-10975.147) -- 0:00:15 908000 -- (-10969.110) [-10967.300] (-10970.822) (-10973.925) * (-10972.045) [-10967.446] (-10972.228) (-10971.757) -- 0:00:14 909000 -- (-10968.444) [-10969.462] (-10969.165) (-10976.409) * (-10976.545) [-10972.121] (-10973.056) (-10974.100) -- 0:00:14 910000 -- [-10967.047] (-10964.525) (-10971.529) (-10970.179) * (-10974.630) (-10972.681) [-10967.579] (-10969.667) -- 0:00:14 Average standard deviation of split frequencies: 0.011733 911000 -- (-10972.938) [-10969.663] (-10967.938) (-10975.510) * (-10974.571) (-10970.712) [-10967.169] (-10979.438) -- 0:00:14 912000 -- [-10971.166] (-10974.536) (-10965.793) (-10972.769) * (-10969.603) (-10969.807) [-10964.577] (-10968.682) -- 0:00:14 913000 -- (-10967.643) [-10964.656] (-10972.242) (-10970.756) * (-10968.848) [-10972.379] (-10972.781) (-10971.719) -- 0:00:14 914000 -- (-10968.665) (-10971.887) [-10973.257] (-10987.738) * [-10964.886] (-10972.538) (-10966.380) (-10971.220) -- 0:00:14 915000 -- (-10974.320) [-10965.540] (-10978.657) (-10976.867) * (-10972.281) (-10969.414) (-10975.293) [-10965.896] -- 0:00:13 Average standard deviation of split frequencies: 0.013037 916000 -- [-10968.551] (-10972.697) (-10971.675) (-10967.961) * [-10970.910] (-10976.878) (-10980.620) (-10964.730) -- 0:00:13 917000 -- (-10972.634) [-10973.382] (-10972.020) (-10983.140) * (-10973.160) [-10967.373] (-10975.557) (-10971.987) -- 0:00:13 918000 -- (-10975.276) [-10966.765] (-10966.616) (-10969.717) * [-10969.953] (-10967.075) (-10974.397) (-10971.674) -- 0:00:13 919000 -- [-10969.974] (-10974.316) (-10970.431) (-10972.052) * (-10965.705) (-10961.443) [-10963.331] (-10973.792) -- 0:00:13 920000 -- [-10967.832] (-10975.253) (-10974.021) (-10967.472) * (-10973.818) [-10964.398] (-10964.392) (-10970.252) -- 0:00:13 Average standard deviation of split frequencies: 0.011606 921000 -- (-10980.581) [-10972.921] (-10969.980) (-10973.020) * [-10965.663] (-10967.158) (-10964.624) (-10974.134) -- 0:00:12 922000 -- [-10974.641] (-10970.916) (-10965.189) (-10974.796) * [-10968.442] (-10961.941) (-10969.324) (-10972.161) -- 0:00:12 923000 -- (-10970.710) (-10966.025) [-10963.556] (-10973.729) * [-10970.942] (-10969.108) (-10965.060) (-10968.167) -- 0:00:12 924000 -- [-10968.257] (-10971.757) (-10968.909) (-10968.558) * (-10969.937) [-10969.517] (-10965.296) (-10971.499) -- 0:00:12 925000 -- (-10967.720) (-10963.185) (-10972.020) [-10960.306] * (-10971.502) [-10964.813] (-10972.985) (-10975.497) -- 0:00:12 Average standard deviation of split frequencies: 0.012218 926000 -- (-10972.345) (-10982.377) [-10965.116] (-10970.985) * (-10967.822) (-10967.033) (-10965.707) [-10963.845] -- 0:00:12 927000 -- (-10974.554) (-10967.218) (-10971.476) [-10968.438] * (-10969.585) (-10974.181) (-10970.110) [-10969.161] -- 0:00:11 928000 -- (-10973.660) (-10971.581) (-10962.582) [-10966.214] * [-10969.349] (-10968.479) (-10965.784) (-10973.103) -- 0:00:11 929000 -- (-10966.606) (-10974.387) [-10967.907] (-10972.013) * (-10970.100) (-10975.736) [-10966.113] (-10971.825) -- 0:00:11 930000 -- (-10966.267) (-10973.022) [-10967.616] (-10980.516) * (-10972.042) (-10968.600) (-10967.024) [-10966.063] -- 0:00:11 Average standard deviation of split frequencies: 0.012494 931000 -- (-10966.737) (-10967.376) (-10972.851) [-10967.217] * [-10964.133] (-10972.500) (-10967.403) (-10967.535) -- 0:00:11 932000 -- (-10966.250) (-10966.152) [-10968.405] (-10973.686) * (-10962.833) (-10972.151) (-10967.987) [-10968.358] -- 0:00:11 933000 -- (-10973.749) (-10968.743) (-10970.870) [-10965.098] * (-10968.871) [-10964.185] (-10964.179) (-10973.487) -- 0:00:10 934000 -- (-10971.077) [-10969.828] (-10968.133) (-10967.063) * (-10970.280) [-10964.000] (-10964.547) (-10973.819) -- 0:00:10 935000 -- (-10971.090) (-10970.282) [-10965.055] (-10964.632) * [-10961.954] (-10969.260) (-10966.915) (-10969.581) -- 0:00:10 Average standard deviation of split frequencies: 0.011752 936000 -- (-10969.083) (-10967.171) (-10966.813) [-10967.940] * (-10976.207) (-10963.595) (-10965.235) [-10964.935] -- 0:00:10 937000 -- [-10965.197] (-10972.298) (-10971.523) (-10971.258) * (-10968.564) (-10968.734) [-10962.875] (-10980.864) -- 0:00:10 938000 -- (-10969.640) [-10970.773] (-10967.111) (-10972.252) * (-10971.662) (-10968.739) [-10964.331] (-10973.489) -- 0:00:10 939000 -- [-10974.425] (-10967.503) (-10973.401) (-10979.488) * (-10972.603) (-10974.222) [-10966.723] (-10975.374) -- 0:00:10 940000 -- (-10967.633) [-10969.808] (-10972.270) (-10969.109) * [-10971.660] (-10968.937) (-10966.591) (-10968.895) -- 0:00:09 Average standard deviation of split frequencies: 0.012027 941000 -- (-10968.028) [-10966.586] (-10967.140) (-10970.998) * [-10968.119] (-10978.940) (-10974.652) (-10965.399) -- 0:00:09 942000 -- (-10968.470) (-10973.247) [-10967.830] (-10968.979) * (-10967.366) (-10968.065) (-10971.932) [-10969.021] -- 0:00:09 943000 -- [-10972.901] (-10972.787) (-10968.354) (-10971.174) * (-10963.295) (-10968.573) [-10971.546] (-10969.575) -- 0:00:09 944000 -- [-10970.725] (-10972.968) (-10973.057) (-10969.504) * (-10967.742) [-10969.319] (-10970.937) (-10965.801) -- 0:00:09 945000 -- (-10967.795) (-10969.317) (-10966.501) [-10973.716] * [-10964.517] (-10969.816) (-10977.115) (-10967.832) -- 0:00:09 Average standard deviation of split frequencies: 0.011627 946000 -- (-10972.517) (-10970.948) (-10977.310) [-10974.110] * (-10965.877) [-10968.539] (-10972.362) (-10967.530) -- 0:00:08 947000 -- (-10965.882) (-10968.800) [-10971.416] (-10970.252) * (-10970.528) (-10968.325) (-10969.396) [-10967.762] -- 0:00:08 948000 -- (-10965.898) [-10968.162] (-10974.870) (-10969.837) * (-10966.608) (-10962.882) (-10970.467) [-10964.217] -- 0:00:08 949000 -- (-10966.495) (-10971.735) (-10975.325) [-10962.222] * [-10968.343] (-10967.724) (-10971.268) (-10970.680) -- 0:00:08 950000 -- (-10979.755) [-10966.359] (-10964.932) (-10970.381) * [-10963.509] (-10969.558) (-10967.417) (-10969.373) -- 0:00:08 Average standard deviation of split frequencies: 0.012231 951000 -- (-10973.988) (-10969.689) [-10972.337] (-10972.324) * (-10972.186) (-10968.315) [-10967.797] (-10974.079) -- 0:00:08 952000 -- [-10965.625] (-10967.402) (-10968.793) (-10973.587) * (-10962.484) [-10966.820] (-10978.208) (-10974.519) -- 0:00:07 953000 -- (-10972.425) (-10975.742) (-10969.774) [-10965.534] * (-10970.804) (-10967.135) (-10975.875) [-10972.078] -- 0:00:07 954000 -- (-10971.433) [-10967.383] (-10969.712) (-10967.159) * (-10969.243) [-10975.122] (-10971.325) (-10971.066) -- 0:00:07 955000 -- [-10969.942] (-10963.868) (-10972.327) (-10977.116) * [-10965.364] (-10969.875) (-10978.910) (-10972.898) -- 0:00:07 Average standard deviation of split frequencies: 0.010848 956000 -- (-10979.986) [-10967.516] (-10966.356) (-10966.603) * [-10975.614] (-10968.170) (-10974.549) (-10986.092) -- 0:00:07 957000 -- (-10966.623) (-10968.580) (-10965.264) [-10969.534] * [-10971.781] (-10965.696) (-10968.637) (-10965.803) -- 0:00:07 958000 -- (-10967.450) (-10974.217) [-10970.006] (-10972.491) * (-10965.112) [-10964.684] (-10966.744) (-10971.148) -- 0:00:06 959000 -- (-10964.059) (-10971.636) [-10963.814] (-10973.056) * (-10963.981) (-10972.816) (-10968.781) [-10968.103] -- 0:00:06 960000 -- (-10968.795) [-10974.154] (-10974.565) (-10966.605) * (-10964.179) (-10965.389) [-10971.253] (-10969.438) -- 0:00:06 Average standard deviation of split frequencies: 0.010796 961000 -- (-10966.853) (-10974.697) [-10965.521] (-10966.049) * [-10977.592] (-10963.287) (-10966.797) (-10972.094) -- 0:00:06 962000 -- [-10970.406] (-10972.630) (-10967.564) (-10968.231) * [-10966.191] (-10973.161) (-10972.968) (-10966.703) -- 0:00:06 963000 -- (-10963.431) (-10973.905) (-10974.277) [-10967.420] * (-10972.036) [-10972.455] (-10976.287) (-10970.804) -- 0:00:06 964000 -- (-10969.945) [-10969.632] (-10971.983) (-10962.519) * [-10970.222] (-10969.969) (-10966.909) (-10973.479) -- 0:00:05 965000 -- (-10968.400) [-10970.736] (-10972.372) (-10967.054) * [-10967.249] (-10964.944) (-10967.165) (-10976.806) -- 0:00:05 Average standard deviation of split frequencies: 0.010411 966000 -- (-10969.728) (-10970.792) (-10973.172) [-10965.896] * [-10968.885] (-10972.160) (-10973.060) (-10971.448) -- 0:00:05 967000 -- (-10972.840) (-10980.403) (-10965.939) [-10966.207] * (-10970.254) [-10964.772] (-10964.758) (-10971.619) -- 0:00:05 968000 -- (-10968.215) (-10979.472) [-10969.810] (-10968.733) * (-10977.810) (-10972.099) [-10973.977] (-10972.448) -- 0:00:05 969000 -- (-10966.397) (-10971.782) [-10975.400] (-10968.996) * (-10967.397) (-10967.536) (-10971.596) [-10967.544] -- 0:00:05 970000 -- (-10969.913) (-10974.329) [-10966.037] (-10969.465) * [-10969.094] (-10966.062) (-10966.659) (-10966.937) -- 0:00:04 Average standard deviation of split frequencies: 0.011008 971000 -- [-10964.643] (-10968.042) (-10965.354) (-10965.968) * (-10974.173) (-10971.112) (-10965.930) [-10971.032] -- 0:00:04 972000 -- [-10969.494] (-10968.904) (-10974.224) (-10972.447) * (-10970.927) (-10970.091) [-10966.556] (-10969.472) -- 0:00:04 973000 -- (-10981.033) (-10972.273) (-10971.206) [-10963.668] * [-10961.976] (-10965.786) (-10970.489) (-10969.198) -- 0:00:04 974000 -- (-10963.232) (-10967.382) (-10979.802) [-10968.480] * (-10970.512) [-10970.585] (-10970.697) (-10977.878) -- 0:00:04 975000 -- (-10966.692) (-10971.956) [-10969.370] (-10969.513) * [-10966.959] (-10971.999) (-10975.882) (-10974.572) -- 0:00:04 Average standard deviation of split frequencies: 0.010948 976000 -- (-10971.250) (-10969.664) (-10970.601) [-10969.611] * (-10964.708) (-10978.875) (-10973.420) [-10968.755] -- 0:00:03 977000 -- (-10968.450) (-10969.270) [-10972.917] (-10975.673) * [-10965.393] (-10975.376) (-10974.083) (-10970.196) -- 0:00:03 978000 -- [-10972.067] (-10971.756) (-10967.956) (-10968.441) * (-10968.121) (-10967.060) [-10965.892] (-10969.244) -- 0:00:03 979000 -- [-10966.052] (-10965.762) (-10973.277) (-10970.785) * [-10964.822] (-10975.220) (-10970.316) (-10969.862) -- 0:00:03 980000 -- (-10966.634) [-10967.557] (-10971.507) (-10973.998) * (-10969.395) (-10978.393) [-10963.464] (-10976.240) -- 0:00:03 Average standard deviation of split frequencies: 0.010896 981000 -- (-10971.238) [-10969.147] (-10969.646) (-10967.923) * (-10971.996) [-10969.320] (-10969.276) (-10974.076) -- 0:00:03 982000 -- (-10972.062) (-10965.552) (-10968.668) [-10963.560] * (-10968.818) (-10963.878) (-10965.600) [-10965.165] -- 0:00:02 983000 -- (-10974.337) [-10970.474] (-10974.286) (-10971.016) * (-10973.070) [-10974.163] (-10967.483) (-10971.226) -- 0:00:02 984000 -- (-10970.863) (-10963.390) [-10972.659] (-10977.710) * (-10970.253) (-10962.667) [-10970.217] (-10968.348) -- 0:00:02 985000 -- (-10967.677) (-10969.057) [-10971.087] (-10969.376) * (-10968.666) [-10963.288] (-10975.379) (-10969.022) -- 0:00:02 Average standard deviation of split frequencies: 0.011793 986000 -- (-10964.429) (-10972.510) [-10965.325] (-10965.356) * (-10963.078) (-10967.242) [-10965.068] (-10969.397) -- 0:00:02 987000 -- [-10966.809] (-10979.084) (-10963.992) (-10976.646) * (-10969.841) [-10966.986] (-10969.363) (-10974.855) -- 0:00:02 988000 -- (-10965.885) (-10988.736) (-10972.374) [-10971.416] * (-10969.708) (-10964.151) [-10964.100] (-10967.464) -- 0:00:01 989000 -- (-10966.331) (-10975.429) (-10969.704) [-10975.469] * (-10970.276) [-10964.921] (-10968.611) (-10979.937) -- 0:00:01 990000 -- (-10970.289) (-10976.067) [-10969.742] (-10967.609) * (-10967.668) (-10971.139) [-10964.561] (-10969.056) -- 0:00:01 Average standard deviation of split frequencies: 0.012055 991000 -- [-10963.343] (-10968.498) (-10971.347) (-10969.034) * [-10967.100] (-10968.745) (-10963.257) (-10968.576) -- 0:00:01 992000 -- [-10964.785] (-10972.621) (-10969.262) (-10975.956) * (-10970.874) (-10969.893) [-10965.298] (-10971.377) -- 0:00:01 993000 -- (-10966.190) (-10973.961) (-10975.526) [-10966.598] * (-10970.958) [-10962.887] (-10969.296) (-10972.869) -- 0:00:01 994000 -- (-10965.728) (-10973.283) (-10970.644) [-10969.852] * (-10969.933) [-10967.712] (-10968.466) (-10965.462) -- 0:00:00 995000 -- (-10970.375) (-10975.894) [-10971.618] (-10969.826) * (-10969.998) (-10966.802) [-10968.087] (-10973.941) -- 0:00:00 Average standard deviation of split frequencies: 0.011675 996000 -- [-10965.631] (-10984.212) (-10968.106) (-10974.238) * (-10964.137) [-10967.008] (-10967.897) (-10973.864) -- 0:00:00 997000 -- (-10967.026) (-10975.972) [-10984.513] (-10972.172) * (-10966.861) [-10966.989] (-10964.721) (-10968.949) -- 0:00:00 998000 -- [-10970.785] (-10967.749) (-10975.947) (-10971.571) * (-10985.385) (-10962.057) [-10964.440] (-10974.503) -- 0:00:00 999000 -- (-10977.105) (-10981.041) (-10967.809) [-10971.786] * [-10963.943] (-10969.681) (-10969.892) (-10973.964) -- 0:00:00 1000000 -- (-10971.737) (-10964.419) [-10970.376] (-10969.521) * (-10968.260) (-10974.965) [-10967.608] (-10968.145) -- 0:00:00 Average standard deviation of split frequencies: 0.012248 Analysis completed in 2 mins 44 seconds Analysis used 163.36 seconds of CPU time Likelihood of best state for "cold" chain of run 1 was -10959.45 Likelihood of best state for "cold" chain of run 2 was -10959.80 Acceptance rates for the moves in the "cold" chain of run 1: With prob. (last 100) chain accepted proposals by move 32.2 % ( 32 %) Dirichlet(Revmat{all}) 57.3 % ( 56 %) Slider(Revmat{all}) 7.0 % ( 15 %) Dirichlet(Pi{all}) 20.2 % ( 27 %) Slider(Pi{all}) 65.5 % ( 32 %) Multiplier(Alpha{1,2}) 50.9 % ( 23 %) Multiplier(Alpha{3}) 30.2 % ( 32 %) Slider(Pinvar{all}) 96.6 % ( 98 %) ExtSPR(Tau{all},V{all}) 99.9 % (100 %) NNI(Tau{all},V{all}) 71.0 % ( 73 %) ParsSPR(Tau{all},V{all}) 27.0 % ( 25 %) Multiplier(V{all}) 72.6 % ( 70 %) Nodeslider(V{all}) 25.5 % ( 35 %) TLMultiplier(V{all}) Acceptance rates for the moves in the "cold" chain of run 2: With prob. (last 100) chain accepted proposals by move 31.8 % ( 22 %) Dirichlet(Revmat{all}) 57.8 % ( 44 %) Slider(Revmat{all}) 6.3 % ( 9 %) Dirichlet(Pi{all}) 20.2 % ( 23 %) Slider(Pi{all}) 66.8 % ( 50 %) Multiplier(Alpha{1,2}) 50.5 % ( 27 %) Multiplier(Alpha{3}) 30.1 % ( 28 %) Slider(Pinvar{all}) 96.6 % ( 97 %) ExtSPR(Tau{all},V{all}) 99.9 % (100 %) NNI(Tau{all},V{all}) 71.3 % ( 67 %) ParsSPR(Tau{all},V{all}) 27.1 % ( 20 %) Multiplier(V{all}) 72.6 % ( 73 %) Nodeslider(V{all}) 25.6 % ( 24 %) TLMultiplier(V{all}) Chain swap information for run 1: 1 2 3 4 ---------------------------------- 1 | 0.83 0.68 0.56 2 | 166696 0.84 0.71 3 | 166416 166873 0.86 4 | 166475 166560 166980 Chain swap information for run 2: 1 2 3 4 ---------------------------------- 1 | 0.83 0.68 0.56 2 | 166939 0.85 0.71 3 | 166987 166724 0.86 4 | 167090 166507 165753 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) +------------------------------------------------------------+ -10966.78 | 2 | | 2 2 22| |2 2 2 1 1 1 | | 2 1 2 2 2 | |1 1 1 2 1 2 22 2 1 1 | | 1 122 2 2 111 1 2111 11 1 2 2 | | 1 2 2 12 2 212 1 2 2 | | 2 111 1 12 2 2 2 1 1 1 2 1 | | 12 2 2 21 2 22 | | 2 2 2 1 2 1 * 21 | | 22 1 1 22 11 1 2 1 1 | | 1 2 1 1 2 | | 1 1 1 | | 1 1 2 1| | 1 1 2 1 | +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -10970.21 ^ ^ 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 -10965.12 -10977.27 2 -10965.16 -10978.99 -------------------------------------- TOTAL -10965.14 -10978.46 -------------------------------------- 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} 0.278132 0.005220 0.166657 0.426976 0.263210 764.17 782.31 1.003 r(A<->C){all} 0.015820 0.000169 0.000001 0.041363 0.012773 464.02 489.39 1.000 r(A<->G){all} 0.229520 0.003218 0.119593 0.335495 0.226965 357.84 395.90 1.002 r(A<->T){all} 0.026187 0.000136 0.003742 0.048219 0.025687 382.44 427.92 1.001 r(C<->G){all} 0.009256 0.000073 0.000003 0.026439 0.006728 634.03 737.51 1.000 r(C<->T){all} 0.697561 0.004115 0.577532 0.829919 0.699641 348.82 393.61 1.002 r(G<->T){all} 0.021656 0.000088 0.004341 0.040837 0.021015 833.08 865.48 1.001 pi(A){all} 0.248606 0.000026 0.238876 0.258558 0.248546 1120.36 1162.17 1.001 pi(C){all} 0.166934 0.000019 0.158560 0.175681 0.166990 1054.25 1073.28 1.000 pi(G){all} 0.252809 0.000027 0.242176 0.262378 0.252879 985.91 1082.39 1.000 pi(T){all} 0.331651 0.000030 0.320480 0.342120 0.331778 1062.13 1172.58 1.001 alpha{1,2} 0.032197 0.000412 0.000011 0.068081 0.030939 996.55 1148.23 1.002 alpha{3} 3.430607 2.134510 1.135814 6.402277 3.174421 1194.19 1262.02 1.001 pinvar{all} 0.732051 0.000389 0.690670 0.767055 0.733152 839.35 944.18 1.000 ------------------------------------------------------------------------------------------------------ * 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 Key to taxon bipartitions (saved to file "/data/mrbayes_input.nex.parts"): ID -- Partition ---------- 1 -- .*** 2 -- .*.. 3 -- ..*. 4 -- ...* 5 -- .*.* 6 -- .**. 7 -- ..** ---------- Summary statistics for informative taxon bipartitions (saved to file "/data/mrbayes_input.nex.tstat"): ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns ---------------------------------------------------------------- 5 1026 0.341772 0.015075 0.331113 0.352432 2 6 997 0.332112 0.003298 0.329780 0.334444 2 7 979 0.326116 0.018373 0.313125 0.339107 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] 0.000188 0.000000 0.000000 0.000554 0.000133 1.000 2 length{all}[2] 0.000173 0.000000 0.000000 0.000527 0.000118 1.000 2 length{all}[3] 0.277415 0.005220 0.165382 0.426484 0.262332 1.003 2 length{all}[4] 0.000183 0.000000 0.000000 0.000559 0.000124 1.000 2 length{all}[5] 0.000166 0.000000 0.000000 0.000506 0.000117 1.002 2 length{all}[6] 0.000178 0.000000 0.000000 0.000494 0.000126 1.000 2 length{all}[7] 0.000174 0.000000 0.000000 0.000529 0.000118 1.000 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 = 0.012248 Maximum standard deviation of split frequencies = 0.018373 Average PSRF for parameter values (excluding NA and >10.0) = 1.001 Maximum PSRF for parameter values = 1.003 Clade credibility values: /------------------------------------------------------------------------ C1 (1) | |------------------------------------------------------------------------ C2 (2) + |------------------------------------------------------------------------ C3 (3) | \------------------------------------------------------------------------ C4 (4) Phylogram (based on average branch lengths): / C1 (1) | | C2 (2) + |------------------------------------------------------------------------ C3 (3) | \ C4 (4) |------------| 0.050 expected changes per site Calculating tree probabilities... Credible sets of trees (3 trees sampled): 50 % credible set contains 2 trees 90 % credible set contains 3 trees 95 % credible set contains 3 trees 99 % credible set contains 3 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 Wed Nov 02 20:11:12 GMT 2022 -- -- Iteration: /working_dir/input/2_modified/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result-- CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.09 sec, SCORE=1000, Nseq=4, Len=2309 C1 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C2 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL C3 GKKVVFNDKPKVKEVPSTRKIKIIFALDATFDSVLSKACSEFEVDKDVTL C4 GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTL **** *******:::******** ************************** C1 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C2 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV C3 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAEDYVYLFDEGGDEV C4 DELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEV ************************************ ************* C1 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C2 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA C3 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDADDSVVLVADAQ-EDGVA C4 IAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVA *********************************:**.*****:* ***** C1 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C2 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI C3 KEQVEVDSEICVAHTGGQDELTEPDAVGSQTPIASAEKTEVGEASDREGI C4 KGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGI * ***.**********.*:**:***************:************ C1 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C2 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV C3 AEAKATVCADDLDACPDQVEAFEIEEVEDSILDELQTELNAPADRTYEDV C4 AEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDV ********** :*************:******************:***** C1 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C2 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C3 LAFDAIYSKALSAVYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS C4 LAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS *****: *:****.************************************ C1 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C2 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY C3 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPRSIILPQGGYVADFAY C4 LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAY **********************************:*************** C1 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C2 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL C3 YFLSQCSFKAHANWRCLKCDMASKLQGLDAMFFYGDVVSHMCKCGSGMTL C4 FFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTL :*********:******:*** **********************..*** C1 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C2 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI C3 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVDGKLI C4 LSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQI *********************************************:** * C1 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C2 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI C3 DGKNVTKFTGDKFDFMVGHGMTFSMSPFETAQLYGSCITPNVCFVKGDVI C4 DGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVI *** **** *********:********** ******************** C1 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C2 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV C3 KVARLVEAEVIVNPANGRMAHGAGVAGAIAKAAGKFFIKETADMVKNQGV C4 KVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGV **.***:***********************: **. *****:**** *** C1 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C2 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV C3 CLVGECYESAGGKLCKKVLNIVGPDARGQGRQCYSLLERAYQHINKCDNV C4 CQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV * **************************:*:******************* C1 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C2 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV C3 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNKDDFDVIEKCQVTSV C4 VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSV ***********************************:************** C1 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C2 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD C3 AGTKALSLQLAKNLCRDVKFETNACDTLFGASCFVASYDVLQEVELLRHD C4 AGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHD ******************** ****.:**. ****:********* **** C1 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C2 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS C3 IQLDDDARVFVQANMDCLPTDWRLVNKLDVVDGVRTIKYFECPGEIFVSS C4 IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSS ***************************:* ************** ***** C1 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C2 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV C3 QGKKFGYVQNGLFKVASVSQIRALLANKVDVLCTVDGVNFRSCCVTEGEV C4 QGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEV *********** ** ******************************:**** C1 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C2 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD C3 FGKTLGSVFCDGINVTKVRCSAIHKGKVFFQYSGLSEADLVAVKDAFGFD C4 FGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFD ***********************:*********.**************** C1 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C2 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF C3 EPQLLKYYNMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLNLKF C4 EPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF ********.*************************************.*** C1 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C2 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD C3 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSTDFIRVVLREAD C4 PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREAD ************************************** **:******** C1 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C2 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS C3 LSGATCDLEFICKCGVKQDQRKGVDAVMHFGTLDKSDLVKGYNIACTCGS C4 LSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGS ******:***:*******:****************.***:********** C1 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C2 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK C3 KLVHCTQFNVPFLICSYTPEGRKLPDDVVAANIFTGGSLGHYTHVKCKPK C4 KLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPK **************** *********************:*********** C1 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C2 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK C3 YQLYDACNVSKVSEAKGNFTDCLYLKNLKQTFSSVLTTYYLDDVKCVEYK C4 YQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYK *********.****************************:*********** C1 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C2 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C3 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK C4 PDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAK ************************************************** C1 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C2 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C3 LGFDCDSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL C4 LGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL *****:******************************************** C1 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C2 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP C3 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKEPVPAAVLVTGVP C4 GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVP ************************************* ************ C1 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C2 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK C3 SADASADAGTAKEQKACASDNVEEQVVTEVHQEPSVSAVDVKEVKLNGVK C4 GADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVK .*****.** ********* .**:******:*******.*********** C1 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C2 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL C3 KPVKVEDSVVVNDPTSDTKVVKSLSIVD--DMFLTGCKYVVWTANELSRL C4 KPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRL ******.*********:*********** ******************** C1 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C2 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV C3 VNSPTVREYVKW--GKIVIPTKLLLLRDERQEFVAPKVVKAKAIACYGAV C4 VNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAV ************ **** *:********:***************** ** C1 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C2 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV C3 KWFFFYCFSWIKFNTDNKVIYTTELASKLTFKLCCLAFKNALQTFNWSVV C4 KWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVV ***::*******************:************************* C1 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C2 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF C3 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGSLPTFVGQIVAWFKTTF C4 SRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF *********************************.**************** C1 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C2 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV C3 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDSYDAINVVQHVV C4 GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVV **************************************.*********** C1 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C2 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C3 DRRVSFDYISILKLVVELIIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM C4 DRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFM ***:******::******:******************************* C1 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C2 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP C3 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSNP C4 LETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKP ************************************************:* C1 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C2 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS C3 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCDS C4 GCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNS ************************************************:* C1 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C2 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C3 WKPGNTFITLEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER C4 WKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYER ********* **************************************** C1 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C2 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C3 DGQRVYDDVSASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV C4 DGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV *********.**************************************** C1 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C2 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL C3 FYAQSLYRPMLMVEKKLITTANTGLSVSQTMFDLYVDSLLNVLDVDRKSL C4 FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSL ****************************:********************* C1 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C2 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA C3 TSFVNAAHNSLKEGVQLEQVMDTFVGCARRKCAIDSDVETRSITKSVMSA C4 TSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSA ************************:***************:********* C1 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C2 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN C3 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQSNVAKAAN C4 VNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAAN ******************************************:******* C1 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C2 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C3 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF C4 VACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPF ************************************************** C1 SLKGGAVFSRMLQWLFVANLICFIVLWALMPTYAVHKSDMQLPLYASFKV C2 SLKGG--------------------------------------------- C3 SLKGG--------------------------------------------- C4 SLKGG--------------------------------------------- ***** C1 IDNGVLRDVSVTDACFANKFNQFDQWYESTFGLAYYRNSKACPVVVAVID C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 QDIGHTLFNVPTTVLRYGFHVLHFITHAFATDSVQCYTPHMQIPYDNFYA C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 SGCVLSSLCTMLAHADGTPHPYCYTGGVMHNASLYSSLAPHVRYNLASSN C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 GYIRFPEVVSEGIVRVVRTRSMTYCRVGLCEEAEEGICFNFNRSWVLNNP C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 YYRAMPGTFCGRNAFDLIHQVLGGLVRPIDFFALTASSVAGAILAIIVVL C2 -------------------------------------------------- C3 -------------------------------------------------- C4 -------------------------------------------------- C1 AFYYLIKLK C2 --------- C3 --------- C4 --------- -- Starting log on Thu Nov 03 00:17:31 GMT 2022 -- -- Iteration: /working_dir/pss_subsets/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result/original_alignment/codeml,A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.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 6927 sites reading seq# 2 C2 6927 sites reading seq# 3 C3 6927 sites reading seq# 4 C4 6927 sitesns = 4 ls = 6927 Reading sequences, sequential format.. Reading seq # 1: C1 Reading seq # 2: C2 Reading seq # 3: C3 Reading seq # 4: C4 Sites with gaps or missing data are removed. 912 ambiguity characters in seq. 2 927 ambiguity characters in seq. 3 912 ambiguity characters in seq. 4 309 sites are removed. 145 1329 1330 1363 1364 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188 2189 2190 2191 2192 2193 2194 2195 2196 2197 2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 2271 2272 2273 2274 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 Sequences read.. Counting site patterns.. 0:00 Compressing, 231 patterns at 2000 / 2000 sites (100.0%), 0:00 Collecting fpatt[] & pose[], 231 patterns at 2000 / 2000 sites (100.0%), 0:00 Counting codons.. 48 bytes for distance 225456 bytes for conP 20328 bytes for fhK 5000000 bytes for space Model 1: NearlyNeutral TREE # 1 (1, 2, 3, 4); MP score: 343 0.055291 0.027237 0.034014 0.039713 0.300000 0.690141 0.162635 ntime & nrate & np: 4 2 7 Bounds (np=7): 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.000001 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 1.000000 Qfactor_NS = 14.509987 np = 7 lnL0 = -10345.857011 Iterating by ming2 Initial: fx= 10345.857011 x= 0.05529 0.02724 0.03401 0.03971 0.30000 0.69014 0.16264 1 h-m-p 0.0000 0.0000 9600.6226 ++ 9830.425465 m 0.0000 12 | 1/7 2 h-m-p 0.0000 0.0000 2957.6464 ++ 9780.231520 m 0.0000 22 | 2/7 3 h-m-p 0.0000 0.0000 2965.3152 ++ 9728.414260 m 0.0000 32 | 3/7 4 h-m-p 0.0000 0.0002 825.1872 ++ 9632.649765 m 0.0002 42 | 4/7 5 h-m-p 0.0013 0.0063 27.6427 CYCCC 9618.793744 4 0.0026 59 | 4/7 6 h-m-p 0.4857 8.0000 0.1491 +YYCCC 9524.802213 4 2.7766 76 | 4/7 7 h-m-p 1.4444 7.2219 0.0284 CCCCC 9519.831219 4 1.7431 97 | 3/7 8 h-m-p 0.0001 0.0005 386.1534 YCCCC 9515.649315 4 0.0002 117 | 3/7 9 h-m-p 1.6000 8.0000 0.0311 ++ 9473.264132 m 8.0000 127 | 3/7 10 h-m-p 1.0700 8.0000 0.2325 YCCC 9453.458941 3 1.8535 146 | 3/7 11 h-m-p 0.6207 3.1037 0.3078 +YCCCC 9430.333144 4 1.7056 168 | 3/7 12 h-m-p 1.0891 5.4454 0.2935 +YYCCC 9410.674231 4 3.4713 189 | 3/7 13 h-m-p 0.9940 4.9702 0.2585 YCCC 9406.311242 3 2.3174 208 | 3/7 14 h-m-p 1.6000 8.0000 0.2900 YCCC 9403.930298 3 2.6787 227 | 3/7 15 h-m-p 0.9880 4.9401 0.0810 YC 9403.729547 1 2.1046 242 | 3/7 16 h-m-p 1.4114 7.0568 0.0174 YC 9403.666442 1 2.5901 257 | 3/7 17 h-m-p 1.0767 6.1959 0.0418 YC 9403.640571 1 2.2630 272 | 3/7 18 h-m-p 1.6000 8.0000 0.0058 C 9403.640340 0 1.3205 286 | 3/7 19 h-m-p 1.6000 8.0000 0.0001 C 9403.640326 0 1.3740 300 | 3/7 20 h-m-p 1.6000 8.0000 0.0001 Y 9403.640326 0 1.0982 314 | 3/7 21 h-m-p 1.6000 8.0000 0.0000 C 9403.640326 0 0.4000 328 | 3/7 22 h-m-p 0.8525 8.0000 0.0000 -------Y 9403.640326 0 0.0000 349 Out.. lnL = -9403.640326 350 lfun, 1050 eigenQcodon, 2800 P(t) end of tree file. Time used: 0:01 Model 2: PositiveSelection TREE # 1 (1, 2, 3, 4); MP score: 343 0.042895 0.015512 0.017649 0.104558 4.485275 0.975435 0.147130 0.263332 1.557565 ntime & nrate & np: 4 3 9 Bounds (np=9): 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 999.000000 99.000000 99.000000 1.000000 999.000000 Qfactor_NS = 3.400750 np = 9 lnL0 = -10370.362455 Iterating by ming2 Initial: fx= 10370.362455 x= 0.04289 0.01551 0.01765 0.10456 4.48527 0.97543 0.14713 0.26333 1.55756 1 h-m-p 0.0000 0.0000 19078.6752 ++ 9731.846152 m 0.0000 14 | 1/9 2 h-m-p 0.0000 0.0000 2619.4841 ++ 9631.598751 m 0.0000 26 | 2/9 3 h-m-p 0.0000 0.0002 860.4447 ++ 9491.602310 m 0.0002 38 | 3/9 4 h-m-p 0.0000 0.0000 1883.0886 ++ 9481.534582 m 0.0000 50 | 4/9 5 h-m-p 0.0006 0.0143 44.2478 +++ 9465.427101 m 0.0143 63 | 5/9 6 h-m-p 0.0002 0.0159 645.8734 ++CYCCC 9412.769210 4 0.0029 84 | 5/9 7 h-m-p 0.6504 8.0000 2.8812 YCCCC 9411.343401 4 0.3155 103 | 4/9 8 h-m-p 0.0155 0.0777 17.5661 --C 9411.322419 0 0.0003 117 | 4/9 9 h-m-p 0.0571 8.0000 0.0801 +++YCCC 9403.761855 3 5.1955 137 | 3/9 10 h-m-p 0.6671 5.1851 0.6239 -CC 9403.745490 1 0.0611 157 | 3/9 11 h-m-p 0.3808 1.9038 0.0927 YC 9403.606972 1 0.8242 176 | 3/9 12 h-m-p 1.6000 8.0000 0.0306 C 9403.599359 0 1.5938 194 | 3/9 13 h-m-p 1.6000 8.0000 0.0066 ++ 9403.589224 m 8.0000 212 | 3/9 14 h-m-p 0.0521 8.0000 1.0125 +YCCC 9403.533906 3 0.4598 236 | 3/9 15 h-m-p 1.6000 8.0000 0.2174 YCYC 9403.433741 3 4.0443 252 | 3/9 16 h-m-p 1.6000 8.0000 0.3917 CC 9403.363586 1 0.6094 272 | 3/9 17 h-m-p 0.3686 8.0000 0.6478 CYC 9403.333463 2 0.6618 293 | 3/9 18 h-m-p 1.6000 8.0000 0.0758 CC 9403.328034 1 2.0215 313 | 3/9 19 h-m-p 1.6000 8.0000 0.0211 +YC 9403.320420 1 4.4739 333 | 3/9 20 h-m-p 0.4967 8.0000 0.1902 YC 9403.317133 1 0.8739 352 | 3/9 21 h-m-p 1.6000 8.0000 0.0390 C 9403.315720 0 1.3132 370 | 3/9 22 h-m-p 1.6000 8.0000 0.0091 C 9403.315675 0 1.3165 388 | 3/9 23 h-m-p 1.6000 8.0000 0.0005 Y 9403.315675 0 1.0617 406 | 3/9 24 h-m-p 1.6000 8.0000 0.0002 Y 9403.315675 0 1.1579 424 | 3/9 25 h-m-p 1.6000 8.0000 0.0000 Y 9403.315675 0 3.7087 442 | 3/9 26 h-m-p 1.6000 8.0000 0.0000 ++ 9403.315674 m 8.0000 460 | 3/9 27 h-m-p 0.0208 8.0000 0.0055 +++C 9403.315672 0 2.0421 481 | 3/9 28 h-m-p 1.6000 8.0000 0.0047 ++ 9403.315654 m 8.0000 499 | 3/9 29 h-m-p 0.0334 8.0000 1.1321 -----------C 9403.315654 0 0.0000 528 | 3/9 30 h-m-p 0.0160 8.0000 10.9426 +Y 9403.315452 0 0.0400 541 | 3/9 31 h-m-p 0.3325 8.0000 1.3173 C 9403.315417 0 0.0880 553 | 3/9 32 h-m-p 0.4629 8.0000 0.2504 Y 9403.315285 0 0.9860 565 | 3/9 33 h-m-p 1.0390 8.0000 0.2376 C 9403.314966 0 1.0390 583 | 3/9 34 h-m-p 0.9332 8.0000 0.2646 YCY 9403.313772 2 2.5692 605 | 3/9 35 h-m-p 1.6000 8.0000 0.2630 -C 9403.313551 0 0.1360 624 | 3/9 36 h-m-p 0.0312 8.0000 1.1469 +YC 9403.312838 1 0.2413 644 | 3/9 37 h-m-p 0.2014 8.0000 1.3744 C 9403.312714 0 0.0609 656 | 3/9 38 h-m-p 0.6900 8.0000 0.1214 YC 9403.312361 1 1.3319 669 | 3/9 39 h-m-p 1.6000 8.0000 0.0865 YC 9403.311450 1 3.0902 688 | 3/9 40 h-m-p 0.5978 8.0000 0.4471 C 9403.311099 0 0.2382 706 | 3/9 41 h-m-p 0.4373 8.0000 0.2436 CY 9403.309963 1 0.7915 726 | 3/9 42 h-m-p 1.6000 8.0000 0.0430 C 9403.309404 0 0.5442 744 | 3/9 43 h-m-p 0.1574 8.0000 0.1488 +YC 9403.308419 1 1.5265 764 | 3/9 44 h-m-p 1.0114 8.0000 0.2245 YY 9403.307517 1 0.8198 783 | 3/9 45 h-m-p 1.0286 8.0000 0.1790 YY 9403.305108 1 1.7311 802 | 3/9 46 h-m-p 0.4480 8.0000 0.6916 CY 9403.304256 1 0.1996 822 | 3/9 47 h-m-p 0.7321 8.0000 0.1886 C 9403.302362 0 0.7958 840 | 3/9 48 h-m-p 1.6000 8.0000 0.0510 YC 9403.301266 1 0.6537 859 | 3/9 49 h-m-p 0.1457 8.0000 0.2286 +CYC 9403.299976 2 0.9471 881 | 3/9 50 h-m-p 1.2630 8.0000 0.1714 YC 9403.298223 1 1.2630 900 | 3/9 51 h-m-p 0.9101 8.0000 0.2379 YC 9403.293825 1 1.8421 919 | 3/9 52 h-m-p 0.5644 8.0000 0.7763 C 9403.292692 0 0.1509 937 | 3/9 53 h-m-p 0.3882 8.0000 0.3018 YC 9403.289930 1 0.7447 956 | 3/9 54 h-m-p 1.6000 8.0000 0.0421 YC 9403.288273 1 0.7568 975 | 3/9 55 h-m-p 0.1721 8.0000 0.1850 +YC 9403.286428 1 1.3872 995 | 3/9 56 h-m-p 1.1530 8.0000 0.2226 CCC 9403.283575 2 1.5509 1017 | 3/9 57 h-m-p 1.6000 8.0000 0.0492 CC 9403.282075 1 0.5418 1037 | 3/9 58 h-m-p 0.1432 8.0000 0.1863 ++YC 9403.280799 1 1.5213 1058 | 3/9 59 h-m-p 1.6000 8.0000 0.0928 YC 9403.280055 1 2.7865 1077 | 3/9 60 h-m-p 1.6000 8.0000 0.0208 C 9403.279649 0 2.3751 1095 | 3/9 61 h-m-p 0.4397 8.0000 0.1123 C 9403.279504 0 0.6423 1113 | 3/9 62 h-m-p 1.6000 8.0000 0.0307 C 9403.279216 0 1.3771 1131 | 3/9 63 h-m-p 1.6000 8.0000 0.0076 C 9403.279212 0 1.2935 1149 | 3/9 64 h-m-p 1.6000 8.0000 0.0033 C 9403.279212 0 1.2928 1167 | 3/9 65 h-m-p 1.6000 8.0000 0.0001 ----C 9403.279212 0 0.0019 1189 | 3/9 66 h-m-p 0.0160 8.0000 0.0019 +Y 9403.279212 0 0.1238 1208 | 3/9 67 h-m-p 1.6000 8.0000 0.0000 ++ 9403.279211 m 8.0000 1226 | 3/9 68 h-m-p 0.0160 8.0000 0.0283 +++C 9403.279198 0 1.3644 1247 | 3/9 69 h-m-p 1.6000 8.0000 0.0050 Y 9403.279198 0 0.6855 1265 | 3/9 70 h-m-p 1.6000 8.0000 0.0000 ---------N 9403.279198 0 0.0000 1292 Out.. lnL = -9403.279198 1293 lfun, 5172 eigenQcodon, 15516 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) = -9412.536719 S = -9061.062225 -348.574508 Calculating f(w|X), posterior probabilities of site classes. did 10 / 231 patterns 0:08 did 20 / 231 patterns 0:08 did 30 / 231 patterns 0:08 did 40 / 231 patterns 0:08 did 50 / 231 patterns 0:08 did 60 / 231 patterns 0:08 did 70 / 231 patterns 0:08 did 80 / 231 patterns 0:08 did 90 / 231 patterns 0:08 did 100 / 231 patterns 0:08 did 110 / 231 patterns 0:08 did 120 / 231 patterns 0:08 did 130 / 231 patterns 0:08 did 140 / 231 patterns 0:08 did 150 / 231 patterns 0:08 did 160 / 231 patterns 0:08 did 170 / 231 patterns 0:08 did 180 / 231 patterns 0:09 did 190 / 231 patterns 0:09 did 200 / 231 patterns 0:09 did 210 / 231 patterns 0:09 did 220 / 231 patterns 0:09 did 230 / 231 patterns 0:09 did 231 / 231 patterns 0:09end of tree file. Time used: 0:09 Model 7: beta TREE # 1 (1, 2, 3, 4); MP score: 343 0.023334 0.042112 0.073124 0.094269 4.546978 1.116011 1.967140 ntime & nrate & np: 4 1 7 Bounds (np=7): 0.000004 0.000004 0.000004 0.000004 0.000100 0.005000 0.005000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 Qfactor_NS = 5.051760 np = 7 lnL0 = -9886.044611 Iterating by ming2 Initial: fx= 9886.044611 x= 0.02333 0.04211 0.07312 0.09427 4.54698 1.11601 1.96714 1 h-m-p 0.0000 0.0000 4535.6555 ++ 9670.916296 m 0.0000 12 | 1/7 2 h-m-p 0.0000 0.0000 4836.2212 ++ 9598.379507 m 0.0000 22 | 2/7 3 h-m-p 0.0002 0.0146 77.4812 ++ QuantileBeta(0.15, 0.00500, 2.17200) = 1.213553e-160 2000 rounds YCYYYYCYCY 9521.428665 10 0.0107 46 | 2/7 4 h-m-p 0.0280 0.1399 15.4243 CYCC 9492.517905 3 0.0328 61 | 2/7 5 h-m-p 0.0125 0.0626 21.0648 -------------.. | 2/7 6 h-m-p 0.0000 0.0000 1904.8450 ++ 9411.400936 m 0.0000 92 | 3/7 7 h-m-p 0.0001 0.0065 59.9166 ++CYCCCC 9407.932016 5 0.0018 113 | 3/7 8 h-m-p 0.1027 1.5270 1.0398 +YYYYY 9407.442903 4 0.3958 128 | 3/7 9 h-m-p 0.3928 2.7749 1.0477 CCCC 9406.382554 3 0.4956 144 | 3/7 10 h-m-p 0.0982 0.4911 2.3212 +YYYCYC 9404.377416 5 0.3578 161 | 3/7 11 h-m-p 0.0663 0.3317 0.9784 +YCYYC 9404.033050 4 0.2081 178 | 3/7 12 h-m-p 0.0133 0.0664 1.9195 YCCCCC 9403.992090 5 0.0185 201 | 3/7 13 h-m-p 0.0767 8.0000 0.4623 +YC 9403.799689 1 0.7036 213 | 3/7 14 h-m-p 0.2650 1.3251 0.0804 CYC 9403.771823 2 0.4219 230 | 3/7 15 h-m-p 0.7858 8.0000 0.0432 YC 9403.759122 1 0.5876 245 | 3/7 16 h-m-p 1.4234 7.1169 0.0107 YYYY 9403.756788 3 1.4234 262 | 3/7 17 h-m-p 1.6000 8.0000 0.0054 C 9403.756041 0 1.6000 276 | 3/7 18 h-m-p 1.6000 8.0000 0.0024 ------------Y 9403.756041 0 0.0000 302 | 3/7 19 h-m-p 0.0160 8.0000 0.0344 -----------Y 9403.756041 0 0.0000 327 | 3/7 20 h-m-p 0.0160 8.0000 0.0002 ++C 9403.756021 0 0.2540 343 | 3/7 21 h-m-p 0.4700 8.0000 0.0001 Y 9403.756012 0 0.9101 357 | 3/7 22 h-m-p 1.6000 8.0000 0.0000 Y 9403.756012 0 0.7864 371 | 3/7 23 h-m-p 1.5406 8.0000 0.0000 ++ 9403.756008 m 8.0000 385 | 3/7 24 h-m-p 0.1730 8.0000 0.0004 ---------Y 9403.756008 0 0.0000 408 Out.. lnL = -9403.756008 409 lfun, 4499 eigenQcodon, 16360 P(t) end of tree file. Time used: 0:15 Model 8: beta&w>1 TREE # 1 (1, 2, 3, 4); MP score: 343 0.047112 0.074723 0.097349 0.046588 4.458039 0.900000 1.059273 1.137815 1.300000 ntime & nrate & np: 4 2 9 Bounds (np=9): 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 999.000000 0.999990 99.000000 99.000000 999.000000 Qfactor_NS = 3.968915 np = 9 lnL0 = -9881.504296 Iterating by ming2 Initial: fx= 9881.504296 x= 0.04711 0.07472 0.09735 0.04659 4.45804 0.90000 1.05927 1.13782 1.30000 1 h-m-p 0.0000 0.0000 3762.3673 ++ 9558.171672 m 0.0000 14 | 1/9 2 h-m-p 0.0000 0.0000 9642.9506 ++ 9556.099900 m 0.0000 26 | 2/9 3 h-m-p 0.0000 0.0005 149.4871 +++ 9493.599173 m 0.0005 39 | 3/9 4 h-m-p 0.0001 0.0007 198.1043 ++ 9468.375898 m 0.0007 51 | 4/9 5 h-m-p 0.0000 0.0000 177903.2490 +YYCYCCC 9407.904107 6 0.0000 73 | 4/9 6 h-m-p 0.0092 0.0459 6.2183 YCCC 9407.726905 3 0.0046 90 | 3/9 7 h-m-p 0.0001 0.0011 240.0342 ++ 9405.201910 m 0.0011 102 | 3/9 8 h-m-p -0.0000 -0.0000 3.2668 h-m-p: -0.00000000e+00 -0.00000000e+00 3.26682839e+00 9405.201910 .. | 3/9 9 h-m-p 0.0000 0.0088 121.8114 ++YCCC 9403.850289 3 0.0002 130 | 3/9 10 h-m-p 0.0037 0.0186 6.0447 YC 9403.823628 1 0.0015 143 | 3/9 11 h-m-p 0.0002 0.0022 45.2970 +YCYC 9403.631741 3 0.0014 160 | 3/9 12 h-m-p 0.1943 2.0141 0.3154 +YYYC 9403.570946 3 0.6821 176 | 3/9 13 h-m-p 0.9880 4.9401 0.1344 YCC 9403.560793 2 0.4576 197 | 3/9 14 h-m-p 0.2665 3.2814 0.2308 CC 9403.539676 1 0.3453 217 | 3/9 15 h-m-p 0.6547 8.0000 0.1217 YC 9403.517685 1 1.5629 236 | 3/9 16 h-m-p 0.3995 1.9976 0.4001 YYYC 9403.497754 3 0.3995 257 | 3/9 17 h-m-p 1.0602 8.0000 0.1508 CCC 9403.474234 2 1.1644 279 | 3/9 18 h-m-p 0.8621 8.0000 0.2037 CC 9403.462234 1 0.3507 299 | 3/9 19 h-m-p 0.6084 8.0000 0.1174 +CYC 9403.413327 2 3.7848 321 | 3/9 20 h-m-p 0.7018 3.5092 0.2868 CC 9403.405290 1 0.1488 341 | 3/9 21 h-m-p 0.1160 2.9996 0.3680 +YYC 9403.394789 2 0.4640 362 | 3/9 22 h-m-p 0.3338 1.8727 0.5115 YYC 9403.385801 2 0.3338 382 | 3/9 23 h-m-p 1.2219 8.0000 0.1397 YC 9403.377135 1 0.7952 401 | 3/9 24 h-m-p 0.5324 6.7953 0.2087 +YC 9403.363993 1 1.3327 421 | 3/9 25 h-m-p 1.6000 8.0000 0.1585 YC 9403.357010 1 0.9219 440 | 3/9 26 h-m-p 0.2527 2.0396 0.5783 CYC 9403.348535 2 0.4538 461 | 3/9 27 h-m-p 1.3016 6.5079 0.1965 YC 9403.344935 1 0.7953 480 | 3/9 28 h-m-p 1.1189 8.0000 0.1397 ++ 9403.324216 m 8.0000 498 | 3/9 29 h-m-p 0.0386 0.1932 6.9308 YYY 9403.317342 2 0.0337 518 | 3/9 30 h-m-p 0.8013 6.2447 0.2917 YC 9403.310194 1 0.3964 531 | 3/9 31 h-m-p 1.6000 8.0000 0.0364 YC 9403.303322 1 0.9726 550 | 3/9 32 h-m-p 0.0864 6.4478 0.4100 ++Y 9403.295804 0 0.9394 570 | 3/9 33 h-m-p 0.6927 6.4744 0.5560 CYC 9403.284475 2 1.3562 591 | 3/9 34 h-m-p 1.0861 8.0000 0.6942 YCC 9403.259436 2 1.6699 612 | 3/9 35 h-m-p 1.5426 7.7128 0.5553 YYC 9403.250348 2 1.3098 632 | 3/9 36 h-m-p 1.6000 8.0000 0.1268 CC 9403.247656 1 0.5523 652 | 3/9 37 h-m-p 0.3411 8.0000 0.2054 +C 9403.246818 0 1.5556 671 | 3/9 38 h-m-p 1.6000 8.0000 0.0189 +YC 9403.246264 1 4.3564 691 | 3/9 39 h-m-p 0.5530 8.0000 0.1489 +YC 9403.243921 1 4.3349 711 | 3/9 40 h-m-p 1.6000 8.0000 0.2339 YC 9403.243467 1 1.0921 730 | 3/9 41 h-m-p 1.6000 8.0000 0.0533 YC 9403.243329 1 0.8526 749 | 3/9 42 h-m-p 0.5304 8.0000 0.0857 +C 9403.243230 0 2.0486 768 | 3/9 43 h-m-p 1.6000 8.0000 0.0063 Y 9403.243218 0 1.0801 786 | 3/9 44 h-m-p 1.2843 8.0000 0.0053 C 9403.243218 0 1.0704 804 | 3/9 45 h-m-p 1.6000 8.0000 0.0004 Y 9403.243218 0 0.8764 822 | 3/9 46 h-m-p 1.6000 8.0000 0.0002 C 9403.243218 0 1.9884 840 | 3/9 47 h-m-p 1.6000 8.0000 0.0001 Y 9403.243218 0 0.6758 858 | 3/9 48 h-m-p 1.6000 8.0000 0.0000 Y 9403.243218 0 1.2116 876 | 3/9 49 h-m-p 1.6000 8.0000 0.0000 C 9403.243218 0 2.1684 894 | 3/9 50 h-m-p 1.6000 8.0000 0.0000 Y 9403.243218 0 1.6000 912 | 3/9 51 h-m-p 1.3612 8.0000 0.0000 -C 9403.243218 0 0.0851 931 | 3/9 52 h-m-p 0.0160 8.0000 0.0000 ---------Y 9403.243218 0 0.0000 958 Out.. lnL = -9403.243218 959 lfun, 11508 eigenQcodon, 42196 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) = -9411.500293 S = -9061.094288 -346.178622 Calculating f(w|X), posterior probabilities of site classes. did 10 / 231 patterns 0:33 did 20 / 231 patterns 0:33 did 30 / 231 patterns 0:33 did 40 / 231 patterns 0:33 did 50 / 231 patterns 0:34 did 60 / 231 patterns 0:34 did 70 / 231 patterns 0:34 did 80 / 231 patterns 0:34 did 90 / 231 patterns 0:34 did 100 / 231 patterns 0:35 did 110 / 231 patterns 0:35 did 120 / 231 patterns 0:35 did 130 / 231 patterns 0:35 did 140 / 231 patterns 0:35 did 150 / 231 patterns 0:36 did 160 / 231 patterns 0:36 did 170 / 231 patterns 0:36 did 180 / 231 patterns 0:36 did 190 / 231 patterns 0:36 did 200 / 231 patterns 0:36 did 210 / 231 patterns 0:37 did 220 / 231 patterns 0:37 did 230 / 231 patterns 0:37 did 231 / 231 patterns 0:37end of tree file. Time used: 0:37 The loglikelihoods for models M1, M2, M7 and M8 are -9403.640326 -9403.279198 -9403.756008 -9403.243218 respectively
CLUSTAL W (1.8) multiple sequence alignment (ALTER 1.3.3) A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDA MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDA Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GKKVVFNDKPKVKEVPSTRKIKIIFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDA inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDA **** *******:::******** ************************************ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAA MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAA Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus VESTLSPCKEHDVIGTKVCALLDRLAEDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAA inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAA ************************** ********************************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus DVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQ MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus DVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus DVVDADENQDDDADDSVVLVADAQ-EDGVAKEQVEVDSEICVAHTGGQDELTEPDAVGSQ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus DVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQ *************:**.*****:* ****** ***.**********.*:**:******** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus TPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELN MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus TPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELN Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus TPIASAEKTEVGEASDREGIAEAKATVCADDLDACPDQVEAFEIEEVEDSILDELQTELN inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus TPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELN *******:********************** :*************:************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus APADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus APADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus APADRTYEDVLAFDAIYSKALSAVYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus APADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQS ****:**********: *:****.************************************ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKA MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKA Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPRSIILPQGGYVADFAYYFLSQCSFKA inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus LPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKA **********************************:***************:********* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus YANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCA MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus YANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCA Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus HANWRCLKCDMASKLQGLDAMFFYGDVVSHMCKCGSGMTLLSADIPYTLHFGVRDDKFCA inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus YANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCA :******:*** **********************..*********************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus FYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFEL MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus FYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFEL Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus FYTPRKVFRAACAVDVNDCHSMAVVDGKLIDGKNVTKFTGDKFDFMVGHGMTFSMSPFET inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus FYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFEL *************************:** **** **** *********:********** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus AQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKE MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus AQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKE Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus AQLYGSCITPNVCFVKGDVIKVARLVEAEVIVNPANGRMAHGAGVAGAIAKAAGKFFIKE inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus AQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKE **********************.***:***********************: **. **** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus TSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus TSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus TADMVKNQGVCLVGECYESAGGKLCKKVLNIVGPDARGQGRQCYSLLERAYQHINKCDNV inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus TSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNV *:**** **** **************************:*:******************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQL MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQL Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNKDDFDVIEKCQVTSVAGTKALSLQL inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQL ***********************************:************************ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus AKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPT MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus AKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPT Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus AKNLCRDVKFETNACDTLFGASCFVASYDVLQEVELLRHDIQLDDDARVFVQANMDCLPT inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus AKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPT ********** ****.:**. ****:********* ************************ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus DWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVD MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus DWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVD Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus DWRLVNKLDVVDGVRTIKYFECPGEIFVSSQGKKFGYVQNGLFKVASVSQIRALLANKVD inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus DWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVD *******:* ************** **************** ** *************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADL MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADL Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus VLCTVDGVNFRSCCVTEGEVFGKTLGSVFCDGINVTKVRCSAIHKGKVFFQYSGLSEADL inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADL ***************:***************************:*********.****** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus VAVKDAFGFDEPQLLKYYNMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLNLKF inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKF ******************.*************************************.*** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEF MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEF Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSTDFIRVVLREADLSGATCDLEF inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus PKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEF ************************************** **:**************:*** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPE MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPE Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ICKCGVKQDQRKGVDAVMHFGTLDKSDLVKGYNIACTCGSKLVHCTQFNVPFLICSYTPE inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPE :*******:****************.***:************************** *** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQ MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GRKLPDDVVAANIFTGGSLGHYTHVKCKPKYQLYDACNVSKVSEAKGNFTDCLYLKNLKQ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQ ******************:********************.******************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus TFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVG MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus TFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVG Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus TFSSVLTTYYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVG inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus TFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVG ********:*************************************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus HSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus HSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus HSIAEKLNAKLGFDCDSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus HSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWL ***************:******************************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGI MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGI Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKEPVPAAVLVTGVPSADASADAGT inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGI ************************************* ************.*****.** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus AKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKV MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus AKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKV Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus AKEQKACASDNVEEQVVTEVHQEPSVSAVDVKEVKLNGVKKPVKVEDSVVVNDPTSDTKV inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus AKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKV ********* .**:******:*******.*****************.*********:*** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus VKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEK MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus VKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEK Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus VKSLSIVD--DMFLTGCKYVVWTANELSRLVNSPTVREYVKW--GKIVIPTKLLLLRDER inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus VKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEK ******** ******************************** **** *:********: A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus QEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKN MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus QEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKN Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus QEFVAPKVVKAKAIACYGAVKWFFFYCFSWIKFNTDNKVIYTTELASKLTFKLCCLAFKN inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus QEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKN ***************** *****::*******************:*************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus ALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGSLPTFVGQIVAWFKTTF inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTF *******************************************.**************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYIS MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYIS Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDSYDAINVVQHVVDRRVSFDYIS inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYIS **************************************.**************:****** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus LFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPA MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus LFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPA Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ILKLVVELIIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPA inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus LFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPA ::******:*************************************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus FTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVM MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus FTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVM Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus FTLLRFYIVVTAMYKVYCLCRHVMYGCSNPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVM inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus FTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVM ****************************:******************************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus ANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQV MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQV Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ANGGTGFCTKHQWNCLNCDSWKPGNTFITLEAAADLSKELKRPVNPTDSAYYSVTEVKQV inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQV ******************:********** ****************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GCSMRLFYERDGQRVYDDVSASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAV *******************.**************************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNS MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNS Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus FYAQSLYRPMLMVEKKLITTANTGLSVSQTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNS inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus FYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNS ****************************:******************************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus LKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYV MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus LKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYV Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus LKEGVQLEQVMDTFVGCARRKCAIDSDVETRSITKSVMSAVNAGVDFTDESCNNLVPTYV inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus LKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYV **************:***************:***************************** A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus KSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGL MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus KSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGL Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus KSDTIVAADLGVLIQNNAKHVQSNVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGL inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus KSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGL **********************:************************************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus KIKLTYNKQEANVPILTTPFSLKGGAVFSRMLQWLFVANLICFIVLWALMPTYAVHKSDM MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus KIKLTYNKQEANVPILTTPFSLKGG----------------------------------- Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus KIKLTYNKQEANVPILTTPFSLKGG----------------------------------- inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus KIKLTYNKQEANVPILTTPFSLKGG----------------------------------- ************************* A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus QLPLYASFKVIDNGVLRDVSVTDACFANKFNQFDQWYESTFGLAYYRNSKACPVVVAVID MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ------------------------------------------------------------ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus QDIGHTLFNVPTTVLRYGFHVLHFITHAFATDSVQCYTPHMQIPYDNFYASGCVLSSLCT MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ------------------------------------------------------------ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus MLAHADGTPHPYCYTGGVMHNASLYSSLAPHVRYNLASSNGYIRFPEVVSEGIVRVVRTR MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ------------------------------------------------------------ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus SMTYCRVGLCEEAEEGICFNFNRSWVLNNPYYRAMPGTFCGRNAFDLIHQVLGGLVRPID MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ------------------------------------------------------------ inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ------------------------------------------------------------ A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus FFALTASSVAGAILAIIVVLAFYYLIKLK MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus ----------------------------- Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus ----------------------------- inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus -----------------------------
>A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GGCAAGAAAGTCGAGTTTAACGACAAGCCCAAAGTCAGGAAGATACCCTCCACCCGTAAGATTAAGATCACCTTCGCACTGGATGCGACCTTTGATAGTGTTCTTTCGAAGGCGTGTTCAGAGTTTGAAGTTGATAAAGATGTTACATTGGATGAGCTGCTTGATGTTGTGCTTGACGCAGTTGAGAGTACGCTCAGCCCTTGTAAGGAGCATGATGTGATAGGCACAAAAGTTTGTGCTTTACTTGATAGGTTGGCAGGAGATTATGTCTATCTTTTTGATGAGGGAGGCGATGAAGTGATCGCCCCGAGGATGTATTGTTCCTTTTCTGCTCCTGATGATGAAGACTGCGTTGCAGCGGATGTTGTAGATGCAGATGAAAACCAAGATGATGATGCTGAAGACTCAGCAGTCCTTGTCGCTGATACCCAAGAAGAGGACGGCGTTGCCAAGGGGCAGGTTGAGGCGGATTCGGAAATTTGCGTTGCGCATACTGGTAGTCAAGAAGAATTGGCTGAGCCTGATGCTGTCGGATCTCAAACTCCCATCGCCTCTGCTGAGGAAACCGAAGTCGGAGAGGCAAGCGACAGGGAAGGGATTGCTGAGGCGAAGGCAACTGTGTGTGCTGATGCTGTAGATGCCTGCCCCGATCAAGTGGAGGCATTTGAAATTGAAAAGGTTGAAGACTCTATCTTGGATGAGCTTCAAACTGAACTTAATGCGCCAGCGGACAAGACCTATGAGGATGTCTTGGCATTCGATGCCGTATGCTCAGAGGCGTTGTCTGCATTCTATGCTGTGCCGAGTGATGAGACGCACTTTAAAGTGTGTGGATTCTATTCGCCTGCTATAGAGCGCACTAATTGTTGGCTGCGTTCTACTTTGATAGTAATGCAGAGTCTACCTTTGGAATTTAAAGACTTGGAGATGCAAAAGCTCTGGTTGTCTTACAAGGCCGGCTATGACCAATGCTTTGTGGACAAACTAGTTAAGAGCGTGCCCAAGTCTATTATCCTTCCACAAGGTGGTTATGTGGCAGATTTTGCCTATTTCTTTCTAAGCCAGTGTAGCTTTAAAGCTTATGCTAACTGGCGTTGTTTAGAGTGTGACATGGAGTTAAAGCTTCAAGGCTTGGACGCCATGTTTTTCTATGGGGACGTTGTGTCTCATATGTGCAAGTGTGGTAATAGCATGACCTTGTTGTCTGCAGATATACCCTACACTTTGCATTTTGGAGTGCGAGATGATAAGTTTTGCGCTTTTTACACGCCAAGAAAGGTCTTTAGGGCTGCTTGTGCGGTAGATGTTAATGATTGTCACTCTATGGCTGTAGTAGAGGGCAAGCAAATTGATGGTAAAGTGGTTACCAAATTTATTGGTGACAAATTTGATTTTATGGTGGGTTACGGGATGACATTTAGTATGTCTCCTTTTGAACTCGCCCAGTTATATGGTTCATGTATAACACCAAATGTTTGTTTTGTTAAAGGAGATGTTATAAAGGTTGTTCGCTTAGTTAATGCTGAAGTCATTGTTAACCCTGCTAATGGGCGTATGGCTCATGGTGCAGGTGTTGCAGGTGCTATAGCTGAAAAGGCGGGCAGTGCTTTTATTAAAGAAACCTCCGATATGGTGAAGGCTCAGGGCGTTTGCCAGGTTGGTGAATGCTATGAATCTGCCGGTGGTAAGTTATGTAAAAAGGTGCTTAACATTGTAGGGCCAGATGCGCGAGGGCATGGCAAGCAATGCTATTCACTTTTAGAGCGTGCTTATCAGCATATTAATAAGTGTGACAATGTTGTCACTACTTTAATTTCGGCTGGTATATTTAGTGTGCCTACTGATGTCTCCCTAACTTACTTACTTGGTGTAGTGACAAAGAATGTCATTCTTGTCAGTAACAACCAGGATGATTTTGATGTGATAGAGAAGTGTCAGGTGACCTCCGTTGCTGGTACCAAAGCGCTATCACTTCAATTGGCCAAAAATTTGTGCCGTGATGTAAAGTTTGTGACGAATGCATGTAGTTCGCTTTTTAGTGAATCTTGCTTTGTCTCAAGCTATGATGTGTTGCAGGAAGTTGAAGCGCTGCGACATGATATACAATTGGATGATGATGCTCGTGTCTTTGTGCAGGCTAATATGGACTGTCTGCCCACAGACTGGCGTCTCGTTAACAAATTTGATAGTGTTGATGGTGTTAGAACCATTAAGTATTTTGAATGCCCGGGCGGGATTTTTGTATCCAGCCAGGGCAAAAAGTTTGGTTATGTTCAGAATGGTTCATTTAAGGAGGCGAGTGTTAGCCAAATAAGGGCTTTACTCGCTAATAAGGTTGATGTCTTGTGTACTGTTGATGGTGTTAACTTCCGCTCCTGCTGCGTAGCAGAGGGTGAAGTTTTTGGCAAGACATTAGGTTCAGTCTTTTGTGATGGCATAAATGTCACCAAAGTTAGGTGTAGTGCCATTTACAAGGGTAAGGTTTTCTTTCAGTACAGTGATTTGTCCGAGGCAGATCTTGTGGCTGTTAAAGATGCCTTTGGTTTTGATGAACCACAACTGCTGAAGTACTACACTATGCTTGGCATGTGTAAGTGGCCAGTAGTTGTTTGTGGCAATTATTTTGCTTTCAAGCAGTCAAATAATAATTGCTATATAAATGTGGCATGTTTAATGCTGCAACACTTGAGTTTAAAGTTTCCTAAGTGGCAATGGCAAGAGGCTTGGAACGAGTTCCGCTCTGGTAAACCACTAAGGTTTGTGTCCTTGGTATTAGCAAAGGGCAGCTTTAAATTTAATGAACCTTCTGATTCTATCGATTTTATGCGTGTGGTGCTACGTGAAGCAGATTTGAGTGGTGCCACGTGCAATTTGGAATTTGTTTGTAAATGTGGTGTGAAGCAAGAGCAGCGCAAAGGTGTTGACGCTGTTATGCATTTTGGTACGTTGGATAAAGGTGATCTTGTCAGGGGTTATAATATCGCATGTACGTGCGGTAGTAAACTTGTGCATTGCACCCAATTTAACGTACCATTTTTAATTTGCTCCAACACACCAGAGGGTAGGAAACTGCCCGACGATGTTGTTGCAGCTAATATTTTTACTGGTGGTAGTGTGGGCCATTACACGCATGTGAAATGTAAACCCAAGTACCAGCTTTATGATGCTTGTAATGTTAATAAGGTTTCGGAGGCTAAGGGTAATTTTACCGATTGCCTCTACCTTAAAAATTTAAAGCAAACTTTTTCGTCTGTGCTGACGACTTTTTATTTAGATGATGTAAAGTGTGTGGAGTATAAGCCAGATTTATCGCAGTATTACTGTGAGTCTGGTAAATATTATACAAAACCCATTATTAAGGCCCAATTTAGAACATTTGAGAAGGTTGATGGTGTCTATACCAACTTTAAATTGGTGGGACATAGTATTGCTGAAAAACTCAATGCTAAGCTGGGATTTGATTGTAATTCTCCCTTTGTGGAGTATAAAATTACAGAGTGGCCAACAGCTACTGGAGATGTGGTGTTGGCTAGTGATGATTTGTATGTAAGTCGGTACTTAAGCGGGTGCATTACTTTTGGTAAACCGGTTGTCTGGCTTGGCCATGAGGAAGCATCGCTGAAATCTCTCACATATTTTAATAGACCTAGTGTCGTTTGTGAAAATAAATTTAATGTGTTGCCCGTTGATGTCAGTGAACCCACGGACAAGGGGCCTGTGCCTGCTGCAGTCCTTGTTACCGGCGTCCCTGGAGCTGATGCGTCAGCTGGTGCCGGTATTGCCAAGGAGCAAAAAGCCTGTGCTTCTGCTAGTGTGGAGGATCAGGTTGTTACGGAGGTTCGTCAAGAGCCATCTGTTTCAGCTGCTGATGTCAAAGAGGTTAAATTGAATGGTGTTAAAAAGCCTGTTAAGGTGGAAGGTAGTGTGGTTGTTAATGATCCCACTAGCGAAACCAAAGTTGTTAAAAGTTTGTCTATTGTTGATGTCTATGATATGTTCCTGACAGGGTGTAAGTATGTGGTTTGGACTGCTAATGAGTTGTCTCGACTAGTAAATTCACCGACTGTTAGGGAGTATGTGAAGTGGGGTATGGGAAAGATTGTAACACCCGCTAAGTTGTTGTTGTTAAGAGATGAGAAGCAAGAGTTCGTAGCGCCAAAAGTAGTCAAGGCGAAAGCTATTGCCTGCTATTGTGCTGTGAAGTGGTTTCTCCTCTATTGTTTTAGTTGGATAAAGTTTAATACTGATAATAAGGTTATATACACCACAGAAGTAGCTTCAAAGCTTACTTTCAAGTTGTGCTGTTTGGCCTTTAAGAATGCCTTACAGACGTTTAATTGGAGCGTTGTGTCTAGGGGCTTTTTCCTAGTTGCAACGGTCTTTTTATTATGGTTTAACTTTTTGTATGCTAATGTTATTTTGAGTGACTTCTATTTGCCTAATATTGGGCCTCTCCCTACGTTTGTGGGACAGATAGTTGCGTGGTTTAAGACTACATTTGGTGTGTCAACCATCTGTGATTTCTACCAGGTGACGGATTTGGGCTATAGAAGTTCGTTTTGTAATGGAAGTATGGTATGTGAACTATGCTTCTCAGGTTTTGATATGCTGGACAACTATGATGCTATAAATGTTGTTCAACACGTTGTAGATAGGCGTTTGTCCTTTGACTATATTAGCCTATTTAAATTAGTAGTTGAGCTTGTAATCGGCTACTCTCTTTATACTGTGTGCTTCTACCCACTGTTTGTCCTTATTGGAATGCAGTTATTGACCACATGGTTGCCTGAATTCTTTATGCTGGAGACTATGCATTGGAGTGCTCGTTTGTTTGTGTTTGTTGCCAATATGCTTCCAGCTTTTACGTTACTGCGATTTTACATCGTGGTGACAGCTATGTATAAGGTCTATTGTCTTTGTAGACATGTTATGTATGGATGTAGTAAGCCTGGTTGCTTGTTTTGTTATAAGAGAAACCGTAGTGTCCGTGTTAAGTGTAGCACCGTTGTTGGTGGTTCACTACGCTATTACGATGTAATGGCTAACGGCGGCACAGGTTTCTGTACAAAGCACCAGTGGAACTGTCTTAATTGCAATTCCTGGAAACCAGGCAATACATTCATAACTCATGAAGCAGCGGCGGACCTCTCTAAGGAGTTGAAACGCCCTGTGAATCCAACAGATTCTGCTTATTACTCGGTCACAGAGGTTAAGCAGGTTGGTTGTTCCATGCGTTTGTTCTACGAGAGAGATGGACAGCGTGTTTATGATGATGTTAATGCTAGTTTGTTTGTGGACATGAATGGTCTGCTGCATTCTAAAGTTAAAGGTGTGCCTGAAACGCATGTTGTGGTTGTTGAGAATGAAGCTGATAAAGCTGGTTTTCTCGGCGCCGCAGTGTTTTATGCACAATCGCTCTACAGACCTATGTTGATGGTGGAAAAGAAATTAATAACTACCGCCAACACTGGTTTGTCTGTTAGTCGAACTATGTTTGACCTTTATGTAGATTCATTGCTGAACGTCCTCGACGTGGATCGCAAGAGTCTAACAAGTTTTGTAAATGCTGCGCACAACTCTCTAAAGGAGGGTGTTCAGCTTGAACAAGTTATGGATACCTTTATTGGCTGTGCCCGACGTAAGTGTGCTATAGATTCTGATGTTGAAACCAAGTCTATTACCAAGTCCGTCATGTCGGCAGTAAATGCTGGCGTTGATTTTACGGATGAGAGTTGTAATAACTTGGTGCCTACCTATGTTAAAAGTGACACTATCGTTGCAGCCGATTTGGGTGTTCTTATTCAGAATAATGCTAAGCATGTACAGGCTAATGTTGCTAAAGCCGCTAATGTGGCTTGCATTTGGTCTGTGGATGCTTTTAACCAGCTATCTGCTGACTTACAGCATAGGCTGCGAAAAGCATGTTCAAAAACTGGCTTGAAGATTAAGCTTACTTATAATAAGCAGGAGGCAAATGTTCCTATTTTAACTACACCGTTCTCTCTTAAAGGGGGCGCTGTTTTTAGTAGAATGTTACAATGGTTGTTTGTTGCTAATTTGATTTGTTTCATTGTGTTGTGGGCCCTTATGCCAACATATGCAGTGCACAAATCGGATATGCAGTTGCCTTTATATGCCAGTTTTAAAGTTATAGATAATGGTGTGCTAAGGGATGTGTCTGTTACTGACGCATGCTTCGCAAACAAATTTAATCAATTTGATCAATGGTATGAGTCTACTTTTGGTCTTGCTTATTACCGCAACTCTAAGGCTTGTCCTGTTGTGGTTGCTGTAATAGATCAAGACATTGGCCATACCTTATTTAATGTTCCTACCACAGTTTTAAGATATGGATTTCATGTGTTGCATTTTATAACCCATGCATTTGCTACTGATAGCGTGCAGTGTTACACGCCACATATGCAAATCCCCTATGATAATTTCTATGCTAGTGGTTGCGTGTTGTCATCCCTCTGTACTATGCTTGCGCATGCAGATGGAACCCCGCATCCTTATTGTTATACAGGGGGTGTTATGCATAATGCCTCTCTGTATAGTTCTTTGGCTCCTCATGTCCGTTATAACCTGGCTAGTTCAAATGGTTATATACGTTTTCCCGAAGTGGTTAGTGAAGGCATTGTGCGTGTTGTGCGCACTCGCTCTATGACCTACTGCAGGGTTGGTTTATGTGAGGAGGCCGAGGAGGGTATCTGCTTTAATTTTAATCGTTCATGGGTATTGAACAACCCGTATTATAGGGCCATGCCTGGAACTTTTTGTGGTAGGAATGCTTTTGATTTAATACATCAAGTTTTAGGAGGATTAGTGCGGCCTATTGATTTCTTTGCCTTAACGGCGAGTTCAGTGGCTGGTGCTATCCTTGCAATTATTGTCGTTTTGGCTTTCTATTATTTAATAAAGCTTAAA >MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GGCAAGAAAGTCGAGTTTAACGACAAGCCCAAAGTCAGGAAGATACCCTCCACCCGTAAGATTAAGATCACCTTCGCACTGGATGCGACCTTTGATAGTGTTCTTTCGAAGGCGTGTTCAGAGTTTGAAGTTGATAAAGATGTTACATTGGATGAGCTGCTTGATGTTGTGCTTGACGCAGTTGAGAGTACGCTCAGCCCTTGTAAGGAGCATGATGTGATAGGCACAAAAGTTTGTGCTTTACTTGATAGGTTGGCAGGAGATTATGTCTATCTTTTTGATGAGGGAGGCGATGAAGTGATCGCCCCGAGGATGTATTGTTCCTTTTCTGCTCCTGATGATGAAGACTGCGTTGCAGCGGATGTTGTAGATGCAGATGAAAACCAAGATGATGATGCTGAAGACTCAGCAGTCCTTGTCGCTGATACCCAAGAAGAGGACGGCGTTGCCAAGGGGCAGGTTGAGGCGGATTCGGAAATTTGCGTTGCGCATACTGGTAGTCAAGAAGAATTGGCTGAGCCTGATGCTGTCGGATCTCAAACTCCCATCGCCTCTGCTGAGGAAACCGAAGTCGGAGAGGCAAGCGACAGGGAAGGGATTGCTGAGGCGAAGGCAACTGTGTGTGCTGATGCTGTAGATGCCTGCCCCGATCAAGTGGAGGCATTTGAAATTGAAAAGGTTGAAGACTCTATCTTGGATGAGCTTCAAACTGAACTTAATGCGCCAGCGGACAAGACCTATGAGGATGTCTTGGCATTCGATGCCGTATGCTCAGAGGCGTTGTCTGCATTCTATGCTGTGCCGAGTGATGAGACGCACTTTAAAGTGTGTGGATTCTATTCGCCTGCTATAGAGCGCACTAATTGTTGGCTGCGTTCTACTTTGATAGTAATGCAGAGTCTACCTTTGGAATTTAAAGACTTGGAGATGCAAAAGCTCTGGTTGTCTTACAAGGCCGGCTATGACCAATGCTTTGTGGACAAACTAGTTAAGAGCGTGCCCAAGTCTATTATCCTTCCACAAGGTGGTTATGTGGCAGATTTTGCCTATTTCTTTCTAAGCCAGTGTAGCTTTAAAGCTTATGCTAACTGGCGTTGTTTAGAGTGTGACATGGAGTTAAAGCTTCAAGGCTTGGACGCCATGTTTTTCTATGGGGACGTTGTGTCTCATATGTGCAAGTGTGGTAATAGCATGACCTTGTTGTCTGCAGATATACCCTACACTTTGCATTTTGGAGTGCGAGATGATAAGTTTTGCGCTTTTTACACGCCAAGAAAGGTCTTTAGGGCTGCTTGTGCGGTAGATGTTAATGATTGTCACTCTATGGCTGTAGTAGAGGGCAAGCAAATTGATGGTAAAGTGGTTACCAAATTTATTGGTGACAAATTTGATTTTATGGTGGGTTACGGGATGACATTTAGTATGTCTCCTTTTGAACTCGCCCAGTTATATGGTTCATGTATAACACCAAATGTTTGTTTTGTTAAAGGAGATGTTATAAAGGTTGTTCGCTTAGTTAATGCTGAAGTCATTGTTAACCCTGCTAATGGGCGTATGGCTCATGGTGCAGGTGTTGCAGGTGCTATAGCTGAAAAGGCGGGCAGTGCTTTTATTAAAGAAACCTCCGATATGGTGAAGGCTCAGGGCGTTTGCCAGGTTGGTGAATGCTATGAATCTGCCGGTGGTAAGTTATGTAAAAAGGTGCTTAACATTGTAGGGCCAGATGCGCGAGGGCATGGCAAGCAATGCTATTCACTTTTAGAGCGTGCTTATCAGCATATTAATAAGTGTGACAATGTTGTCACTACTTTAATTTCGGCTGGTATATTTAGTGTGCCTACTGATGTCTCCCTAACTTACTTACTTGGTGTAGTGACAAAGAATGTCATTCTTGTCAGTAACAACCAGGATGATTTTGATGTGATAGAGAAGTGTCAGGTGACCTCCGTTGCTGGTACCAAAGCGCTATCACTTCAATTGGCCAAAAATTTGTGCCGTGATGTAAAGTTTGTGACGAATGCATGTAGTTCGCTTTTTAGTGAATCTTGCTTTGTCTCAAGCTATGATGTGTTGCAGGAAGTTGAAGCGCTGCGACATGATATACAATTGGATGATGATGCTCGTGTCTTTGTGCAGGCTAATATGGACTGTCTGCCCACAGACTGGCGTCTCGTTAACAAATTTGATAGTGTTGATGGTGTTAGAACCATTAAGTATTTTGAATGCCCGGGCGGGATTTTTGTATCCAGCCAGGGCAAAAAGTTTGGTTATGTTCAGAATGGTTCATTTAAGGAGGCGAGTGTTAGCCAAATAAGGGCTTTACTCGCTAATAAGGTTGATGTCTTGTGTACTGTTGATGGTGTTAACTTCCGCTCCTGCTGCGTAGCAGAGGGTGAAGTTTTTGGCAAGACATTAGGTTCAGTCTTTTGTGATGGCATAAATGTCACCAAAGTTAGGTGTAGTGCCATTTACAAGGGTAAGGTTTTCTTTCAGTACAGTGATTTGTCCGAGGCAGATCTTGTGGCTGTTAAAGATGCCTTTGGTTTTGATGAACCACAACTGCTGAAGTACTACACTATGCTTGGCATGTGTAAGTGGCCAGTAGTTGTTTGTGGCAATTATTTTGCTTTCAAGCAGTCAAATAATAATTGCTATATAAATGTGGCATGTTTAATGCTGCAACACTTGAGTTTAAAGTTTCCTAAGTGGCAATGGCAAGAGGCTTGGAACGAGTTCCGCTCTGGTAAACCACTAAGGTTTGTGTCCTTGGTATTAGCAAAGGGCAGCTTTAAATTTAATGAACCTTCTGATTCTATCGATTTTATGCGTGTGGTGCTACGTGAAGCAGATTTGAGTGGTGCCACGTGCAATTTGGAATTTGTTTGTAAATGTGGTGTGAAGCAAGAGCAGCGCAAAGGTGTTGACGCTGTTATGCATTTTGGTACGTTGGATAAAGGTGATCTTGTCAGGGGTTATAATATCGCATGTACGTGCGGTAGTAAACTTGTGCATTGCACCCAATTTAACGTACCATTTTTAATTTGCTCCAACACACCAGAGGGTAGGAAACTGCCCGACGATGTTGTTGCAGCTAATATTTTTACTGGTGGTAGTGTGGGCCATTACACGCATGTGAAATGTAAACCCAAGTACCAGCTTTATGATGCTTGTAATGTTAATAAGGTTTCGGAGGCTAAGGGTAATTTTACCGATTGCCTCTACCTTAAAAATTTAAAGCAAACTTTTTCGTCTGTGCTGACGACTTTTTATTTAGATGATGTAAAGTGTGTGGAGTATAAGCCAGATTTATCGCAGTATTACTGTGAGTCTGGTAAATATTATACAAAACCCATTATTAAGGCCCAATTTAGAACATTTGAGAAGGTTGATGGTGTCTATACCAACTTTAAATTGGTGGGACATAGTATTGCTGAAAAACTCAATGCTAAGCTGGGATTTGATTGTAATTCTCCCTTTGTGGAGTATAAAATTACAGAGTGGCCAACAGCTACTGGAGATGTGGTGTTGGCTAGTGATGATTTGTATGTAAGTCGGTACTTAAGCGGGTGCATTACTTTTGGTAAACCGGTTGTCTGGCTTGGCCATGAGGAAGCATCGCTGAAATCTCTCACATATTTTAATAGACCTAGTGTCGTTTGTGAAAATAAATTTAATGTGTTGCCCGTTGATGTCAGTGAACCCACGGACAAGGGGCCTGTGCCTGCTGCAGTCCTTGTTACCGGCGTCCCTGGAGCTGATGCGTCAGCTGGTGCCGGTATTGCCAAGGAGCAAAAAGCCTGTGCTTCTGCTAGTGTGGAGGATCAGGTTGTTACGGAGGTTCGTCAAGAGCCATCTGTTTCAGCTGCTGATGTCAAAGAGGTTAAATTGAATGGTGTTAAAAAGCCTGTTAAGGTGGAAGGTAGTGTGGTTGTTAATGATCCCACTAGCGAAACCAAAGTTGTTAAAAGTTTGTCTATTGTTGATGTCTATGATATGTTCCTGACAGGGTGTAAGTATGTGGTTTGGACTGCTAATGAGTTGTCTCGACTAGTAAATTCACCGACTGTTAGGGAGTATGTGAAGTGGGGTATGGGAAAGATTGTAACACCCGCTAAGTTGTTGTTGTTAAGAGATGAGAAGCAAGAGTTCGTAGCGCCAAAAGTAGTCAAGGCGAAAGCTATTGCCTGCTATTGTGCTGTGAAGTGGTTTCTCCTCTATTGTTTTAGTTGGATAAAGTTTAATACTGATAATAAGGTTATATACACCACAGAAGTAGCTTCAAAGCTTACTTTCAAGTTGTGCTGTTTGGCCTTTAAGAATGCCTTACAGACGTTTAATTGGAGCGTTGTGTCTAGGGGCTTTTTCCTAGTTGCAACGGTCTTTTTATTATGGTTTAACTTTTTGTATGCTAATGTTATTTTGAGTGACTTCTATTTGCCTAATATTGGGCCTCTCCCTACGTTTGTGGGACAGATAGTTGCGTGGTTTAAGACTACATTTGGTGTGTCAACCATCTGTGATTTCTACCAGGTGACGGATTTGGGCTATAGAAGTTCGTTTTGTAATGGAAGTATGGTATGTGAACTATGCTTCTCAGGTTTTGATATGCTGGACAACTATGATGCTATAAATGTTGTTCAACACGTTGTAGATAGGCGTTTGTCCTTTGACTATATTAGCCTATTTAAATTAGTAGTTGAGCTTGTAATCGGCTACTCTCTTTATACTGTGTGCTTCTACCCACTGTTTGTCCTTATTGGAATGCAGTTATTGACCACATGGTTGCCTGAATTCTTTATGCTGGAGACTATGCATTGGAGTGCTCGTTTGTTTGTGTTTGTTGCCAATATGCTTCCAGCTTTTACGTTACTGCGATTTTACATCGTGGTGACAGCTATGTATAAGGTCTATTGTCTTTGTAGACATGTTATGTATGGATGTAGTAAGCCTGGTTGCTTGTTTTGTTATAAGAGAAACCGTAGTGTCCGTGTTAAGTGTAGCACCGTTGTTGGTGGTTCACTACGCTATTACGATGTAATGGCTAACGGCGGCACAGGTTTCTGTACAAAGCACCAGTGGAACTGTCTTAATTGCAATTCCTGGAAACCAGGCAATACATTCATAACTCATGAAGCAGCGGCGGACCTCTCTAAGGAGTTGAAACGCCCTGTGAATCCAACAGATTCTGCTTATTACTCGGTCACAGAGGTTAAGCAGGTTGGTTGTTCCATGCGTTTGTTCTACGAGAGAGATGGACAGCGTGTTTATGATGATGTTAATGCTAGTTTGTTTGTGGACATGAATGGTCTGCTGCATTCTAAAGTTAAAGGTGTGCCTGAAACGCATGTTGTGGTTGTTGAGAATGAAGCTGATAAAGCTGGTTTTCTCGGCGCCGCAGTGTTTTATGCACAATCGCTCTACAGACCTATGTTGATGGTGGAAAAGAAATTAATAACTACCGCCAACACTGGTTTGTCTGTTAGTCGAACTATGTTTGACCTTTATGTAGATTCATTGCTGAACGTCCTCGACGTGGATCGCAAGAGTCTAACAAGTTTTGTAAATGCTGCGCACAACTCTCTAAAGGAGGGTGTTCAGCTTGAACAAGTTATGGATACCTTTATTGGCTGTGCCCGACGTAAGTGTGCTATAGATTCTGATGTTGAAACCAAGTCTATTACCAAGTCCGTCATGTCGGCAGTAAATGCTGGCGTTGATTTTACGGATGAGAGTTGTAATAACTTGGTGCCTACCTATGTTAAAAGTGACACTATCGTTGCAGCCGATTTGGGTGTTCTTATTCAGAATAATGCTAAGCATGTACAGGCTAATGTTGCTAAAGCCGCTAATGTGGCTTGCATTTGGTCTGTGGATGCTTTTAACCAGCTATCTGCTGACTTACAGCATAGGCTGCGAAAAGCATGTTCAAAAACTGGCTTGAAGATTAAGCTTACTTATAATAAGCAGGAGGCAAATGTTCCTATTTTAACTACACCGTTCTCTCTTAAAGGGGGC------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ >Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GGCAAGAAAGTCGTGTTTAACGACAAGCCTAAAGTCAAGGAGGTACCCTCCACGCGAAAGATTAAGATTATCTTCGCTCTGGATGCGACCTTTGATAGTGTTCTCTCGAAGGCGTGTTCAGAGTTTGAAGTTGATAAAGATGTTACATTGGATGAGCTGCTTGATGTTGTGCTTGACGCAGTTGAGAGTACGCTTAGTCCTTGTAAGGAGCATGATGTGATAGGCACAAAAGTTTGTGCTTTACTTGATAGGTTGGCAGAAGATTATGTCTATCTTTTTGATGAAGGAGGCGATGAAGTGATTGCCCCGAGGATGTATTGTTCCTTTTCTGCTCCTGATGATGAAGACTGCGTCGCAGCAGATGTTGTAGATGCAGATGAAAACCAAGATGATGATGCTGACGACTCTGTAGTCCTTGTCGCCGATGCACAA---GAGGACGGCGTTGCCAAGGAGCAGGTTGAGGTGGATTCTGAAATTTGCGTTGCGCATACTGGTGGTCAAGATGAATTGACTGAGCCAGATGCTGTCGGATCTCAAACTCCCATCGCCTCTGCTGAGAAAACCGAAGTCGGAGAGGCAAGCGACAGGGAAGGGATTGCTGAGGCGAAGGCAACTGTGTGTGCTGATGATTTAGATGCCTGCCCCGATCAAGTGGAGGCATTTGAAATCGAAGAGGTTGAAGACTCTATCTTGGATGAGCTTCAAACTGAACTTAATGCGCCAGCAGACAGGACCTATGAGGATGTTTTGGCATTTGATGCCATATACTCAAAGGCTTTGTCTGCAGTCTATGCTGTGCCGAGTGATGAGACGCACTTTAAAGTGTGTGGATTCTATTCGCCTGCTATAGAGCGCACTAATTGTTGGCTGCGTTCCACTTTGATAGTAATGCAGAGTTTACCTTTGGAATTTAAAGACTTGGAGATGCAAAAGCTCTGGTTGTCTTACAAGGCTGGCTATGATCAATGCTTTGTGGATAAACTAGTTAAGAGCGTGCCCAGGTCGATTATTCTTCCACAAGGTGGTTATGTGGCAGATTTTGCCTATTACTTTTTAAGTCAGTGTAGCTTTAAAGCTCATGCTAACTGGCGTTGTTTAAAGTGTGACATGGCGTCAAAGCTGCAAGGTTTGGATGCCATGTTCTTTTATGGAGACGTTGTGTCTCATATGTGTAAGTGTGGTAGTGGCATGACCTTGTTGTCTGCGGATATACCGTACACTTTGCATTTTGGAGTGCGAGATGATAAGTTTTGCGCTTTTTACACGCCGAGAAAGGTTTTTAGGGCTGCTTGTGCGGTAGATGTTAATGATTGTCATTCCATGGCTGTTGTGGATGGCAAGCTAATTGATGGTAAGAACGTTACCAAATTTACTGGTGACAAATTTGATTTTATGGTGGGTCATGGGATGACATTTAGTATGTCACCCTTTGAGACCGCCCAGTTATACGGTTCATGTATAACGCCAAATGTTTGTTTTGTTAAAGGAGATGTTATAAAGGTTGCTCGCTTGGTTGAGGCCGAAGTCATTGTTAACCCTGCTAATGGGCGGATGGCTCATGGTGCAGGTGTTGCAGGTGCTATAGCTAAGGCGGCGGGCAAGTTTTTTATTAAAGAAACTGCCGATATGGTGAAGAATCAAGGTGTTTGTCTAGTTGGCGAATGCTATGAATCTGCTGGTGGTAAATTATGTAAAAAGGTGCTTAACATTGTGGGACCAGATGCTCGAGGGCAAGGTAGGCAATGTTACTCACTCCTAGAGCGTGCATATCAGCATATTAATAAGTGTGATAATGTTGTTACCACTCTAATATCGGCTGGCATATTTAGTGTGCCTACTGATGTTTCCTTGACTTATTTACTTGGTGTTGTGACTAAGAATGTTATTCTTGTTAGCAACAACAAAGATGATTTTGATGTGATAGAGAAGTGCCAAGTTACTTCTGTGGCTGGTACTAAAGCACTGTCACTTCAATTGGCCAAAAATTTGTGTCGTGATGTAAAGTTTGAGACGAATGCATGTGATACGCTTTTTGGCGCGTCCTGCTTCGTGGCAAGCTATGATGTGTTGCAGGAAGTTGAATTGCTGCGACATGATATACAGTTGGATGATGACGCACGTGTTTTTGTGCAGGCTAATATGGATTGCCTGCCCACAGACTGGCGTCTTGTTAATAAACTTGATGTTGTGGATGGTGTTAGAACCATTAAGTATTTTGAGTGTCCGGGAGAGATTTTTGTATCTAGCCAGGGCAAAAAGTTTGGTTATGTTCAGAATGGTTTATTTAAAGTGGCGAGTGTTAGTCAAATACGGGCTCTACTTGCTAATAAGGTTGATGTCTTGTGCACTGTTGATGGTGTTAACTTCCGCTCCTGCTGTGTAACAGAGGGTGAAGTTTTTGGCAAGACATTAGGTTCAGTCTTTTGTGATGGCATAAATGTCACCAAAGTTAGGTGTAGTGCCATTCACAAGGGTAAGGTTTTCTTTCAGTACAGTGGTCTGTCTGAGGCCGATCTTGTGGCTGTTAAAGATGCTTTTGGTTTTGATGAACCACAACTGCTGAAGTACTATAATATGCTTGGCATGTGTAAGTGGCCAGTAGTTGTTTGTGGCAATTATTTTGCTTTCAAGCAGTCAAATAATAATTGCTATATAAATGTGGCATGTTTAATGCTGCAGCATTTGAATTTAAAGTTTCCCAAGTGGCAATGGCAGGAGGCCTGGAACGAGTTCCGCTCCGGTAAGCCACTAAGGTTCGTGTCCTTGGTGTTAGCAAAGGGCAGCTTTAAATTTAATGAACCTTCTGATTCCACTGATTTTATACGTGTGGTGCTGCGCGAAGCAGATTTGAGTGGTGCCACATGTGATTTGGAATTTATTTGTAAATGTGGTGTGAAGCAAGATCAGCGCAAAGGTGTTGACGCTGTTATGCATTTTGGTACATTGGATAAAAGTGATCTTGTCAAGGGTTATAATATCGCATGTACATGCGGTAGTAAACTTGTGCATTGCACCCAATTTAATGTACCATTCTTAATTTGCTCCTACACTCCAGAGGGCAGGAAACTGCCTGACGATGTTGTTGCAGCTAATATTTTTACTGGTGGTAGTTTGGGCCATTACACGCATGTGAAATGTAAACCCAAGTACCAACTTTATGATGCTTGTAATGTTAGTAAGGTTTCGGAGGCTAAGGGTAATTTTACCGATTGCCTCTACCTTAAAAATTTAAAGCAAACTTTTTCGTCTGTGTTGACGACTTATTATTTAGATGATGTAAAGTGTGTGGAGTACAAGCCAGATTTATCGCAGTATTACTGTGAGTCTGGTAAATATTATACAAAACCCATTATTAAGGCCCAATTTAGAACATTTGAGAAGGTTGATGGTGTCTATACCAATTTTAAATTGGTGGGACATAGTATAGCTGAAAAACTCAATGCTAAGCTGGGATTTGATTGTGATTCTCCCTTTGTGGAGTATAAAATTACAGAGTGGCCAACAGCTACTGGAGATGTGGTGTTGGCTAGTGATGATTTGTATGTGAGTCGGTACTTAAGCGGGTGCATTACTTTTGGTAAACCGGTTGTCTGGCTTGGCCATGAGGAAGCATCGCTGAAATCGCTCACATATTTTAATAGACCTAGTGTCGTTTGTGAAAATAAATTTAATGTGTTGCCTGTTGATGTCAGTGAACCCACGGATAAGGAGCCTGTGCCGGCTGCAGTCCTTGTTACCGGCGTCCCTAGTGCTGATGCGTCAGCCGATGCCGGTACTGCCAAGGAGCAAAAAGCCTGTGCTTCTGATAATGTGGAGGAGCAGGTTGTTACAGAGGTTCATCAAGAGCCATCTGTTTCAGCTGTTGATGTCAAAGAGGTTAAATTGAATGGTGTTAAAAAGCCTGTTAAGGTGGAAGATAGTGTGGTTGTTAATGACCCCACTAGCGACACCAAAGTTGTTAAAAGTTTGTCTATTGTTGAT------GATATGTTCCTGACAGGGTGTAAGTATGTGGTCTGGACGGCTAATGAGTTGTCTCGACTAGTAAATTCACCGACTGTTAGAGAGTATGTGAAGTGG------GGTAAAATTGTAATACCCACTAAGTTATTGTTATTAAGAGATGAGAGGCAAGAGTTCGTAGCGCCAAAAGTAGTCAAGGCGAAAGCTATTGCCTGCTATGGTGCTGTGAAGTGGTTCTTCTTCTATTGTTTTAGTTGGATAAAGTTTAATACTGATAATAAGGTTATATACACCACAGAATTAGCTTCAAAGCTTACTTTTAAGTTGTGCTGTTTGGCTTTTAAGAATGCCTTACAGACGTTTAATTGGAGTGTTGTGTCTAGGGGCTTTTTCCTAGTGGCAACAGTCTTTTTATTATGGTTTAACTTTTTGTATGCCAATGTTATTTTGAGTGACTTTTATTTGCCTAATATTGGATCTCTCCCTACTTTTGTGGGACAGATTGTTGCGTGGTTTAAGACTACATTTGGCGTGTCAACCATCTGTGATTTCTACCAGGTGACGGATTTGGGCTATAGAAGTTCTTTTTGTAATGGAAGTATGGTATGTGAGCTATGCTTCTCAGGTTTTGATATGCTGGACAGCTATGATGCTATAAATGTTGTTCAACACGTTGTAGATAGGCGTGTGTCTTTTGACTACATTAGCATACTTAAATTAGTGGTCGAGCTTATTATCGGCTACTCTCTCTATACTGTGTGCTTCTATCCACTGTTTGTCCTTATTGGAATGCAGTTGTTGACCACATGGTTGCCTGAATTCTTTATGCTGGAGACTATGCATTGGAGTGCTCGTTTGTTTGTGTTTGTTGCTAATATGCTCCCAGCTTTTACGTTACTGCGATTTTACATCGTGGTGACAGCTATGTATAAGGTCTATTGTCTTTGTAGACATGTTATGTATGGGTGTAGTAATCCTGGTTGCCTGTTTTGTTATAAGAGAAACCGTAGTGTCCGTGTTAAGTGTAGCACCGTTGTTGGTGGTTCACTACGCTATTACGATGTGATGGCTAACGGCGGCACAGGTTTCTGTACAAAGCACCAGTGGAACTGTCTTAATTGCGATTCCTGGAAACCAGGCAATACATTCATAACCCTTGAAGCAGCGGCGGACCTCTCTAAGGAGTTGAAACGCCCTGTGAATCCAACAGACTCTGCTTATTACTCGGTCACAGAGGTTAAACAGGTTGGTTGTTCAATGCGTTTGTTCTATGAGAGAGATGGACAGCGTGTTTATGATGATGTTAGTGCTAGTTTGTTTGTGGACATGAATGGTCTGCTGCATTCTAAAGTGAAAGGTGTGCCTGAAACGCATGTTGTGGTTGTTGAGAATGAAGCTGATAAAGCTGGTTTTCTCGGCGCTGCAGTGTTTTATGCACAATCTCTTTATAGACCTATGTTGATGGTAGAAAAGAAATTAATAACTACCGCCAACACTGGTTTGTCTGTTAGTCAAACTATGTTTGACCTCTATGTAGATTCATTGCTGAACGTCCTTGACGTGGATCGCAAGAGTCTAACAAGTTTTGTAAATGCTGCGCACAATTCTTTAAAGGAGGGTGTGCAGCTTGAACAGGTTATGGACACCTTTGTTGGTTGCGCTCGACGTAAGTGTGCTATAGATTCTGATGTTGAAACCAGGTCTATTACTAAGTCCGTTATGTCGGCAGTAAATGCTGGTGTTGATTTTACGGATGAGAGTTGTAATAATTTGGTTCCCACCTATGTTAAAAGTGATACTATCGTTGCCGCTGATTTGGGTGTCCTTATTCAGAATAATGCTAAGCATGTACAATCTAATGTTGCAAAAGCCGCTAATGTGGCTTGCATATGGTCTGTGGATGCTTTTAATCAGCTGTCTGCTGACTTGCAGCATAGGCTTAGAAAAGCATGTTCAAAAACTGGCTTAAAGATTAAGCTTACCTATAATAAGCAGGAGGCAAATGTTCCTATTTTAACCACACCGTTCTCTCTAAAAGGAGGC------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ >inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GGCAAGAAAGTCGAGTTTAACGACAAGCCCAAAGTCAGGAAGATACCCTCCACCCGTAAGATTAAGATCACCTTCGCACTGGATGCGACCTTTGATAGTGTTCTTTCGAAGGCGTGTTCAGAGTTTGAAGTTGATAAAGATGTTACATTGGATGAGCTGCTTGATGTTGTGCTTGACGCAGTTGAGAGTACGCTCAGCCCTTGTAAGGAGCATGATGTGATAGGCACAAAAGTTTGTGCTTTACTTGATAGGTTGGCAGGAGATTATGTCTATCTTTTTGATGAGGGAGGCGATGAAGTGATCGCCCCGAGGATGTATTGTTCCTTTTCTGCTCCTGATGATGAAGACTGCGTTGCAGCGGATGTTGTAGATGCAGATGAAAACCAAGATGATGATGCTGAAGACTCAGCAGTCCTTGTCGCTGATACCCAAGAAGAGGACGGCGTTGCCAAGGGGCAGGTTGAGGCGGATTCGGAAATTTGCGTTGCGCATACTGGTAGTCAAGAAGAATTGGCTGAGCCTGATGCTGTCGGATCTCAAACTCCCATCGCCTCTGCTGAGGAAACCGAAGTCGGAGAGGCAAGCGACAGGGAAGGGATTGCTGAGGCGAAGGCAACTGTGTGTGCTGATGCTGTAGATGCCTGCCCCGATCAAGTGGAGGCATTTGAAATTGAAAAGGTTGAAGACTCTATCTTGGATGAGCTTCAAACTGAACTTAATGCGCCAGCGGACAAGACCTATGAGGATGTCTTGGCATTCGATGCCGTATGCTCAGAGGCGTTGTCTGCATTCTATGCTGTGCCGAGTGATGAGACGCACTTTAAAGTGTGTGGATTCTATTCGCCTGCTATAGAGCGCACTAATTGTTGGCTGCGTTCTACTTTGATAGTAATGCAGAGTCTACCTTTGGAATTTAAAGACTTGGAGATGCAAAAGCTCTGGTTGTCTTACAAGGCCGGCTATGACCAATGCTTTGTGGACAAACTAGTTAAGAGCGTGCCCAAGTCTATTATCCTTCCACAAGGTGGTTATGTGGCAGATTTTGCCTATTTCTTTCTAAGCCAGTGTAGCTTTAAAGCTTATGCTAACTGGCGTTGTTTAGAGTGTGACATGGAGTTAAAGCTTCAAGGCTTGGACGCCATGTTTTTCTATGGGGACGTTGTGTCTCATATGTGCAAGTGTGGTAATAGCATGACCTTGTTGTCTGCAGATATACCCTACACTTTGCATTTTGGAGTGCGAGATGATAAGTTTTGCGCTTTTTACACGCCAAGAAAGGTCTTTAGGGCTGCTTGTGCGGTAGATGTTAATGATTGTCACTCTATGGCTGTAGTAGAGGGCAAGCAAATTGATGGTAAAGTGGTTACCAAATTTATTGGTGACAAATTTGATTTTATGGTGGGTTACGGGATGACATTTAGTATGTCTCCTTTTGAACTCGCCCAGTTATATGGTTCATGTATAACACCAAATGTTTGTTTTGTTAAAGGAGATGTTATAAAGGTTGTTCGCTTAGTTAATGCTGAAGTCATTGTTAACCCTGCTAATGGGCGTATGGCTCATGGTGCAGGTGTTGCAGGTGCTATAGCTGAAAAGGCGGGCAGTGCTTTTATTAAAGAAACCTCCGATATGGTGAAGGCTCAGGGCGTTTGCCAGGTTGGTGAATGCTATGAATCTGCCGGTGGTAAGTTATGTAAAAAGGTGCTTAACATTGTAGGGCCAGATGCGCGAGGGCATGGCAAGCAATGCTATTCACTTTTAGAGCGTGCTTATCAGCATATTAATAAGTGTGACAATGTTGTCACTACTTTAATTTCGGCTGGTATATTTAGTGTGCCTACTGATGTCTCCCTAACTTACTTACTTGGTGTAGTGACAAAGAATGTCATTCTTGTCAGTAACAACCAGGATGATTTTGATGTGATAGAGAAGTGTCAGGTGACCTCCGTTGCTGGTACCAAAGCGCTATCACTTCAATTGGCCAAAAATTTGTGCCGTGATGTAAAGTTTGTGACGAATGCATGTAGTTCGCTTTTTAGTGAATCTTGCTTTGTCTCAAGCTATGATGTGTTGCAGGAAGTTGAAGCGCTGCGACATGATATACAATTGGATGATGATGCTCGTGTCTTTGTGCAGGCTAATATGGACTGTCTGCCCACAGACTGGCGTCTCGTTAACAAATTTGATAGTGTTGATGGTGTTAGAACCATTAAGTATTTTGAATGCCCGGGCGGGATTTTTGTATCCAGCCAGGGCAAAAAGTTTGGTTATGTTCAGAATGGTTCATTTAAGGAGGCGAGTGTTAGCCAAATAAGGGCTTTACTCGCTAATAAGGTTGATGTCTTGTGTACTGTTGATGGTGTTAACTTCCGCTCCTGCTGCGTAGCAGAGGGTGAAGTTTTTGGCAAGACATTAGGTTCAGTCTTTTGTGATGGCATAAATGTCACCAAAGTTAGGTGTAGTGCCATTTACAAGGGTAAGGTTTTCTTTCAGTACAGTGATTTGTCCGAGGCAGATCTTGTGGCTGTTAAAGATGCCTTTGGTTTTGATGAACCACAACTGCTGAAGTACTACACTATGCTTGGCATGTGTAAGTGGCCAGTAGTTGTTTGTGGCAATTATTTTGCTTTCAAGCAGTCAAATAATAATTGCTATATAAATGTGGCATGTTTAATGCTGCAACACTTGAGTTTAAAGTTTCCTAAGTGGCAATGGCAAGAGGCTTGGAACGAGTTCCGCTCTGGTAAACCACTAAGGTTTGTGTCCTTGGTATTAGCAAAGGGCAGCTTTAAATTTAATGAACCTTCTGATTCTATCGATTTTATGCGTGTGGTGCTACGTGAAGCAGATTTGAGTGGTGCCACGTGCAATTTGGAATTTGTTTGTAAATGTGGTGTGAAGCAAGAGCAGCGCAAAGGTGTTGACGCTGTTATGCATTTTGGTACGTTGGATAAAGGTGATCTTGTCAGGGGTTATAATATCGCATGTACGTGCGGTAGTAAACTTGTGCATTGCACCCAATTTAACGTACCATTTTTAATTTGCTCCAACACACCAGAGGGTAGGAAACTGCCCGACGATGTTGTTGCAGCTAATATTTTTACTGGTGGTAGTGTGGGCCATTACACGCATGTGAAATGTAAACCCAAGTACCAGCTTTATGATGCTTGTAATGTTAATAAGGTTTCGGAGGCTAAGGGTAATTTTACCGATTGCCTCTACCTTAAAAATTTAAAGCAAACTTTTTCGTCTGTGCTGACGACTTTTTATTTAGATGATGTAAAGTGTGTGGAGTATAAGCCAGATTTATCGCAGTATTACTGTGAGTCTGGTAAATATTATACAAAACCCATTATTAAGGCCCAATTTAGAACATTTGAGAAGGTTGATGGTGTCTATACCAACTTTAAATTGGTGGGACATAGTATTGCTGAAAAACTCAATGCTAAGCTGGGATTTGATTGTAATTCTCCCTTTGTGGAGTATAAAATTACAGAGTGGCCAACAGCTACTGGAGATGTGGTGTTGGCTAGTGATGATTTGTATGTAAGTCGGTACTTAAGCGGGTGCATTACTTTTGGTAAACCGGTTGTCTGGCTTGGCCATGAGGAAGCATCGCTGAAATCTCTCACATATTTTAATAGACCTAGTGTCGTTTGTGAAAATAAATTTAATGTGTTGCCCGTTGATGTCAGTGAACCCACGGACAAGGGGCCTGTGCCTGCTGCAGTCCTTGTTACCGGCGTCCCTGGAGCTGATGCGTCAGCTGGTGCCGGTATTGCCAAGGAGCAAAAAGCCTGTGCTTCTGCTAGTGTGGAGGATCAGGTTGTTACGGAGGTTCGTCAAGAGCCATCTGTTTCAGCTGCTGATGTCAAAGAGGTTAAATTGAATGGTGTTAAAAAGCCTGTTAAGGTGGAAGGTAGTGTGGTTGTTAATGATCCCACTAGCGAAACCAAAGTTGTTAAAAGTTTGTCTATTGTTGATGTCTATGATATGTTCCTGACAGGGTGTAAGTATGTGGTTTGGACTGCTAATGAGTTGTCTCGACTAGTAAATTCACCGACTGTTAGGGAGTATGTGAAGTGGGGTATGGGAAAGATTGTAACACCCGCTAAGTTGTTGTTGTTAAGAGATGAGAAGCAAGAGTTCGTAGCGCCAAAAGTAGTCAAGGCGAAAGCTATTGCCTGCTATTGTGCTGTGAAGTGGTTTCTCCTCTATTGTTTTAGTTGGATAAAGTTTAATACTGATAATAAGGTTATATACACCACAGAAGTAGCTTCAAAGCTTACTTTCAAGTTGTGCTGTTTGGCCTTTAAGAATGCCTTACAGACGTTTAATTGGAGCGTTGTGTCTAGGGGCTTTTTCCTAGTTGCAACGGTCTTTTTATTATGGTTTAACTTTTTGTATGCTAATGTTATTTTGAGTGACTTCTATTTGCCTAATATTGGGCCTCTCCCTACGTTTGTGGGACAGATAGTTGCGTGGTTTAAGACTACATTTGGTGTGTCAACCATCTGTGATTTCTACCAGGTGACGGATTTGGGCTATAGAAGTTCGTTTTGTAATGGAAGTATGGTATGTGAACTATGCTTCTCAGGTTTTGATATGCTGGACAACTATGATGCTATAAATGTTGTTCAACACGTTGTAGATAGGCGTTTGTCCTTTGACTATATTAGCCTATTTAAATTAGTAGTTGAGCTTGTAATCGGCTACTCTCTTTATACTGTGTGCTTCTACCCACTGTTTGTCCTTATTGGAATGCAGTTATTGACCACATGGTTGCCTGAATTCTTTATGCTGGAGACTATGCATTGGAGTGCTCGTTTGTTTGTGTTTGTTGCCAATATGCTTCCAGCTTTTACGTTACTGCGATTTTACATCGTGGTGACAGCTATGTATAAGGTCTATTGTCTTTGTAGACATGTTATGTATGGATGTAGTAAGCCTGGTTGCTTGTTTTGTTATAAGAGAAACCGTAGTGTCCGTGTTAAGTGTAGCACCGTTGTTGGTGGTTCACTACGCTATTACGATGTAATGGCTAACGGCGGCACAGGTTTCTGTACAAAGCACCAGTGGAACTGTCTTAATTGCAATTCCTGGAAACCAGGCAATACATTCATAACTCATGAAGCAGCGGCGGACCTCTCTAAGGAGTTGAAACGCCCTGTGAATCCAACAGATTCTGCTTATTACTCGGTCACAGAGGTTAAGCAGGTTGGTTGTTCCATGCGTTTGTTCTACGAGAGAGATGGACAGCGTGTTTATGATGATGTTAATGCTAGTTTGTTTGTGGACATGAATGGTCTGCTGCATTCTAAAGTTAAAGGTGTGCCTGAAACGCATGTTGTGGTTGTTGAGAATGAAGCTGATAAAGCTGGTTTTCTCGGCGCCGCAGTGTTTTATGCACAATCGCTCTACAGACCTATGTTGATGGTGGAAAAGAAATTAATAACTACCGCCAACACTGGTTTGTCTGTTAGTCGAACTATGTTTGACCTTTATGTAGATTCATTGCTGAACGTCCTCGACGTGGATCGCAAGAGTCTAACAAGTTTTGTAAATGCTGCGCACAACTCTCTAAAGGAGGGTGTTCAGCTTGAACAAGTTATGGATACCTTTATTGGCTGTGCCCGACGTAAGTGTGCTATAGATTCTGATGTTGAAACCAAGTCTATTACCAAGTCCGTCATGTCGGCAGTAAATGCTGGCGTTGATTTTACGGATGAGAGTTGTAATAACTTGGTGCCTACCTATGTTAAAAGTGACACTATCGTTGCAGCCGATTTGGGTGTTCTTATTCAGAATAATGCTAAGCATGTACAGGCTAATGTTGCTAAAGCCGCTAATGTGGCTTGCATTTGGTCTGTGGATGCTTTTAACCAGCTATCTGCTGACTTACAGCATAGGCTGCGAAAAGCATGTTCAAAAACTGGCTTGAAGATTAAGCTTACTTATAATAAGCAGGAGGCAAATGTTCCTATTTTAACTACACCGTTCTCTCTTAAAGGGGGC------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
>A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQSLPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNVVTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWLGHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTFGVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAVFYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPFSLKGGAVFSRMLQWLFVANLICFIVLWALMPTYAVHKSDMQLPLYASFKVIDNGVLRDVSVTDACFANKFNQFDQWYESTFGLAYYRNSKACPVVVAVIDQDIGHTLFNVPTTVLRYGFHVLHFITHAFATDSVQCYTPHMQIPYDNFYASGCVLSSLCTMLAHADGTPHPYCYTGGVMHNASLYSSLAPHVRYNLASSNGYIRFPEVVSEGIVRVVRTRSMTYCRVGLCEEAEEGICFNFNRSWVLNNPYYRAMPGTFCGRNAFDLIHQVLGGLVRPIDFFALTASSVAGAILAIIVVLAFYYLIKLK >MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQSLPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNVVTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWLGHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTFGVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAVFYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPFSLKGG---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- >Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus GKKVVFNDKPKVKEVPSTRKIKIIFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAEDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAADVVDADENQDDDADDSVVLVADAQ-EDGVAKEQVEVDSEICVAHTGGQDELTEPDAVGSQTPIASAEKTEVGEASDREGIAEAKATVCADDLDACPDQVEAFEIEEVEDSILDELQTELNAPADRTYEDVLAFDAIYSKALSAVYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQSLPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPRSIILPQGGYVADFAYYFLSQCSFKAHANWRCLKCDMASKLQGLDAMFFYGDVVSHMCKCGSGMTLLSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVDGKLIDGKNVTKFTGDKFDFMVGHGMTFSMSPFETAQLYGSCITPNVCFVKGDVIKVARLVEAEVIVNPANGRMAHGAGVAGAIAKAAGKFFIKETADMVKNQGVCLVGECYESAGGKLCKKVLNIVGPDARGQGRQCYSLLERAYQHINKCDNVVTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNKDDFDVIEKCQVTSVAGTKALSLQLAKNLCRDVKFETNACDTLFGASCFVASYDVLQEVELLRHDIQLDDDARVFVQANMDCLPTDWRLVNKLDVVDGVRTIKYFECPGEIFVSSQGKKFGYVQNGLFKVASVSQIRALLANKVDVLCTVDGVNFRSCCVTEGEVFGKTLGSVFCDGINVTKVRCSAIHKGKVFFQYSGLSEADLVAVKDAFGFDEPQLLKYYNMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLNLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSTDFIRVVLREADLSGATCDLEFICKCGVKQDQRKGVDAVMHFGTLDKSDLVKGYNIACTCGSKLVHCTQFNVPFLICSYTPEGRKLPDDVVAANIFTGGSLGHYTHVKCKPKYQLYDACNVSKVSEAKGNFTDCLYLKNLKQTFSSVLTTYYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAKLGFDCDSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWLGHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKEPVPAAVLVTGVPSADASADAGTAKEQKACASDNVEEQVVTEVHQEPSVSAVDVKEVKLNGVKKPVKVEDSVVVNDPTSDTKVVKSLSIVD--DMFLTGCKYVVWTANELSRLVNSPTVREYVKW--GKIVIPTKLLLLRDERQEFVAPKVVKAKAIACYGAVKWFFFYCFSWIKFNTDNKVIYTTELASKLTFKLCCLAFKNALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGSLPTFVGQIVAWFKTTFGVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDSYDAINVVQHVVDRRVSFDYISILKLVVELIIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSNPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCDSWKPGNTFITLEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYERDGQRVYDDVSASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAVFYAQSLYRPMLMVEKKLITTANTGLSVSQTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNSLKEGVQLEQVMDTFVGCARRKCAIDSDVETRSITKSVMSAVNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQSNVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPFSLKGG---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- >inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus GKKVEFNDKPKVRKIPSTRKIKITFALDATFDSVLSKACSEFEVDKDVTLDELLDVVLDAVESTLSPCKEHDVIGTKVCALLDRLAGDYVYLFDEGGDEVIAPRMYCSFSAPDDEDCVAADVVDADENQDDDAEDSAVLVADTQEEDGVAKGQVEADSEICVAHTGSQEELAEPDAVGSQTPIASAEETEVGEASDREGIAEAKATVCADAVDACPDQVEAFEIEKVEDSILDELQTELNAPADKTYEDVLAFDAVCSEALSAFYAVPSDETHFKVCGFYSPAIERTNCWLRSTLIVMQSLPLEFKDLEMQKLWLSYKAGYDQCFVDKLVKSVPKSIILPQGGYVADFAYFFLSQCSFKAYANWRCLECDMELKLQGLDAMFFYGDVVSHMCKCGNSMTLLSADIPYTLHFGVRDDKFCAFYTPRKVFRAACAVDVNDCHSMAVVEGKQIDGKVVTKFIGDKFDFMVGYGMTFSMSPFELAQLYGSCITPNVCFVKGDVIKVVRLVNAEVIVNPANGRMAHGAGVAGAIAEKAGSAFIKETSDMVKAQGVCQVGECYESAGGKLCKKVLNIVGPDARGHGKQCYSLLERAYQHINKCDNVVTTLISAGIFSVPTDVSLTYLLGVVTKNVILVSNNQDDFDVIEKCQVTSVAGTKALSLQLAKNLCRDVKFVTNACSSLFSESCFVSSYDVLQEVEALRHDIQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNCYINVACLMLQHLSLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNLKQTFSSVLTTFYLDDVKCVEYKPDLSQYYCESGKYYTKPIIKAQFRTFEKVDGVYTNFKLVGHSIAEKLNAKLGFDCNSPFVEYKITEWPTATGDVVLASDDLYVSRYLSGCITFGKPVVWLGHEEASLKSLTYFNRPSVVCENKFNVLPVDVSEPTDKGPVPAAVLVTGVPGADASAGAGIAKEQKACASASVEDQVVTEVRQEPSVSAADVKEVKLNGVKKPVKVEGSVVVNDPTSETKVVKSLSIVDVYDMFLTGCKYVVWTANELSRLVNSPTVREYVKWGMGKIVTPAKLLLLRDEKQEFVAPKVVKAKAIACYCAVKWFLLYCFSWIKFNTDNKVIYTTEVASKLTFKLCCLAFKNALQTFNWSVVSRGFFLVATVFLLWFNFLYANVILSDFYLPNIGPLPTFVGQIVAWFKTTFGVSTICDFYQVTDLGYRSSFCNGSMVCELCFSGFDMLDNYDAINVVQHVVDRRLSFDYISLFKLVVELVIGYSLYTVCFYPLFVLIGMQLLTTWLPEFFMLETMHWSARLFVFVANMLPAFTLLRFYIVVTAMYKVYCLCRHVMYGCSKPGCLFCYKRNRSVRVKCSTVVGGSLRYYDVMANGGTGFCTKHQWNCLNCNSWKPGNTFITHEAAADLSKELKRPVNPTDSAYYSVTEVKQVGCSMRLFYERDGQRVYDDVNASLFVDMNGLLHSKVKGVPETHVVVVENEADKAGFLGAAVFYAQSLYRPMLMVEKKLITTANTGLSVSRTMFDLYVDSLLNVLDVDRKSLTSFVNAAHNSLKEGVQLEQVMDTFIGCARRKCAIDSDVETKSITKSVMSAVNAGVDFTDESCNNLVPTYVKSDTIVAADLGVLIQNNAKHVQANVAKAANVACIWSVDAFNQLSADLQHRLRKACSKTGLKIKLTYNKQEANVPILTTPFSLKGG----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Reading sequence file /data//pss_subsets/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result/original_alignment/codeml/fasta/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result.1 Found 4 sequences of length 6927 Alignment looks like a valid DNA alignment. Estimated diversity is (pairwise deletion - ignoring missing/ambig): 3.0% Found 0 informative sites. Writing alignment of informative sites to: Phi.inf.sites Writing list of informative sites to: Phi.inf.list Calculating all pairwise incompatibilities... 100.0% Using a window size of 80 with k as 1 Too few informative sites to use normal approximation. Try doing a permutation test or increasing alignment length Can also try decreasing windowsize.
#NEXUS [ID: 8730171575] begin taxa; dimensions ntax=4; taxlabels A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ; end; begin trees; translate 1 A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus, 2 MHV_BHKR_lab_USA_infA59_H126A_2012_nsp3_VIPR_ALG4_530290989_2685_8699_1_2012_10_25_USA_Mouse_Murine_coronavirus, 3 Parker_NA_YP_009924359_1_NA_NA_Rat_Murine_coronavirus, 4 inf_MHV_A59_nsp3_VIPR_ALG4_225403278_2681_8695_1_NA_USA_Mouse_Murine_coronavirus ; [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 = (1:1.334285e-04,2:1.183589e-04,3:2.623320e-01,4:1.244305e-04); [Note: This tree contains information only on the topology and branch lengths (median of the posterior probability density).] tree con_50_majrule = (1:1.334285e-04,2:1.183589e-04,3:2.623320e-01,4:1.244305e-04); 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 -10965.12 -10977.27 2 -10965.16 -10978.99 -------------------------------------- TOTAL -10965.14 -10978.46 -------------------------------------- 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} 0.278132 0.005220 0.166657 0.426976 0.263210 764.17 782.31 1.003 r(A<->C){all} 0.015820 0.000169 0.000001 0.041363 0.012773 464.02 489.39 1.000 r(A<->G){all} 0.229520 0.003218 0.119593 0.335495 0.226965 357.84 395.90 1.002 r(A<->T){all} 0.026187 0.000136 0.003742 0.048219 0.025687 382.44 427.92 1.001 r(C<->G){all} 0.009256 0.000073 0.000003 0.026439 0.006728 634.03 737.51 1.000 r(C<->T){all} 0.697561 0.004115 0.577532 0.829919 0.699641 348.82 393.61 1.002 r(G<->T){all} 0.021656 0.000088 0.004341 0.040837 0.021015 833.08 865.48 1.001 pi(A){all} 0.248606 0.000026 0.238876 0.258558 0.248546 1120.36 1162.17 1.001 pi(C){all} 0.166934 0.000019 0.158560 0.175681 0.166990 1054.25 1073.28 1.000 pi(G){all} 0.252809 0.000027 0.242176 0.262378 0.252879 985.91 1082.39 1.000 pi(T){all} 0.331651 0.000030 0.320480 0.342120 0.331778 1062.13 1172.58 1.001 alpha{1,2} 0.032197 0.000412 0.000011 0.068081 0.030939 996.55 1148.23 1.002 alpha{3} 3.430607 2.134510 1.135814 6.402277 3.174421 1194.19 1262.02 1.001 pinvar{all} 0.732051 0.000389 0.690670 0.767055 0.733152 839.35 944.18 1.000 ------------------------------------------------------------------------------------------------------ * 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/A59_NA_YP_009924333_1_NA_USA_Unknown_Murine_coronavirus.result.1 Model: One dN/dS ratio, Codon frequency model: F3x4 Site-class models: ns = 4 ls = 2000 Codon usage in sequences ------------------------------------------------------------------------------------------------------ Phe TTT 93 93 90 93 | Ser TCT 37 37 39 37 | Tyr TAT 52 52 53 52 | Cys TGT 55 55 57 55 TTC 23 23 24 23 | TCC 14 14 13 14 | TAC 23 23 23 23 | TGC 29 29 25 29 Leu TTA 29 29 31 29 | TCA 19 19 19 19 | *** TAA 0 0 0 0 | *** TGA 0 0 0 0 TTG 55 55 56 55 | TCG 13 13 11 13 | TAG 0 0 0 0 | Trp TGG 22 22 22 22 ------------------------------------------------------------------------------------------------------ Leu CTT 36 36 38 36 | Pro CCT 25 25 22 25 | His CAT 21 21 24 21 | Arg CGT 18 18 14 18 CTC 15 15 12 15 | CCC 15 15 14 15 | CAC 6 6 5 6 | CGC 8 8 9 8 CTA 15 15 13 15 | CCA 18 18 18 18 | Gln CAA 29 29 30 29 | CGA 8 8 7 8 CTG 21 21 25 21 | CCG 6 6 9 6 | CAG 32 32 30 32 | CGG 1 1 3 1 ------------------------------------------------------------------------------------------------------ Ile ATT 37 37 36 37 | Thr ACT 34 34 40 34 | Asn AAT 63 63 67 63 | Ser AGT 40 40 41 40 ATC 11 11 9 11 | ACC 27 27 25 27 | AAC 23 23 16 23 | AGC 15 15 12 15 ATA 21 21 26 21 | ACA 26 26 28 26 | Lys AAA 58 58 62 58 | Arg AGA 10 10 12 10 Met ATG 36 36 35 36 | ACG 18 18 16 18 | AAG 87 87 82 87 | AGG 14 14 15 14 ------------------------------------------------------------------------------------------------------ Val GTT 101 101 105 101 | Ala GCT 75 75 71 75 | Asp GAT 104 104 116 104 | Gly GGT 57 57 59 57 GTC 35 35 31 35 | GCC 27 27 27 27 | GAC 30 30 29 30 | GGC 31 31 31 31 GTA 31 31 22 31 | GCA 33 33 35 33 | Glu GAA 46 46 39 46 | GGA 17 17 18 17 GTG 64 64 74 64 | GCG 22 22 19 22 | GAG 56 56 59 56 | GGG 13 13 7 13 ------------------------------------------------------------------------------------------------------ Codon position x base (3x4) table for each sequence. #1: C1 position 1: T:0.23200 C:0.13700 A:0.26000 G:0.37100 position 2: T:0.31150 C:0.20450 A:0.31500 G:0.16900 position 3: T:0.42400 C:0.16600 A:0.18000 G:0.23000 Average T:0.32250 C:0.16917 A:0.25167 G:0.25667 #2: C2 position 1: T:0.23200 C:0.13700 A:0.26000 G:0.37100 position 2: T:0.31150 C:0.20450 A:0.31500 G:0.16900 position 3: T:0.42400 C:0.16600 A:0.18000 G:0.23000 Average T:0.32250 C:0.16917 A:0.25167 G:0.25667 #3: C3 position 1: T:0.23150 C:0.13650 A:0.26100 G:0.37100 position 2: T:0.31350 C:0.20300 A:0.31750 G:0.16600 position 3: T:0.43600 C:0.15250 A:0.18000 G:0.23150 Average T:0.32700 C:0.16400 A:0.25283 G:0.25617 #4: C4 position 1: T:0.23200 C:0.13700 A:0.26000 G:0.37100 position 2: T:0.31150 C:0.20450 A:0.31500 G:0.16900 position 3: T:0.42400 C:0.16600 A:0.18000 G:0.23000 Average T:0.32250 C:0.16917 A:0.25167 G:0.25667 Sums of codon usage counts ------------------------------------------------------------------------------ Phe F TTT 369 | Ser S TCT 150 | Tyr Y TAT 209 | Cys C TGT 222 TTC 93 | TCC 55 | TAC 92 | TGC 112 Leu L TTA 118 | TCA 76 | *** * TAA 0 | *** * TGA 0 TTG 221 | TCG 50 | TAG 0 | Trp W TGG 88 ------------------------------------------------------------------------------ Leu L CTT 146 | Pro P CCT 97 | His H CAT 87 | Arg R CGT 68 CTC 57 | CCC 59 | CAC 23 | CGC 33 CTA 58 | CCA 72 | Gln Q CAA 117 | CGA 31 CTG 88 | CCG 27 | CAG 126 | CGG 6 ------------------------------------------------------------------------------ Ile I ATT 147 | Thr T ACT 142 | Asn N AAT 256 | Ser S AGT 161 ATC 42 | ACC 106 | AAC 85 | AGC 57 ATA 89 | ACA 106 | Lys K AAA 236 | Arg R AGA 42 Met M ATG 143 | ACG 70 | AAG 343 | AGG 57 ------------------------------------------------------------------------------ Val V GTT 408 | Ala A GCT 296 | Asp D GAT 428 | Gly G GGT 230 GTC 136 | GCC 108 | GAC 119 | GGC 124 GTA 115 | GCA 134 | Glu E GAA 177 | GGA 69 GTG 266 | GCG 85 | GAG 227 | GGG 46 ------------------------------------------------------------------------------ Codon position x base (3x4) table, overall position 1: T:0.23187 C:0.13687 A:0.26025 G:0.37100 position 2: T:0.31200 C:0.20413 A:0.31562 G:0.16825 position 3: T:0.42700 C:0.16262 A:0.18000 G:0.23037 Average T:0.32362 C:0.16787 A:0.25196 G:0.25654 Model 1: NearlyNeutral (2 categories) TREE # 1: (1, 2, 3, 4); MP score: 343 lnL(ntime: 4 np: 7): -9403.640326 +0.000000 5..1 5..2 5..3 5..4 0.000004 0.000004 0.221343 0.000004 4.485275 0.838861 0.008702 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.221355 (1: 0.000004, 2: 0.000004, 3: 0.221343, 4: 0.000004); (C1: 0.000004, C2: 0.000004, C3: 0.221343, C4: 0.000004); Detailed output identifying parameters kappa (ts/tv) = 4.48527 MLEs of dN/dS (w) for site classes (K=2) p: 0.83886 0.16114 w: 0.00870 1.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 5..1 0.000 4486.6 1513.4 0.1684 0.0000 0.0000 0.0 0.0 5..2 0.000 4486.6 1513.4 0.1684 0.0000 0.0000 0.0 0.0 5..3 0.221 4486.6 1513.4 0.1684 0.0329 0.1951 147.4 295.3 5..4 0.000 4486.6 1513.4 0.1684 0.0000 0.0000 0.0 0.0 Time used: 0:01 Model 2: PositiveSelection (3 categories) TREE # 1: (1, 2, 3, 4); MP score: 343 lnL(ntime: 4 np: 9): -9403.279198 +0.000000 5..1 5..2 5..3 5..4 0.000004 0.000004 0.224812 0.000004 4.546978 0.890710 0.099935 0.043027 4.436546 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.224824 (1: 0.000004, 2: 0.000004, 3: 0.224812, 4: 0.000004); (C1: 0.000004, C2: 0.000004, C3: 0.224812, C4: 0.000004); Detailed output identifying parameters kappa (ts/tv) = 4.54698 MLEs of dN/dS (w) for site classes (K=3) p: 0.89071 0.09994 0.00935 w: 0.04303 1.00000 4.43655 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 5..1 0.000 4484.3 1515.7 0.1798 0.0000 0.0000 0.0 0.0 5..2 0.000 4484.3 1515.7 0.1798 0.0000 0.0000 0.0 0.0 5..3 0.225 4484.3 1515.7 0.1798 0.0348 0.1936 156.1 293.5 5..4 0.000 4484.3 1515.7 0.1798 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 453 V 0.697 3.394 479 L 0.547 2.870 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 453 V 0.894 2.792 +- 1.019 479 L 0.844 2.693 +- 1.090 506 N 0.738 2.454 +- 1.187 531 K 0.812 2.622 +- 1.125 534 S 0.757 2.499 +- 1.175 535 A 0.773 2.534 +- 1.162 546 A 0.768 2.522 +- 1.165 675 S 0.706 2.376 +- 1.202 695 A 0.817 2.634 +- 1.120 729 S 0.781 2.551 +- 1.154 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: 0.097 0.472 0.331 0.082 0.014 0.002 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 0.002 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 0.052 0.946 sum of density on p0-p1 = 1.000000 Time used: 0:09 Model 7: beta (10 categories) TREE # 1: (1, 2, 3, 4); MP score: 343 lnL(ntime: 4 np: 7): -9403.756008 +0.000000 5..1 5..2 5..3 5..4 0.000004 0.000004 0.220319 0.000004 4.458039 0.015025 0.080110 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.220331 (1: 0.000004, 2: 0.000004, 3: 0.220319, 4: 0.000004); (C1: 0.000004, C2: 0.000004, C3: 0.220319, C4: 0.000004); Detailed output identifying parameters kappa (ts/tv) = 4.45804 Parameters in M7 (beta): p = 0.01502 q = 0.08011 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 0.00000 0.00000 0.00040 0.65131 1.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 5..1 0.000 4487.7 1512.3 0.1652 0.0000 0.0000 0.0 0.0 5..2 0.000 4487.7 1512.3 0.1652 0.0000 0.0000 0.0 0.0 5..3 0.220 4487.7 1512.3 0.1652 0.0323 0.1955 144.9 295.7 5..4 0.000 4487.7 1512.3 0.1652 0.0000 0.0000 0.0 0.0 Time used: 0:15 Model 8: beta&w>1 (11 categories) TREE # 1: (1, 2, 3, 4); MP score: 343 lnL(ntime: 4 np: 9): -9403.243218 +0.000000 5..1 5..2 5..3 5..4 0.000004 0.000004 0.226632 0.000004 4.556944 0.994708 0.074757 0.436643 7.070801 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.226644 (1: 0.000004, 2: 0.000004, 3: 0.226632, 4: 0.000004); (C1: 0.000004, C2: 0.000004, C3: 0.226632, C4: 0.000004); Detailed output identifying parameters kappa (ts/tv) = 4.55694 Parameters in M8 (beta&w>1): p0 = 0.99471 p = 0.07476 q = 0.43664 (p1 = 0.00529) w = 7.07080 MLEs of dN/dS (w) for site classes (K=11) p: 0.09947 0.09947 0.09947 0.09947 0.09947 0.09947 0.09947 0.09947 0.09947 0.09947 0.00529 w: 0.00000 0.00000 0.00000 0.00000 0.00011 0.00164 0.01521 0.09852 0.42324 0.92552 7.07080 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 5..1 0.000 4483.9 1516.1 0.1831 0.0000 0.0000 0.0 0.0 5..2 0.000 4483.9 1516.1 0.1831 0.0000 0.0000 0.0 0.0 5..3 0.227 4483.9 1516.1 0.1831 0.0355 0.1940 159.2 294.1 5..4 0.000 4483.9 1516.1 0.1831 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 453 V 0.740 5.456 479 L 0.550 4.259 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 453 V 0.899 1.795 +- 0.662 479 L 0.843 1.719 +- 0.727 506 N 0.766 1.604 +- 0.787 531 K 0.820 1.685 +- 0.747 534 S 0.778 1.622 +- 0.780 535 A 0.791 1.642 +- 0.770 546 A 0.788 1.637 +- 0.772 675 S 0.747 1.573 +- 0.799 695 A 0.823 1.691 +- 0.744 729 S 0.798 1.652 +- 0.765 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 0.007 0.046 0.122 0.208 0.281 0.335 ws: 0.620 0.357 0.022 0.001 0.000 0.000 0.000 0.000 0.000 0.000 Time used: 0:37
Model 1: NearlyNeutral -9403.640326 Model 2: PositiveSelection -9403.279198 Model 7: beta -9403.756008 Model 8: beta&w>1 -9403.243218 Model 2 vs 1 .722256 Model 8 vs 7 1.025580
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