Bhi10G000163 (gene) Wax gourd (B227) v1

Overview
NameBhi10G000163
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
Descriptionprotein DGS1, mitochondrial
Locationchr10: 4602712 .. 4626496 (+)
RNA-Seq ExpressionBhi10G000163
SyntenyBhi10G000163
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
TTTAACAGTAACTGGCTGGGAACCAGAAGAGGCATCTAGACTGTACGATGTTTTGGGTGATCTTTTGGAGCACTGTTTCTTGAATTTACATAGCATTTGGAAGAACTTGCAATTCTGGCAATCTCGTGCGGAGGCAAGTTTTTTTGTTGCCTTGTGTTTTTAATCAATCTATTTTATGCATGTATAGAAGATGTCAGGAAGAAATAGGTCCAATATAAGTGTCTTCGAGTGTCTTCAAAAGAGCCATTATCCAGTGACATCCTTCTTTTAAAATTCAACACTAGTTTATCTTAATGTTACAGCCAAGATTAGACTAATCAGTCATACTCCAGTTGTTCCTTTAAGTTTCTATCTTCTTCCACAAACATCCGATCAATGTAAAGGGGTTTCAGTTTTACCGAAAGTATACCAAAAAACTGAGAACAATGTGTCCCCACTAAGAGTAGTCAGGAAAAATGATGAAACCTTCCCTCTTTTTCCACACATCTTCGTGGAGACAAATAATAAAGGAATCTTTTCCTGCAACGTATGTTTAGTAACAAACTTTTTGTGAGCAATGCTCAAGGAGAAGTTGAACTTATTTTTGCACTTTGGCCTACTAAATCAAATTTTTAGGAGTAAAATTGATTGTAATCTAAAGAACATGAAGAAGGAACCACAAGGAAAATTCCTCTTGTTGAAAGTCCTTCCCTCATGATTGGACGAAAGATCTGCCAATCCCTTTCAGTTCATTTTGCTCAATTACTTTTTAATGCTAAGCATGTGATTGTTATCTTTTTGATTCCTGTTAAAACTTGGTTGTGTCTGCTTTTGTAATTATTTTGATGAAATTTCAGGGTACAAATGCTCAAAAAGTTTACTTTCTGATTTGTGAGAGAGGTCCAAGGGAATTTTTTAGTCGAGCAGTGCAATTAATGCGCCAAAGTTTTAGGGGTGGTTTTTCCTTACAACATGTAGCTTGTGAGGCATCTCTTTACATAGCTGATCGGATAACTATATTGAGCAGCTTAAGATGTCATCTTGCAGTTTTTGTGGCTCAGGTTCGGTTGCACTTATTTTTCAAATGTAATCTCATCATTTTTGTGGTTTTATTCTATCCCTGAAAAGATAGTTGGCTTGCGCACACACATAATGAGGTGTTACATATTTTCATTTGGCAAGTGCTTCATGATGGAGTTAAATTCTTGAAACGTGTATTGAGGAAACTTTCCTATCTGATAGGGCCACAATTTTGTATCCTTTGTGGGAGAGTGTAAAGAGGTTCTTGATCACCTTCTAGGAAGATGTCATTTTGCCTTGTTGGTTTGGGACTGTTCCTTTTTCAAATGTTCAATGTGTGTTTGGCTTAACTTGATGTGTGTAGCTCTATGTTGGAGGTGTTTCTTCTTTTCTTGAGAAAAACAATTGTACTTTAGAGGTGCATGCACATGTTGCTGTGACACTGGCAATGGGCATTCGGTGGCTTTTTGGCATGATACTGTTAGGAACCCTCCTAACAAGAACGATACTAAAAAATATAGAAAAACTAAAGGACAATTCAATTATAGAAATATAGTAAAAATGTATTGAAATATGCTATAAACTCACAAACTAACAAGATAAACCCTAGCCTTTCGAGAGGGCTAGTCTCTTCCAAATTTCCAAATAGAAATTCCCACCAAATTCTTCACACCCCCCTCCAACCCCTCTCCTATTTATAACTAAAATCCCTAACAAACTTCATATCTAATTACTCATTTGCCCTTTCTAATACTTATCCTAACATTTACTAATAATCCTACTATTCCCAAGACTAGGGGTTTTACATTACTCCGCCCTTCGAAGACACCTTATCCTCTGTCTCTTATACACATCTAGATGTGTATAAGAGACAGATACCCCATCGTCCTTAAAAATAGCAACTAGCTTCAAGTGAATCCAGCCCAAAATAATGCTGCCACCTTTTCTGTTCTCTGGTCTCGAATTGTTTAGTTGATGTATTGGGCCACTTTGTTGCATTTGAGGTCCATATTGGATGACAGAACAGGCCATATCCCTAGCTCCTTTCCTTAACTCTATTTCTTTTTCTTTTTTACACGTGTTTAACCTTTCTAACCTTTTGTTGTTCTTCATATACCAGAATAGATGGACTTGTTTACTCAGCCCAAAATGCCTTACAAATTCAATGTGGCCTCCTTTTTCAACCGTTGGTCCCACCCTCCAAATTGCGTGGGTAAAAGATTCTTCTTCCATCTCATCTTTTTTTTTTTTTTTCCTTTTCCTGAGCCTTCTCGTCTGCCCATGGTCTTCCGTCTCCCTCTGCAAATTTCGACCCATCTTTCATGAAGACTCCCCCCACCTCACTTGCTTCTTCGCTGCCACCCGTCTGTCTCTTATACACATCTAGATGTGTATAAGAGACAGATTCTCTTCAGCCATGTTCAGTCTTGATTATAAATTGGGCTTTGATTTCTTGGCTTGGTTTAAGCCCAACAAACATCCCATGACTCCACTTTCTTCTTTCTTCATTGTGATTCTCTTTTAATGGGCGGGGCCCATTATTAGCCATTGGGCTAACAGCCCATCTTCACGCCATCTATCCTTGTTTTTGAAGTTGAAGTTTCTTCTATCTTCAGTTTTGGAAAGCCATTGGGCTTTAACTAATGCGCTTGGATTTGGCCCAATAAGCAGCCAAGGACCCCATAAACTTGCATAATCTTCTTTCTTCTCACAAAGTACGTGGCCCCAACTAACAAGTTGCAAATCTCTGGGCAACAGTTCAGGAGAAAACAAAGCAAAAGGCGAAGATGAATAGAGGAAGGAGAAACATACCGACCAAAAGGAAAAAGGGCAAGTGGAAGAAGAAGCATCACAAATCAGCAGGGTCAGAGATGAAGTTTCTTAAAAAGCACCGATATAAGTTCCAAGAAAAGCGAGAGAAGATCAGAAAGGTATAGCCATGAAGAAACCATCGAAGGAGATCACTACCGACAGCAAGAATGGGTGTGGACAAATAAGAAGTGTCAAAGAAGAACTTCCCGGTGTGATGGCGTACGGACAGAGAAACGACGAGGTATAAACTTAATTGATTTCACTTACTTTAATAAATGAAATGGCAAGCGAGGACGAAGAATATGTGGGCGAGGAGGATGGAAATAATGTATATGGCCGAAGAGGACGAGCGACGGTGGTGCGAGAAAAAGACGAGTAAACAGATAGACCATTCTCAGGAAGAGGAGATGTTGTGCAACAGAAGTCAACAAGCAGATGCACGAACGATGATCGTCGAAATAACGGGTGGCAGCAAAGAAGCAAGTGAGGTGGGGGAGTCTTCATGAAAGATGGGTCGAAATTTGCAGAGGGAGACGGAAGACCATGGGCAGACGAGAAGGCTCAGGAAAAGGAAAAAAAAAAAAAAAAGATGAGATGGAAGAAGAATCTTTTACCCACGCAATTTGGAGGGTGGGACCAACGGTTGAAAAAGGAGGCCACATTGAATTTGTAAGGCATTTTGGGCTGAGTAAACAAGTCCATCTATTCTGGTATATTGAAGAACAACAAAAGGTTAGAAAGGTTAAACACGTGTAAAAAAGAAAAAGAAATAGAGTTAAGGAAAGGAGCTAGGATATGGCCTGTTCTGTCATCCAATATGGACCTCAAATGCAACAAAGTGGCCCAATACATCACTAAACAATTCGAGACCAGAGAACAGAAAAGGTGGCAGCATTATTTTGGGCTGGATTCACTTGAAGCTAGTTGCTATTTTTAAGGACGATAGGGTATGGGCCCAGATGAGGCTGGACCAGCATGTGGATCATGGGCCTAGCCCATAGATAAGAATTTCAAATTTAAAGACCAATACAAATGGCATGGAAATTTGCCCAGAGATTTGCAACTTGTTAGTTGGGGCCACGTACTTTGTGAGAAGAAAGAAGATTATGCAAGTTTATGGGGTCCTTGGCTGCTTATTGGCCCAAATCCAAGCGCATTAGTTAAAGCCCAATGGCTTTCCAAAACTGAAGATAGAAGAAACTTAACTTCAAAAACAAGGATAGATGGCGTGAAGATGGGCTGTTAGCCCAATGGCTAATAATGGGCCCCGCCCATTAAAAGAGAATCACAATGAAGAAAGAAGAAAGTGGAGTCATGGGATGTTTGTTGGGCTTAAACCAAGCCAAGAAATCAAAGCCCAATTTATAATCAAGGGTGAAGAGAAGGCTATGCTGGCTTGAGTTTTGGGTTCTCAAAAAGGAGGGGGGGGGGGGAAAGAAGACGACGACGAAGTTGCCCAATTTTGTGATTGTATTTTGTAAGCACACCTTGAGGACAAGGTGTCTTCGAAAGGCGGAGTAATGTAAGATCCCTAGTCTTGGGAATAGTAGGATTATTAGTAAATGTTAGGATAAGTATTAGAAAGGGCAAATGAGTAATTAGATATGAAGTTTGTTAGGGATTTTAGTTATAAATAGGAGAGGGTTGGAGGGGGGTGTGAAGAATTTGGTGGGAATTTCTATTTGGAAATTTGGAAGAGACTAGCCCTCTCGAAAGGCTAGGGTTTATCTTGTTAGTTTGTGAGTTTATAGCATATTTCAATACATTTTTACTATATTTCTATAATTGAATTGTCCTTTAGTTTTTCTATATTTTTTAGTATCGTTCTTGTTAGGAGGGTTCCTAACAGTATCATGCCAAAAAGCCACCGAATGCCCATTGCCAGTGTCACAGCAACATGTGCATGCACCTCTAAAGTACAATTTGTTTTTCTCAAGAAAAGAAGAAACACCTCCAACATAGAGCTACACACATCAAGTTAAGCCAAACACACATTGAACATTTGAAAAAGGAACAGTCCCAAACCACAAAGGCAAAATGACATCTTCCTAGAAGGTGATCAAGAACCTCTTTACACTCTCCCACAAAGGATACAAAATTGTGGCCCTATCAGATAGGAAAGTTTCCTCAATACACGTTTCAAGAATTTAACTCCATCATGAAGCACTTGCCAAATGAAAATATGTAACACCTCATTATGTGTGTGCGCAAGCCAACTATCTTTTCAGGGATAGAAATAAACCACAAAAATGATGAGATTACATTTGAAAAATAAGTGCAACCGAACCTGAGCCACAAAAACTGCAAGATGACATCTTAAGCTGCTCAATATAGTTATCCGATCAGCTATGTAAAGAGATGCCTCACAAGCTACATGTTGTAAGGAAAAACCACCCCTAAAACTTTGGCGCATTAATTGCACTGCTCGACTAAAAAATTCCCTTGGACCTCTCTCACAAATCAGAAAGTAAACTTTTTGAGCATTTGTACCCTGAAATTTCATCAAAATAATTACAAAAGCAGAACACAACCAAGTTTTAACAGGAATCAAAAAGATAACAATCACATGCTTAGCATTAAAAAGTAATTGAGCAAAATGAACTGAAAGGGATTGGCAGATCTTTCGTCCAATCATGAGGGAAGGACTTTCAACAAGAGGAATTTTCCTTGTGGTTCCTTCTTCATGTTCTTTAGATTACAATCAATTTTACTCCTAAAAATTTGATTTAGTAGGCCAAAGTGCAAAAATAAGTTCAACTTCTCCTTGAGCATTGCTCACAAAAAGTTTGTTACTAAACATACGTTGCAGGAAAAGATTCCTTTATTATTTGTCTCCACGAAGATGTGTGGAAAAAGAGGGAAGGTTTCATCATTTTTCCTGACTACTCTTAGTGGGGACACATTGTTCTCAGTTTTTTGGTATACTTTCGGTAAAAACTGAAACCCCTTTACATTGATCGGATGTTTGTGGAAGAAGATAGAAACTTAAAGGAACAACTGGAGTATGACTGATTAGTCTAATCTTGGCTGTAACATTAAGATAAACTAGTGTTGAATTTTAAAAGAAGGATGTCACTGGATAATGGCTCTTTTGAAGACACTCGAAGACACTTATATTGGACCTATTTCTTCCTGACATCTTCTATACATGCATAAAATAGATTGATTAAAAACACAAGGCAACAAAAAAACTTGCCTCCGCACGAGATTGCCAGAATTGCAAGTTCTTCCAAATGCTATGTAAATTCAAGAAACAGTGCTCCAAAAGATCACCCAAAACATCGTACAGTCTAGATGCCTCTTCTGGTTCCCAGCCAGTTACTGTTAAACTGTTTGCAGTTTCCATGAACCAATTACGATAAACATACATCTACTTGTCAACAAAACATGTACATGGCATNNNNNNNNNNNNNNNNNNNNNNNNNCTATCGAATTTGTTCTCTCGAATTCTCTGATCCTTACCTCCTTTTTTATTGTTTTGAACTTGTTCCCTTCCAACAAGTTTGATCGTATGCTTTTGTTCTAATTTTGTCTTTCTTGGTGATATCTCTTTCGTTCCTTCCCTCTTGGTTTGTCGATTGACTCTTCCTTGCTTTTTCGGAGGTGTTCTCAGGTACGATCGTCGCCTTCCAGCCACTCTTCGAACTCGTCTTAATAGTTTCCGAACAAGGTTCTCCTTCTCTATTTGGGTGACTGCCATCCTTCTCTCTTCTCTTTCTCTATCTCTTTGCAGAGACTCCTTGATCCTTTGTTGTATTGCCTTCAATTCTTCTTGTATCTCCAACAACCTTGAATCTAGCCTCTGACCACGATCCATAGCGAAACAATTCTCCCAAGAAAGAACGGCTCTGATACCAATTTGTTAGGAACCCTCCTAACAAGAACGGTACTAAAAGATATAGAAAAACTAAAGGACAATTCAATTATAGAAATATAGTAAAAATGTATTGAAATATGCTATAAACTCACAAACTAACAAGATAAACCCTAGTCTTTCGAGAGGGATAGTCTCTCCCAAATTCCCAAATGGAAATTCCCACCAAATTCTTCACACCCCCCTCCAATCCCTCTCCTTCTATTTATAACTAAAATCCCTAACAAACTTCATATCTAATTACTCATTTGCCCCTTCTAATACTTATCCTAACATTTACTAATAATTCTATTATTCCCAAGACTAGGGGTCTTACAGATACTTGGGTGAATTCTACCCCTTTACATGCTGCCATCCCTAACCTTTTTGCTCTCTCTCTCTTGCTAGGAGGCTACGGTCTTCGATTCATGAAAGGGTAGAGCTGTTGGGACCTAAAACTCCATAGGAACCTTACTGCTTTGGAGATAAGTGAATGGGCTGTTTTGTCCCTCTTATTAACAGATTTCCCGCCACAATAATCAGACGACAAATGGTTCTGGAAGCTTGAACCATCTGGGATCTCCACGAAATCCTTGATTGCCTCCAAACAAAATACAAACTCCACATATGCGAGGGCCCCTACAAATCAATTTGGTCAGACCGCTTCCCAAAAAGATAAACTTCTTTATTTGGAAACTATCACACAAGGCTGTTCTCACTCATGAAAACTACAACGTCTGCCTTTGATGACCATTTCCTCTGCCTGGTGCACACTTTGCAGGATGAGCAATGAGACACCAAGCCACCTCTTCGTCTTTTGTTCTTTCTCCAAAAGATTTTGGGATCTTAGTACCTTTAATTGGTATGTGGCTTTTCTTTGAGACATCTCTAGTTTCGTATGCCTCACCCTCAAGGGTCACCCATTCAATGGAAGGAAGAGACTCATTTGGATGCACCTTGTTAGATCTTTTTTGTGGTTGGTTTGGCTTGAACGAAATAGCTGGATGTTCAATGACAAATATCAACAAATAGACCCTTTCATAGAACATGTTATTTTTATTGCTATCACTTGTGTAAATTGTCTAAATACTTCATGTCTTATAGTTTTGATTCTCACTTGACCAATTGGACGTCTTTTGTAACTCCTTTGGCTCAAGGTTTTTTTTCTCCCTCCTCTTTTGTAATTTCATACACCAATGAAATCGTCTCTTATAAAAAAAATCGTACTTTAGAGGGGTCAAGAGGTCTTGGAAGGAGATTTGGGTCCTCATTAGGTTTAATGTTTCTCTTTGAGCCTCGGTGGTCATGGAGTTCTGTAATTGTTCCTTAGGTCTCATTTAACTATATAGAAGCCTCTTTCAGTCAAGATAGGTTCCTTTTCTGGGGCTGATTTTTTGTATGCCCCTTATATTCTTTTGTTTTTCTGTAATCAAAGGTTGGTCTTTCATTAAAAAAGAAAAGAAAAGAAAAGAAAAAAAAAACCCCCACCTCCTAGTTTGCCAAGGCTAGGATTTGCTTGTGAGGGGTTATTGGTCACTGCGGCCATATGGAAAGTCTATGGAAACTGAAGAGTGAAGTCCATCCCCATGTTTTGCCTAGAGGCATCTATTCTGTGGAACAAGCTGGCAGAGGTGTTTCATTTTATCCTCCTTTTTCCTTGTTTGTTTGGACTAGGGATTTGCTTGTGAGATTTTTGGTTTGCGCTCCAAGGATACAACCAAGTAGCTTAGTGTGGTTTTGATCGGCTTCTTTGATTGGTCTGGACTTGGTGGAATAGGAGAATTTTTAATGATGGAGTCATAAGTTTCGGACCAGTTTCTTTCATTTGTTCTCAATGTTTTGTTTTTCTATTTCAAGAAGGAAAACAGATTTAATTGAAGAATAAAATAAAAGGAGTAAACTCCAAAACACCTATAGGTAGATTACATGAAAAATTTCTAACAAGAAATCAGCTTTTCCTTTCTTTATTTCTTTTAATAGGAAATATATCATCAAAAGAACACAAAAGAATAGCCTAAGGGCAGAGGGTTGAGGAAACCCCCTCCCACAAAACTAATAAAGGAAACCCTCAACAATCATTAGAAGGCTATAATTACAAAGAATTTGGTGTAATTTATCACCACCAAGATGCGATATGTTGAACAAAAGGTAAAAAAGAATCAAAAGAGGCAAACGTATCTTCAAATATTGGCTTTTTACCAAAGGCACCACAAAAGAGCACGGGTAGTACATCTCCATAGGACGTTTTCTTTTGCCATAAAAGCTTCCACCATCAGGACCTTCCAACATCCATTCATCAATCTTCTTGAGAAGACAACCCTCCACCCCAATAGTATTAAAGAGATTAAGCCGCCCTTTAGAAGGAAACTCACAATGTTGAAACAAGTGATCCATTGTTTCCACTTCTCTAAGACAGACAATAGATGGATGGAGAAAGGGGTCAATTGGGGAACTTCCTTTGAAGCTTCAATTTAGGCTCGAGCAAGGGACTGCAGAAAGAACTTCACTTTTTTGAGGATTTTAAGCTTCTAAATAAAGCTAACTATGTCATGGCCCCCTTAGTCAAATTTAAGAACGTGGATTTGGTAGAGTACCTACCCGAGTGATCAATCTTCCAGCACATTCTATCCCTATTCCTATCCACCACCCTAGAATTTGAGGAAAATCACATACAAAAAACAATCAGAAAATGGGTTGTATCTTCTAAGCATTAGTCTCATTTTATTATATCAACAAAAAACTTATTTCTTGTTAAAAAAAATTTAATAACATTTACACCTGTACATGAGAAATCACCAATTCCATAAAACTGTAAAAAAAAAAGAACCAAAAACTATCATATAATTATCAAAAGAGGACAAAGAGTACCCAAAGAGGAACCAAAAAAACACTGTGTTAAGAGCTAGCTAAAGAGTCTTTCTTCTCTCCATGGAGGATTACCATCAAAGATGTAAGCAAGGAACTCATATGGAGAATTTGAAAAATCCAAGGACCACCAAAAAGCATCAAGAATAATGGCCCAATAACGAAAAGCATAAGAATAATGAAGAAAAAGGTGTCCCGGATCTTCAGAGTGAGCAACACACATAATACACCAAGATGGGAAGAGTGACAAACAACGCATACATCTTTGAAGCTGTGTTACTAGCTCCAAGACTGAGCTCCCAAAGAAAAATATTTATTTTCTTTGTATAAGAATCCAACCAAATCACCTTATAAAGATGGCTTGAAATATAACCGAGGAGTCCACCAAATCAACCTAAGAGATTTTACTGTAAAAGTATTGGACATTCAGCAACGAAAATTTGGTTTAGGGTTCAAGCCTCTTCACATTAGATCTATATTGATTTTATTTCTCTTGCTTAGTCCTTTTCTTCTCTATGTACTCGTCTTGAAAATTTTGAAATTTTTTTTCTTTTGGTTTCCTTTACTTTGAGCATTAGTCTCTTCTCATTTTATCAATGAACAGATGTTTTGTATTTTTTTTTAAAAGAAAGAGAAAGAAAAAAAAAAGAAAAATGCAGTAGTTGGAAATCGTTTGGTCCTTCACATTTTTTTTTTTTTGTATCCGGTCAATAGTAATTATCAATGTAGTAGTTTCTTATAACTTGAGAGCGGTTGGAGGAATCTTCGTATCTAATTGAAGGAACCTTTTGTAATCTTGTTTATAAGAGATTTCATTCATCAATGAAATAGTTTCTTATCAGAAAAAAATAATCCTTCAGAGTGGTTGGCTGGAAATCATTTTTTCAGAAACTATTTAGGACTTAGGAGCCAGTGATTGAGAAACTTCAAGGGCGTTCAAAGATAACAAAAACTTGCTGATCGCTTCAGAACTTTTCTCCCTGTCGTTTGCCTTTCCTTCCTGTGATATAATAACAGTTTAGCTGCTTAACATCACATTTTAACTCTCTCTCAATTTCTGGTCGGATTATTTTGATTTTATTCTTTTATGGTTCTTGTAGGTCTTTATGGAAATTGACAAAATTGGGGCAGAGGCAGTAAATGGTCAAGAAAATCCCTTACCATCATTATTGGTCACATTGAATGGCTTATTTCTCGATCTAGAGGCATCAATTTGTCAACTGCATGCAACACATCCTGTAACATTGACATTTTTTGTTAACTTTATTGTGAAAAATGCTGAAGCAGAAATTATTCTAATTTCATGTTTCAGTTCCCTATGTTTACTTTGTAAATGACCATGCAGACGGATTTTACCGATGGAAGCTTTTCAATTCCTCTATTTGAAAAAGTACCAGATGTGAACAAGGAGGGATCTCAGTGGACGGGTTGTGAAATTGGTGATGCTATCAACCTGCTTTATCAGAACCTTCACAACTTGGACTCTTTCATATCTATTCTTGTAAGATCTCATTTTGGACGCTCCTATTATTACTAATTTAATTTCCCACCCCTGAACTATTTTTTAATCAACAAGAATACTTTCAATCTTATTTGTTTCAACTTTTTGAGACCTGTGGCCACAAATTATCAGATCAAAGGGGATAAAGTGGTACTACTACATAGCCGTTTGATCATTTACAACTCACCTTTAAGCATGCACTATATAAGCACATTTACTATTTTGCTGGAAATATAGCTCAAATAACGTTGTCATGCATTCCAATTCTGTCACTTACGGTGACGGCTTGAGAAATTTGAGATTAAGTAGTAGTATTATCACCTACAAGGTAAAATTCTTTGCACTGACTTTGATGTAATAGTCTGATGTCTCTCTCTAGTTCTCATGATTTGTGCAGCAACTATTGTTAAATAGTTGATGTAATGTTTATTATGCTAAATCTTATCGATCAATTTATATTGTAGTGTTTTCTCCTTCTCCTTTTTAATTTTTAATTAAATGATCATAACCTGCCCTGTCAACCCCAATGAAAGCTAGGAATAGCAATATCGTTACTACCAATTTAGTGAAATTTTGACTCAACAGTGGCCACACCTCTATTTATGGATATATAATCACCTAAGATTTGAGACAATCATTATATTTTATTCCAGTCACTTCAGAATTTATATACTGTACAAGGATCATCTAAGGTAAATAATGTGAGAAGACAATAAAGGGCATGATGTCTAAGATATTAACAATAATACAAATTGTTAAATCACCCCTGAATTTCTGGTAAATTTATTTGTTTGTCATAATATAACGCTCCACTTTTGGGCTTGAAATTGGCATGAGGCTAGTACGTGGTGTTGAATATTATTATTATAATAATAATATTTATTATTTTTCTTGAAAGGAAACAATGCTTTTCATTGATATAATGAAAAAAAAATATATTGAGAGAAATACTAGAACAACAACCAACAACCAAATTAAACCTAGGGATTAGGTAGTGCACTTAGGAATCTCAACTAGGTTGACACCCCATTAGTCCATCATCATCTCCAATACACAACATCAAACAAAAATACGATGATAAAATTAGAAGCCCTCCATTACAATGCCAAGACAAACAAAATGCTAAATGCTAACTATTGTGCTGGAAAAATAAAAGCCTAAATTGACTTAGGTCTTGGAGAGAAAAGTCTGCAAAAGACTTGTAAAGGGTGCTACAAGAGGAAGCGGTGAGCCGAGCTGTCTCGAACCGGTCTAACCAAGGAGTGTACTTTTCATGAAACATTCTTTGATTCTTTTCAGACCATAATTCAACAAGCAAAACTTTGATGACGTTGAATATTAATTGACAAGAAATTACAGTCAATATAGTTGTCCAAACATACAGACTCTTGCTCCATGTTAAATCATTAACCAACGTAAACGCTTTAAGCTAATGGGTCACATTAAATATAATTTTATTCATAGTTTAACACAAAATACTAATACAAATATTACTATGCTCCCTCATCAGGTTGGTATTGAAAACAAAGTTATGGAGCATCATAGAGTTATTCCCTACAGTGATGCATTAATTTGATAATTTATGAATACTTACTAAGCAGTGTTCATTTAAGTGTGTTTTCCTCATATTCTGATGGTTCTTTTTTGTATTTTTTTCTTTCCTTACTATGAGGTATTGATGTGCACTTGTCTTTTCCTTTTTAGGTTTGTAAACATCGAAAGCCAAGGAAACTGACTCAATACTGGCTTAGATACACTTGTGGTGCGATTGGTCTTTCAGTCTGTTCTGTTTGGCTTATACAACATAGTAGTTTAACGGGGAGCAATGACATTGAGAATTGGGTTCGTGAAGCACATAATTCAGCAGCTAGTTTTTTCAAGGATCACGTAGAACAACCGGTATTATTTTTACTTTTTGGATTTGGTTTTCTTTGTCATGATTGGAAATTTGGAGCACCTTTGTCTATTTTCTTTACCATTTTATTTTATTTTTCTTGGGTTTGGTCTTCGGTTATGGTTGATTATTAGGCTTAAATAACTTTGAAGTCTCTCTTCATGTCATAATGGATCTTTTTTCATTTATCAATTGTGAGAGGAGATGCTTTGTTTCTCAATATGAGTGTTTTGAGTGTTTGTTCGCAGAGGAGGTGATCGAGGGTATTCTCTTTCTACTGAATTTTCTATGCACGATGACCTTTCTTGTGGTATGTGTCCATTATAAAGGATCTATGGACAGAGCTTAGAGATTCTTTTGGGCATGCTAATATTATTGGTTTCTTGGAGGGATCAGGGGTCTGTAATGTTGCTTTGTTTAAGTATTTGTTGTAATACATAACTCTTTCTTTTATTTCTTGTGATGATTTTACAAGAGGGAGCACCCCTTATATATACAACTATGATAGCTAAGTATGGAAAAACTTATAACAGTCAAATAATGTACATATGGTAAGAATAAAAATAAACCCTAATTACAGGGAATAAAATCATATGTACAAGGTAGGAGGAGATTTTCCATATTCAACACTCCCCCTCAAGCTGGGCGATATATGTTGATTAGGTCCAGCTTGGTTTTTAAGTCTTCAAACATATTCTTGAATAGGGCCTTTGTTAGTATGTCAGCAATTTGCCTTTTGGTAGGTATGTAGTTGAGTGAGATGCTTTTGTTTTCAATTTTTTCTTTAATAAAGTGTCGATCAATGTCCATATGCTTTATACGATCATGATAGACTGGGTCTTTGGTGATACTGATAGTAGCTTGATTATCACAGTGTACCTCCATTGGTTCTTTTGATTTGATTTTGAGTTCAGATAGAATGCTTTTGAGCCACATTCCTTCGCATATTCCTTGAGCTAGAGCTCTTAGTTCTACTTCGACACTGCTCCTGGATACTACAGATTGTTTCTTGCTTCGCCAGGTGACTAAATTCCCCCAAACAAAGGTGCAATATCCGGAAGTTGACCTTCTGTCTATTTTTGAGCTTGCCCAATCGGCATCTGTGAAGATTTCGATGTTTCTTCTCTTAGATTTCTTGAAAGTATAATCCCTCTCCTGGAGTTCCTTTCAAGTACCTGAGTATTCTGTATACAGCTTGCATATTGTCTTTTGTTGGACTGTTCATAAATTGACTTATAAAGCTAACTGCAAAACAGATATCAGGTCTTGTGTGAGTTAGGTAAATCAGTTTTCCAACTAGCCTTTGATACTAATCTTTGTTAACCATTTTGTGATTGTTTTCTTTGATTATGTGATTGTTTGTGTCAATTGGAGCATTAGCAGGCTTGCATCTAAGCATTCCAGTTTCCTTTAATAGGTCAAGGACATATTTTCTTCGAGAAATGCTCAAGCCTGTTTTTGAGCAGGCCACTTCCATTTCTAGGAAGTATTTAAGGTTGCCTAAGTCTTTTACTTCAAATTCCTTGGCTGGCTAAGAAAAGTTTTAGATTTCTTATTTCTTCTTCATGGTCTCCTGTAAGGATAATGTCATCTACATAGACAATAATAATTACTATTTTACTCGTGCAAGAATGTTTGACGAAGAGAGTATGGTCAGATTGACATTGTGAGTATCCGTTTTCCTTTACCACTTTTGATAATTTATCAAACCACGCCCTACGGGATTGTTTTAGACCATATAGGGATTTTTTGAGTTTGCATACCTTATTTATGGTTTGAGTAGATTCTACATCGGCCGGTATATCCATATACACTTCTTCTTCTAAGTCTCCATTAAGGAAGACATTCTTTATGTCTAATTTGTGAAGAATCCAATCATTATTCATAGCTAGGGGAAACAGGACATGAATAGTATTTAATTTTGCCACCGGGGCAAATGTTTCTTGATAGTCAATGCCATAGGACTGGATGACTCTTTTGGCGACGAGTCTATCTTTGAACCTATCTATTTCTCCATTAGCCTTGTACTTGATGGTGAAGATCCATTTGCATCCTACTGTTTTCTTTCCTGGAGGTAGGTCTGTTATTTCCCATGTGTTGTTCTTTTCCAAGGCCTTTATTTCGTCTAATACAGCTTGCTTCTAATTAATGTCCTTAAGGGCTTCATAGACATTGTTTGGAATGTAAACTTGGGATAGTATAGTTGTGAATGCTTTAAACTTGGGAGATAGGTTTTTGTAGGACAGGTAGTTTTGGATGGGATGCATCGTACAAGTTCTTACCCCTTTCCGTTTTGCAATAGGAAGATCAATGTCTTCAGTAGGTGTTTCAGCTGTGGAGTTGGAGACATGATTTTCCTGTATTTTGGTTGGATTTTGATTGAATACTGGTACATGTTCAAGGGTGTTCTTCCTTCTAGTATAGACTATAGGATCTTTCCTACTTTTTGGTGGGTCTTGATTGGGAATATCGATTTCATGTATATAAGGAACATACGGAGCACTCTCTTCAATGAGATCTAGTTTTTGTTTCCTTCGTTTTCCAAAAGTTTTTCATTTTCTATGAGGGTGGGAGGTTCAGTGGTGTCTTGCTTTTTGAAGTAAGGTTGGGTTTCAAAGAAGGTTACATCCATGGATGTATAGAACCTTTTTGTAGTTGGTGAGTAGCATTTGTATCCCTTTTGGCTTGGAGCATAACCAAGAAAGATGCATTTTATTGCTTTAGGATCTAACTTACTCCTATTGGGTCTATGATCTTGGACAAAAACTGTGCAACCAAATATTTTTAAAGGGACTTGAGAAAATAATCTATCATGAGGAAATACTTCCTTAAGTTTTTTAAGGGAGTTTTGAAGCCTAATATTCGAGAGGGCATTCTATTAATATGGTAGGTGGCTGTTAGAACCACTTCTCCCCAAAAAAAATTGGCGGGTGTTAGCGTGACACATTAAAGCTTTAGAAACTTCTAGGAGATGTCTGTTTTTTCTCTCCGCAATTCCATTTTGCTGGGGAGTGTTAGGACGTACTCTAGTGGGCAATACCTTTTTCGTTTAGAAAGTTTTTCAAGGAAGTGTTAAAATAATCCTTAACATTGTCAGTGTGAAGGATTTGGATTTTGGTGTTAAAGAGATTGAGAATCATGGCAAACAGATTCTGGAATATGGAAGTAACTTCAGATTTTTCTTTCATTAAAAACACCCAAGTAAGTATAGTGTGATCGTCGATAAATGAAACAAACCATTTAGCTCCTGTTACATTCTGAACTCTACTAGGTCCCCAAACATCACTATGCATCATAGAAAAGGGATAAGAGGGTTTTAATGTGCTTACCGGATATAAGGATTCGAGCCAACTTTGCCATTTCACAAGACTCACATTGAAACACCTGAGAACTTTTATTGAAAATATCTGAAAACATCGTTTCAAATATAGAAAATTGGGATGTCCTAAACGATTATGCCATTAACTTATTGTACTATCATAATTGCTCTTTAAAAGCAACCAAAAGTAGATGTACTAAACATAATTATCTTTAGAGACAACAAAATTAGATGTACTAGATGCACTATCATAATAGTCTTTAGAAATAAACGAGATTTGCTAAGACTAACTCCTTGACTTGTGGCTTAAGAGCATTTAGTATGTAGAGACCCGAGGTTTCCTTAGCATTGCAATTATCTTTTCCCGAATTCAAATCTTGAAATATGCAATTATGTGAGTAGAAAGTTGCACTGCAGTTTTTCATAGACGTTAGTTTGCTTATGGAAAGAAGATTGCATTTAAGATTTGGGACATGCAACACATTCTCTAATACTAGATCTTTAGATACAAACACACTGCCAATTCCCATTACTTTAGTATAGGTACCATCGACAATCTTCACAGTAATTTGACTTTTACAGTGTGTGTAGTTAGTTAAAAGTGAGATGTTACCTGTCATGTGATTTGATGCACCAGAGTCAATAACCCAAGTACTACAATTTTCTTTGGTTGCATTAAGGGCCCAAAGAAAGTTATCTGATTGTGCCATTGTTACTATGCTAGTTTCTGATGTTTTTTGAGTAGGTTTCGGTTGGCCGAATAATTTTTGGAGAAGGTCCAACTGTTCCTTAGTAAACACATTATATTCAGGGTTGACGTTACCTTCTGATGATGTACTTGCTTGATAGGCCTTTCCACGTCTGTTTCCTGCACCTTTGTTGGGCTTTCAATCTGAAGGTTTTCCATGAATATCCCAACATACTTCTTTAGTGTGTCCTGGTTTTTTTACAGTGTTCACACCATGGGTCTTGGTTTTCGTTGCCAATTCTCAGTTCCTGTGTAGTTCTGGTTTCGATTGTAATGGTTATCGTGAGTATTTGTATGTACCTCATTACCAAGGTTTCGAGCAAATAAGGCTGATCCTTCAGATTCAAAACTTGCAGTCACTCCTAACATTAGTTTCTTCCTACTTTCTTCTCTTCTTACTTCTGCAAACACTTCTCTGATATTAGGTAATGGTTTAATAGCTAAGATTCTACCACGTACCTCATCAAGTTCTTTATTAAGGCCAAGCAGGAATTTGAACACTTGTTTCTTTTCAACTATCTTTTTGAATGTAGCTTCATCTGCAGTGCACTCCCACTTATGGCTTTCAAATACATCCAGTTTCTACCAAATGCGAGATAGTTGAGTGAAATAGTGAGTGACTTGCATATCCCCTTGCTGTAGTTCATGAATTTTTCCTTCAATTTCAAATGACTCTGCAGTATTTTCTTGATCAGAATAAGTTTCACGGACTGCTTCCCAAATTTTGCTTGCAGTTGAGAAGAGTAAAAATCCTTCACCAATCTCTGTCGTCATGGAGTTGATTAGCCATGACATAACCATATTATTTTCCGCTTTCCATGTCTTGTATCTTTGATTAGTTTGGTCTGGGATAGGATTTTTGCTTGACAGGTAGTCTTCCTTTCCTTTTCCACATATGAACATCATGACTGATTGTGACCAATGTAGATAATTCCTTCCATTTAATTTGTGATTAGTGATTGGAAAAATGGTCCTTTCAGTATTGTTAGAATTTATGGATGCCATAGAAAAATAGATGATTTGCAAAACAAGAAATTAAGGACGAAATAGGGAAAAAAAAGGAAAACTTATAAAAAAAACTCTCCAGACTCGGTTTCTGTCAAAAAACCCACTCTAGACCCGGTTTCAATTGGGTTCAAAAATGTTCCAGACCCGGTTTTGTCAAGGAGCTGCTCCAGACCTGAAAATTGCTCCAGACCCGACCCGATCAGGTTAACAAAAACTTACCGACCGAATTAGGTTAAAAATTGCTAGACTCTTCACGATCCTCCTTAACACGATCCGACCCACGATATTTATCGACCCGGTTCAGCAATCGGTTGTCACTCTGCATCCACGATTAGTGGCCACCCACGATTGGAGACGAGGCTTACGAGAATCGGCACCCACGGTTGACGACTTTGAGCCACAATTGACGACTTTCGGTTGATGAACGAGCTTCGTGGTCGTCGGTCGAAGAATGTGTTTTCGGCCGAGAATGCTTCGATTAGTTCCGATTAACTGTTTAGACGCGATTTGATGCGTTTTGGCCGGCCGTTCGTGAGAGTCGGAGTACGAATTTGCTTCGGACGTGAAGCTCCAAGGAATCTGATGCATTGCTTCAAGGAAATCGGTATGTTTGAGATTTCAATGTTCTGTTTTTCTTTTCTAGGGTTTCGGACGTGAAACCTATAGAAAAGATTCAAAAAGATGGCTTTGATACCATGTTGTAATACATAACTCTTTTTTTTATTTCTTGTGATGATTTTACAAGAGGGAGTACCCCTTATATATACAACTATGATAGCTAAGTATGGAAAAACTTATAACAGTAAAAAAAATGTACATAATGTACATATGGTAAGAATAAAAATAAACCCTAATTACAGGGAATAAAATCATAGGTACAAGGTAGGAGGAGATTTTCTATATTCAACAGTATTGATGTAATTAAATTTTTTAAGGTATGGATATAATTAAATTTTCTTTAATCCAATTTAATATATTATATTATCAGAGTAGGAGATCTTGTGTTTGAACTCTTGTAATGTCATTTCTTCCCAATTAATATCAATTTCCACTTGTTTGGTCTTCTACAAAGTATTGATATAATTACAAGTGAAGGAGATTGTTAAAATGTTGATATAATTAAATTTATCATAAGCCATCAGCTTGAGCTCTTGTATTGATTGATGAAACATGCTTGTTGGGTTGAGAGGGCTGAAGAAATAGAAACATTGAATGCTTGGGAGATTTATTGATGCTTGCGGCTTGGTTGGTTTTAGTCTGATAAATGGTTGTCTCGTGCATTGAATCTTAGGGACTGTAGAATTAGTTTGAGGATTGCTTTGCTGGAGATTCTCCCTAGATTAGGTTCACAAGCCTTGTTAGGACTGCATTCAATCCTTCCAAGAAGTGAACCCTTAAAATGGTGCCCAACTGTTTTAGATTAAAGAGGACGTGGGTTAGGGACAAGGGATTTGAAAGGGGGTTTTGCATTTTGTTTATTTCATTACTTCAATGAAATTTGTCCCTTATTTGAAAAAAGGGTTTGCCAGGTTTTTGCTCTATGGAAATTAGAGGTTATGAATCAACTACAGGAAAGTGGCAGTTTGCAAGACTATATCGTAGATGATTGCTAGTGTTTCTTAGCTTGATCTTAGGGAATCTGTAAGGTATCGCCTTACTGTGTATTGATATAGCGGAAAATGGAAATAGTCTGAAGGCTTTACAATACTATCAGCCTACTGAAGAGGCTGAGGACTCCCGCGAGATACTTCTTAAACTTTCTAAAAGCATGAAAATGTAAACTAGAGCAATTCTCCTTTTATATACTCTCTTCCCCCCATCAGAATTAACAACGTGATGGTCCCCACACGACATTCCCTTAAACCCTCAGCCTTACTCCTCATGTAACAAACTTGTCTCCCTATCATCTTCCAACTTACCCTTACCCTTCTTCCTATTGGTGGCCTAACAGAATCCCACTGTCTAAGAACTTAAAGCTTGATTTATCAAATCTTGACTGAAACTTTGGACAGATTCTACCGAGTGTTTTGCACTAATACGGCATTGTAGATTGAGCTAGATTAATCAGGGCAACTTTCTTTTACCAAAGTCGCCGATAGGCAACTTTCTTTTACCAAAGTCGCTGATGGCAGAAGAAAGTGATGTTTGATGTAGTGAGACTTTCCATGTAATAGTTCCCATGATATAGGGCATCAACGATTGATTAATGTAACTTATAATGATTGATTTTCAATGACTGAAGTGACAATTCAAAAACTCTATGGAATTGATATTCTAACTCCGTACTTTGCAGCTTATTTCAATTAGAGACGAACTTTTTGATACATTTAGAAAGAGACATAAAGGTGTCATGGAGGTTCAAGAGGTTCAATTAACTGCTAACTCGCTGCACAGGTGATTGTCTTTCACTGGCTTAATTTTTCTCCAAGTGAGAACTAAACTATTTAATTTGAGCTCCAGTTTATTGTTGGAAACGAGAAATGTCAGTCTTGCACAGCTTAGGTCTTTCTCCAATGGTAAAATCGAAGATTTTTTTAGAAAACTATTTTAGTGAAAAGTTTTGTATCCTTATCTTTTTTTTAAAAAAAAACAATTATCTGTTTTTTTAATAAAGGAATTAAAGCTTTTCATTGCTAAAATGAAAAGAGACTAATACTCAAATTACAGGAAACTAAATAAAATTACCAAATTTACCAAACTTTTCATTGATGGATGAAAAGAACAAAAAAGTCCAAGATACAAAATTTGATAGGGACTGAAAATGGAAACAAGAAAAAAAAAAGTTACAATACAACAAAACAAACGAGCAAAACAAACTCTGTAAACCTAAGGGAAAAAACTAACCAAACCTAAGTCACCAAGCACTGATTCCTGAACAAAACCAGCAATAGAAAAAAACCAACCAAGAAAAAACCCAGCCTGCAAGGCTCTGTAAAAATCAGCTGAAAACAAGATCCAAATGAAAACGTCTGCCTCCAAATACTACCATTACAAAACCAATTTGCAAACAACCCTCTAGTTTTTCTTTCATCTTATTATTTTATCTATTTATTTATTTACTTTGATTGAAATGCTGAACTTTCATTGAGAAAGATGACAAAATTCAAAGGACATACCAAAAACCCCTCTATGGGTTGAGTTTGATCTGTGTCAATATGATGGTGGTTGATGACATTTAGTTAACTTTTATTCTTTCCACATGATATTTTCTTCTCGCATTGACTTTTCCTTTAGACTAATAGTTGATAAAGTTAAGAATTTGTCTTGAAAAATTGTTAGTTTAGCAGTTGTCGGTAATTGTTTCCCAAACTTCTTCAAAGAATTGTGATTTACTATATATGTTTCTGTGGATATTGGAAATACTATTCATAAACCCATAATTTTGGGAGAGAGAATAATTTCATTTGTTCTAGGAAATGTTAATTTGGAACACATTAAACAAAACAATAAATTTAAGAAAATAGTTATCAGAAACATGTTTCACTAGCATGTTAATTGTGGAAAACAAAACTATTCTATAAACGATTCTCATACAAGGCCTAAATTTACAACAACATCCATATGGTTTTTTTGTTTTCTTTTAATGAAAAAAAATTAAATAAGCATCCTCTTCTTTCCAGAATGTTACTTGCTTTTAGTGAGCACACGAAAGGTCAGAAGTTTCCAGACGATGCATCATATCAAGAAATGCTTGCTATAGTCATGGCCAGGTTATCCTCCATATCTTTTTTGTAGGTTTATCTACCGTTGAACTTTGCAAGGTGCATGAATTTGTTCTTGAAAACCGAGGAAGGCTGGCGTTTCTTATAATTGGTGTTATTGCATCTTCTTTTGACCATATTTCTCTTGATTCCTTTGATTCCAAAATTAGTGCTTTGGCAATTGAGCATTGATGTCATCAAGTCATTGGTCTAAACATCGACTAGTGTGTCATTCTTCATATTATGTCCTGAATTCAACTTTCTCCTCTTGGGTTTCTAATGAGTTCTTCAATCACATTGGGTCATTTCTGTTGGCTCTCATATTGAAGTTTACATGAATAGCTTGGTTAATATTTATCAACATGCATATTTCCATGTGGGGGTTCAAATGTTATTTGACATTAGATGCTTTTCTTCCGTTCTCTCTCTGCAAATTTGGTGGAAGATAGTGAAGTTGTTTAGGGGTTAGCTTGGCTATTCCTATATTGGTTAAGGAATGCATTTACAGCTTGTTTGTGGAACCTGTATATATGGAAACGGAAAATCCTTTGGCTAAATACTATGAGAACTATAATGTGGAATGCTTTGCTAGAAATGCACAAAAATATTTTCAGAAATTCTACAAAGAATTTGTGTGTGCGCGCGTGCGTGTGTGCGTTTTTTTCTTCCTAGCGAAGCTTTCACTTAAAATTTCATAATATTCTTCTTATATTAATGCAATTTTTGAAATCATGATTTCTATGAAAAAAACATTGTAATAATCTGATATCAACGTATGTTTATTCAGTTGATCTAATGGATGATTTTTTTCAATGATAGATATCCATTGTTTTTCCTAATTTAGGTATGAGAAAGAACTGATGCATCCCATTCAAAATCTTCTCAGCGGAGAGCTGGCCCGTGCTTTGCTTATCCAGGTTGTTACATGTTCAATTATTATCTCTATATGTACGGATACGTTGTACTTTATAGTTTTCCGTTTGTGTTGTTGCAGGTGCAGAAGCTAAAATTAGATATTGAGACGTAAGTTCAAAAAGTTGCAACTTTTGGTGTACAATACATTATAAATCTTCATCTTCCTTTTTTGGTTTCATATGATGATGGCTTTTAAACAGGGCAATGCTTGAGCTTGACCAGATTCTCAAGGCAAATGAAATCAATTTTGCTGTTCTAGCTGCATTGCCCGCATTCTTTCTCTCACTTCTTTTGCTGATGCTTTTGCGTGCCTGGTATAAACAGGTAAGTGAACTAAAAGCAAGTTTAGTTTATATCTTTTAAAGTTAAATTCAAGTGTGATGTTGATTTTATTTCTACCTTTCTTTCGAGTTCCTCTATCAAATTAGATTTTGTATTCCAGGAAGACGTTGAAGTAGTAACACAGTCGCACTAGAGTGCTCAACCTCATCTGTTACATGGTCATTAAGTTGAGTGGGTAGTGGGGCCATCAACTTACCTACTACTCTTAAACTTGGTCGAAGTATCTAAACCCCCAAGCCCACAATTCCATAAGAACATTTTTTGGGTGTGTATAGATATTCATATTTCTAAATTGCCTTAATCATCTAAGCTTTAATAATTCTTCGACTCAAAAGGAACTAGACAAAGTGAGATGTTACAATCCATCTACCCAAGAGAATCTAAAAGCCAAACTCAAGCATCCTCTAGTTGAAATTTTAGGTTATTAAATTTATCTTCTATTGAAAGTAATACACATACATATTTATGTATGTACATTTATTTAAACCCGTTTCATAACAATTTCATTTTTAGTTTTCTGATTTTGAAAATTGTGCTTGCTTCCTCCGTCTTTTTACTATATTTTTCACCTCTCTTCATGAAACATTTAAAATCTAGGCCAAATTTCAAATGCAAAAAATCCTTTTTGTAATCACCTTTAGGTGTCGGGGTCTCCCCTTATTTCATTTATTCAAAGAAATTTCTTCTCTAAAAAAATCTACTCATTATGACATTTAGGATACTAGAGCTGAAGGGAAGGGAAGAGCTGCTCGGCTTCAGAGAAGGCTACTAGTTGTGGAGGTGGAGAAAGCAATTATGCAATACCAGAGTTTTGTTGACCAAGGACGT

mRNA sequence

TTTAACAGTAACTGGCTGGGAACCAGAAGAGGCATCTAGACTGTACGATGTTTTGGGTGATCTTTTGGAGCACTGTTTCTTGAATTTACATAGCATTTGGAAGAACTTGCAATTCTGGCAATCTCGTGCGGAGGGTACAAATGCTCAAAAAGTTTACTTTCTGATTTGTGAGAGAGGTCCAAGGGAATTTTTTAGTCGAGCAGTGCAATTAATGCGCCAAAGTTTTAGGGGTGGTTTTTCCTTACAACATGTAGCTTGTGAGGCATCTCTTTACATAGCTGATCGGATAACTATATTGAGCAGCTTAAGATGTCATCTTGCAGTTTTTGTGGCTCAGGTCTTTATGGAAATTGACAAAATTGGGGCAGAGGCAGTAAATGGTCAAGAAAATCCCTTACCATCATTATTGGTCACATTGAATGGCTTATTTCTCGATCTAGAGGCATCAATTTGTCAACTGCATGCAACACATCCTACGGATTTTACCGATGGAAGCTTTTCAATTCCTCTATTTGAAAAAGTACCAGATGTGAACAAGGAGGGATCTCAGTGGACGGGTTGTGAAATTGGTGATGCTATCAACCTGCTTTATCAGAACCTTCACAACTTGGACTCTTTCATATCTATTCTTGTTTGTAAACATCGAAAGCCAAGGAAACTGACTCAATACTGGCTTAGATACACTTGTGGTGCGATTGGTCTTTCAGTCTGTTCTGTTTGGCTTATACAACATAGTAGTTTAACGGGGAGCAATGACATTGAGAATTGGGTTCGTGAAGCACATAATTCAGCAGCTAGTTTTTTCAAGGATCACGTAGAACAACCGCTTATTTCAATTAGAGACGAACTTTTTGATACATTTAGAAAGAGACATAAAGGTGTCATGGAGGTTCAAGAGGTTCAATTAACTGCTAACTCGCTGCACAGAATGTTACTTGCTTTTAGTGAGCACACGAAAGGTCAGAAGTTTCCAGACGATGCATCATATCAAGAAATGCTTGCTATAGTCATGGCCAGGTATGAGAAAGAACTGATGCATCCCATTCAAAATCTTCTCAGCGGAGAGCTGGCCCGTGCTTTGCTTATCCAGGTGCAGAAGCTAAAATTAGATATTGAGACGGCAATGCTTGAGCTTGACCAGATTCTCAAGGCAAATGAAATCAATTTTGCTGTTCTAGCTGCATTGCCCGCATTCTTTCTCTCACTTCTTTTGCTGATGCTTTTGCGTGCCTGGTATAAACAGGATACTAGAGCTGAAGGGAAGGGAAGAGCTGCTCGGCTTCAGAGAAGGCTACTAGTTGTGGAGGTGGAGAAAGCAATTATGCAATACCAGAGTTTTGTTGACCAAGGACGT

Coding sequence (CDS)

TTTAACAGTAACTGGCTGGGAACCAGAAGAGGCATCTAGACTGTACGATGTTTTGGGTGATCTTTTGGAGCACTGTTTCTTGAATTTACATAGCATTTGGAAGAACTTGCAATTCTGGCAATCTCGTGCGGAGGGTACAAATGCTCAAAAAGTTTACTTTCTGATTTGTGAGAGAGGTCCAAGGGAATTTTTTAGTCGAGCAGTGCAATTAATGCGCCAAAGTTTTAGGGGTGGTTTTTCCTTACAACATGTAGCTTGTGAGGCATCTCTTTACATAGCTGATCGGATAACTATATTGAGCAGCTTAAGATGTCATCTTGCAGTTTTTGTGGCTCAGGTCTTTATGGAAATTGACAAAATTGGGGCAGAGGCAGTAAATGGTCAAGAAAATCCCTTACCATCATTATTGGTCACATTGAATGGCTTATTTCTCGATCTAGAGGCATCAATTTGTCAACTGCATGCAACACATCCTACGGATTTTACCGATGGAAGCTTTTCAATTCCTCTATTTGAAAAAGTACCAGATGTGAACAAGGAGGGATCTCAGTGGACGGGTTGTGAAATTGGTGATGCTATCAACCTGCTTTATCAGAACCTTCACAACTTGGACTCTTTCATATCTATTCTTGTTTGTAAACATCGAAAGCCAAGGAAACTGACTCAATACTGGCTTAGATACACTTGTGGTGCGATTGGTCTTTCAGTCTGTTCTGTTTGGCTTATACAACATAGTAGTTTAACGGGGAGCAATGACATTGAGAATTGGGTTCGTGAAGCACATAATTCAGCAGCTAGTTTTTTCAAGGATCACGTAGAACAACCGCTTATTTCAATTAGAGACGAACTTTTTGATACATTTAGAAAGAGACATAAAGGTGTCATGGAGGTTCAAGAGGTTCAATTAACTGCTAACTCGCTGCACAGAATGTTACTTGCTTTTAGTGAGCACACGAAAGGTCAGAAGTTTCCAGACGATGCATCATATCAAGAAATGCTTGCTATAGTCATGGCCAGGTATGAGAAAGAACTGATGCATCCCATTCAAAATCTTCTCAGCGGAGAGCTGGCCCGTGCTTTGCTTATCCAGGTGCAGAAGCTAAAATTAGATATTGAGACGGCAATGCTTGAGCTTGACCAGATTCTCAAGGCAAATGAAATCAATTTTGCTGTTCTAGCTGCATTGCCCGCATTCTTTCTCTCACTTCTTTTGCTGATGCTTTTGCGTGCCTGGTATAAACAGGATACTAGAGCTGAAGGGAAGGGAAGAGCTGCTCGGCTTCAGAGAAGGCTACTAGTTGTGGAGGTGGAGAAAGCAATTATGCAATACCAGAGTTTTGTTGACCAAGGACGT

Protein sequence

LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGPREFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKIGAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKEGSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVWLIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEVQLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARALLIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEGKGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Homology
[Close]
BLAST of Bhi10G000163 vs. TAIR 10
Match: AT5G12290.1 (dgd1 suppressor 1 )

HSP 1 Score: 548.9 bits (1413), Expect = 3.8e-156
Identity = 268/452 (59.29%), Postives = 353/452 (78.10%), Query Frame = 0 

Query: 2   TVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGPR 61
           T+T     + +R++ VL +++     NLH I K+L FW+SRAEG+NA+K YF+I ERGP 
Sbjct: 78  TITSNVSADTARIHGVLEEIMADVLSNLHDIQKSLDFWRSRAEGSNARKAYFMIFERGPT 137

Query: 62  EFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKIG 121
            F + + + + +S     ++QH+   +S ++ +R+ +L  LR  LA F+AQ+++E+DK G
Sbjct: 138 AFVNESTKFVSKSLSEDSAMQHLCQSSSSHMTERMRVLVELRSALASFIAQLYVELDKRG 197

Query: 122 AEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFT-DGSFSIPL-FEKVPDVNK 181
            + V   E  LPSLL  +NGLF +LE S   LHA    D + DGS+ +PL F+++P+VN+
Sbjct: 198 EDLVKIPEKALPSLLAVINGLFSNLEGSFSHLHAVRECDSSVDGSYPMPLVFDRLPEVNE 257

Query: 182 EGSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSV 241
           EGSQWT CE+ DAINL+++NL  L+S++S++V KHRKPR++T YW+RYTCGA+GLSV S+
Sbjct: 258 EGSQWTDCELTDAINLVHKNLEKLNSYLSVMVGKHRKPRRMTLYWVRYTCGAVGLSVFSI 317

Query: 242 WLIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQE 301
           WL++HSSL GS+DIENWV +A  +  SFF DHVEQPL+SIRDELFDTFRKRHKGVME +E
Sbjct: 318 WLLRHSSLMGSSDIENWVHDAKEATMSFFSDHVEQPLLSIRDELFDTFRKRHKGVMETEE 377

Query: 302 VQLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARA 361
           VQLT +SLHRML  F E    +K PD+AS QEML +VM RYEKEL+HPI NLLSGELAR 
Sbjct: 378 VQLTQDSLHRMLRNFCEQATREKVPDNASDQEMLEVVMNRYEKELVHPIHNLLSGELARG 437

Query: 362 LLIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAE 421
           LLIQVQKLKLDIETAMLELDQIL+ANEINFA+LAALPAFFLS+++L +LR W K+D++A+
Sbjct: 438 LLIQVQKLKLDIETAMLELDQILRANEINFAILAALPAFFLSIVMLTVLRTWLKKDSKAQ 497

Query: 422 GKGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           G+GR AR+ RRLLVVE+EK IMQYQS+++QGR
Sbjct: 498 GRGRIARIHRRLLVVEIEKRIMQYQSYIEQGR 529

[Close]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match: Q8GUK1 (Protein DGS1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=DGS1 PE=1 SV=1)

HSP 1 Score: 548.9 bits (1413), Expect = 5.4e-155
Identity = 268/452 (59.29%), Postives = 353/452 (78.10%), Query Frame = 0 

Query: 2   TVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGPR 61
           T+T     + +R++ VL +++     NLH I K+L FW+SRAEG+NA+K YF+I ERGP 
Sbjct: 78  TITSNVSADTARIHGVLEEIMADVLSNLHDIQKSLDFWRSRAEGSNARKAYFMIFERGPT 137

Query: 62  EFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKIG 121
            F + + + + +S     ++QH+   +S ++ +R+ +L  LR  LA F+AQ+++E+DK G
Sbjct: 138 AFVNESTKFVSKSLSEDSAMQHLCQSSSSHMTERMRVLVELRSALASFIAQLYVELDKRG 197

Query: 122 AEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFT-DGSFSIPL-FEKVPDVNK 181
            + V   E  LPSLL  +NGLF +LE S   LHA    D + DGS+ +PL F+++P+VN+
Sbjct: 198 EDLVKIPEKALPSLLAVINGLFSNLEGSFSHLHAVRECDSSVDGSYPMPLVFDRLPEVNE 257

Query: 182 EGSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSV 241
           EGSQWT CE+ DAINL+++NL  L+S++S++V KHRKPR++T YW+RYTCGA+GLSV S+
Sbjct: 258 EGSQWTDCELTDAINLVHKNLEKLNSYLSVMVGKHRKPRRMTLYWVRYTCGAVGLSVFSI 317

Query: 242 WLIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQE 301
           WL++HSSL GS+DIENWV +A  +  SFF DHVEQPL+SIRDELFDTFRKRHKGVME +E
Sbjct: 318 WLLRHSSLMGSSDIENWVHDAKEATMSFFSDHVEQPLLSIRDELFDTFRKRHKGVMETEE 377

Query: 302 VQLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARA 361
           VQLT +SLHRML  F E    +K PD+AS QEML +VM RYEKEL+HPI NLLSGELAR 
Sbjct: 378 VQLTQDSLHRMLRNFCEQATREKVPDNASDQEMLEVVMNRYEKELVHPIHNLLSGELARG 437

Query: 362 LLIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAE 421
           LLIQVQKLKLDIETAMLELDQIL+ANEINFA+LAALPAFFLS+++L +LR W K+D++A+
Sbjct: 438 LLIQVQKLKLDIETAMLELDQILRANEINFAILAALPAFFLSIVMLTVLRTWLKKDSKAQ 497

Query: 422 GKGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           G+GR AR+ RRLLVVE+EK IMQYQS+++QGR
Sbjct: 498 GRGRIARIHRRLLVVEIEKRIMQYQSYIEQGR 529

[Close]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match: O74963 (Nuclear control of ATPase protein 2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=nca2 PE=3 SV=1)

HSP 1 Score: 87.4 bits (215), Expect = 4.4e-16
Identity = 66/254 (25.98%), Postives = 123/254 (48.43%), Query Frame = 0 

Query: 191 DAINLLYQNL-HNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVWLIQHSSLTG 250
           D +++   NL H  D +       + +P  + + W +     I +++ S WL        
Sbjct: 255 DILSITLDNLSHPTDEYFEAKA--YFRPSAIERNWPK-----IFVTLLSAWLSTQIITKN 314

Query: 251 SNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEVQLTANSLHR 310
              I  W+   +++A  F+ + +++P++ I D +          +++ + ++    SL R
Sbjct: 315 RTSIRLWIDYLYSTAVDFYTNWIQKPILGIFDTIRSNRADSQITLLQTKSLESDMESLQR 374

Query: 311 MLLAFSEHTKGQKFPDDASYQEM----LAIVMARYEKELMHPIQNLLSGELARALLIQVQ 370
           M++ F   T       D   QE+    L  V+  YE +L  PI+  +SG L R LLIQ+Q
Sbjct: 375 MVIDFVSDTSPAGINLDLVKQEVQQGDLTYVLQAYEHDLKTPIRTAVSGNLVRTLLIQLQ 434

Query: 371 KLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRA-WYKQDT--RAEGKG 430
           K K+D+E A+  +D++LK+ E+ FA +   P+     +++  ++A  +  DT  RAE + 
Sbjct: 435 KTKVDVEVALSGIDRLLKSQELVFATVGITPSLIFCYVIIRYVKANIFNNDTLSRAERRQ 494

Query: 431 R---AARLQRRLLV 434
           R   + R   R+LV
Sbjct: 495 RFRQSLRAAERILV 501

[Close]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match: Q55GJ3 (Nuclear control of ATPase protein 2 OS=Dictyostelium discoideum OX=44689 GN=nca2 PE=3 SV=1)

HSP 1 Score: 81.6 bits (200), Expect = 2.4e-14
Identity = 48/157 (30.57%), Postives = 98/157 (62.42%), Query Frame = 0 

Query: 267 FFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEVQLTANSLHRMLLAFS--------EHT 326
           F+ +H+E+PL++I + +   + K+   + +   +Q + +SL RM++ ++          T
Sbjct: 618 FYHEHLEEPLLNIWNVI--RYDKKSLQLADPASLQSSIDSLGRMVIDYNIDRNHLDINST 677

Query: 327 KGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARALLIQVQKLKLDIETAMLEL 386
           + ++     + +  ++ +M  YE  +  P+QN+L G++ R +LIQ+QK K+D++ AM+ +
Sbjct: 678 ETRQHLFQLASRGDISSIMKSYESNIRSPLQNILFGDMIRLILIQIQKEKVDVDKAMVAI 737

Query: 387 DQILKANEINFAVLAALP-AFFLSLLLLMLLRAWYKQ 415
           D++L+ANE+NF +LAA+P A FL+LL+  + + +  Q
Sbjct: 738 DKLLQANELNFQLLAAIPSAIFLALLIWQIKKLFTNQ 772

[Close]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match: Q753J1 (Nuclear control of ATPase protein 2 OS=Ashbya gossypii (strain ATCC 10895 / CBS 109.51 / FGSC 9923 / NRRL Y-1056) OX=284811 GN=NCA2 PE=3 SV=1)

HSP 1 Score: 61.2 bits (147), Expect = 3.4e-08
Identity = 56/211 (26.54%), Postives = 96/211 (45.50%), Query Frame = 0 

Query: 216 KPRKLTQYWLRYTCGAIG--LSVCSVWLIQHSSLTGSNDIENWVREAHNSAASFFKDHVE 275
           +P  + +YW        G    + ++W          NDI  +++  HN    F +D V+
Sbjct: 271 QPNWIVRYWPTILIALAGGPAGIAAIW-------NARNDIAAFIK--HN-LFEFARDLVK 330

Query: 276 QPLISIRDELFDTFR---KRHKGVMEVQEVQLTANSLHRMLLAF-SEHTKGQKFPDDASY 335
             L+     ++ T          +M    +    NSL RML+ F  EH            
Sbjct: 331 NWLVEPLRNIWSTVHHDPTSSIAIMSQGTLDTEINSLQRMLIDFLKEHEYANTVDTSVLM 390

Query: 336 QEM----LAIVMARYEKELMHPIQNLLSGELARALLIQVQKLKLDIETAMLELDQILKAN 395
           +E+    L   M  YE +L  PI+NL++G+L R+LLIQ+QK K+D   A+  +D++L++ 
Sbjct: 391 KEIEQGNLTQFMEIYEAQLRKPIRNLVTGDLIRSLLIQIQKGKVDGSLAIHGIDKLLQSQ 450

Query: 396 EINFAVLAALPAFFLSLLLLMLLRAWYKQDT 417
           ++ F +++  PA  +  +L   L    K  T
Sbjct: 451 QLVFGIVSISPALLILYVLCNSLTKLVKYGT 471

[Close]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match: Q12374 (Nuclear control of ATPase protein 2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=NCA2 PE=1 SV=1)

HSP 1 Score: 54.7 bits (130), Expect = 3.2e-06
Identity = 56/211 (26.54%), Postives = 102/211 (48.34%), Query Frame = 0 

Query: 216 KPRKLTQYWLR-YTCGAIG-LSVCSVWLIQHSSLTGSNDIENWVREAHNSAASFFKDHVE 275
           KP  LT+YW     C   G  SV S+W  ++        I+++++    +   F K  + 
Sbjct: 314 KPSILTRYWPSILLCLLYGPSSVMSLWNSRYF-------IQDFIK---TNVVDFAKGLIL 373

Query: 276 QPLISIRDELFDTFRKRHKGVMEV---QEVQLTANSLHRMLLAF----SEHTKGQKFPDD 335
             L +   +++ T +      + V   + +    +SL RM+++F    S+ T        
Sbjct: 374 NWLWAPLKQVWSTVKHDEGSAISVTSQETLNSDMDSLTRMIVSFVVDNSDSTSNSPIDPI 433

Query: 336 ASYQEM----LAIVMARYEKELMHPIQNLLSGELARALLIQVQKLKLDIETAMLELDQIL 395
               ++    L   M  YE +L HPI+N+ +G L R+LLIQ+QK K+D   A+  +D++L
Sbjct: 434 LLSTKVEHGDLTEFMEIYETQLHHPIKNIATGGLVRSLLIQLQKTKVDGSMALNGIDKML 493

Query: 396 KANEINFAVLAALPAFFLSLLLLMLLRAWYK 414
           K+ ++ F V+A  PA  +    ++ L+ + K
Sbjct: 494 KSQQLVFGVVALSPALVILYSSIVALKRFVK 514

[Close]
BLAST of Bhi10G000163 vs. NCBI nr
Match: XP_038902646.1 (protein DGS1, mitochondrial isoform X1 [Benincasa hispida])

HSP 1 Score: 902.1 bits (2330), Expect = 1.9e-258
Identity = 451/451 (100.00%), Postives = 451/451 (100.00%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP
Sbjct: 71  LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 130

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI
Sbjct: 131 REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 190

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE
Sbjct: 191 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 250

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW
Sbjct: 251 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 310

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 311 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 370

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 371 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 430

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 431 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 490

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 491 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 521

[Close]
BLAST of Bhi10G000163 vs. NCBI nr
Match: XP_022943965.1 (protein DGS1, mitochondrial-like isoform X1 [Cucurbita moschata])

HSP 1 Score: 833.9 bits (2153), Expect = 6.4e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 83  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 142

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 143 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 202

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 203 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 262

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 263 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 322

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 323 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 382

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 383 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 442

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 443 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 502

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 503 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 533

[Close]
BLAST of Bhi10G000163 vs. NCBI nr
Match: XP_022943966.1 (protein DGS1, mitochondrial-like isoform X2 [Cucurbita moschata])

HSP 1 Score: 833.9 bits (2153), Expect = 6.4e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 71  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 130

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 131 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 190

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 191 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 250

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 251 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 310

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 311 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 370

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 371 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 430

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 431 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 490

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 491 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 521

[Close]
BLAST of Bhi10G000163 vs. NCBI nr
Match: KAG6570453.1 (Protein DGS1, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 833.9 bits (2153), Expect = 6.4e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 71  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 130

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 131 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 190

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 191 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 250

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 251 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 310

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 311 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 370

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 371 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 430

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 431 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 490

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 491 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 521

[Close]
BLAST of Bhi10G000163 vs. NCBI nr
Match: XP_022943967.1 (protein DGS1, mitochondrial-like isoform X3 [Cucurbita moschata])

HSP 1 Score: 833.9 bits (2153), Expect = 6.4e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 23  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 82

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 83  RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 142

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 143 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 202

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 203 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 262

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 263 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 322

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 323 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 382

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 383 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 442

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 443 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 473

[Close]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match: A0A6J1FUH4 (protein DGS1, mitochondrial-like isoform X3 OS=Cucurbita moschata OX=3662 GN=LOC111448535 PE=4 SV=1)

HSP 1 Score: 833.9 bits (2153), Expect = 3.1e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 23  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 82

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 83  RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 142

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 143 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 202

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 203 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 262

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 263 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 322

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 323 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 382

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 383 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 442

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 443 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 473

[Close]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match: A0A6J1FT53 (protein DGS1, mitochondrial-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111448535 PE=4 SV=1)

HSP 1 Score: 833.9 bits (2153), Expect = 3.1e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 71  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 130

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 131 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 190

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 191 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 250

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 251 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 310

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 311 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 370

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 371 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 430

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 431 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 490

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 491 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 521

[Close]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match: A0A6J1FYE1 (protein DGS1, mitochondrial-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111448535 PE=4 SV=1)

HSP 1 Score: 833.9 bits (2153), Expect = 3.1e-238
Identity = 419/451 (92.90%), Postives = 426/451 (94.46%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 83  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 142

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 143 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 202

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDVNKE
Sbjct: 203 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLVDGSFSFPLFEKLPDVNKE 262

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQWT CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQ+WLRYTCGA+GLSVCSVW
Sbjct: 263 GSQWTSCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQHWLRYTCGAVGLSVCSVW 322

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 323 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 382

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 383 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 442

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 443 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 502

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 503 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 533

[Close]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match: A0A6J1JE15 (protein DGS1, mitochondrial-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111483680 PE=4 SV=1)

HSP 1 Score: 831.6 bits (2147), Expect = 1.5e-237
Identity = 418/451 (92.68%), Postives = 425/451 (94.24%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 83  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 142

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 143 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 202

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDV+KE
Sbjct: 203 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLIDGSFSFPLFEKLPDVSKE 262

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQW  CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQYWLRYTCGA+GLSVCSVW
Sbjct: 263 GSQWASCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQYWLRYTCGAVGLSVCSVW 322

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 323 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 382

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 383 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 442

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 443 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 502

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 503 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 533

[Close]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match: A0A6J1JC27 (protein DGS1, mitochondrial-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111483680 PE=4 SV=1)

HSP 1 Score: 831.6 bits (2147), Expect = 1.5e-237
Identity = 418/451 (92.68%), Postives = 425/451 (94.24%), Query Frame = 0 

Query: 1   LTVTGWEPEEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFLICERGP 60
           LTVTGWEP EASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYF+ICERGP
Sbjct: 71  LTVTGWEPAEASRLYDVLGDLLEHCFLNLHSIWKNLQFWQSRAEGTNAQKVYFMICERGP 130

Query: 61  REFFSRAVQLMRQSFRGGFSLQHVACEASLYIADRITILSSLRCHLAVFVAQVFMEIDKI 120
           R FFS   QLMRQ+FR GFSLQHVA EASLYIADRITILS+LRCHLAVFVAQVFMEIDKI
Sbjct: 131 RAFFSGTAQLMRQNFRDGFSLQHVAREASLYIADRITILSNLRCHLAVFVAQVFMEIDKI 190

Query: 121 GAEAVNGQENPLPSLLVTLNGLFLDLEASICQLHATHPTDFTDGSFSIPLFEKVPDVNKE 180
           GAEAVN Q+N LPSLLVTLNGLFLDLEASICQLHA H  D  DGSFS PLFEK+PDV+KE
Sbjct: 191 GAEAVNDQQNSLPSLLVTLNGLFLDLEASICQLHAAHQMDLIDGSFSFPLFEKLPDVSKE 250

Query: 181 GSQWTGCEIGDAINLLYQNLHNLDSFISILVCKHRKPRKLTQYWLRYTCGAIGLSVCSVW 240
           GSQW  CEIGDAINLLYQNLH LDSFI ILV KHRKPRKLTQYWLRYTCGA+GLSVCSVW
Sbjct: 251 GSQWASCEIGDAINLLYQNLHKLDSFIYILVSKHRKPRKLTQYWLRYTCGAVGLSVCSVW 310

Query: 241 LIQHSSLTGSNDIENWVREAHNSAASFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 300
           LIQHSSL GSNDIENW  EAHNSA SFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV
Sbjct: 311 LIQHSSLMGSNDIENWFNEAHNSAVSFFKDHVEQPLISIRDELFDTFRKRHKGVMEVQEV 370

Query: 301 QLTANSLHRMLLAFSEHTKGQKFPDDASYQEMLAIVMARYEKELMHPIQNLLSGELARAL 360
           QLT NSLHRMLLAFSEHTKGQKFPDDAS QEMLAIVMARYEKELMHPIQNLLSGELARAL
Sbjct: 371 QLTVNSLHRMLLAFSEHTKGQKFPDDASDQEMLAIVMARYEKELMHPIQNLLSGELARAL 430

Query: 361 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 420
           LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG
Sbjct: 431 LIQVQKLKLDIETAMLELDQILKANEINFAVLAALPAFFLSLLLLMLLRAWYKQDTRAEG 490

Query: 421 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 452
           KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR
Sbjct: 491 KGRAARLQRRLLVVEVEKAIMQYQSFVDQGR 521

The following BLAST results are available for this feature:
BLAST of Bhi10G000163 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G12290.13.8e-15659.29dgd1 suppressor 1 [more]
BLAST of Bhi10G000163 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8GUK15.4e-15559.29Protein DGS1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=DGS1 PE=1 SV=1[more]
O749634.4e-1625.98Nuclear control of ATPase protein 2 OS=Schizosaccharomyces pombe (strain 972 / A... [more]
Q55GJ32.4e-1430.57Nuclear control of ATPase protein 2 OS=Dictyostelium discoideum OX=44689 GN=nca2... [more]
Q753J13.4e-0826.54Nuclear control of ATPase protein 2 OS=Ashbya gossypii (strain ATCC 10895 / CBS ... [more]
Q123743.2e-0626.54Nuclear control of ATPase protein 2 OS=Saccharomyces cerevisiae (strain ATCC 204... [more]
BLAST of Bhi10G000163 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038902646.11.9e-258100.00protein DGS1, mitochondrial isoform X1 [Benincasa hispida][more]
XP_022943965.16.4e-23892.90protein DGS1, mitochondrial-like isoform X1 [Cucurbita moschata][more]
XP_022943966.16.4e-23892.90protein DGS1, mitochondrial-like isoform X2 [Cucurbita moschata][more]
KAG6570453.16.4e-23892.90Protein DGS1, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia][more]
XP_022943967.16.4e-23892.90protein DGS1, mitochondrial-like isoform X3 [Cucurbita moschata][more]
BLAST of Bhi10G000163 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1FUH43.1e-23892.90protein DGS1, mitochondrial-like isoform X3 OS=Cucurbita moschata OX=3662 GN=LOC... [more]
A0A6J1FT533.1e-23892.90protein DGS1, mitochondrial-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC... [more]
A0A6J1FYE13.1e-23892.90protein DGS1, mitochondrial-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC... [more]
A0A6J1JE151.5e-23792.68protein DGS1, mitochondrial-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC11... [more]
A0A6J1JC271.5e-23792.68protein DGS1, mitochondrial-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC11... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 364..384
NoneNo IPR availablePANTHERPTHR28234NUCLEAR CONTROL OF ATPASE PROTEIN 2coord: 10..450
IPR013946Nuclear control of ATP synthase 2PFAMPF08637NCA2coord: 241..443
e-value: 4.6E-59
score: 199.9

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Bhi10M000163Bhi10M000163mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005739 mitochondrion