Cucurbitales platform

Gene search

Sequence information

Select	Gene	Cds	Cds_length	GC_content	Pep	Pep_length
	Blo05g00051	ATGGCAATCGACGGGAGCTTTAGTTTTGAATCTACACTCACAAGGTTTCTTGCACGCTGCCCGGAGCTTCAATGTTGCCCTCAGTTTAATACCCTTGCAAAGAAGGGGTGTGCTATAGGAGAAGACGATGTTGTCAATAACTTGGCGGAGCTATTCATACATCCAAAATATACAATTACATTGATAGGATGTTTCCGGCCACTAGCTGAAAAGATTATTGACAAAGCCGTGTCACTTCTTAGGCTTGTTCACAATTTAAGAACTAATTCTGAGAGTACTACGAGCCAAATTGAAGAAGACAATGTACTAATCAAAGTTATCAATGTTATCGAGTTCTATGATCAAGGTGGGAGAGGTCTAGATCTTCACGAGCTTTCTTGTTTGGCTTTCTGTCGTGCCCTTGGTTTGGCTCCATTTTTATTGAGGTCTGTTTTATGTTATTTTAAATTTGCTCCACCTCCTTTTGAACGGATTGTGATTGAAGGACCAGCTTCTGTTGTTGGTAGCAAGGTTGGAATTGAATTATTGCTTCCTGCTCGTATATCTTATCGCATCTTGCTGATGGAGCCTAACATTTTCTCAAAATTTTGGGACTGGTCTTGTTTCCTCGATCTAGTAAAATCATTTCCTTCAAATGACCTTGGGAGATGCTCTGATGTAGGAGCGGTTGATTCAGACATAAGATGGTGTGCAAGACATATACTATCAGTAGTACAAAAGACGATTTGCGAAACAACTTCTAATTTGAATCCTGGGTCTCAAGATGCATTTTCATGTTTATTGCGCTGGGAGGAATTCTGTCAGGATACATCATTGGAGAAGGCTGGGTGCTATGTTGAATTTTCTGAAGAAGATAAAGTCAGTAACTTATGCAGCAGTAATATAAATCTAGAGAACTCGATGCATTCTTTTAAATTTAGTAGTCCTGCCTTTGCCACATCAATACTGGATGAAATTGAGCCTCCAATGAGAAGTCGACGACTTACTATCAGGGATGATGATGAATCACTCCGGACTTCACTTGTTCTGGTGTCATCGATGATGAAAAGTTTTGAAATGGTTCTCCTTGCTTTGAGTCAAAAGTGGCCTGTTCTTCTTTATGGCCCTCCTGGAGCTGGGAAGTCAGCTCTCATTAACAAGTTAGCTAGGGACAGCCAAAATCAAGTTTTGTTTATTCACATGGACGACCAAATTGATGGTAAAACACTAATCGGAAACTATGTTTGCACGGAGCGTCCTGGTGAATTCAGATGGCAGCCTGGTTCTCTTACTCAGGCTGTCCAAAATGGTTTTTGGGTAGTCTTTGAGGATATAGACAAAGCATCATCTGATGTACAGTCTGTCTTACTACCTTTATTAGAAGGGTTGTGTTCATTTGCAACTGGACATGGAGAGGAAGTAAGGGTGGCAGAAAATTTTAGACTGTTCTCTACTATTTCCACTTCTAAGCTTGATTCATTTCACTGTTCAGAAGGTGGGAGTGCACTCAGTGTACTTTGGAGGAAAGTGATAATTAAACCTCCGAGCAATGAAGACTTGCAAAATATAATTAAAATCCAGTACCCTTTAATAGATCCAATTGCATTCAAACTGATAGAAACATTTGAAAGGGTGAACTCTTCCTTTTTGCATCAAGTTACCGGATTTTGTCCGCAGGATTCTAATTCTATTAATCACTACAGGCGGTTCTCATTAAGGGATCTTCTTAAGTGGTGCAATCGTATAGCAGGCTTGGGGTTTAACTTTGTAAGCAGCAACTTGCCTAGCTACCAATCTCAGTGCATTTATCAGGAGGCTGTTGATATATTTGCATCCTTTTCAACTTCGGCAGAAAATCGGTTGACTATAATGAAAGAAATTGCCAAGTTATGGGCAGTGCCAATTTCTTTGGCTGAGACTTTGTATCCTTTTAACAAACCTTCAATTCAGCAGGATTCACTTACGGATGTTAGAATTGGCCGAGTGCATCTTCCAAGATACCAAACAGCTGTAAATCATAAAAAAAAGCCTTTTGTGGAGATTAACAGTTCTCTGCATGTACTTGAGAGAATAGCTTGCTCTGTTAAGTGTAATGAGGCTGTTCTCTTGGTTGGTGAAACTGGTACTGGTAAGACTACAATAGTACAGTACCTAGCCGCAAAACTCGGCCAAAAACTTACAGTTTTGAATTTAAGTCAGCAGAGTGATGTTGCTGATCTTTTGGGCGGGTTTAAGCCTATTGATTCACAATTTATTTGCTTTTCCCTGTTTAAGGAGTTTGAGGACCTCTTCTCTAAAACTTTCTCATCAAAGTTCAATGGGGAATTTTTATCTCGGCTACAAAAGCATTTTAGTGATAAGAATTGGAGAATGCTACTAACTGGATTTCGGAAAGGTGTAAAGTTTCTTCAAAAGTCTGCAGATGTGGGACTGCGAGGTTGCTCTAAAAAGCGAAAGAAACCATTAAATGAAGACAATGTCAGTGCTTGGGAGAAATTTTCTGTAAAGCTTGAAAATGCCCTTGGTCAGATGGATACTCAATCTGGAATGATATTTTCATTTGTGGAAGGAGCTTTTGTAACTGCTCTTAGAAATGGAGAATGGATTCTTCTCGATGAGATCAATTTAGCTCCACAAGAGACCTTGCAGAGAGTTATTGGAGTTCTGGAAGGAGGGACTGGATCACTCTGTTTGGCCGAAAGAGGGGATGTCAGTTATATAAGTCGACATCCTAATTTTCGAATCTTTGCTTGTATGAATCCTGCAACGGATACAGGAAAGCGAGATTTAACTTTCTCTCTACAGAGCAGGTTTACCGAATACTTTGTTGATGACGTCTTGAACGATGAGGATCTGGCTATGTTTGTTAATAGATTTGTGAATGATAGCAAAACAAACAGAGAAGTAGTGAATAACATTGTTTCTTTCTATAAGGCAGCCAAGATGGCTTCTGACAGAAATCTACAGGATGGGGCCAATCAGAAACCACAATACAGTTTAAGATCTCTTTATCGTGCCTTAGAGTACACAAGAAAAGCTGAAAGAATATTTTTATTTCCGAGAGCTTTGTATGATGGGTTTTGTATGTTTTTCCTTACTATGTTGGATCCACCCAGTGCTGAGATAATGAACCAAATGATACTTACACGCTTGTTGGGGGGGCAAGTTCCTCCTCATGTACCCTTTGATTCCTACTTATCTTTTAAAAAGGATGCTCAATCTGATGATGATTCAGGAAGTTATGTTTTGACAAAATGTGTGAGGGAGCATCTTAGGAATTTGGCTCGTGCAATTTTGATTAAAAGATACCCTGTACTTCTGCAAGGCCCCACGTCTAGTGGGAAAACTAGCCTTGTTAAGTACCTTGCTGCTTTGACTGGCCATGAATTCATAAGGATCAATAATCATGATCACACTGATTTGCAAGAATATTTGGGTACCTACATAACAGATGTTAGTGGCAATCTCATATTTCAAGAAGGTATGCTAGTAAAGGCTGTTAGGAATGGTTACTGGATAGTTCTTGATGAGCTTAACCTGGCTCCATCTGATGTGCTTGAAGCATTAAATCGACTTCTGGATGACAATAGAGAGCTTTTTGTGCCTGAAATTGGGGAAACCATTCAAGCTCATCCAGATTTTATGCTCTTCGCAACTCAAAATCCTCCTACTTTGTATGGTGGACGGAAAATGCTTTCCAGAGCATTTCGTAATCGTTTTGTGGAGATACATGTGGATGAAATTCCAGAAGACGAGATGATCACAATAGTGGAGAAGAGATGTGAAATCCCTGAAACCTATGCCAAAAAAATGATAGAAGTCATGAAAGAGTTGCAGTTGCACAGGCAGAGTAGCAAAATATTTGCTGGAAAGCATGGATTTATGACACCAAGAGACTTGTTTCGTTGGGCATACCGTTTCAAGGAATTTGGGTGTTCTTATACAGATTTGGCAAGAGATGGTTATTATCTCTTAGCCGAAAGGTTGCGTAATGAGGAAGAGAAGTGTGTGGTCCAAGATGTTTTGGAGAGACATCTTCGAGTAATCCTTGCCCATGTTGACTTATACAAAGAGGAACCATTTGGCAGGGGTTCTTCACTCCACTCAAGTGATGATGCAGGCGCATCTGGAAGTCTTTCAAATGTCATCTTGACTAAAAGTATGGAACGATTATGTTTTCTTGTCTCAAGATGTACTCAAAATAGTAGATATCGAGAGCCTGTTCTCCTTGTTGGGGAAACGGGAGGTGGTAAGACTACAGTCTGTCAGTTACTCAGTGCACATTTGAAGAAGAAATTGCACATTTTAAATTGCCATCAGTACACTGATACCTCAGATTTTATTGGAGGATTTTATCCAATTCGGGATAGATCAAAACTGATGGCAAAGTTCAAAAATGTTATTGAAGGATTGATCTCAAGGACTTCTATGCAATGCCATCCAGATATCACAATGTCTACTGACATAGAGCAAGCATCTTCAACGCTTCATTCACTAGAGAGAATAATAACAAGCTACAGACAAGGCCAGTTCTTGTATCCTGATGTCAGCTTGCAAGAACTCGAATATATAAATAAGAAGCTCCTAAAGCTGCAGCAAAAGTGGCAGACGATTTTCAGGTGGGAGGATGGGCCCCTGGTGCAAGCAATGAAGAACGGTGATCTATTCCTTGTTGATGAAATTTCCCTGGCTGATGATAGTGTACTTGAAAGGTTAAACAGCGTTCTGGAGCCAGAGCGAAAACTGTCTTTGCCAGAGAAAGGAGGAATTAATCTGGAAACCGTAACTGCTCACCCAGAATTCTTTCTTTTTGCAACAATGAATCCTGGGGGTGATTATGGCAAGAAAGAACTTTCTCCAGCTCTTCGGAATCGATTTACCGAGATTTGGGTTCCCTCTATTAGGAACCTCGATGAACTTAGAAGTATAGCTCTAGAAAGGTTTTCTAATCCAAAACTTAAACATCTTGTGGGTCCTATGCTAAGCTTTTGGGAATGGTTCAACACAACACAGTCAGGAAGAATGCTTACAGTGAGAGATCTTCTCTCTTGGGTTTCTTTTATTAACTCGACCGAGAGTAGCTTAGGGCCTGAATATGCTTTCCTTCATGGGGCGTTTCTTGTTTTGCTCGATGGCTTGAGTCTTGGAACTGGTTTGTCTAAAAGAGATAGTTCAGAGTTGCGGGAGAGATCTTTCCAGTTTCTGTTAGAAAAACTAGAGGGGCATTGTAATGACTCAGTACGCTCAAAACTTGAAAGAATTGAATGTTATGGATGGGGAGATTCTGGAACAGATGGAGATGTTTTGATGGATAATATGAGGCACAGTGAAATATTTGGTATCGATCCATTTTACATTGAAAAAGGTTATGAAAGTTGTGACTCTGGGAAATATGAGTTCCTAGCCCCAACCACTCAGAAAAATGCTCTAAGGTTACTCCGAGCCATGCAACTTTCTAAACCTGTTTTGCTCGAAGGTAGTCCAGGTGTAGGGAAAACAAGTCTAATAGTTGCACTTGGTGATTTTTCTGGTCATAAGGTTGTGCGAATAAACTTATCTGAGCAGACTGATATAATGGATTTGTTGGGGGCAGACTTACCAGTCGAAAGTGAAGAAGGAATCAGTTTTGCCTGGTCTGACGGAGTATTATTGCAGGCCTTAAAGGAGGGAAGTTGGGTCTTGCTGGATGAACTTAATCTCGCTCCACAATCTGACCATAATTTCCTGATTGGATTAAATTCGATTCTGGATCATCGGGCTGAAGTATTTATTCCTGAGTTGGGTCTTACCTATAAGTGCCCACCATCTTTCAGAATTTTTGGTTGCCAAAATCCTTCATATCAAGGGGGTGGTAGAAAAAGTCTTCCGAAATCTTTTCTGAATAGATTTACAAAGGTTTATCTGGATGAGTTGCTTGAGGATGACTATCTTTTCATCTGTAGTTCACTTTTCAAGTCAATTCCAAGGGCTCTACTTATGAATCTTATTGAATTCAATAAAAAATTGCATGAAGACATTGTAATGCATCAAAAGTTTGCTCAGGATGGCTTACCATGGGAGTTTAATCTTCGTGATGTAGTTCGATGTTGTCAGATCATAGAAGTTGCCCCTGAAGCTTTGAGGAATCATTGCTTTCTCAATGTTGTCTACATACAGAGAATGCGCACAGCTGGAGACCGCAGGGAAGTTCAACTTCTCTATGAGAGAATATTTCATGTGAAGCCATTTATAAATCCTTATCCACGTGTTTCACTTAATCGCAAGTATCTTGTTGTGGGGAATACAGCCATTGAGAGAAATAAAAGCCAACTGTCTAATATTTCAACTAGTCAGCTCAAAATTATTCCTGGAATTCGTCATAGTTTAGAAGCTGTTGCCGAATGTGTACAACATCAGTGGATGTGCATACTGGTTGGTCCATCTTCATCTGGCAAGACATCATTGATAAGATTACTAGCTCAGCTCACAGGCAATGTACTGAATGAATTGAATCTTTCAGCAGCTACTGATATATCTGAACTACTTGGATGTTTCGAACAGTATAATGCTTTTCGGAATTTTCACACTGTTCTTTATCAAGTTGAACAACATGTTAACCAGTACTATGCTATGCACATGAAATCCTTAAAAGAAGAGTTTGGTGGGGACGAAAAGGAGCTTATTACTAAATGGCTTGCCTTTTCATCTGGCATCAATCATGTTGTATCAGGTTCTATGTCTATGTATATGGAGAACTGGAAAAGAGTTGTTGGTTCTCTGGTTGTGTTGGAAGAGATTATTGAGAATCTGATGTTGAATCTGGAGAAAAATGGTTTTCCTATTAATGTACTTGTTAAAGCCAGGAAGACAATTTTGAAGTTGCAAGAGAGCTGCAATAAAAATCCTTTTTCAGCAAAGTTTGAATGGATCATTGGTGTATTGATCAAAGCCATAGAGAACGGAGAATGGATCGTTCTCAAGAATGCCAATCTTTGTAACCCCACTGTACTTGATAGAATCAACTCTTTGGTGGAACCAAATGGGTCAATTACAATCAATGAATGTGGTACTGTTGATGGCAAACCTGTATGTTTGCACCCTCATAGTAATTTTCGCATATTCCTCACTGTTAACCCCCGCTATGGTGAAGTTTCCCGAGCAATGCGAAATAGAGGAGTTGAAATATTTATGATGGAGCCTTATTGGGTACATAATGGAGGTGGTGGACTTAATTCTCAGGATATTTTTCTCATCGATGTTAAGAGATTTCTTGTTCTGTCCAGTATCCCAGGTGCAAAGTTAGTTGAATCAATGGGAAAAGCTCATATATATGCTAGATTTGAAGGTTTGAAGCTGAACATTCGCGTCACTTTACTTGAGCTTTCGCGGTGGGTTCAGCTATTCCAACAGCTAGTCATGAGTGGGAATATGCTTATCTGGAGCCTTCATACGAGTTGGGAGCACACGTACCTTTCTTCTTTGGGAGAGGCTATTGGGGCCAAAATAATAAATCATGCAAAAGTTGCGTACCTATCAGAGGTGATGCTCCCTGAGCATGATTTATCATGGGCTTCATTGTGTTTACCTGGAGGATGGCCAGTTCCACTTAAGATAAGGGATCTGGTTTTGTACTCAGAAGAAGCATGTGTGAAGCAAAACTGCATGTATTTGGAGTTCCTGGGAACTGAATGTGCTTCTTATGAATTAGGAATCACCCATAAAGGATTTAGCAATACTTCAACTGCAACTGGTTATTCAAGAACTTACTCAATTGATATGATGAAGGTGTTGTCTGAGATCATGTTACTAAAACAGTCCAGTGTGGGCAAGGTAGTGGGTAGGAGGATAACTAAACTTGATTTGGCATTGGCTAATAAGAAATTGCTGTTTGCTGCCAATTGGACCATTGAACAAGCTTGTGAAAGAGATCTCGAGTTGTATATTCTATGGTTCACCTGGTTTAGCGCTAGATTGCAGCCTCTTTGCCACATTTTTTATTTTTTTCTGATATCAGTCAAGCAGGTGATGAAGCATCCAATCTGGAACTACATATGTTACTCACGGAATAAGATTACTTCTATATGTCGAATAGATCTTGACTTGCATCCTATTCCAATACTTGCGACTGAGTTAATAAATATGGTTCGCCAAGAAGTCAATTCTGAGTTATCCAAAGATCAGTTGAAATCTTCTTGTACGTTTCTATGTAATGCTATAAAGTGTGTAACTCCTCTTTTACTTAGTTATCATCAGTGGAACTGTGAGAATAGGTATGAATTTACTGGTGAGGCCCGAGTTTTCATTCCAGTATTGAAGTCCCTGCAAGAATTAGAGGAGGAATTTTTCTATAAGCTCTTTGATTCGTCTTCTAATTTTGTCGAGTCTCCTACCTTTGATACACTAATTCAGTTATACTGCTGCCTACTTGACAATCATAAACTATTTTGGGATTATCTTACATCATCAAAATTTGAGGAATTGGTAGTTTCATGGCATTCTTTGATGAAGGGCGTTGGGAAATTAAAGAACTTTTTTCCAGAGTCTGCTGAAATTCTGCAGAGGGAGAGTAAAAATCTGGAAAATGTTTCTTCTTGGTGCTTCCGTTCTGAGAATTCTTTGTTGTGGCTTCATGGTGGTCATCCGATTTTACCACCTTCTGCTGATCTTTATTATAAGCAAGATCAACTTGTCAAATTTTGTGAATCCATTTGGCCTGGGAAGATGAATTCATGGAGTCAGGCTATGGAACTTCCTCGAGATCAGCTAATTGCATTGTCAAATTCTGACTTGCGTTTACTTGCAATGCAAGGTAAACACCTCTATTGTCTTTCCATGACAACATGCATGATAGAGAAATGCCGGCTTTATGACAATGACACTGGCATTGTTCCGAATATGGAGGATATATATGAGACACTTTTGAAGAGGGTTAAAAATGAGAAACACGAGTGGGAGGCCCTTAACGAGTCTAAGGCTCAAGCTCTTTATGAGGAAAATTCATCCACTTGCTGTTCTTTGGGTTATGACATGTTGGTAAAGGAGTCATGCCGTGAAATTTGGCTGCAAACTTCCTCCATTATTGATAGTGCCAGTTTTTTTCTTGATATGGAATTATTGCTGAAGATTTCCACTGTTCTTTTGATCGATCCTGAAAACATAAACGAATTACGTTTTCTGTCCAAATCCATCGATTTTAACGTCTCAGTTTCGTTGACGTCAAGAATTGTAGAACGGAGACGAAGGACGTCAATTATCAGCAGACGAGGGACGTCCCTCCTACTAGTTGTCGGGCGTCGGAATGATTATCGGGCGATGGCAGACGATAGAAGTCGCAAGTTTGAATTGGGGTTGGTTGGTGTATCAGACCTAATAAAATTTGTGTTGGACTTTTCTTTGGCCTTCTCGACTAGACCTCCTCAAATGTTTACTGCTCACCAGAACATACTCTGGACTCTTGAAGAGTGGTCTTCTTTACATAGAGGGAAGGCAAATGTCACCAATTTTGGCCTTGATTTGTGGTTTAGATGGCATCAGTCTTTGTGGACTCCTTGCCCTGATTTTGTGAAGCACTTCTCCAAGCAAGTAGATTATAATATGTCGATACCTTATTTGCCTTTTCAACCCGTGAATGCAGCAGCAGTTTTCCAGATTCTGCAGAGCCAACCTACTAATAGGAACATTTCTATGCAACGGATGAAGATCAAAGTTGCATCACGTAATCTATGGTGCAGCCCGCCTAAACGAACGACTGTTCTTGATTTTCTTTTATCTACTGCTTACAATCTTTTCCAACAGATCATATTCGCGCACAGAAAATCTTTTGATGCTGATATATTTGACAAAATCAAATCTTCCCTTGGTTCTTTTGAGAAAGATACTGTGACTCAAGAGCGGATTCGACATGTTTGCTCCCTCATAATGAAGTCAAGCCATTGCAGACTGAAATGTTCTGTTGATATGTTCATCGAGCCATTCCTTAGAGAGCTTTATCTTCATTCCGCATCAGCTGGATGTCATTATAATCTAGGTCTTACATGGTTGACACTTGGAAGTTTACGTTTATACCTCTTGCTTAGCTGTGGTAGTTTGGATCCTGTTATGAAGTACCATTACAAGTATATGCAATTGGCAGAAAGGAAATCTTCGCTTGAACTGGACATTCAGGTGCGGCAAGAGAGTGAGTATTTAGCTGGATCATTTTCTCTTGGTAATGCTGATAATGGGAGAGTAGAGAGACTTGAAAACCTTGATGCGGAGCAAAAAAATCTAAAAAAGAAGATTGTTTTTCGGTTGGACCCTGGGAAATTCAAGAAATTAAAGCTTGAATGTGATGTCTTTTTTGATGTTGTTAGTTTTTTGGTGACAAATATTGAGACCATAGAATCACAACAGATTGTTGAACGCATACACAACTTGCAGGAAACAGCTGCCCGGTTTATTGATCGATTATCAAATGATTACAGTGACTACATTGATGTAGTTCAACCAATTCAAATTGCAGTTTATGAAATGAAACTTGGTCTGTCATTAGTTTTGTCAAGTGTTTGCTCACCTGGTGGAGCCAAGACACCTGACAATGAAATTTTTTTGGAAGCTATTTACACATTTGTGAGATTTCCCCAAGAGTTTCCATCGAGCCCAATATCCATTTACTCAAACGGTGGAATTAGTTTTTATTCCCACGAGAGTAGTTCTTCTACCAAGTTTTGTGAAATTGAAAATCTGGTTGATCTTTTATGTGGAACTGCCTCTAAGTATATGACCTCAGTTTCACAACTCAGGGCTTCTCTCCATTGCAACATTTTAGATCGTCTTTTACATTATGTTGCCAATCACAAACTTATGGATAGTGCATTATTTATGCTGTCAGATAAGATTTTCAATGAATTTGCAAACCTTTGGATGAGTATGAAAGTTCAAGCCAAATGGAGAGAAGAAAACGTCTCTCAACTTTATAAGTATAGACCTCACGCATTTAAAATTGAAAGGGTCATTGAGTCCGAGATCAATGATGGGCCACTTTCGAGTGATGGATCTCTAAAATGGGAAGAACTGCTCCTTGAAGAACATAACATGGACATGAAGGAATCTAATGGGCAAGAAGAAAATTCGGAGGATGAATTGAGCTTCATGGAAGAATCCATGATAGGCCAGATGATTTACGTTCATAATCAGTTGTTTGGCTCCAGTAATCTTATACTTTCTCGTGGGAGCTTATTTATTTGTGATGCTGATAGATTGCGGTTGTTCTCTGATTCTTATAGTCTTGGAATAGAGATGATGAGAGATTTAGGGGTTCTTTCGTTGTCTAGACTGGATGCTAAACTTGCCCCAGAGCACTTGTTACGCCTTTGTTTGGAACATGAAGAGGGTTCTTTAAGTGCAACTTGCAAATATAACTTTTACAAGGATTCAAACACACCAGTGATGTCTAAAATGGTGAAATTAATTGGTCCTTTACGACAACAGCTTTCTTTTCTTTTTTGTGAACTGGAAGATCATCATGGTCTTCAGAAACTTTTGGATATCTCTGATTTGCTGTTGAATCTGCCAATAAAAACTCCTCTTGCTAAGGCTTTGTCAGGATTACAAGTGCTTGTATCTAAAGTCCAAACATTACGAGAAAATGGCTCAAAGTTCAATCTGTCTGATCAAGTGGAACCTATTATTATCATGATCTCTAAGTGGAAAAAGTTGGAGGTTGATTCATGGCCTGCCATGCTTAACGTGGTGCAGGAGCAGTACGAAATGAATGCTGCAAAGTTGTGGTTTCCCCTTTATTCAGTCCTAAAACTTGAACGTTCTGCTGATATTACTGAGTATGATCAGTCTTCTATGCTTAGTTTAGTGGATTTTATTCACACATCCAGCATTGGGGAATTCAGAAGACGACTTCAGCTGCTTTTTGCTTTTCTTGGGCAGATATATACTGGTAGATGCTTGAATATTTATTCTCGCCAATGTGAGGGAGGAACTTTCAAGGTTTTATACAATATATTTGGATACTATGTTCAGTTTTTACCAATAATATTGGAGCATGTTGAAGATATTAAGAGAAAAGTCGATTTGGAGCTGAAGGAACTTCAAAAACTTAGTCGGTGGGAGCGTACTGAGATTTGCCTCTCCGTTGAAAATTCTAGGACAGCTAGGCTGAAGCTCAGGAAGCTTATCCAGAAGTATAGTGATCTGCTGCAGCAACCTGTTGTTCTATTTCTCAACCAAGAAATTGCTCAAAAAGTTCAATCTCTTCAATTTTCTTTTGATCTCAATTCCGGAGACAGGTTTTCTTGGGTTAGTGCTTGGAGAGAAAAATTATGTAATGTTTTGGAATTCTTGCACCTTCAAAAAAATCATGGACGCAATGTTCTTGCCAGTGCTGGAGATGTTACAAGTACGATCAGACAAGATTGTGTTTTATATCCCGAAGAATGGAGAACTGTGTGGTGCACGCTTGAAAACATTTACAAAAATGCAGCAGATTGTGGGGATCTTTGGAAGGATTCAATAAATAATCAAGGAAAGCGGAGGGCCTTATCTGAACTGTTGAAGCTGTTGGAAGGAAGTGGGTTGTCTAGGCATAAATCTATTTACTTGGAGGATCATCTGAAATCTTGGTGGTTCCTTCAGCCATCTTGCGACATCCAGTATTTGCTTCTAACTCCTGGTAGACTGTCGCATGGATCACCTGAGGCTACTGTGTCCAGTTCAATTCCAGGTGTTCATAATGAAGGATTAGTAGTTGAATGGAAAAGAAGCAGTGAATACTATTTCAAGTGCATAGCTTCCATGTTGCTTTTGCGGCAGATTTGCCTGAACTCTCACAAGGATATTAGTAAAGAACAGGTCGAGAGGTCATGTGCTTTTCTCAATCAGCTTGTTGAGATGCAACAAAAACAACAAGCTGCTGCCAACAATTTTGCCAAGCATTTGAAGGGCTTAAAGCAATGTTTGTCTGTTTTGGAAAAGCTGTTTGCAAATTCTAGTGGTTCCCACATTGAAAATGGCGATGTTACAATCATCCAAAATCAACAAGCCACTTATGCATGCATGTGGCAGCAAAAGCATCTGTTTGACGGTCTATGTGCTATGATGCATGAAGAAATGCTCATGCTGAAAACCTTTAACAATACCCACTCATTCACTTGTCAAAGTCCTAAAGAGGATGTCAATTCTGTTATAAAAACCATTGAGAAATTTTTGCCAGCTTTCCTGAAGTCAAAGGAATCGCTTGATGATTGCCTTTTCAATGATAAAGGAGAGGTGGTTATTTTTACTGGCAAGTTATATCCATTCTTTGCCACGAAACAAATGAAAGAGCTTGTGCTCCAAAATTTCAGCGCCATAAATAGCTTGAAGGAGCATCTCCCTGTTATCTGCAAGGATATCATAAATGGGAGTGGGGTGGGGAATGTTCTCCTTAGTTATTTGCAAGAAGCATCTGAGAAGGGGAGCTTGTTGGAGAGAGAATTTAAATCTGCTTTAGAGATGAAGAACGAGTTTGTAAGTGCTTGTGGAGTGGAAACTTCTTACTCTGGAGACTATATCGAACTCAATATGGAGTTCAATGAAGCATTTAAGCTTGCTTTGGAACATATTATCAAAGCAGTGGAAACATTTCTCCCTTCTAAATTCAGACATCTTATACCAGAAGAGTATTTGGGGAACCTAACCTCTTGGGAAGTTTTATTCAACTCATATACTGCAAATTTGGAGTTGGATGGCCTATGTGATAAGATCCTTACAGCAATCACTTGTGCTGTAAAACTTCTCAGTCATTTTCAGGCAGATTTTTCAAAATTTCACTCACATCTTGAGCAGCTAAATTTGCTTGCCAACTTAGTTGTCAACTTTGGTGATGGTCTATTGCGAGACGTTTTAGCCATGCATGATATGGTGTCTGCAGTAACTAATGTGCTAGCAATCAATTTTGCTAATCTATATTCGAAGGGGTTTGGCATGTCTGCTAAAGAACAGTTGGAACAGGAGCATCAAGAAAAATCTCAAGATGTGAATGGAACTGGTATGGGTGAGGGTGCAGGATTGAATGATGTAAGTGATCAGATGTTGGATGAGGATCAGCTGATGGGTGCTGATGATAAGGTAAAAGAAGAACAAGATAAGTCCAGTGAAGTCCCAAGTAAAGATGATAAAGGGATAGAGATGGAGCAAGATTTCGATGCTGATACATTTAGTGTTAGTGAGGACTCCGGGGAAGAAAACGAAGATGATGGAGAAGAGAAATTGGAATCTGCCATTGGGGATACTGGAGCTAATGGCGAAGCAGTTGATGAGAAACTTTGGGACAAGGACGAAGATGATGAGAATCACGATGATGAAAAACAGAAGTACAAAGATGGACCTTCTGTCAGGGATGGAGATGGAAGCAGCAGGGAGCTCAGAGCCAAGGATACTGCTTCTGCAGATGAACCTGGAGAGGTTGATCCTGCTGAAATTAATGAAAGAAGTGATAAGATAGAGAGTCCTGCCAACCCTAATGAAGAGGATGATATGGAGGACATGAACCTGAATAAGGACGATGCATTTGCTGATCCTACAGAATTGGAACTTGAAGAATCAAATCCAATATCAGATGAAGATTTGGAAACTGAGGAGAGAGAGCCGTCGGATACCATGGAAGAAGGAGATGATGAAGATTCTTCTGCCAAAGGAGATAATGAAGAAGAAAAAATTTGTCCAACAGATGAAAATGCGATGGAGGTTGAGACAAATCAAGATGGTGGAACTTCTGAAATGGATCATGAGAACATGGATCATGAAGAGGATGCTTCATCAAATATGTTGGCGGGAAGTAAGGATGAGTTTCATCCTGGAACTTCTGACTTCGTTGCTAATCATGTGGGAATTCCTGAATCCAATACTCAACCAATTGACTCTATGGATCCATTAGAATCAAAGAATACAGTGCCCGAGTCAAACTGGTCGAGTAAAAATGAAGGTCATAATAGTCGTGGTCTGTCTAGTGCCTTGCCTTCTGGTGATGCTTCTGAAATGGATATTCTATCCCCTGACTCTACAGATGGTGGGAGATTGACACATTACCCACCAAAAGCTCAATTACCACAAGATGAATCTTCCTCTATGCAAAAGGCGCAGCCAAATCCTTATAGGAACATCGGGGATGCTCTTGAAGAGTGGAAAGAAAGAGCAAATGTTTCTGTTGATCTTCAAACCGGTAATGTAGAGGTTGAGGAGGAGATTGAAGACAAAGACGCAAAAGAGTATGGATATGTTTCAGAGTTTGAAAAGGGAACAGCTCAGGCATTAGGATCTGCAACATCTGAGCAGATTGATCGAAATATAAATTCCGGTAATGTTGATAGAGAGAGTCCGGCTACAAGTTCCAAGGAACTTGCTGAGATGGAGATTGAGAGGTTAAATTCTGAAGCACACTCATTAAGGAGTGGTCCCTCAGCTCAAAAGAGTACTGCCGAGAATCAAATGAATCTTCCAGATTTAGAGAATTTACCAAATGAGGGACCTCAAGATGTTCATAATCTTGATAATGAAAATCCTCGAAGCCTATCAGAAAATTTGGTGTCTGTTAGGAAATCTTGCTTGAATGAGCCCATAGATCAGCTAAAAAGACTTTCTGTCTGTGATAATGAGTTAGGAAAAGCCAAAGATCCTGCAGAATTTAACATTGAGACAAAAGATGATGCCACTGCTCTGTGGAGAAGATATGAACTGCTCACAACAAGATTGTCCCAGGAATTGGCGGAACAGTTGCGGCTTGTCATGGAACCTACTCTAGCTAGCAAACTCCAAGGCGATTATAAGACAGGAAAACGGATAAATATGAAGAAGGTGATTCCCTACATAGCAAGCCATTATAGGAAAGATAAAATTTGGCTTAGAAGGACAAGGCCGAACAAGCGTGATTACCAAATTGTAATAGCCGTGGATGATTCTCGAAGCATGTCTGAAAGTTGCTGTGGTAATGTTGCTATTGAAGCTTTGGTGACTGTCTGCCGTGCCATGTCCATACTTGAAATGGGAAGCCTGGCAGTTGCAAGCTTTGGGGAAAAAGGGAACATAAACTTACTGCATGATTTTGACCAGCCATTTACGGGAGAAGTTGGCATTAAGTTGATATCCAGTTTCACATTTAGGCAAGAGAATAGCATCACTGATGAACCTGTTGCTGATCTTTTGAAATATCTGAATAACAAGCTTGACACGGCAGTTGTTAAGGCACGGCATTCATCCGGACAGAACCAACTTCAACAGCTTGTTCTCATCATCGCAGATGGCCGATTCCACGAGAAGGATAAATTGAAACGTTATGTTAGAGAGATGTTAAGCAGGAAACGAATGGTGGCATTTCTGCTTCTCGATAGTCCACAAGAATCCATTATGGATCTAATGGAAGCATCTTTTGAAGGCGGACGCATAAAATTCTTGAAATATTTAGACTCCTTCCCGTTCCCATTCTACATCGTTCTTAAAAACATCGAAGCTCTTCCGAGAACACTTGCAGACTTACTAAGACAGTCGGAGAAAGTGGCGAAGATGAATTTGGGTGCGGCGGAGGAAGAATCGCCGCAAGAGATTCATATACCGGCGGACATCGATTGGGAAATGCTCGACAAATCGAAGTTCTTCTTCCTCGGCGCCGCCCTCTTTTCTGGTGTGTCAGCGTCGCTTTACCCCGTTGTAGTGTTGAAAACCAGGCAACAAGTGGCTCAATCGCAAGTCTCTTGTATCAGAACGGCCTTCTCCATTGTTCGAAACGAAGGGTTTCGAGCTCTGTACAGAGGATTTGGAACTTCCCTGATGGGGACCATCCCTGCAAGAGCTCTATACATGGGTGCACTCGAGATCACAAAGAGTAACATATGGACTGCAACGATCAGGTTAGGTGTTCCAGAGGCAACTGCCGCCACCATTTCCAACGCTGCAGCCGGCCTGAGTGCGGCCATGGCGGCACAGGTTGTGTGGACTCCTGTGGATGTTGTAAGCCAGAGACTAATGGTTCAGGGCGGGAGCATGAGTAGTAGTAGTTGCCCTAGAGTTTCGAGTGAATCGTCTCGCAGATACCTTAATGGAATTGACGCGTTTAGAAAAATCCTTAACACTGATGGGCCGAGGGGTCTGTATCGGGGTTTTGGGATCTCAATCCTGACGTATGCTCCATCAAATGCCCTTTGGTGGGCTTCTTACTCGGTGGCACAGAGGCTGGTTTGGGGTGGAATTGGATGTTATTTTGTGAAAAAAGACGGGGAGAGTAATGAAAACAAACCCAATTCCTATCGACCATACTCGAAAACCATAATGGCTGTTCAGGGAGTCAGTGCAGCCATGGCCGGCGGTGTTTCGGCCTTAATAACAATGCCTCTTGATACAATCAAGACAAGATTTCAGGTCTTGGATGGTGATGAAAATGGAAGACGTAGACCCTCCATTGGACAGACTGTGAGGAATTTGGTCAAGGAAGGTGGGTGGGCGGCTTGTTACAGAGGACTGGGACCTCGGTGGGCTTCCATGTCAATGTCTGCTACAACCATGATCACTACCTACGAGTTTTTAAAGCGACTCTCTGCCAAAAATCAAGAGGGTATCACCAGTTGA	17547	40.43	MAIDGSFSFESTLTRFLARCPELQCCPQFNTLAKKGCAIGEDDVVNNLAELFIHPKYTITLIGCFRPLAEKIIDKAVSLLRLVHNLRTNSESTTSQIEEDNVLIKVINVIEFYDQGGRGLDLHELSCLAFCRALGLAPFLLRSVLCYFKFAPPPFERIVIEGPASVVGSKVGIELLLPARISYRILLMEPNIFSKFWDWSCFLDLVKSFPSNDLGRCSDVGAVDSDIRWCARHILSVVQKTICETTSNLNPGSQDAFSCLLRWEEFCQDTSLEKAGCYVEFSEEDKVSNLCSSNINLENSMHSFKFSSPAFATSILDEIEPPMRSRRLTIRDDDESLRTSLVLVSSMMKSFEMVLLALSQKWPVLLYGPPGAGKSALINKLARDSQNQVLFIHMDDQIDGKTLIGNYVCTERPGEFRWQPGSLTQAVQNGFWVVFEDIDKASSDVQSVLLPLLEGLCSFATGHGEEVRVAENFRLFSTISTSKLDSFHCSEGGSALSVLWRKVIIKPPSNEDLQNIIKIQYPLIDPIAFKLIETFERVNSSFLHQVTGFCPQDSNSINHYRRFSLRDLLKWCNRIAGLGFNFVSSNLPSYQSQCIYQEAVDIFASFSTSAENRLTIMKEIAKLWAVPISLAETLYPFNKPSIQQDSLTDVRIGRVHLPRYQTAVNHKKKPFVEINSSLHVLERIACSVKCNEAVLLVGETGTGKTTIVQYLAAKLGQKLTVLNLSQQSDVADLLGGFKPIDSQFICFSLFKEFEDLFSKTFSSKFNGEFLSRLQKHFSDKNWRMLLTGFRKGVKFLQKSADVGLRGCSKKRKKPLNEDNVSAWEKFSVKLENALGQMDTQSGMIFSFVEGAFVTALRNGEWILLDEINLAPQETLQRVIGVLEGGTGSLCLAERGDVSYISRHPNFRIFACMNPATDTGKRDLTFSLQSRFTEYFVDDVLNDEDLAMFVNRFVNDSKTNREVVNNIVSFYKAAKMASDRNLQDGANQKPQYSLRSLYRALEYTRKAERIFLFPRALYDGFCMFFLTMLDPPSAEIMNQMILTRLLGGQVPPHVPFDSYLSFKKDAQSDDDSGSYVLTKCVREHLRNLARAILIKRYPVLLQGPTSSGKTSLVKYLAALTGHEFIRINNHDHTDLQEYLGTYITDVSGNLIFQEGMLVKAVRNGYWIVLDELNLAPSDVLEALNRLLDDNRELFVPEIGETIQAHPDFMLFATQNPPTLYGGRKMLSRAFRNRFVEIHVDEIPEDEMITIVEKRCEIPETYAKKMIEVMKELQLHRQSSKIFAGKHGFMTPRDLFRWAYRFKEFGCSYTDLARDGYYLLAERLRNEEEKCVVQDVLERHLRVILAHVDLYKEEPFGRGSSLHSSDDAGASGSLSNVILTKSMERLCFLVSRCTQNSRYREPVLLVGETGGGKTTVCQLLSAHLKKKLHILNCHQYTDTSDFIGGFYPIRDRSKLMAKFKNVIEGLISRTSMQCHPDITMSTDIEQASSTLHSLERIITSYRQGQFLYPDVSLQELEYINKKLLKLQQKWQTIFRWEDGPLVQAMKNGDLFLVDEISLADDSVLERLNSVLEPERKLSLPEKGGINLETVTAHPEFFLFATMNPGGDYGKKELSPALRNRFTEIWVPSIRNLDELRSIALERFSNPKLKHLVGPMLSFWEWFNTTQSGRMLTVRDLLSWVSFINSTESSLGPEYAFLHGAFLVLLDGLSLGTGLSKRDSSELRERSFQFLLEKLEGHCNDSVRSKLERIECYGWGDSGTDGDVLMDNMRHSEIFGIDPFYIEKGYESCDSGKYEFLAPTTQKNALRLLRAMQLSKPVLLEGSPGVGKTSLIVALGDFSGHKVVRINLSEQTDIMDLLGADLPVESEEGISFAWSDGVLLQALKEGSWVLLDELNLAPQSDHNFLIGLNSILDHRAEVFIPELGLTYKCPPSFRIFGCQNPSYQGGGRKSLPKSFLNRFTKVYLDELLEDDYLFICSSLFKSIPRALLMNLIEFNKKLHEDIVMHQKFAQDGLPWEFNLRDVVRCCQIIEVAPEALRNHCFLNVVYIQRMRTAGDRREVQLLYERIFHVKPFINPYPRVSLNRKYLVVGNTAIERNKSQLSNISTSQLKIIPGIRHSLEAVAECVQHQWMCILVGPSSSGKTSLIRLLAQLTGNVLNELNLSAATDISELLGCFEQYNAFRNFHTVLYQVEQHVNQYYAMHMKSLKEEFGGDEKELITKWLAFSSGINHVVSGSMSMYMENWKRVVGSLVVLEEIIENLMLNLEKNGFPINVLVKARKTILKLQESCNKNPFSAKFEWIIGVLIKAIENGEWIVLKNANLCNPTVLDRINSLVEPNGSITINECGTVDGKPVCLHPHSNFRIFLTVNPRYGEVSRAMRNRGVEIFMMEPYWVHNGGGGLNSQDIFLIDVKRFLVLSSIPGAKLVESMGKAHIYARFEGLKLNIRVTLLELSRWVQLFQQLVMSGNMLIWSLHTSWEHTYLSSLGEAIGAKIINHAKVAYLSEVMLPEHDLSWASLCLPGGWPVPLKIRDLVLYSEEACVKQNCMYLEFLGTECASYELGITHKGFSNTSTATGYSRTYSIDMMKVLSEIMLLKQSSVGKVVGRRITKLDLALANKKLLFAANWTIEQACERDLELYILWFTWFSARLQPLCHIFYFFLISVKQVMKHPIWNYICYSRNKITSICRIDLDLHPIPILATELINMVRQEVNSELSKDQLKSSCTFLCNAIKCVTPLLLSYHQWNCENRYEFTGEARVFIPVLKSLQELEEEFFYKLFDSSSNFVESPTFDTLIQLYCCLLDNHKLFWDYLTSSKFEELVVSWHSLMKGVGKLKNFFPESAEILQRESKNLENVSSWCFRSENSLLWLHGGHPILPPSADLYYKQDQLVKFCESIWPGKMNSWSQAMELPRDQLIALSNSDLRLLAMQGKHLYCLSMTTCMIEKCRLYDNDTGIVPNMEDIYETLLKRVKNEKHEWEALNESKAQALYEENSSTCCSLGYDMLVKESCREIWLQTSSIIDSASFFLDMELLLKISTVLLIDPENINELRFLSKSIDFNVSVSLTSRIVERRRRTSIISRRGTSLLLVVGRRNDYRAMADDRSRKFELGLVGVSDLIKFVLDFSLAFSTRPPQMFTAHQNILWTLEEWSSLHRGKANVTNFGLDLWFRWHQSLWTPCPDFVKHFSKQVDYNMSIPYLPFQPVNAAAVFQILQSQPTNRNISMQRMKIKVASRNLWCSPPKRTTVLDFLLSTAYNLFQQIIFAHRKSFDADIFDKIKSSLGSFEKDTVTQERIRHVCSLIMKSSHCRLKCSVDMFIEPFLRELYLHSASAGCHYNLGLTWLTLGSLRLYLLLSCGSLDPVMKYHYKYMQLAERKSSLELDIQVRQESEYLAGSFSLGNADNGRVERLENLDAEQKNLKKKIVFRLDPGKFKKLKLECDVFFDVVSFLVTNIETIESQQIVERIHNLQETAARFIDRLSNDYSDYIDVVQPIQIAVYEMKLGLSLVLSSVCSPGGAKTPDNEIFLEAIYTFVRFPQEFPSSPISIYSNGGISFYSHESSSSTKFCEIENLVDLLCGTASKYMTSVSQLRASLHCNILDRLLHYVANHKLMDSALFMLSDKIFNEFANLWMSMKVQAKWREENVSQLYKYRPHAFKIERVIESEINDGPLSSDGSLKWEELLLEEHNMDMKESNGQEENSEDELSFMEESMIGQMIYVHNQLFGSSNLILSRGSLFICDADRLRLFSDSYSLGIEMMRDLGVLSLSRLDAKLAPEHLLRLCLEHEEGSLSATCKYNFYKDSNTPVMSKMVKLIGPLRQQLSFLFCELEDHHGLQKLLDISDLLLNLPIKTPLAKALSGLQVLVSKVQTLRENGSKFNLSDQVEPIIIMISKWKKLEVDSWPAMLNVVQEQYEMNAAKLWFPLYSVLKLERSADITEYDQSSMLSLVDFIHTSSIGEFRRRLQLLFAFLGQIYTGRCLNIYSRQCEGGTFKVLYNIFGYYVQFLPIILEHVEDIKRKVDLELKELQKLSRWERTEICLSVENSRTARLKLRKLIQKYSDLLQQPVVLFLNQEIAQKVQSLQFSFDLNSGDRFSWVSAWREKLCNVLEFLHLQKNHGRNVLASAGDVTSTIRQDCVLYPEEWRTVWCTLENIYKNAADCGDLWKDSINNQGKRRALSELLKLLEGSGLSRHKSIYLEDHLKSWWFLQPSCDIQYLLLTPGRLSHGSPEATVSSSIPGVHNEGLVVEWKRSSEYYFKCIASMLLLRQICLNSHKDISKEQVERSCAFLNQLVEMQQKQQAAANNFAKHLKGLKQCLSVLEKLFANSSGSHIENGDVTIIQNQQATYACMWQQKHLFDGLCAMMHEEMLMLKTFNNTHSFTCQSPKEDVNSVIKTIEKFLPAFLKSKESLDDCLFNDKGEVVIFTGKLYPFFATKQMKELVLQNFSAINSLKEHLPVICKDIINGSGVGNVLLSYLQEASEKGSLLEREFKSALEMKNEFVSACGVETSYSGDYIELNMEFNEAFKLALEHIIKAVETFLPSKFRHLIPEEYLGNLTSWEVLFNSYTANLELDGLCDKILTAITCAVKLLSHFQADFSKFHSHLEQLNLLANLVVNFGDGLLRDVLAMHDMVSAVTNVLAINFANLYSKGFGMSAKEQLEQEHQEKSQDVNGTGMGEGAGLNDVSDQMLDEDQLMGADDKVKEEQDKSSEVPSKDDKGIEMEQDFDADTFSVSEDSGEENEDDGEEKLESAIGDTGANGEAVDEKLWDKDEDDENHDDEKQKYKDGPSVRDGDGSSRELRAKDTASADEPGEVDPAEINERSDKIESPANPNEEDDMEDMNLNKDDAFADPTELELEESNPISDEDLETEEREPSDTMEEGDDEDSSAKGDNEEEKICPTDENAMEVETNQDGGTSEMDHENMDHEEDASSNMLAGSKDEFHPGTSDFVANHVGIPESNTQPIDSMDPLESKNTVPESNWSSKNEGHNSRGLSSALPSGDASEMDILSPDSTDGGRLTHYPPKAQLPQDESSSMQKAQPNPYRNIGDALEEWKERANVSVDLQTGNVEVEEEIEDKDAKEYGYVSEFEKGTAQALGSATSEQIDRNINSGNVDRESPATSSKELAEMEIERLNSEAHSLRSGPSAQKSTAENQMNLPDLENLPNEGPQDVHNLDNENPRSLSENLVSVRKSCLNEPIDQLKRLSVCDNELGKAKDPAEFNIETKDDATALWRRYELLTTRLSQELAEQLRLVMEPTLASKLQGDYKTGKRINMKKVIPYIASHYRKDKIWLRRTRPNKRDYQIVIAVDDSRSMSESCCGNVAIEALVTVCRAMSILEMGSLAVASFGEKGNINLLHDFDQPFTGEVGIKLISSFTFRQENSITDEPVADLLKYLNNKLDTAVVKARHSSGQNQLQQLVLIIADGRFHEKDKLKRYVREMLSRKRMVAFLLLDSPQESIMDLMEASFEGGRIKFLKYLDSFPFPFYIVLKNIEALPRTLADLLRQSEKVAKMNLGAAEEESPQEIHIPADIDWEMLDKSKFFFLGAALFSGVSASLYPVVVLKTRQQVAQSQVSCIRTAFSIVRNEGFRALYRGFGTSLMGTIPARALYMGALEITKSNIWTATIRLGVPEATAATISNAAAGLSAAMAAQVVWTPVDVVSQRLMVQGGSMSSSSCPRVSSESSRRYLNGIDAFRKILNTDGPRGLYRGFGISILTYAPSNALWWASYSVAQRLVWGGIGCYFVKKDGESNENKPNSYRPYSKTIMAVQGVSAAMAGGVSALITMPLDTIKTRFQVLDGDENGRRRPSIGQTVRNLVKEGGWAACYRGLGPRWASMSMSATTMITTYEFLKRLSAKNQEGITS	5848

Gff information

Chromosome	Start	End	Strand	Old_gene	Gene	Num
5	423977	464739	-	BLOR15013	Blo05g00051	60485

Annotation

Seq ID	Length	Analysis	Description	Start	End	IPR	GO
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4683	4710	-	-
Blo05g00051	5848	ProSiteProfiles	Solute carrier (Solcar) repeat profile.	5749	5838	IPR018108	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	1378	1680	IPR027417	-
Blo05g00051	5848	Coils	Coil	3673	3693	-	-
Blo05g00051	5848	Gene3D	-	346	517	IPR027417	-
Blo05g00051	5848	Gene3D	-	1080	1251	IPR027417	-
Blo05g00051	5848	Gene3D	-	1797	1972	IPR027417	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4713	4734	-	-
Blo05g00051	5848	Gene3D	Mitochondrial carrier domain	5526	5846	IPR023395	-
Blo05g00051	5848	Coils	Coil	5108	5128	-	-
Blo05g00051	5848	SUPERFAMILY	vWA-like	5288	5489	IPR036465	-
Blo05g00051	5848	Pfam	Midasin AAA lid domain	512	624	IPR040848	-
Blo05g00051	5848	Pfam	Midasin AAA lid domain	1245	1340	IPR040848	-
Blo05g00051	5848	Pfam	Midasin AAA lid domain	1971	2066	IPR040848	-
Blo05g00051	5848	Coils	Coil	3997	4017	-	-
Blo05g00051	5848	ProSiteProfiles	Solute carrier (Solcar) repeat profile.	5619	5719	IPR018108	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	1073	1325	IPR027417	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	2108	2386	IPR027417	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4761	4817	-	-
Blo05g00051	5848	SUPERFAMILY	Mitochondrial carrier	5519	5835	IPR023395	-
Blo05g00051	5848	Coils	Coil	4265	4285	-	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4643	4669	-	-
Blo05g00051	5848	ProSiteProfiles	Solute carrier (Solcar) repeat profile.	5522	5604	IPR018108	-
Blo05g00051	5848	Gene3D	-	2107	2203	IPR027417	-
Blo05g00051	5848	Gene3D	-	1371	1623	IPR027417	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	656	1006	IPR027417	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	354	579	IPR027417	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	5082	5104	-	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	5082	5109	-	-
Blo05g00051	5848	Coils	Coil	2960	2980	-	-
Blo05g00051	5848	Pfam	Midasin AAA lid domain	944	1045	IPR041190	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4837	4875	-	-
Blo05g00051	5848	SMART	AAA_5	1397	1628	IPR003593	-
Blo05g00051	5848	SMART	AAA_5	690	941	IPR003593	-
Blo05g00051	5848	SMART	AAA_5	1094	1239	IPR003593	-
Blo05g00051	5848	SMART	AAA_5	1811	1995	IPR003593	-
Blo05g00051	5848	SMART	AAA_5	360	485	IPR003593	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4938	4982	-	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	5011	5026	-	-
Blo05g00051	5848	ProSitePatterns	Sigma-54 interaction domain ATP-binding region A signature.	694	707	IPR025662	-
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	1097	1233	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	1814	1956	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	694	739	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	363	478	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	1524	1619	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	835	931	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	Pfam	AAA domain (dynein-related subfamily)	1400	1452	IPR011704	GO:0005524\|GO:0016887
Blo05g00051	5848	ProSiteProfiles	VWFA domain profile.	5288	5488	IPR002035	-
Blo05g00051	5848	Gene3D	-	2267	2375	IPR027417	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	5142	5164	-	-
Blo05g00051	5848	Gene3D	-	677	948	IPR027417	-
Blo05g00051	5848	CDD	AAA	363	469	-	-
Blo05g00051	5848	Coils	Coil	5846	5848	-	-
Blo05g00051	5848	Pfam	Mitochondrial carrier protein	5754	5842	IPR018108	-
Blo05g00051	5848	Pfam	Mitochondrial carrier protein	5622	5720	IPR018108	-
Blo05g00051	5848	Pfam	Mitochondrial carrier protein	5535	5605	IPR018108	-
Blo05g00051	5848	CDD	AAA	1799	1957	-	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4899	4919	-	-
Blo05g00051	5848	CDD	AAA	694	756	-	-
Blo05g00051	5848	PANTHER	MIDASIN-RELATED	341	5491	-	-
Blo05g00051	5848	MobiDBLite	consensus disorder prediction	4683	5028	-	-
Blo05g00051	5848	CDD	AAA	1081	1236	-	-
Blo05g00051	5848	SUPERFAMILY	P-loop containing nucleoside triphosphate hydrolases	1804	2030	IPR027417	-
Blo05g00051	5848	PIRSF	Midasin	1	272	IPR012099	GO:0000027\|GO:0005634\|GO:0016887
Blo05g00051	5848	PIRSF	Midasin	228	5497	IPR012099	GO:0000027\|GO:0005634\|GO:0016887

Pathway

Select	Query	KO	Definition	Second KO	KEGG Genes ID	GHOSTX Score
	Blo05g00051	K14572	MDN1, REA1; midasin	-	cit:102612702	5480.22

Dupl-types

Gene1	Location1	Gene2	Location2	E-value	Duplicated-type
Blo01g01453	Blo-Chr1:53630259	Blo05g00051	Blo-Chr5:423977	3.39E-92	dispersed
Blo05g00051	Blo-Chr5:423977	Blo10g00165	Blo-Chr10:1963561	3.55E-62	dispersed
Blo05g00051	Blo-Chr5:423977	Blo06g00744	Blo-Chr6:30642411	0	wgd

Deco-Alignment

Select	Vvi1	Blo1	Blo2	Bda1	Bda2	Bpe1	Bpe2	Bma1	Bma2	Cmo1	Cmo2	Cma1	Cma2	Car1	Car2	Sed1	Cpe1	Cpe2	Bhi1	Tan1	Cmetu1	Lac1	Hepe1	Mch1	Lcy1	Cla1	Cam1	Cec1	Cco1	Clacu1	Cmu1	Cre1	Cone1	Cone2	Cone3	Cone4	Lsi1	Csa1	Chy1	Cme1	Blo3	Blo4	Bda3	Bda4	Bpe3	Bpe4	Bma3	Bma4	Sed2	Cmo3	Cmo4	Cma3	Cma4	Car3	Car4	Cpe3	Cpe4	Bhi2	Tan2	Cmetu2	Lac2	Hepe2	Mch2	Lcy2	Cla2	Cam2	Cec2	Cco2	Clacu2	Cmu2	Cre2	Lsi2	Csa2	Chy2	Cme2
	Vvi9g123	Blo05g00051	.	Bda04g00920	.	Bpe06g00789	.	.	.	.	Cmo17g00680	.	.	.	.	.	Cpe12g00599	.	.	.	.	.	.	.	.	.	.	.	.	.	.	.	.	Cone17ag0081	.	.	Lsi02g02915	Csa07g02372	.	Cme01g02827	.	.	.	.	.	.	Bma09g00972	.	.	.	.	.	Cma17g00704	.	Car17g00663	.	.	.	.	.	.	.	.	.	Cla09g00077	Cam09g0079	.	Cco09g0078	Clacu09g0087	.	Cre09g0074	.	.	Chy01g02186	.

Syn-Families

Gene	Event_type	S_start	S_end	Function	Ath_gene	Identity(%)	E-value	Score
Blo03g01240	.	1	448	Chloroplast and Mitochondria Gene Families	AT2G28800	60.3	5.1e-138	488.0
Blo16g01179	.	67	431	Chloroplast and Mitochondria Gene Families	AT2G28800	54.5	3.0e-98	355.9
Blo02g00876	.	3	254	Chloroplast and Mitochondria Gene Families	AT1G15820	76.2	1.9e-111	399.1
Blo15g00783	.	3	254	Chloroplast and Mitochondria Gene Families	AT1G15820	74.6	4.6e-110	394.4
Blo02g00138	BCT	1	267	Chloroplast and Mitochondria Gene Families	AT3G27690	91.0	1.5e-144	509.2
Blo15g00451	BCT	1	265	Chloroplast and Mitochondria Gene Families	AT3G27690	90.2	2.1e-143	505.4
Blo07g00489	.	2	261	Chloroplast and Mitochondria Gene Families	AT3G27690	77.2	6.7e-121	430.6
Blo14g00843	.	3	265	Chloroplast and Mitochondria Gene Families	AT3G27690	77.8	3.3e-120	428.3
Blo14g00842	.	2	264	Chloroplast and Mitochondria Gene Families	AT3G27690	77.0	4.8e-119	424.5
Blo07g00613	.	7	227	Chloroplast and Mitochondria Gene Families	AT3G27690	81.9	4.8e-111	397.9
Blo09g00155	.	2	260	Chloroplast and Mitochondria Gene Families	AT3G27690	72.2	2.9e-108	388.7
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT3G27690	76.7	5.0e-92	334.7
Blo16g00889	.	103	324	Chloroplast and Mitochondria Gene Families	AT3G27690	50.9	1.1e-54	210.7
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT3G27690	54.3	1.1e-51	200.7
Blo09g00381	.	5	268	Chloroplast and Mitochondria Gene Families	AT3G61470	79.2	3.6e-123	438.0
Blo07g01231	.	86	256	Chloroplast and Mitochondria Gene Families	AT3G61470	90.6	2.2e-96	349.0
Blo01g00576	.	26	252	Chloroplast and Mitochondria Gene Families	AT3G61470	59.1	4.0e-82	301.6
Blo04g00773	CCT,ECH	22	250	Chloroplast and Mitochondria Gene Families	AT3G61470	51.3	3.2e-63	238.8
Blo04g00315	BCT	63	260	Chloroplast and Mitochondria Gene Families	AT3G54890	79.8	7.4e-90	327.0
Blo13g00725	BCT	1	198	Chloroplast and Mitochondria Gene Families	AT3G54890	80.8	2.8e-89	325.1
Blo07g01143	.	1	286	Chloroplast and Mitochondria Gene Families	AT3G08940	84.3	6.8e-139	490.3
Blo11g00311	.	1	261	Chloroplast and Mitochondria Gene Families	AT3G08940	84.8	7.3e-125	443.7
Blo16g00889	.	28	331	Chloroplast and Mitochondria Gene Families	AT1G76570	77.7	9.5e-145	510.0
Blo03g01344	.	1	272	Chloroplast and Mitochondria Gene Families	AT1G61520	84.6	1.1e-133	473.0
Blo03g01011	.	227	451	Chloroplast and Mitochondria Gene Families	AT1G61520	88.4	6.8e-120	427.2
Blo15g00451	BCT	1	265	Chloroplast and Mitochondria Gene Families	AT2G05070	89.8	5.5e-143	503.8
Blo02g00138	BCT	1	267	Chloroplast and Mitochondria Gene Families	AT2G05070	90.3	9.4e-143	503.1
Blo07g00489	.	5	261	Chloroplast and Mitochondria Gene Families	AT2G05070	78.4	2.3e-120	428.7
Blo14g00843	.	6	265	Chloroplast and Mitochondria Gene Families	AT2G05070	78.9	2.3e-120	428.7
Blo14g00842	.	5	264	Chloroplast and Mitochondria Gene Families	AT2G05070	78.1	3.3e-119	424.9
Blo07g00613	.	7	227	Chloroplast and Mitochondria Gene Families	AT2G05070	81.9	9.5e-111	396.7
Blo09g00155	.	2	260	Chloroplast and Mitochondria Gene Families	AT2G05070	72.3	4.4e-108	387.9
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT2G05070	77.2	4.4e-92	334.7
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT2G05070	54.8	7.7e-52	201.1
Blo02g00138	BCT	1	239	Chloroplast and Mitochondria Gene Families	AT2G05100	91.2	4.3e-126	448.0
Blo15g00451	BCT	1	237	Chloroplast and Mitochondria Gene Families	AT2G05100	90.3	7.3e-126	447.2
Blo14g00843	.	6	237	Chloroplast and Mitochondria Gene Families	AT2G05100	77.7	5.7e-102	367.9
Blo07g00489	.	5	233	Chloroplast and Mitochondria Gene Families	AT2G05100	76.3	1.6e-101	366.3
Blo14g00842	.	5	236	Chloroplast and Mitochondria Gene Families	AT2G05100	76.9	6.3e-101	364.4
Blo07g00613	.	7	199	Chloroplast and Mitochondria Gene Families	AT2G05100	80.3	1.4e-92	336.7
Blo09g00155	.	2	232	Chloroplast and Mitochondria Gene Families	AT2G05100	70.8	1.2e-91	333.6
Blo03g01424	.	764	949	Chloroplast and Mitochondria Gene Families	AT2G05100	77.0	2.4e-76	282.7
Blo01g01695	.	71	258	Chloroplast and Mitochondria Gene Families	AT2G05100	53.6	2.7e-43	172.9
Blo07g01143	.	4	168	Chloroplast and Mitochondria Gene Families	AT2G40100	69.6	4.7e-64	241.1
Blo11g00311	.	3	167	Chloroplast and Mitochondria Gene Families	AT2G40100	69.2	5.2e-63	237.7
Blo14g00843	.	2	265	Chloroplast and Mitochondria Gene Families	AT1G29930	89.9	2.0e-137	485.3
Blo14g00842	.	1	264	Chloroplast and Mitochondria Gene Families	AT1G29930	89.1	8.6e-136	479.9
Blo07g00489	.	1	261	Chloroplast and Mitochondria Gene Families	AT1G29930	88.4	1.1e-135	479.6
Blo09g00155	.	1	260	Chloroplast and Mitochondria Gene Families	AT1G29930	84.0	8.9e-125	443.4
Blo07g00613	.	1	227	Chloroplast and Mitochondria Gene Families	AT1G29930	88.0	1.1e-117	419.9
Blo02g00138	BCT	35	267	Chloroplast and Mitochondria Gene Families	AT1G29930	84.8	1.4e-117	419.5
Blo15g00451	BCT	3	265	Chloroplast and Mitochondria Gene Families	AT1G29930	78.3	6.9e-117	417.2
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT1G29930	76.3	4.5e-92	334.7
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT1G29930	52.9	2.0e-52	203.0
Blo14g00843	.	2	265	Chloroplast and Mitochondria Gene Families	AT1G29920	89.5	7.8e-137	483.4
Blo14g00842	.	1	264	Chloroplast and Mitochondria Gene Families	AT1G29920	88.8	3.3e-135	478.0
Blo07g00489	.	1	261	Chloroplast and Mitochondria Gene Families	AT1G29920	88.0	4.3e-135	477.6
Blo09g00155	.	1	260	Chloroplast and Mitochondria Gene Families	AT1G29920	83.6	3.4e-124	441.4
Blo07g00613	.	1	227	Chloroplast and Mitochondria Gene Families	AT1G29920	88.0	1.1e-117	419.9
Blo02g00138	BCT	35	267	Chloroplast and Mitochondria Gene Families	AT1G29920	84.8	1.4e-117	419.5
Blo15g00451	BCT	33	265	Chloroplast and Mitochondria Gene Families	AT1G29920	84.4	9.0e-117	416.8
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT1G29920	76.3	4.5e-92	334.7
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT1G29920	52.9	2.0e-52	203.0
Blo14g00843	.	2	265	Chloroplast and Mitochondria Gene Families	AT1G29910	89.5	7.8e-137	483.4
Blo14g00842	.	1	264	Chloroplast and Mitochondria Gene Families	AT1G29910	88.8	3.3e-135	478.0
Blo07g00489	.	1	261	Chloroplast and Mitochondria Gene Families	AT1G29910	88.0	4.3e-135	477.6
Blo09g00155	.	1	260	Chloroplast and Mitochondria Gene Families	AT1G29910	83.6	3.4e-124	441.4
Blo07g00613	.	1	227	Chloroplast and Mitochondria Gene Families	AT1G29910	88.0	1.1e-117	419.9
Blo02g00138	BCT	35	267	Chloroplast and Mitochondria Gene Families	AT1G29910	84.8	1.4e-117	419.5
Blo15g00451	BCT	33	265	Chloroplast and Mitochondria Gene Families	AT1G29910	84.4	9.0e-117	416.8
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT1G29910	76.3	4.5e-92	334.7
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT1G29910	52.9	2.0e-52	203.0
Blo01g01695	.	11	289	Chloroplast and Mitochondria Gene Families	AT4G10340	85.7	9.3e-141	496.5
Blo07g00489	.	34	249	Chloroplast and Mitochondria Gene Families	AT4G10340	51.4	1.3e-57	220.3
Blo14g00843	.	49	253	Chloroplast and Mitochondria Gene Families	AT4G10340	53.1	3.2e-56	215.7
Blo02g00138	BCT	51	255	Chloroplast and Mitochondria Gene Families	AT4G10340	53.6	9.2e-56	214.2
Blo14g00842	.	48	252	Chloroplast and Mitochondria Gene Families	AT4G10340	53.1	1.6e-55	213.4
Blo15g00451	BCT	49	253	Chloroplast and Mitochondria Gene Families	AT4G10340	53.1	2.1e-55	213.0
Blo07g00613	.	16	215	Chloroplast and Mitochondria Gene Families	AT4G10340	53.1	4.6e-55	211.8
Blo14g00843	.	2	265	Chloroplast and Mitochondria Gene Families	AT2G34420	89.1	8.5e-136	479.9
Blo14g00842	.	1	264	Chloroplast and Mitochondria Gene Families	AT2G34420	88.4	3.6e-134	474.6
Blo07g00489	.	1	261	Chloroplast and Mitochondria Gene Families	AT2G34420	87.6	5.2e-133	470.7
Blo09g00155	.	1	260	Chloroplast and Mitochondria Gene Families	AT2G34420	84.0	3.7e-123	438.0
Blo07g00613	.	1	227	Chloroplast and Mitochondria Gene Families	AT2G34420	88.4	4.7e-118	421.0
Blo02g00138	BCT	3	267	Chloroplast and Mitochondria Gene Families	AT2G34420	76.6	1.4e-117	419.5
Blo15g00451	BCT	3	265	Chloroplast and Mitochondria Gene Families	AT2G34420	76.4	1.5e-116	416.0
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT2G34420	76.7	7.6e-92	334.0
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT2G34420	52.4	5.9e-52	201.4
Blo14g00843	.	2	265	Chloroplast and Mitochondria Gene Families	AT2G34430	89.5	1.0e-136	483.0
Blo14g00842	.	1	264	Chloroplast and Mitochondria Gene Families	AT2G34430	89.1	4.3e-135	477.6
Blo07g00489	.	1	261	Chloroplast and Mitochondria Gene Families	AT2G34430	88.0	8.0e-134	473.4
Blo09g00155	.	1	260	Chloroplast and Mitochondria Gene Families	AT2G34430	82.4	1.4e-122	436.0
Blo07g00613	.	7	227	Chloroplast and Mitochondria Gene Families	AT2G34430	89.4	8.9e-117	416.8
Blo02g00138	BCT	35	267	Chloroplast and Mitochondria Gene Families	AT2G34430	84.7	2.6e-116	415.2
Blo15g00451	BCT	33	265	Chloroplast and Mitochondria Gene Families	AT2G34430	84.3	9.9e-116	413.3
Blo03g01424	.	764	977	Chloroplast and Mitochondria Gene Families	AT2G34430	76.7	7.6e-92	334.0
Blo01g01695	.	71	274	Chloroplast and Mitochondria Gene Families	AT2G34430	52.4	7.7e-52	201.1
Blo07g01143	.	2	286	Chloroplast and Mitochondria Gene Families	AT5G01530	84.4	1.6e-140	495.7
Blo11g00311	.	1	261	Chloroplast and Mitochondria Gene Families	AT5G01530	82.7	3.4e-122	434.9
Blo17g00322	.	552	811	Chloroplast and Mitochondria Gene Families	AT5G40810	94.2	1.7e-144	508.8
Blo18g00305	.	604	863	Chloroplast and Mitochondria Gene Families	AT5G40810	93.5	9.3e-143	503.1
Blo17g00322	.	505	811	Chloroplast and Mitochondria Gene Families	AT3G27240	87.1	1.2e-152	536.2
Blo18g00305	.	557	863	Chloroplast and Mitochondria Gene Families	AT3G27240	85.0	2.7e-149	525.0
Blo03g01202	CCT,ECH	4	327	Chloroplast and Mitochondria Gene Families	AT2G30160	73.5	4.2e-140	494.6
Blo14g00065	BCT,CCT,ECH	1	323	Chloroplast and Mitochondria Gene Families	AT2G30160	73.2	3.9e-138	488.0
Blo13g01027	BCT,CCT,ECH	5	323	Chloroplast and Mitochondria Gene Families	AT2G30160	73.1	1.9e-137	485.7
Blo11g00315	.	11	326	Chloroplast and Mitochondria Gene Families	AT2G30160	65.5	5.5e-116	414.5
Blo13g01027	BCT,CCT,ECH	1	323	Chloroplast and Mitochondria Gene Families	AT1G07030	73.5	1.5e-137	486.1
Blo14g00065	BCT,CCT,ECH	1	323	Chloroplast and Mitochondria Gene Families	AT1G07030	72.8	2.5e-137	485.3
Blo03g01202	CCT,ECH	4	331	Chloroplast and Mitochondria Gene Families	AT1G07030	70.4	4.9e-133	471.1
Blo11g00315	.	15	326	Chloroplast and Mitochondria Gene Families	AT1G07030	69.0	2.0e-118	422.5
Blo10g00071	.	1	286	Chloroplast and Mitochondria Gene Families	AT2G47490	76.0	1.1e-121	433.3
Blo16g00730	.	540	841	Chloroplast and Mitochondria Gene Families	AT2G47490	61.8	4.4e-107	384.8
Blo16g00730	.	541	836	Chloroplast and Mitochondria Gene Families	AT1G25380	71.3	4.6e-116	414.8
Blo10g00071	.	16	286	Chloroplast and Mitochondria Gene Families	AT1G25380	65.8	3.3e-98	355.5
Blo01g00828	.	1	583	Chloroplast and Mitochondria Gene Families	AT4G21490	74.7	2.0e-254	875.2
Blo02g00094	BCT,CCT	1	585	Chloroplast and Mitochondria Gene Families	AT4G21490	69.3	2.7e-235	811.6
Blo04g00667	CCT	9	574	Chloroplast and Mitochondria Gene Families	AT4G21490	65.9	7.9e-227	783.5
Blo15g00544	.	44	277	Chloroplast and Mitochondria Gene Families	AT4G21490	50.2	2.2e-59	227.3
Blo06g00742	.	5	186	Chloroplast and Mitochondria Gene Families	AT1G17530	64.9	2.8e-61	231.9
Blo17g00591	.	4	178	Chloroplast and Mitochondria Gene Families	AT1G17530	57.1	2.2e-50	195.7
Blo17g00591	.	4	182	Chloroplast and Mitochondria Gene Families	AT3G04800	57.2	7.9e-51	197.2
Blo06g00742	.	22	190	Chloroplast and Mitochondria Gene Families	AT3G04800	53.2	9.6e-41	163.7
Blo06g00742	.	6	190	Chloroplast and Mitochondria Gene Families	AT1G72750	65.6	1.5e-62	236.1
Blo17g00591	.	4	182	Chloroplast and Mitochondria Gene Families	AT1G72750	58.2	1.9e-52	202.6
Blo01g00480	.	7	240	Chloroplast and Mitochondria Gene Families	AT1G26100	65.7	1.6e-80	296.2
Blo17g00410	.	1	223	Chloroplast and Mitochondria Gene Families	AT5G38630	73.7	1.9e-91	332.4
Blo11g00348	.	1	227	Chloroplast and Mitochondria Gene Families	AT5G38630	66.2	4.6e-85	311.2
Blo06g01119	.	62	271	Chloroplast and Mitochondria Gene Families	AT4G25570	62.2	2.2e-73	272.7
Blo16g00707	.	6	224	Chloroplast and Mitochondria Gene Families	AT1G14730	56.2	3.8e-68	255.0
Blo18g00547	.	9	371	Chloroplast and Mitochondria Gene Families	AT5G14040	82.3	5.5e-173	604.0
Blo16g00771	.	65	431	Chloroplast and Mitochondria Gene Families	AT5G14040	78.0	7.3e-165	577.0
Blo13g00467	.	10	292	Chloroplast and Mitochondria Gene Families	AT5G14040	51.9	8.2e-84	307.8
Blo18g00547	.	10	368	Chloroplast and Mitochondria Gene Families	AT3G48850	70.0	6.8e-144	507.3
Blo16g00771	.	66	430	Chloroplast and Mitochondria Gene Families	AT3G48850	67.8	4.9e-142	501.1
Blo13g00467	.	10	292	Chloroplast and Mitochondria Gene Families	AT3G48850	50.2	9.7e-82	300.8
Blo16g00710	.	121	244	Chloroplast and Mitochondria Gene Families	AT3G48850	62.9	2.2e-41	166.8
Blo13g00467	.	6	291	Chloroplast and Mitochondria Gene Families	AT2G17270	73.9	6.5e-127	450.7
Blo18g00547	.	70	367	Chloroplast and Mitochondria Gene Families	AT2G17270	52.8	7.2e-86	314.3
Blo16g00771	.	128	425	Chloroplast and Mitochondria Gene Families	AT2G17270	51.5	8.8e-84	307.4
Blo10g00165	.	42	303	Chloroplast and Mitochondria Gene Families	AT5G15640	71.2	1.1e-100	363.6
Blo05g00051	.	5497	5844	Chloroplast and Mitochondria Gene Families	AT5G26200	59.9	1.7e-112	402.9
Blo06g00744	.	1	346	Chloroplast and Mitochondria Gene Families	AT5G26200	60.4	2.5e-111	399.1
Blo01g01453	.	12	222	Chloroplast and Mitochondria Gene Families	AT5G26200	68.7	2.9e-80	295.8
Blo05g00051	.	5497	5848	Chloroplast and Mitochondria Gene Families	AT1G72820	75.1	2.9e-147	518.5
Blo06g00744	.	1	345	Chloroplast and Mitochondria Gene Families	AT1G72820	75.3	7.8e-145	510.4
Blo01g01453	.	1	226	Chloroplast and Mitochondria Gene Families	AT1G72820	65.5	4.8e-78	288.5
Blo03g00347	.	99	305	Chloroplast and Mitochondria Gene Families	AT5G52570	51.7	1.8e-49	193.0
Blo09g00065	.	1	218	Chloroplast and Mitochondria Gene Families	AT4G25700	62.4	2.1e-71	265.8
Blo03g00347	.	49	221	Chloroplast and Mitochondria Gene Families	AT4G25700	62.6	7.6e-61	230.7
Blo03g01422	.	79	271	Chloroplast and Mitochondria Gene Families	AT5G54290	89.7	1.5e-90	330.1

Syn-Orthogroups

Select	Orthogroup	Bda	Bhi	Blo	Bma	Bpe	Cam	Car	Cco	Cec	Chy	Cla	Clacu	Cma	Cme	Cmetu	Cmo	Cmu	Cone	Cpe	Cre	Csa	HCH	Hepe	Lac	Lcy	Lsi	Mch	Sed	Tan	Vvi	Total
	OG0006061	1	5	1	1	2	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	1	0	1	1	1	1	1	1	34

Transcriptome

Select	Gene	Chr	Type	da1	da2	da3	da4	da5	da6	da7	da8	da9	da10
	Blo05g00051	Blo_Chr05	FPKM	12.818182	8.234069	8.975611	11.000544	8.555049	4.060175	11.775808	6.649815	7.210434	10.263825