#NEXUS [!This data set was downloaded from TreeBASE, a relational database of phylogenetic knowledge. TreeBASE has been supported by the NSF, Harvard University, Yale University, SDSC and UC Davis. Please do not remove this acknowledgment from the Nexus file. Generated on May 29, 2024; 20:34 GMT TreeBASE (cc) 1994-2008 Study reference: Jaklitsch W.M., Komon M., Kubicek C., & Druzhinina I. 2006. Hypocrea voglmayrii sp. nov. from the Austrian Alps represents a new phylogenetic clade in Hypocrea/Trichoderma. Mycologia, null. TreeBASE Study URI: http://purl.org/phylo/treebase/phylows/study/TB2:S1426] BEGIN TAXA; TITLE TaxonLabelSet12151; DIMENSIONS NTAX=33; TAXLABELS Hypocrea_aureoviridis Hypocrea_catoptron Hypocrea_chlorospora Hypocrea_citrina Hypocrea_gelatinosa Hypocrea_jecorina Hypocrea_lixii Hypocrea_lutea Hypocrea_melanomagna Hypocrea_minutispora Hypocrea_pachybasioides Hypocrea_pilulifera Hypocrea_pulvinata Hypocrea_rufa Hypocrea_schweinitzii Hypocrea_sinuosa Hypocrea_strictipilosa Hypocrea_tawa Hypocrea_voglmayri_CBS117710 Hypocrea_voglmayri_CBS117711 Trichoderma_aggressivum Trichoderma_fertile Trichoderma_hamatum Trichoderma_helicum Trichoderma_longibrachiatum Trichoderma_longipile Trichoderma_oblongisporum Trichoderma_pubescens Trichoderma_rossicum Trichoderma_saturnisporum Trichoderma_spirale Trichoderma_strigosum Trichoderma_tomentosum ; END; BEGIN CHARACTERS; [! TreeBASE Matrix URI: http://purl.org/phylo/treebase/phylows/matrix/TB2:M1564] TITLE rpb2; LINK TAXA = TaxonLabelSet12151; DIMENSIONS NCHAR=807; FORMAT DATATYPE=DNA SYMBOLS= "A C G T" MISSING=? GAP= -; MATRIX [ 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600 610 620 630 640 650 660 670 680 690 700 710 720 730 740 750 760 770 780 790 800 ] [ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ] Hypocrea_aureoviridis TGGGGTGATCAGAAGAAAGCCATGAGTTCAACAGCTGGTGTGTCCCAGGTGCTTAATCGTTACACGTTTGCTTCGACCCTGTCACATTTGCGCCGTACCAACACACCCATTGGAAGAGATGGTAAACTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGCTTGGTCTGCCCGGCCGAGACACCCGAAGGCCAAGCCTGTGGTCTGGTCAAAAACCTGTCGTTGATGTGTTACGTCAGTGTCGGTTCCCCTTCCGAACCTCTGATTGAGTTCATGATCAACCGAGGTATGGAAGTCGCCGAAGAGTACGAGCCACTGCGATATCCCCCCGCTACCAAGATTTTTGTGAATGGCGTCTGGGCCGGAGTCACCCAAGACCCTAAGCCCCTGGTGAACCAGGTTCTGGACGCTCGCCGCGAGTCTTATTTGCAGTACGAAGTCTCTCTGGTCAGAGAAATTCGAGACCAGGAGTTCAAAATCTTTTCGGACGCAGGTCGTGTCATGCGGCCCGTGTTTACAGTTCAGCAGGAAGATGACCCTGAAACGGGCATCAACAAGGGTCATCTGGTATTGACCAAGGAACTCGTCAACAGACTGGCCAAAGAGCAGGCCGAACCCCCAGAGGACCCAAGCATGAAGATGGGGTGGGAGGGGTTGATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACATCCATGATTTGCATGACTCCAGAAGATCTCGAGCTCTATCGTCTTCAAAAGGCCGGTATTTCTACGGAAGAGGACAT-GGGAGATGATCCGAATAAGCG Hypocrea_catoptron TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGTTACACGTTTGCTTCGACCCTATCGCATTTGCGTCGTACCAACACTCCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAAGGACAGGCTTGTGGTCTGGTCAAAAACTTGTCTTTGATGTGCTACGTCAGTGTTGGTTCTCCCTCCGAACCTCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTCGTCGAAGAGTACGAGCCGCTGCGGTATCCTCATGCTACCAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTTCACCAAGACCCTAAGCACTTGGTGAACCAGGTTCTGGACACTCGTCGCAAGTCCTATCTGCAGTACGAAGTCTCTCTTGTGAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTCATGCGACCTGTATTTACCGTTCAGCAGGAAGATGACGCCGAAACGGGCATCAACAAGGGCCACCTTGTATTGACCAAGGAGCTCGTCAATAGATTGGCCAAGGAGCAGGCTGAACCTCCGGAAGACCCGAGCATGAAGATTGGCTGGGAGGGATTAATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACTTCCATGATCTGCATGACGCCAGAGGATCTCGAACTGTATCGTCTTCAGAAGGCCGGCATCTCTACCGAGGAAGACAT-GGGAGATGATCCGAACAAGCG Hypocrea_chlorospora TGGGGTGATCAGAAGAAGGCCATGAGCTCAACTGCAGGCGTGTCCCAGGTGCTCAACCGCTACACGTTTGCTTCGACCCTGTCACATTTGCGTCGTACCAACACACCCATTGGAAGAGATGGCAAGTTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCCGCCGAGACACCCGAAGGGCAAGCTTGTGGTCTTGTCAAAAATCTGTCGTTGATGTGTTATGTCAGTGTCGGTTCCCCATCTGAACCTCTGATTGAGTTCATGATCAACCGAGGTATGGAAGTTGTAGAGGAGTATGAGCCACTACGATATCCTCATGCTACCAAGATTTTTGTCAACGGTGTATGGGTTGGAGTTCACCAAGATCCCAAGCACCTGGTGAACCAGGTTCTGGACACTCGTCGCAAGTCTTACTTGCAGTACGAAGTCTCTCTCGTCAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCGGGCCGTGTCATGCGACCTGTGTTTACCGTCCAGCAAGAAGATGACCCTGAAACGGGTATTAACAAGGGCCATTTGGTACTGACCAAGGAACTCGTCAATAGGCTGGCCAAGGAGCAGGCCGAACCTCCAGAGGACCCGAGCATGAAGATTGGATGGGAGGGATTGATCAGGGCTGGTGCAGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCCATGATCTGCATGACACCAGAAGATCTCGAGCTTTATCGCCTTCAAAAGGCTGGTATCTCTACTGAAGAGGACAT-GGGAGACGATCCGAACAAGCG Hypocrea_citrina TGGGGTGATCAGAAGAAGGCCATGAGCTCGACCGCAGGTGTATCTCAAGTGCTTAACCGTTATACCTTTGCTTCTACTCTATCACATTTGCGTCGTACCAACACGCCCATTGGACGAGACGGCAAGTTGGCAAAGCCACGACAACTGCACAACACACATTGGGGTTTGGTCTGCCCGGCCGAGACACCCGAAGGACAGGCTTGTGGCTTGGTCAAAAATTTGTCTCTGATGTGCTATGTCAGTGTCGGATCTCCCTCCGAGCCTCTGATCGAGTTTATGATCAACAGAGGTATGGAAGTCGTCGAAGAGTATGAGCCACTGCGATATCCTCATGCTACAAAGATCTTTGTGAACGGTGTCTGGGTTGGAGTCCATCAGGATCCCAAACATCTCGTGAACCAAGTTCTGGATACTCGTCGTAAATCCTATCTACAGTACGAAGTCTCTCTCATCAGAGACATTCGAGACCAGGAATTCAAAATCTTCTCTGACGCAGGTCGTGTTATGCGGCCTGTCTTTACAGTCCAGCAGGAAGATGACCCGGACACGGGCATTAACAAGGGTCACTTGGTCTTGACCAAGAGCCTCGTCAATCAGCTTGCGAAGGAGCAGGCCGAACCTCCAGAAGACCCGAGCCTGAAACTTGGTTGGGAGGGCTTGATTAGAGCTGGTGCGGTTGAATATCTCGATGCGGAAGAAGAGGAGACGTCTATGATTTGCATGACGCCAGAAGATCTTGAGCTCTATCGTCTTCAGAAAGCTGGCATTGCCACGGATGAAGACAT-GGGAGATGATCCGAATAAGCG Hypocrea_gelatinosa TGGGGCGATCAGAAGAAGGCCATGAGCTCAACTGCCGGTGTGTCCCAGGTGCTTAACCGTTACACGTTTGCCTCGACCCTATCGCATTTGCGTCGTACCAACACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCACTGGGGTTTGGTCTGCCCGGCCGAGACACCCGAAGGGCAGGCTTGTGGCCTGGTCAAAAACCTGTCTTTGATGTGTTACGTCAGTGTCGGTTCTCCCTCCGAACCGCTAATTGAGTTCATGATCAATAGAGGCATGGAAGTCGTCGAAGAGTACGAGCCGCTGCGGTATCCCCATGCCACCAAGATTTTTGTCAACGGTGTCTGGGTTGGAGTTCACCAAGACCCTAAGCATCTGGTGAGCCAGGTCCTAGACACTCGTCGCAAATCCTATCTGCAGTACGAAGTCTCGCTGGTCAGAGAAATTCGAGACCAGGAGTTCAAAATATTTTCCGACGCAGGCCGTGTCATGCGACCCGCATTTACCGTTCAGCAGGAAGATGACCCCGAAACAGGCATCAACAAGGGCCACCTGGTATTGACCAAGGAGCTCGTCAACAGACTGGCCAAGGAGCAGGCTGAACCTCCGGAAGACCCGAGCATGAAGATTGGATGGGAGGGGTTAATCAGGGCCGGCGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACGGCTATGATTTGCATGACGCCGGAGGATCTCGAGCTGTATCGTCTACAGAAAGCCGGTATTTCTACCGAGGAAGATAT-GGGGGATGATCCGAACAAGCG Hypocrea_jecorina TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGAGTGTCTCAGGTGCTCAACCGATACACGTTCGCCTCGACCCTCTCGCATTTGCGCCGCACCAACACGCCCATCGGAAGAGACGGCAAGCTGGCGAAGCCTCGACAGCTGCACAACACCCATTGGGGTCTGGTCTGCCCGGCCGAGACGCCCGAAGGACAGGCCTGTGGTCTTGTCAAGAACCTGTCTCTGATGTGTTATGTCAGTGTCGGCTCTCCCTCAGAGCCGTTGATCGAGTTTATGATCAATAGGGGCATGGAAGTGGTCGAGGAATACGAGCCGCTGCGTTATCCTCACGCTACCAAGATCTTTGTCAACGGTGTCTGGGTGGGCATTCACCAAGATCCCAAACATCTGGTGCAGCAGGTCGTGGACACTCGTCGTAAGTCGTACCTGCAGTACGAGGTCTCTCTGGTCAGAGAAATTCGAGACCAGGAGTTCAAGATCTTCTCCGACGCAGGCCGCGTCATGCGACCCGTCTTTACCGTCCAGCAAGATGACGAGTCGGACACTGGCATTCCCAAGGGCCACTTGGTCCTGACCAAAGACCTCGTTAATAAATTGGCCCAGGAGCAGGCCGAGCCTCCAGAAGACCCAAGCATGAAGATTGGTTGGG??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Hypocrea_lixii TGGGGTGATCAGAAGAAGGCCATGAGCTCAACTGCAGGTGTGTCCCAGGTGCTTAACCGTTACACGTTTGCTTCGACCCTATCACATTTGCGTCGTACCAATACTCCTATCGGAAGAGATGGTAAGCTCGCAAAGCCTCGACAGCTTCACAACACGCACTGGGGTTTGGTCTGCCCGGCCGAGACACCCGAGGGACAGGCTTGTGGTCTGGTCAAGAACTTGTCTTTGATGTGTTACGTCAGTGTCGGTTCTCCCTCCGAACCTCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTCGTGGAAGAGTACGAGCCGCTGCGGTATCCTCATGCTACAAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTCCACCAAGACCCTAAGCACTTGGTGAACCAGGTCCTGGACACTCGTCGCAAGTCCTATCTGCAATACGAAGTCTCTCTCGTGAGAGAAATTCGAGACCAGGAATTCAAAATCTTTCCGACCGCAGGCCGTGTAATGCGGCCAGTCTTTACCGTTCAGCAGGAAGATGACCCGGAAACGGGCATCAACAAGGGCCACCTGGTATTGACCAAGGAGCTCGTCAATAGATTGGCCAAGGAGCAGGCTGAACCTCCGGAAGACCCCAGCATGAAGATTGGATGGGAGGGATTGATTAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCCATGATCTGCATGACGCCAGAGGATCTCGAGCTGTATCGTCTTCAGAAGGCTGGTATTAACACTGAGGAAGACAT-GGGAGATGACCCGAACAAGCG Hypocrea_lutea TGGGGCGACCAGAAGAAGGCCATGAGCTCGACCGCAGGCGTGTCCCAGGTGCTGAACCGTTACACTTTTGCTTCGACCCTGTCACATTTGCGTCGTACCAACACACCCATCGGACGAGATGGTAAACTGGCCAAGCCTCGTCAGCTTCACAACACGCACTGGGGCTTGGTCTGCCCGGCTGAGACGCCCGAGGGACAAGCTTGTGGCTTGGTCAAGAACTTGTCTCTGATGTGTTATGTCAGTGTCGGATCTCCCTCTGAACCCCTGATCGAGTTTATGATCAACAGAGGCATGGAAGTCGTTGAAGAATATGAACCTCTGCGATATCCTCATGCCACCAAGATCTTTGTCAACGGTGTCTGGGTTGGCGTTCACCAAGATCCTAAGCACCTGGTGAACCAAGTCTTGGACACGCGTCGCAAATCCTATCTCCAGTACGAGGTCTCTCTGATCAGAGACATTCGTGATCAGGAATTCAAAATCTTTTCCGACGCAGGTCGTGTCATGCGTCCTGTGTTTACGGTCCAACAGGAGGATGACCCCGAGACGGGCATTGAGAAGGGCCACTTGGTCCTGACGAAGGAGCTCGTCAACAAGTTGGCAAAGGAGCAGGCAGAGCCCCCCGAAGACCCGAGCATGAAGGTCGGATGGGAAGGGCTCATTCGGGCGGGTGCGGTTGAATATCTCGATGCCGAGGAAGAGGAGACGGCCATGATTTGCATGACGCCGGAGGATCTCGAGCTCTATCGTCTTCAGAAGGCTGGCATTGCCACGGAAGAAGACAT-GAGCGACGATCCGAACAAGCG Hypocrea_melanomagna TGGGGCGACCAGAAGAAGGCCATGAGCTCGACCGCAGGCGTGTCCCAGGTGCTGAACCGTTACACTTTTGCTTCGACCCTGTCACATTTGCGTCGTACCAACACACCCATCGGACGAGATGGTAAACTGGCCAAGCCTCGTCAGCTTCACAACACGCACTGGGGCTTGGTCTGCCCGGCTGAGACGCCCGAGGGACAAGCTTGTGGCTTGGTCAAGAACTTGTCTCTGATGTGTTATGTCAGTGTCGGATCTCCCTCTGAACCCCTGATCGAGTTTATGATCAACAGAGGCATGGAAGTCGTTGAAGAATATGAACCTCTGCGATATCCTCATGCCACCAAGATCTTTGTCAACGGTGTCTGGGTTGGCGTTCACCAAGATCCTAAGCACCTGGTGAACCAAGTCTTGGACACGCGTCGCAAATCCTATCTCCAGTACGAGGTCTCTCTGATCAGAGACATTCGTGATCAGGAATTCAAAATCTTTTCCGACGCAGGTCGTGTCATGCGTCCTGTGTTTACGGTCCAACAGGAGGATGACCCCGAGACGGGCATTGAGAAGGGCCACTTGGTCCTGACGAAGGAGCTCGTCAACAAGTTGGCAAAGGAGCAGGCAGAGCCCCCCGAAGACCCGAGCATGAAGGTCGGATGGGAAGGGCTCATTCGGGCGGGTGCGGTTGAATATCTCGATGCCGAGGAAGAGGAGACGGCCATGATTTGCATGACGCCGGAGGATCTCGAGCTCTATCGTCTTCAGAAGGCTGGCATTGCCACGGAAGAAGACAT-GAGCGACGATCCGAACAAGCG Hypocrea_minutispora TGGGGTGATCAGAAGAAGGCAATGAGCTCGACCGCAGGTGTGTCACAGGTGCTTAACCGTTACACTTTTGCTTCGACACTGTCCCATTTGCGTCGTACCAACACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACACATTGGGGTTTGGTCTGCCCGGCCGAGACGCCTGAAGGACAGGCTTGTGGCCTGGTCAAAAACTTGTCTTTGATGTGCTACGTCAGTGTCGGGTCTCCCTCCGAGCCCCTAATTGAGTTTATGATCAACAGAGGTATGGAAGTCGTCGAGGAGTACGAGCCACTGCGGTATCCCCACGCCACAAAGATCTTTGTGAACGGTGTCTGGGTCGGAATCCACCAGGATCCCAAGCATCTGGTGAACCAGGTGTTGGACACTCGTCGCAAATCGTATCTACAATACGAAGTCTCTCTGATCAGAGACATTCGTGACCAGGAATTCAAAATCTTCTCTGATGCAGGTCGTGTTATGCGTCCTGTCTTTACTGTGCAGCAAGAAGATGATCCGGAAACGGGCATCAACAAGGGCCATCTGGTCTTGACGAAAGATCTCGTCAACAGACTGGCCAAGGAGCAGGTTGAGCCTCCAGAAGACCCAAGCATGAAGCTTGGATGGGAGGGATTGATTAGGGCTGGCGCGGTGGAATATCTCGATGCCGAGGAAGAAGAGACGTCTATGATTTGCATGACCCCAGAGGATCTCGAGCTTTATCGTCTTCAGAAAGCTGGCATTGCCACAGAAGAGGACAT-TGGAGATGATCCAAACAAGCG Hypocrea_pachybasioides TGGGGTGACCAGAAGAAGGCAATGAGTTCGACCGCAGGTGTATCACAGGTGCTCAACCGTTATACTTTTGCTTCGACACTATCCCATTTGCGTCGTACCAACACACCTATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACACATTGGGGTTTGGTCTGCCCGGCCGAGACACCTGAAGGACAGGCTTGTGGCCTGGTCAAAAACTTGTCTTTGATGTGCTACGTCAGTGTCGGATCTCCCTCAGAGCCCCTAATTGAGTTTATGATCAACAGAGGTATGGAAGTCGTAGAGGAATATGAGCCACTGCGATATCCTCATGCCACGAAGATCTTTGTGAACGGTGTCTGGGTTGGAATCCACCAGGATCCCAAGCATCTGGTGAACCAAGTTTTGGACACTCGTCGCAAATCTTACCTGCAATACGAAGTCTCTCTGATCAGAGAAATTCGTGACCAGGAATTCAAAATCTTCTCTGACGCAGGTCGTGTTATGCGTCCCGTTTTTACTGTACAGCAAGAAGATGACCCGGAAACGGGCATTAACAAAGGCCACCTGGTCTTGACGAAGGATCTCGTCAACAGACTGGCAAAGGAGCAGGTTGAGCCTCCAGAAGACCCAAGCATGAAGCTTGGATGGGAGGGGCTAATTAGGGCTGGTGCGGTGGAATATCTCGATGCCGAGGAAGAAGAGACATCTATGATCTGCATGACCCCGGAGGATCTCGAGCTTTATCGTCTTCAGAAAGCTGGTATTTTCACAGAAGAAGACATCGGGAGATGATCCAAACAAGCG Hypocrea_pilulifera TGGGGTGATCAGAAAAAGGCAATGAGCTCAACCGCAGGTGTCTCACAGGTGCTAAACCGTTATACTTTTGCCTCGACGCTATCACATTTGCGCCGTACCAACACACCCATTGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACACATTGGGGTTTGGTCTGTCCGGCCGAGACACCTGAGGGACAGGCCTGTGGTCTGGTCAAAAACTTGTCTCTGATGTGCTACGTCAGTGTCGGATCTCCCTCCGAGCCCCTGATTGAGTTTATGATCAACCGAGGTATGGAAGTCGTTGAGGAATACGAGCCGCTGCGGTATCCCCATGCCACGAAGATCTTTGTGAACGGTGTCTGGGTTGGAATCCACCAGGATCCCAAGCATCTGGTGAACCAAGTTTTGGACACTCGTCGCAAATCCTATCTACAATACGAAGTCTCTCTGATCAGAGAAATCCGTGACCAGGAATTCAAAATCTTCTCTGACGCAGGTCGTGTTATGCGCCCTGTTTTCACTGTACAGCAAGAAGATGACCCGGAAACGGGCATTAACAAAGGCCACCTGGTATTGACGAAGGATCTCGTCAACAGACTAGCAAAGGAGCAGGCTGAGCCTCCGGAAGACCCAAGCATGAAGCTAGGATGGGAGGGATTAATTAGGGCTGGCGCGGTGGAATATCTCGATGCCGAGGAAGAAGAGACGTCTATGATTTGCATGACCCCGGAGGATCTAGAACTATATCGTCTTCAGAAAGCTGGCATTGCCACAGAAGAAGACAT-GGGAGATGATCCAAACAAGCG Hypocrea_pulvinata TGGGGTGACCAGAAGAAGGCCATGAGCTCGACCGCAGGTGTATCTCAGGTGCTTAACCGTTATACCTTTGCTTCTACTCTATCACATTTGCGTCGTACCAACACGCCCATTGGACGAGACGGCAAGTTGGCAAAGCCACGACAACTGCACAACACACATTGGGGTTTGGTCTGCCCGGCCGAGACACCCGAAGGACAGGCTTGCGGCTTGGTCAAGAATTTGTCTCTAATGTGCTATGTGAGTGTCGGATCCCCCTCCGAGCCTCTGATCGAGTTCATGATCAACAGAGGTATGGAAGTTGTCGAAGAGTATGAGCCACTGCGGTATCCTCATGCTACAAAGATCTTTGTGAACGGTGTCTGGGTTGGAGTCCATCAGGATCCCAAACATCTCGTGAACCAAGTTCTGGATACTCGACGCAAATCCTATCTGCAGTACGAAGTGTCTCTCATCAGAGACATTCGAGACCAGGAATTCAAAATATTCTCTGACGCAGGTCGTGTTATGCGGCCTGTCTTTACAGTCCAGCAGGAAGATGACCCGGACACGGGCATTAACAAGGGTCACTTGGTCTTGACCAAGAGCCTCGTCAATCAGCTTGCGAAGGAGCAGGCCGAACCTCCAGAAGACCCGAGCCAGAAACTGGGTTGGGAGGGCTTAATTAGAGCTGGTGCGGTTGAATATCTCGATGCGGAAGAAGAGGAGACGTCTATGATTTGCATGACGCCAGAAGATCTTGAGCTCTATCGTCTTCAGAAAGCTGGCATTGTCACAGATGAAGACAT-AGGAGATGATCCGAAT?AGCG Hypocrea_rufa TGGGGTGACCAGAAGAAGGCAATGAGCTCGACTGCAGGTGTCTCACAGGTGCTTAACCGTTACACTTTTGCTTCTACACTTTCCCATTTGCGTCGTACCAATACACCCATCGGAAGAGATGGTAAGCTAGCGAAGCCTCGACAGCTCCACAACACACATTGGGGTTTGGTGTGCCCGGCTGAGACCCCTGAGGGACAGGCTTGTGGTCTGGTCAAGAATCTGTCTCTGATGTGCTACGTTAGTGTTGGATCTCCTTCTGAGCCTTTGATCGAGTTTATGATCAACAGAGGTATGGAAGTCGTTGAGGAGTATGAGCCACTGAGGTATCCCCATGCCACAAAGATTTTTGTGAATGGTGTCTGGGTTGGAATCCATCAAGACCCCAAGCATCTGGTAAACCAAGTTTTGGATACTCGTCGCAAATCCTATCTGCAGTACGAAGTTTCTCTGATCAGAGAAATTCGAGACCAAGAATTCAAAATCTTCTCAGATGCCGGTCGTGTTATGCGTCCCGTCTTCACTGTACAGCAGGAAGATGACCCGGAAACGGGAATCAACAAGGGCCACCTGGTTTTGACCAAGGACCTCGTCAATAGACTGGCCAAAGAGCAGGCTGAGCCCCCAGAAGACCCAAGCATGAAGCTCGGATGGGAGGGGCTGATTAGAGCTGGTGCGGTGGAATATCTCGACGCCGAGGAAGAAGAAACGTCCATGATTTGCATGACACCGGAAGATCTTGAGCTTTATCGTCTTCAAAAGGCCGGCATTTCCACAGATGAAGACAT-AGGAGATGATCCAAATAAGCG Hypocrea_schweinitzii TGGGGTGATCAGAAGAAGGCCATGAGCTCGACCGCAGGTGTGTCTCAGGTGCTCAACCGCTACACGTTTGCCTCGACCCTCTCGCATTTGCGGCGTACCAACACGCCCATCGGAAGAGATGGCAAGCTGGCGAAGCCTCGACAGCTTCACAACACCCATTGGGGTCTCGTCTGCCCGGCCGAGACACCCGAAGGACAGGCCTGTGGCCTTGTCAAGAACCTGTCTCTGATGTGTTATGTCAGTGTCGGCTCTCCGTCAGAGCCCTTGATTGAGTTTATGATCAATAGAGGCATGGAAGTGGTCGAGGAATACGAGCCACTGCGTTATCCTCACGCCACCAAGATCTTCGTCAACGGTGTCTGGGTGGGCATTCACCAGGACCCTAAGCATCTCGTCCAGCAGGTCGTGGACACTCGTCGTAAATCCTACCTGCAGTACGAGGTCTCTCTCGTCAGAGAAATTCGAGACCAAGAGTTCAAGATCTTCTCGGATGCTGGCCGTGTCATGCGACCCGTTTTTACCGTCCAGCAAGATGAAGAGTCGGACACTGGCATTCCAAAGGGCCACTTGGTACTGACCAAAGACCTCGTTAATAAGTTGGCCCAAGAGCAGGCCGAGCCGCCAGAAGACCCAAGCATGAAGATTGGATGGGAGGGGCTCATCAGGGCTGGTGCGGTTGAGTATCTCGACGCCGAGGAAGAGGAGACGGCCATGATTTGCATGACTCCCGAGGATCTCGAGCTGTATCGTGCCCAGAAGGCAGGCATTGCCACCGAAGAGGACGT-GGGCGACGATCCGAACAAGCG Hypocrea_sinuosa TGGGGTGATCAGAAGAAGGCCATGAGCTCCACTGCAGGCGTGTCCCAGGTGCTCAACCGCTACACGTTTGCTTCGACCCTGTCACATTTGCGTCGTACCAACACGCCCATTGGAAGAGATGGCAAGTTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCCGCCGAGACACCTGAAGGGCAAGCTTGTGGTCTGGTCAAAAACCTGTCCTTGATGTGTTACGTTAGTGTCGGTTCCCCATCTGAACCTCTGATTGAGTTCATGATCAACCGAGGTATGGAGGTTGTGGAGGAGTATGAGCCACTACGATATCCTCATGCTACCAAGATTTTTGTCAACGGTGTATGGGTTGGAGTTCACCAAGATCCCAAGCACCTGGTGAACCAGGTTCTGGACACTCGTCGCAAGTCTTATTTGCAGTACGAAGTCTCTCTCGTCAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCGGGCCGTGTCATGCGACCTGTGTTTACCGTCCAGCAAGAAGATGACCCTGAAACGGGTATCAACAAGGGCCATTTGGTACTGACCAAGGAACTCGTCAATAGGCTGGCCAAGGAGCAGGCCGAGCCTCCAGAGGACCCGAGCATGAAGATTGGATGGGAGGGATTGATCAGGGCTGGTGCAGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCCATGATCTGCATGACACCAGAAGATCTCGAGCTTTATCGCCTTCAAAAGGCTGGTATCTCTACTGAAGAGGACAT-TGGAGACGATCCGAACAAGCG Hypocrea_strictipilosa TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGCTACACGTTTGCTTCGACCCTGTCACATTTGCGTCGAACCAACACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAAGGACAGGCTTGTGGTCTGGTCAAAAACCTGTCGTTGATGTGTTATGTCAGTGTCGGTTCTCCCTCCGAACCCCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTGGTTGAGGAGTACGAGCCGCTGCGGTATCCTCATGCTACCAAGATTTTTGTGAACGGTGTATGGGTTGGAGTTCACCAGGATCCTAAGCATCTGGTGAACCAGGTCCTGGACACTCGTCGCAAGTCTTACCTGCAGTACGAAGTCTCTCTCGTCAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTCATGCGACCTGTATTTACCGTTCAGCAGGAAGATGACCCTGAAACGGGCATCAACAAGGGCCACTTGGTATTGACCAAGGAGCTCGTGAACAGACTGGCCAAGGAGCAGGCTGAACCTCCGGAAGACCCAAGCATGAAGATTGGATGGGAGGGATTGATCAGGGCTGGTGCAGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCTATGATTTGCATGACACCAGAGGATCTCGAGCTGTATCGACTTCAGAAAGCCGGTATTTCTACCGAGGAAGACGT-GGGAGATGATCCGAACAAGCG Hypocrea_tawa TGGGGCGATCAGAAGAAGGCCATGAGCTCAACTGCAGGTGTGTCCCAGGTGCTTAACCGTTACACATTTGCTTCGACCCTATCACATTTGCGTCGTACCAACACTCCTATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAAGGACAGGCCTGTGGTCTGGTCAAGAACTTGTCTTTGATGTGTTACGTCAGTGTCGGTTCTCCCTCCGAGCCTCTGATTGAGTTCATGATCAACAGAGGTATGGAGGTTGTCGAAGAGTACGAGCCGCTGCGATATCCTCATGCTACAAAGATTTTTGTGAACGGTGTCTGGGTCGGAGTTCATCAAGACCCTAAGCACTTGGTGAACCAGGTTCTGGATACTCGTCGCAAGTCCTATCTCCAGTACGAAGTCTCTCTTGTGAGAGAAATTAGAGACCAGGAATTTAAAATTTTTTCCGACGCAGGCCGTGTCATGCGACCAGTCTTTACCGTTCAGCAGGAAGATGACCCGGAAACGGGCATCAACAAGGGCCACCTGGTATTGACCAAGGAGCTCGTCAATAGATTGGCCAAGGAGCAGGCTGAGCCTCCGGAAGACCCCAGCATGAAGATCGGATGGGAGGGATTAATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCCATGATCTGCATGACGCCAGAAGATCTCGAGCTGTATCGTCTTCAGAAGGCCGGTATTAACACCGAGGAAGACAT-GGGAGACGATCCGAACAAGCG Hypocrea_voglmayri_CBS117710 TGGGGTGACCAGAAGAAGGCAATGAGCTCAACCGCAGGCGTATCACAGGTGCTTAACCGATACACATTTGCTTCGACACTCTCCCATTTGCGTCGTACTAATACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCACTGGGGTTTGGTATGCCCGGCTGAGACGCCCGAAGGTCAGGCTTGTGGCCTGGTCAAAAACTTGTCTCTGATGTGCTACGTCAGTGTCGGATCTCCATCTGAGCCTCTGATCGAATTCATGATCAACAGAGGCATGGAGGTCGTCGAAGAGTACGAACCACTGAGGTATCCTCATGCGACAAAGATCTTTGTAAACGGTGTTTGGGTCGGAATCCACCAAGACCCCAAGCATCTGGTGAACCAAGTTCTGGACACCCGTCGCAAGTCCTATCTACAATACGAAGTCTCTCTGATCAGAGACATTCGTGACCAAGAATTCAAGATCTTCTCTGACGCCGGTCGTGTGATGCGTCCTGTATTCACTGTGCAGCAAGAAGATGACCCCGAAACGGGCATAAACAAAGGCCACTTAGTATTGACCAAAGATCTCGTCAATAGACTGGCAAAGGAGCAGG?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Hypocrea_voglmayri_CBS117711 TGGGGTGACCAGAAGAAGGCAATGAGCTCAACCGCAGGCGTATCACAGGTGCTTAACCGATACACATTTGCTTCGACACTCTCCCATTTGCGTCGTACTAATACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCACTGGGGTTTGGTATGCCCGGCTGAGACGCCCGAAGGTCAGGCTTGTGGCCTGGTCAAAAACTTGTCTCTGATGTGCTACGTCAGTGTCGGATCTCCATCTGAGCCTCTGATCGAATTCATGATCAACAGAGGCATGGAGGTCGTCGAAGAGTACGAACCACTGAGGTATCCTCATGCGACAAAGATCTTTGTAAACGGTGTTTGGGTCGGAATCCACCAAGACCCCAAGCATCTGGTGAACCAAGTTCTGGACACCCGTCGCAAGTCCTATCTACAATACGAAGTCTCTCTGATCAGAGACATTCGTGACCAAGAATTCAAGATCTTCTCTGACGCCGGTCGTGTGATGCGTCCTGTATTCACTGTGCAGCAAGAAGATGACCCCGAAACGGGCATAAACAAAGGCCACTTAGTATTGACCAAAGATCTCGTCAATAGACTGGCAAAGGAGCAGGCTGAGCCTCCGGAAGACCCAAGTATGAAGCTTGGATGGGAGGGGTTAATTAGGGCTGGTGCGGTGGAATATCTCGATGCAGAGGAAGAAGAAACGTCCATGATTTGCATGACACCAGAGGATCTTGAGCTTTATCGTCTTCAGAAAGCAGGCATCGCCACAGACGAAGACAT-GGGAGATGATCCCCACAAGCG Trichoderma_aggressivum TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGCGTGTCCCAGGTGCTTAACCGTTACACATTTGCTTCGACCCTATCACATTTGCGTCGTACCAACACTCCTATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGGCAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCGGCCGAGACACCCGAAGGACAGGCCTGTGGTCTGGTCAAGAACTTGTCTTTGATGTGTTATGTCAGTGTCGGTTCTCCTTCCGAGCCTCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTCGTCGAAGAGTACGAGCCACTGCGGTATCCTCATGCTACCAAGATTTTTGTGAACGGTGTCTGGGTCGGAGTTCACCAAGACCCTAAACATTTGGTGAACCAGGTTCTGGACACTCGTCGCAAGTCCTATCTCCAGTACGAAGTCTCTCTCGTGAGAGAGATCAGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTCATGCGACCAGTCTTTACCGTTCAGCAGGAAGATGACCCGGAAACGGGCATCAACAAGGGCCACCTGGTATTGACCAAGGAGCTCGTCAATAGATTGGCCAAGGAGCAGGCTGAGCCTCCGGAAGACCCCAGCATGAAGATTGGATGGGAGGGATTAATCAGGGCTGGTGCGGTTGAATATCTCGATGCCGAGGAAGAGGAGACGTCCATGATCTGCATGACGCCAGAGGATCTCGAGCTGTATCGTCTTCAAAAGGCCGGTATCAACACCGAGGAAGACAT-GGGAGATGATCCGAACAAGCG Trichoderma_fertile TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGTTACACATTCGCTTCGACCTTGTCACATTTGCGCCGTACCAACACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAGGGACAAGCTTGTGGCCTGGTCAAAAACCTGTCGCTGATGTGCTACGTCAGTGTCGGGTCTCCCTCCGAACCCCTGATTGAGTTCATGATCAACAGAGGCATGGAAGTCGTCGAAGAGTATGAGCCGCTGCGATATCCTCATGCCACCAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTTCACCAAGACCCTAAGCATCTGGTGAACCAGGTTTTGGACACTCGTCGCAAATCCTATCTACAGTACGAAGTCTCTCTCATCAGAGACATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTTATGCGACCCGTCTATACCGTTCAGCAGGAAGATGACCCGGAAACAGGCATTAACAAGGGCCACTTGGTATTGACCAAGGAACTCGTCAACAGACTGGCGAAAGAGCAGGCCGAGCCTCCAGAAGACCCGAGCATGAAGATTGGATGGGAGGGGTTAATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAAGAAGAGGAGACGTCTATGATTTGCATGACGCCGGAGGATCTCGAGCTGTATCGTCTTCAGAAAGCAGGTATTGCTACTGAGGAAGACAT-TGGAGACAACCCGAACCAGCG Trichoderma_hamatum TGGGGTGACCAGAAGAAGGCAATGAGCTCGACTGCAGGTGTATCACAGGTGCTTAACCGTTACACTTTTGCCTCGACACTTTCTCATTTGCGTCGTACCAACACACCCATTGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACACATTGGGGTTTGGTGTGCCCAGCCGAGACCCCCGAAGGACAAGCTTGTGGTCTGGTCAAAAACTTGTCTCTGATGTGCTACGTCAGTGTCGGATCTCCTTCTGAGCCTTTGATCGAGTTTATGATCAATAGGGGTATGGAGGTTGTTGAGGAGTACGAACCACTGAGGTATCCCCATGCTACAAAGATCTTTGTGAATGGTGTCTGGGTTGGAATCCACCAAGACCCCAAGCATCTGGTAAACCAAGTTTTGGACACTCGTCGTAAATCCTATCTGCAGTACGAAGTCTCTCTGATCAGAGATATTCGTGACCAAGAATTCAAAATCTTCTCTGACGCCGGTCGTGTTATGCGTCCTGTCTTTACTGTACAGCAAGAAGATGACCCGGAAACGGGTATCAACAAGGGCCACTTGGTATTGACCAAGGACCTCGTCAACAGACTTGCCAAAGAGCAGGCTGAGCCTCCAGAAGACCCAAGCATGAAGCTTGGATGGGAGGGGTTAATTAGGGCTGGTGCGGTGGAATATCTCGACGCCGAGGAAGAAGAAACGGCTATGATTTGCATGACACCGGAGGATCTTGAACTTTATCGTCTTCAGAAGGCTGGTATTTCCACGGATGAAGACAT-GGGAGACGATCCAAACAAGCG Trichoderma_helicum TGGGGTGACCAGAAGAAGGCCATGAGCTCAACTGCTGGTGTGTCTCAGGTGCTTAACCGATACACGTTTGCTTCGACCTTGTCACATTTGCGTCGTACCAATACACCCATCGGAAGAGATGGTAAGCTGGCCAAGCCTCGACAGCTTCACAACACGCATTGGGGTCTGGTCTGCCCAGCCGAGACACCCGAAGGACAAGCTTGTGGTCTGGTCAAGAATCTGTCTTTGATGTGTTACGTCAGTGTCGGTTCTCCCTCCGAGCCCCTGATTGAGTTCATGATCAACAGAGGTATGGAGGTCGTCGAAGAGTATGAGCCTCTGCGATATCCTCATGCTACCAAGATTTTTGTCAACGGTGTCTGGGTTGGAGTTCACCAAGACCCCAAGCATTTGGTGAACCAGGTTCTAGACACTCGTCGCAAGTCCTATCTCCAGTATGAAGTCTCTCTTGTCAGAGAAATCCGAGACCAGGAATTCAAGATCTTTTCCGACGCGGGCCGTGTCATGCGACCTGTCTTTACCGTTCAGCAAGAAGATGATCCTGAAACAGGCATCAACAAGGGCCACTTGGTACTGACCAAGGAGCTCGTCAACAGACTGGCCAAGGAGCAAGCTGAACCTCCGGAAGACCCGAGCATGAAGATTGGCTGGGAGGGATTGATCAGGGCCGGTGCGGTCGAATACCTTGACGCCGAGGAAGAAGAGACGTCCATGATTTGCATGACGCCAGAGGACCTCGAGCTGTATCGCCTTCAGAAAGCTGGTATTAATACTGAGGAAGACAT-GGGAGATGACCCGAACAAGCG Trichoderma_longibrachiatum TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGAGTGTCTCAGGTGCTCAACCGATACACGTTCGCCTCGACCCTCTCGCATTTGCGCCGCACCAACACGCCCATCGGAAGAGACGGCAAGCTGGCGAAGCCTCGACAGCTGCACAACACCCATTGGGGTCTGGTCTGCCCGGCCGAGACGCCCGAAGGACAGGCCTGTGGTCTTGTCAAGAACCTGTCTCTGATGTGTTATGTCAGTGTCGGCTCTCCCTCAGAGCCGTTGATCGAGTTTATGATCAATAGGGGCATGGAAGTGGTCGAGGAATACGAGCCGCTGCGTTATCCTCACGCTACCAAGATCTTTGTCAACGGTGTCTGGGTGGGCATTCACCAAGATCCCAAACATCTGGTGCAGCAGGTCGTGGACACTCGTCGTAAGTCGTACCTGCAGTACGAGGTCTCTCTGGTCAGAGAAATTCGAGACCAGGAGTTCAAGATCTTCTCCGACGCAGGCCGCGTCATGCGACCCGTCTTTACCGTCCAGCAAGATGACGAGTCGGACACTGGCATTCCCAAGGGCCACTTGGTCCTGACCAAAGACCTCGTTAATAAATTGGCCCAGGAGCAGGCCGAGCCTCCAGAAGACCCAAGCATGAAGATTGGTTGGGAGGGACTCATCAGGGCTGGTGCAGTTGAATATCTCGACGCCGAGGAAGAGGAGACGGCCATGATTTGCATGACTCCCGAGGATCTCGAGCTGTATCGTGCGC????????????????????????????????????????????????????? Trichoderma_longipile TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGCTACACGTTTGCTTCAACCCTGTCACATTTGCGTCGAACCAACACACCTATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAAGGCCAGGCTTGTGGTCTAGTCAAAAACTTGTCGTTGATGTGTTACGTCAGTGTCGGTTCTCCCTCCGAACCCCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTGGTCGAAGAGTACGAGCCGCTGCGGTATCCTCATGCTACCAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTTCACCAAGATCCTAAGCATCTGGTGAACCAAGTTCTGGACACTCGTCGCAAGTCCTACCTGCAGTACGAAGTCTCTCTCGTCAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTCATGCGACCTGTATTTACTGTTCAGCAGGAAGATGATCCTGAAACGGGTATCAACAAGGGCCATTTGGTATTGACCAAGGAGCTCGTCAACAGACTGGCCAAGGAGCAGGCTGAACCTCCGGAAGATCCGAGCATGAAGATTGGATGGGAGGGATTGATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCTATGATTTGCATGACGCCAGAGGATCTCGAGCTGTATCGCCTTCAGAAAGCCGGCATTTCTACTGAGGAAGACAT-TGGAGATGATCCGAACAAGCG Trichoderma_oblongisporum TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGTTACACATTCGCTTCGACCTTATCACATTTGCGCCGTACCAACACACCCATCGGAAGAGATGGTAAGCTGGCAAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAGGGACAAGCTTGTGGCTTGGTCAAAAACCTGTCGTTGATGTGCTACGTCAGTGTCGGATCTCCTTCCGAACCCCTGATTGAGTTCATGATCAACAGAGGCATGGAGGTCGTCGAAGAGTATGAGCCGCTGCGATATCCTCATGCCACCAAAATTTTTGTGAACGGTGTCTGGGTTGGAGTCCACCAAGACCCTAAGCATCTGGTGAACCAGGTTCTGGACACTCGTCGCAAATCCTATCTACAGTACGAAGTTTCTCTCATCAGAGACATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTTATGCGACCTGTCTTTACCGTTCAGCAGGAAGATGACCCGGAAACAGGCATTAACAAGGGCCACTTAGTATTGACCAAGGAACTCGTCAACAAACTGGCGAAGGAGCAGACTGAGCCTCCGGAAGACCCGAGCATGAAGATTGGATGGGAGGGGTTAATCAGGGCTGGTGCGGTTGAATATCTCGACGCCGAGGAAGAGGAGACGTCTATGATTTGCATGACGCCAGAGGATCTCGAGCTGTATCGTCTTCAGAAAGCAGGTATTGCTACTGAGGAGGACAT-AGGAGAAAACCCGAATCAGCG Trichoderma_pubescens TGGGGTGACCAGAAGAAGGCTATGAGCTCGACTGCAGGTGTATCACAGGTGCTTAACCGTTACACTTTTGCTTCGACGCTTTCTCATTTGCGTCGTACAAACACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACACACTGGGGTTTGGTGTGCCCGGCCGAGACTCCTGAAGGACAAGCTTGTGGTCTGGTCAAAAATTTGTCTCTGATGTGCTACGTTAGTGTCGGATCTCCTTCTGAGCCCTTGATCGAGTTTATGATCAACAGAGGTATGGAAGTCGTTGAGGAGTACGAACCACTGAGGTATCCCCATGCCACAAAGATCTTTGTGAATGGTGTCTGGGTTGGTATCCACCAAGACCCCAAGCATCTGGTAAACCAAGTTTTGGACACTCGTCGTAAATCCTATCTGCAGTACGAAGTCTCTCTGATCAGAGACATTCGTGACCAAGAATTCAAAATCTTCTCTGACGCCGGTCGTGTTATGCGTCCTGTCTTTACTGTACAGCAAGAAGATGACCCGGAAACGGGTATCAACAAGGGCCACTTGGTTTTGACCAAGGATCTCGTCAACAGACTGGCTAAAGAGCAGGCTGAGCCTCCAGAAGACCCAAGCATGAAGCTTGGATGGGAGGGGCTAATTAGGGCTGGTGCGGTGGAATATCTCGATGCCGAGGAAGAAGAAACGTCTATGATTTGCATGACACCGGAGGATCTTGAACTTTACCGTCTTCAAAAAGCTGGTATTTCCACGGATGAAGACAT-GGGAGACGATCCAAACAAGCG Trichoderma_rossicum TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCTCAGGTGCTTAACCGTTACACATTTGCTTCGACCCTCTCACATTTGCGTCGTACCAACACGCCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCACTGGGGTTTGGTCTGCCCAGCCGAGACACCCGAAGGACAAGCTTGCGGTCTGGTCAAAAACCTGTCTCTGATGTGCTACGTCAGTGTCGGCTCTCCCTCCGAACCCCTGATTGAGTTCATGATCAACAGAGGTATGGAAGTTGTCGAAGAGTATGAGCCGCTGCGATATCCTCATGCTACCAAGATTTTTGTCAACGGTGTCTGGGTTGGAGTTCACCAAGACCCCAAGCATCTGGTGAACCAGGTTCTGGACACTCGTCGCAAATCCTATCTGCAGTACGAAGTCTCTCTCGTCAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGCCGTGTCATGCGACCTGTCTTTACCGTTCAGCAGGAAGATGATCCGGAAACAGGCATCAACAAGGGCCACTTGGTATTGACCAAGGAGCTCGTCAACAGACTGGCTA??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? Trichoderma_saturnisporum TGGGGTGATCAGAAGAAGGCCATGAGCTCGACCGCAGGTGTGTCTCAGGTGCTCAACCGCTACACGTTTGCCTCGACCCTCTCGCATTTGCGCCGCACCAACACGCCCATCGGACGAGATGGCAAGCTGGCGAAGCCTCGACAGCTTCACAACACCCATTGGGGTCTGGTCTGCCCAGCCGAAACCCCTGAAGGACAGGCTTGTGGTTTGGTCAAGAATCTGTCTCTGATGTGTTACGTCAGTGTCGGCTCTCCATCAGAGCCGTTGATTGAGTTTATGATCAACAGGGGCATGGAAGTTGTCGAGGAATACGAGCCGCTGCGTTATCCTCACGCTACCAAGATATTTGTCAACGGTGTCTGGGTGGGCATCCACCAGGATCCCAAGCATCTGGTTCAACAGGTCGTGGACACTCGTCGTAAATCTTACCTGCAGTACGAGGTCTCTCTCGTCAGAGAAATTCGAGACCAAGAGTTCAAGATCTTCTCCGACGCAGGCCGCGTCATGCGACCCGTCTTTACCGTCCAGCAAGATGAAGAATCGGACACTGGCATTCCAAAGGGCCACTTGGTACTGACCAAAGAGCTTGTTAATAAGCTGGCCCAAGAGCAGGCCGACCCTCCAGAAGACCCAAGCATGAAGATTGGTTGGGAGGGACTCATCAGGGCTGGTGCTGTTGAATATCTCGAC???????????????????????????????????????????????????????????????????????????????????????????????-????????????????????? Trichoderma_spirale TGGGGTGATCAGAAGAAGGCCATGAGCTCGACTGCAGGTGTGTCCCAGGTGCTTAACCGCTACACGTTTGCCTCGACCCTGTCGCATTTGCGTCGAACCAACACGCCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTTCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACACCTGAAGGACAGGCTTGTGGTTTGGTCAAAAACTTGTCTTTGATGTGTTACGTCAGTGTGGGTTCTCCCTCTGAACCCTTGATTGAGTTCATGATCAACAGAGGTATGGAAGTCGTCGAAGAGTATGAGCCGCTGCGGTATCCTCATGCTACCAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTTCACCAAGACCCTAAGCATCTGGTGAACCAGGTTCTAGACACTCGTCGCAAATCCTACTTGCAGTACGAAGTCTCTCTTGTCAGAGAAATTCGAGACCAAGAATTCAAAATCTTTTCTGACGCAGGCCGTGTCATGCGACCTGTTTTTACTGTTCAGCAGGAAGATGACCCGGAAACAGGTATCAACAAGGGCCACCTGGTATTGACCAAGGAGCTCGTCAATAGACTGGCCAAGGAGCAGGCTGAACCTCCTGAAGACCCAAGCATGAAGATTGGATGGGAGGGATTGATCAGGGCTGGTGCAGTTGAATATCTCGACGCCGAAGAAGAGGAGACAGCTATGATTTGCATGACACCAGAGGATCTCGAGCTGTATCGTCTTCAGAAGGCTGGTATTTCTACTGAGGAAGACAT-GGGAGATGATCCAAACAAGCG Trichoderma_strigosum TGGGGTGACCAGAAGAAGGCAATGAGCTCGACCGCAGGTGTATCACAGGTGCTTAACCGTTACACTTTTGCTTCTACACTTTCCCATTTGCGTCGTACCAATACACCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGACAGCTCCACAACACACACTGGGGTTTGGTGTGCCCGGCTGAGACCCCTGAAGGACAGGCTTGTGGTCTGGTCAAGAATTTGTCTCTGATGTGCTACGTCAGTGTTGGATCGCCTTCTGAGCCCTTGATCGAGTTTATGATCAACAGAGGTATGGAAGTCGTTGAGGAGTATGAGCCACTGAGGTATCCCCACGCCACAAAGATCTTTGTGAATGGTGTCTGGGTTGGTATCCACCAAGATCCCAAGCACCTGGTAAACCAAGTTTTGGATACTCGTCGCAAATCCTATCTGCAGTACGAAGTCTCTCTGGTCAGAGAAATTCGAGACCAAGAATTCAAAATCTTCTCTGACGCCGGTCGTGTTATGCGTCCTGTCTTTACCGTGCAGCAAGAAGATGACCCGGAGACGGGTATCAACAAGGGTCACCTGGTCTTGACCAAGGATCTCGTCAATAGACTGGCCAAAGAGCAGGCTGAGCCGCCAGAAGACCCAAGCATGAAGCTTGGATGGGAGGGATTAATTAGGGCTGGTGCGGTGGAATATCTCGACGCCGAGGAAGAAGAAACGGCCATGATCTGCATGACACCGGAAGATCTTGAGCTGTACCGTCTTCAGAAGGCCGGTATTTCCACAGAGGAAGACAT-GGGAGATGATCCAAACAAGCG Trichoderma_tomentosum TGGGGTGATCAGAAGAAGGCCATGAGCTCAACCGCAGGTGTCTCTCAGGTGCTTAACCGTTACACGTTTGCTTCGACCCTATCACATTTGCGTCGTACCAATACTCCCATCGGAAGAGATGGTAAGCTGGCGAAGCCTCGTCAGCTCCACAACACGCATTGGGGTTTGGTCTGCCCAGCCGAGACGCCCGAAGGACAGGCTTGTGGTCTAGTCAAAAACTTGTCTTTGATGTGTTATGTCAGTGTCGGTTCTCCCTCCGAACCTCTGATTGAGTTCATGATCAACAGAGGCATGGAAGTCGTCGAAGAATACGAGCCGCTGCGGTATCCTCATGCTACTAAGATTTTTGTGAACGGTGTCTGGGTTGGAGTTCACCAAGACCCTAAGCACCTGGTGAACCAGGTTCTGGATACTCGTCGCAAGTCCTATCTGCAATACGAAGTCTCTCTCGTGAGAGAAATTCGAGACCAGGAATTCAAAATCTTTTCCGACGCAGGTCGTGTCATGCGACCTGTCTTTACCGTTCAGCAGGAAGATGACCCGGAAACAGGCATCAACAAGGGCCACCTGGTATTAACCAAGGAGCTCGTCAATAGATTGGCCAAGGAGCAAGCTGAACCTCCGGAAGACCCGAGCATGAAGATTGGATGGGAGGGATTAATTAGGGCTGGTGCGGTTGAATATCTCGACGCTGAGGAAGAAGAGACATCCATGATTTGCATGACGCCAGAGGATCTCGAGCTGTATCGTCTTCAGAAAGCCGGTATTTCCACCGAGGAAGACAT-GGGAGATGATCCGAACAAGCG ; END; BEGIN CODONS; CODONPOSSET * CodonPositions (CHARACTERS = rpb2) = N: 1-807; CODONPOSSET CodonPositions (CHARACTERS = rpb2) = N: 1-807; END;