#NEXUS [written Thu Apr 28 09:30:52 EDT 2011 by Mesquite version 2.73 (build 544) at ComPhy.local/10.0.1.7] BEGIN TAXA; TITLE Taxa; DIMENSIONS NTAX=47; TAXLABELS Drosophila_falleni Drosophila_immigrans Drosophila_innubila Drosophila_palustrus Drosophila_phalerata Drosophila_quinaria_ME_DPT_11a Drosophila_quinaria_ME_DPT_11b Drosophila_quinaria_ME_DPT_28a Drosophila_quinaria_ME_DPT_28b Drosophila_quinaria_ME_WP_11a Drosophila_quinaria_ME_WP_11b Drosophila_quinaria_ME_WP_22a Drosophila_quinaria_ME_WP_22b Drosophila_quinaria_ME_WP_39a Drosophila_quinaria_ME_WP_39b Drosophila_quinaria_ME_WP_3a Drosophila_quinaria_ME_WP_3b Drosophila_quinaria_ME_WP_6a Drosophila_quinaria_ME_WP_6b Drosophila_quinaria_NY_LM_13a Drosophila_quinaria_NY_LM_13b Drosophila_quinaria_NY_LM_14a Drosophila_quinaria_NY_LM_14b Drosophila_quinaria_NY_TH_11a Drosophila_quinaria_NY_TH_11b Drosophila_quinaria_NY_TH_7a Drosophila_quinaria_NY_TH_7b Drosophila_quinaria_PA_PY_12a Drosophila_quinaria_PA_PY_12b Drosophila_quinaria_PA_PY_13a_W Drosophila_quinaria_PA_PY_1a Drosophila_quinaria_PA_PY_20a Drosophila_quinaria_PA_PY_2a_W Drosophila_quinaria_PA_PY_2b_W Drosophila_quinaria_PA_PY_38a_W Drosophila_quinaria_PA_PY_38b_W Drosophila_quinaria_PA_PY_39a Drosophila_quinaria_PA_PY_43a_W Drosophila_quinaria_PA_PY_43b_W Drosophila_quinaria_PA_PY_44a Drosophila_quinaria_PA_PY_6a Drosophila_quinaria_lab_stock Drosophila_recens Drosophila_suboccidentalis Drosophila_subquinaria Drosophila_transversa Drosophila_tripunctata ; END; BEGIN CHARACTERS; TITLE spk; DIMENSIONS NCHAR=451; FORMAT DATATYPE = DNA GAP = - MISSING = ?; MATRIX Drosophila_falleni CAGTCCTCGGATGAGGAGATTTTTGATACCGATATACAAATTGCCAAGTGCTCTGGAACAATTCGCACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTACCATTGCCCAATGTGAACTCGACAATTTTGCGCAAGGTCTTGACCTGGGCCAATTATCACAAGGATGATCCGCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGTACCGATGACATCACATCCTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTCTTTGAACTAATATTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTGGAATTAACCTGCAAGACTGTCGCCAATATGATCAAGGGCAAGACTCCAGAGGACATACGCAAGACATTCAACATCAAGAAGGACTTTACTCCCGCCGAGGAGGAGCAGGTGCGCAAGGAGAACG Drosophila_immigrans CAGTCCTCGGATGAGGAGATTTTTGATACCGATATACAGATTGCCAAGTGCTCGGGCACCATTCGCACCATGCTCGAGGACTGCGGCATGGAGGAGGACGAGAATGCCATTGTTCCGTTGCCCAATGTCAATTCAACCATATTGCGCAAAGTTCTCACCTGGGCCAATTATCACAAGGACGATCCGCAGCCCACCGAGGACGATGAGAGCAAGGAGAAGCGCACCGATGACATCACATCGTGGGACGCTGACTTCCTCAAGGTGGATCAGGGCACGCTTTTTGAACTGATTTTGGCTGCCAACTATTTGGATATCAAGGGTCTGCTGGAGCTAACGTGCAAGACTGTGGCCAACATGATCAAGGGCAAGACTCCGGAGGACATTCGCAAGACGTTCAACATCAAGAAGGACTTCACGCCTGCCGAGGAGGAGCAGGTGCGCAAGGAGAACG Drosophila_innubila CAGTCTTCGGATGAGGAGATTTTTGATACCGATATACAAATTGCCAAGTGCTCTGGAACAATTCGCACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAACTCCACAATTTTGCGCAAGGTCTTGACCTGGGCCAATTATCACAAGGATGATCCCCAGCCAACCGAGGACGATGAGAGCAAGGAGAAGCGTACCGATGATATCACATCCTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTCTTTGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTGGAATTAACCTGCAAGACTGTCGCCAATATGATCAAGGGCAAGACTCCAGAGGACATACGCAAGACATTCAACATCAAGAAGGACTTTACTCCCGCCGAGGAGGAGCAGGTGCGCAAGGAGAACG Drosophila_palustrus CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGCTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTATCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTTACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_phalerata CAGTCCTCGGATGAGGAGATTTTTGATACCGATATACAAATTGCCAAGTGCTCTGGAACGATTCGGACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAACTCAACCATCTTGCGAAAGGTCCTGACCTGGGCCAATTATCACAAGGATGATCCACAGCCGACCGAGGATGATGAGAGCAAGGAGAAGCGTACCGATGATATTACATCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTCTTTGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGATTGCTGGAGTTAACCTGCAAGACGGTGGCCAATATGATCAAGGGCAAGACTCCCGAGGACATACGCAAGACATTCAACATCAAGAAGGACTTTACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_DPT_11a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_DPT_11b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGTAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_DPT_28a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_DPT_28b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGTAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_11a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_11b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_22a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_22b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_39a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_39b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_3a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_3b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_6a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_ME_WP_6b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_LM_13a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_LM_13b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACTGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_LM_14a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_LM_14b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_TH_11a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_TH_11b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_TH_7a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_NY_TH_7b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACTGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_12a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_12b CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATAAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_13a_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGTATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCAAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGATATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_1a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAAGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACTGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_20a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_2a_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_2b_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACTGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_38a_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_38b_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_39a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_43a_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACTGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_43b_W CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACTGAGGACGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_44a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_PA_PY_6a CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAATTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_quinaria_lab_stock CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCTAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTTTCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACTTCGTGGGATGCCGATTTTCTTAAAGTCGATCAAGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTTAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_recens CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATCCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAACTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAACTATCACAAGGATGATCCGCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACATCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTGGAGTTAACCTGCAAGACAGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_suboccidentalis CAGTCCTCCGATGAGGAGATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTATCATAAGGATGATCCTCAGCCTACCGAGGATGATGAGAGCAAGGAGAAGCGAACTGATGATATCACATCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_subquinaria CAGTCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCGTTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTCTTGACCTGGGCCAATTATCACAAGGATGATGCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACATCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACAGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_transversa CA?TCCTCCGATGAGGAAATTTTTGATACCGATATACAAATAGCCAAGTGTTCTGGAACAATTCGAACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAACGCCATTGTGCCATTGCCCAATGTGAATTCGACAATTTTGCGAAAGGTGTTGACCTGGGCCAATTATCACAAGGATGATCCTCAGCCAACCGAGGATGATGAGAGCAAGGAGAAGCGAACCGATGATATCACATCGTGGGATGCCGATTTTCTTAAAGTCGATCAGGGCACACTTTTCGAACTGATTTTGGCCGCCAACTATTTGGATATTAAGGGCTTGCTTGAGTTAACCTGCAAGACTGTCGCCAACATGATCAAGGGCAAGACTCCAGAGGACATTCGGAAGACATTCAACATCAAGAAGGACTTCACTCCCGCCGAGGAGGAGCAGGTTCGCAAGGAGAACG Drosophila_tripunctata CAGTCGTCGGATGAGGAGATTTTCGATACCGATATACAGATCGCCAAATGTTCGGGAACAATTCGCACCATGTTGGAGGATTGCGGCATGGAGGAGGATGAGAATGCGATTGTTCCATTGCCGAATGTGAATTCAACAATATTGCGCAAGGTCTTGACATGGGCCAACTATCACAAGGATGATCCGCAGCCAACCGAGGACGATGAGAGCAAGGAGAAACGCACCGATGACATCACATCGTGGGATGCTGATTTCTTGAAAGTTGATCAGGGTACACTCTTTGAACTGATATTGGCTGCCAACTATTTGGATATTAAGGGACTGTTGGAGTTAACCTGCAAGACGGTAGCCAATATGATCAAGGGCAAGACTCCCGAGGATATACGCAAGACATTCAATATCAAAAAGGATTTCACTCCAGCCGAGGAGGAGCAGGTGCGCAAGGAGAACG ; END; BEGIN MRBAYES; lset nst = 6 rates = invgamma; prset applyto = ( all ) brlenspr = Unconstrained : Exponential ( 100 ); mcmcp ngen = 2000000 nruns = 4 printfreq = 10000 samplefreq = 1000 nchains = 4 filename = results; END; BEGIN ASSUMPTIONS; TYPESET * UNTITLED = unord: 1 - 451; END; BEGIN TREES; Title spk; LINK Taxa = Taxa; TRANSLATE 1 Drosophila_falleni, 2 Drosophila_immigrans, 3 Drosophila_innubila, 4 Drosophila_palustrus, 5 Drosophila_phalerata, 6 Drosophila_quinaria_ME_DPT_11a, 7 Drosophila_quinaria_ME_DPT_11b, 8 Drosophila_quinaria_ME_DPT_28a, 9 Drosophila_quinaria_ME_DPT_28b, 10 Drosophila_quinaria_ME_WP_11a, 11 Drosophila_quinaria_ME_WP_11b, 12 Drosophila_quinaria_ME_WP_22a, 13 Drosophila_quinaria_ME_WP_22b, 14 Drosophila_quinaria_ME_WP_39a, 15 Drosophila_quinaria_ME_WP_39b, 16 Drosophila_quinaria_ME_WP_3a, 17 Drosophila_quinaria_ME_WP_3b, 18 Drosophila_quinaria_ME_WP_6a, 19 Drosophila_quinaria_ME_WP_6b, 20 Drosophila_quinaria_NY_LM_13a, 21 Drosophila_quinaria_NY_LM_13b, 22 Drosophila_quinaria_NY_LM_14a, 23 Drosophila_quinaria_NY_LM_14b, 24 Drosophila_quinaria_NY_TH_11a, 25 Drosophila_quinaria_NY_TH_11b, 26 Drosophila_quinaria_NY_TH_7a, 27 Drosophila_quinaria_NY_TH_7b, 28 Drosophila_quinaria_PA_PY_12a, 29 Drosophila_quinaria_PA_PY_12b, 30 Drosophila_quinaria_PA_PY_13a_W, 31 Drosophila_quinaria_PA_PY_1a, 32 Drosophila_quinaria_PA_PY_20a, 33 Drosophila_quinaria_PA_PY_2a_W, 34 Drosophila_quinaria_PA_PY_2b_W, 35 Drosophila_quinaria_PA_PY_38a_W, 36 Drosophila_quinaria_PA_PY_38b_W, 37 Drosophila_quinaria_PA_PY_39a, 38 Drosophila_quinaria_PA_PY_43a_W, 39 Drosophila_quinaria_PA_PY_43b_W, 40 Drosophila_quinaria_PA_PY_44a, 41 Drosophila_quinaria_PA_PY_6a, 42 Drosophila_quinaria_lab_stock, 43 Drosophila_recens, 44 Drosophila_suboccidentalis, 45 Drosophila_subquinaria, 46 Drosophila_transversa, 47 Drosophila_tripunctata; TREE PAUP_1 = ((2:0.100579,47:0.06938):0.0200185,(5:0.024189,((1:0.009297,3:0.009217):0.007651,(43:0.004541,(45:0.004827,(44:0.009078,(46:0.002243,(4:0.004482,(((30:0.006782,36:0.0):0.0,(39:0.0,(27:0.0,(21:0.0,31:0.002233):0.0):0.0):0.002232):0.002233,(34:0.002242,(38:0.002235,(29:0.002245,((7:0.0,9:0.0):0.002235,((41:0.0,(40:0.0,(19:0.0,(18:0.0,(10:0.0,11:0.0):0.0):0.0):0.0):0.0):0.002235,(6:0.0,(8:0.0,(12:0.0,(13:0.0,(14:0.0,(15:0.0,(16:0.0,(17:0.0,(20:0.0,(22:0.0,(23:0.0,(24:0.0,(25:0.0,(26:0.0,(28:0.0,(32:0.0,(33:0.0,(35:0.0,(37:0.0,42:0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.0):0.002245):0.002256):0.004553):0.002266):0.0):0.001937):0.007193):0.036183):0.010718):0.0200185)[% ] [% ] [% setBetweenBits = selected ]; END; BEGIN CODONS; CODESET * UNTITLED = universal: 1 - 451; END; BEGIN MESQUITECHARMODELS; ProbModelSet * UNTITLED = 'Jukes-Cantor': 1 - 451; END; Begin MESQUITE; MESQUITESCRIPTVERSION 2; TITLE AUTO; tell ProjectCoordinator; timeSaved 1303997452440; getEmployee #mesquite.minimal.ManageTaxa.ManageTaxa; tell It; setID 0 3259149430814739673; endTell; getEmployee #mesquite.charMatrices.ManageCharacters.ManageCharacters; tell It; setID 0 3091514327837699715; mqVersion 273; checksumv 0 2 689736847 null getNumChars 451 numChars 451 getNumTaxa 47 numTaxa 47 short true bits 15 states 15 sumSquaresStatesOnly 427111.0 sumSquares 427111.0 NumFiles 1 NumMatrices 1; mqVersion; endTell; getWindow; tell It; suppress; setResourcesState true false 273; setPopoutState 400; setExplanationSize 0; setAnnotationSize 0; setFontIncAnnot 0; setFontIncExp 0; setSize 894 523; setLocation 8 22; setFont SanSerif; setFontSize 10; getToolPalette; tell It; endTell; setActive; desuppress; endTell; endTell; end;