CmaCh11G009240 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh11G009240
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionAcetohydroxy-acid synthase small subunit
LocationCma_Chr11: 4818575 .. 4835559 (-)
RNA-Seq ExpressionCmaCh11G009240
SyntenyCmaCh11G009240
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GCCAAATGCCCTTTTTCAGCTAGTGTGCGACACTCCACTCTTGGAACTGTGTGGTTTCTCTTTTAACATTCTCACTCCCTGTTTCCTTCTTAATCAATCAGCCATGGCGGCCGCCATATCGCTTTGCCCAGTTTCTGCGAAAGCTCACAGCTCTTGCTATTCATCACTTGCCTCTAGCTATGTCTTCTCCAAGAGTTTGATTGGTGGCTTCCAGAAAGCGCAGAAATTGAACAGTTTTCAGCTTCCGACGCTGCGTGTTTCTTCTGCTGCTGTTAATGATAGTGTGGTGACTGTAAGCGACTCCTCTCGTCCCGCCATTCGTTTAGCGGTGAAGCGACATACTATATCTGTGTTTGTTGGGGATGAAAGTGGAATTATAAACCGAATTGCGGGTGTCTTTGCTAGGAGAGGTTACAACATTGAGTCACTTGCCGTCGGATTGAACAAGGATAAGGCTCTGTTTACCATTGTTGTTACTGGAACAGAGAATGTCTTGAGACAAGTTGTGGAGCAGCTACACAAACTTGTCAATGTTATCAAGGTGGAAGATATCTCAAAAGAGCCCCAAGTGGAGCGTGAGTTGGTGCTTATGAAACTCAATGCAGATTCAAGTACTCGTGCCGAGATAATGTGGTTAGTAGATATCTTCAGAGGAAAAATTGTGGATACTTCAGAACATTCACTGACTATTGAGGTGACTGGAGATCCTGGAAAGTTGGTTGCCGTTGAAAGAAACTTCAGCAAATTTGGAATTAAAGAACTTGCTAGAACGGGAAAGATAGCATTGAGAAGGGAGAAAATGGGGGAGACAGCTCCCTTTTGGAGGTTCTCAGCAGCTTCTTATCCGGATCTCGAAGACTCAAGGCCGGTTGAAGGCTTTGTAGGGGATTCAATTCAATCAGTCAATGGCAACATCTCTACCTCAACCGGAGATGTGTATCCTGTGGAGCCATATGAGAATTTTCATTCAAATCAAGTTCTTGACGCTCACTGGGGTGTTCTCTATGATGGTGATTCAAGTGGTCTTCAATCACATACATTATCTATGCTAGTAAACGATTATCCTGGAGTTCTCAATGTTGTTACTGGGATTATTTCTAGAAGAGGTTATAACATTCAGAGTCTTGCTGTAGGACATGCAGAAAAGGCTGGATTATCTCGTATCACAACAGTCATTCCTGGAACTGACGAGTCAATTGGAAAGTTGGTTCAGCAGCTTCATAAATTAATAGATCTTCATGAGGTGCGGGATCTAACGTACTTGCCGTTCGCTGAAAGAGAATTAATGTTGATAAAAGTTGCAGTAAATGCTGCTGCCAGAAGGGATGTCCTCGATATTGCTGATATCTTCCGTGCAAAAGCTGTTGATGTTTCTGATCATACAATTACTCTTCAGCTCACTGGGGATTTAAACAAGATGGTCGCATTGCAGAGGTTGCTGGAGCCATATGGGATATGTGAGGTTTGTGGCAAGGACAGGAAGGGTAGCATTGGGAAGAGAATCCGGTGTCGACTCGACATATCTTCGTGGTTATCCTCTTCCTATCTAAGTGCCAGCTACTTGATGTCAGTTTTTCTATCCCTTCCTGTTTACCACCATGAATGTTAA

Coding sequence (CDS)

ATGGCGGCCGCCATATCGCTTTGCCCAGTTTCTGCGAAAGCTCACAGCTCTTGCTATTCATCACTTGCCTCTAGCTATGTCTTCTCCAAGAGTTTGATTGGTGGCTTCCAGAAAGCGCAGAAATTGAACAGTTTTCAGCTTCCGACGCTGCGTGTTTCTTCTGCTGCTGTTAATGATAGTGTGGTGACTGTAAGCGACTCCTCTCGTCCCGCCATTCGTTTAGCGGTGAAGCGACATACTATATCTGTGTTTGTTGGGGATGAAAGTGGAATTATAAACCGAATTGCGGGTGTCTTTGCTAGGAGAGGTTACAACATTGAGTCACTTGCCGTCGGATTGAACAAGGATAAGGCTCTGTTTACCATTGTTGTTACTGGAACAGAGAATGTCTTGAGACAAGTTGTGGAGCAGCTACACAAACTTGTCAATGTTATCAAGGTGGAAGATATCTCAAAAGAGCCCCAAGTGGAGCGTGAGTTGGTGCTTATGAAACTCAATGCAGATTCAAGTACTCGTGCCGAGATAATGTGGTTAGTAGATATCTTCAGAGGAAAAATTGTGGATACTTCAGAACATTCACTGACTATTGAGGTGACTGGAGATCCTGGAAAGTTGGTTGCCGTTGAAAGAAACTTCAGCAAATTTGGAATTAAAGAACTTGCTAGAACGGGAAAGATAGCATTGAGAAGGGAGAAAATGGGGGAGACAGCTCCCTTTTGGAGGTTCTCAGCAGCTTCTTATCCGGATCTCGAAGACTCAAGGCCGGTTGAAGGCTTTGTAGGGGATTCAATTCAATCAGTCAATGGCAACATCTCTACCTCAACCGGAGATGTGTATCCTGTGGAGCCATATGAGAATTTTCATTCAAATCAAGTTCTTGACGCTCACTGGGGTGTTCTCTATGATGGTGATTCAAGTGGTCTTCAATCACATACATTATCTATGCTAGTAAACGATTATCCTGGAGTTCTCAATGTTGTTACTGGGATTATTTCTAGAAGAGGTTATAACATTCAGAGTCTTGCTGTAGGACATGCAGAAAAGGCTGGATTATCTCGTATCACAACAGTCATTCCTGGAACTGACGAGTCAATTGGAAAGTTGGTTCAGCAGCTTCATAAATTAATAGATCTTCATGAGGTGCGGGATCTAACGTACTTGCCGTTCGCTGAAAGAGAATTAATGTTGATAAAAGTTGCAGTAAATGCTGCTGCCAGAAGGGATGTCCTCGATATTGCTGATATCTTCCGTGCAAAAGCTGTTGATGTTTCTGATCATACAATTACTCTTCAGCTCACTGGGGATTTAAACAAGATGGTCGCATTGCAGAGGTTGCTGGAGCCATATGGGATATGTGAGGTTTGTGGCAAGGACAGGAAGGGTAGCATTGGGAAGAGAATCCGGTGTCGACTCGACATATCTTCGTGGTTATCCTCTTCCTATCTAAGTGCCAGCTACTTGATGTCAGTTTTTCTATCCCTTCCTGTTTACCACCATGAATGTTAA

Protein sequence

MAAAISLCPVSAKAHSSCYSSLASSYVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVFVGDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVIKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKLVAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQSVNGNISTSTGDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVLNVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDLTYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQRLLEPYGICEVCGKDRKGSIGKRIRCRLDISSWLSSSYLSASYLMSVFLSLPVYHHEC
Homology
[Close]
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match: Q93YZ7 (Acetolactate synthase small subunit 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At2g31810 PE=1 SV=1)

HSP 1 Score: 575.9 bits (1483), Expect = 4.6e-163
Identity = 299/436 (68.58%), Postives = 356/436 (81.65%), Query Frame = 0 

Query: 25  SYVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVF 84
           SY+   S   G +  +++  F    +R     ++D+  + + S+ P  +  V++HTISVF
Sbjct: 39  SYLSGISSHRGDEMGKRMEGF----VRSVDGKISDASFSEASSATP--KSKVRKHTISVF 98

Query: 85  VGDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNV 144
           VGDESG+INRIAGVFARRGYNIESLAVGLN+DKALFTIVV GTE VL+QV+EQL KLVNV
Sbjct: 99  VGDESGMINRIAGVFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNV 158

Query: 145 IKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGK 204
           +KVEDIS EPQVEREL+L+K+NA   +RAEIMWLVD FR ++VD +EH+LTIEVTGDPGK
Sbjct: 159 LKVEDISSEPQVERELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGK 218

Query: 205 LVAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSI 264
           ++AVERN  KF I+E+ RTGKIALRREKMG TAPFWRFSAASYPDL++  PV        
Sbjct: 219 MIAVERNLKKFQIREIVRTGKIALRREKMGATAPFWRFSAASYPDLKEQAPVSVLRSSKK 278

Query: 265 QSVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGV 324
            ++     TS  GDVYPVEP+ +   +++LDAHWG+L D D+SGL+SHTLS+LVND PGV
Sbjct: 279 GAIVPQKETSAGGDVYPVEPFFDPKVHRILDAHWGLLTDEDTSGLRSHTLSLLVNDIPGV 338

Query: 325 LNVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRD 384
           LN+VTG+ +RRGYNIQSLAVGHAE  G+SRITTVIP TDES+ KLVQQL+KL+D+HEV D
Sbjct: 339 LNIVTGVFARRGYNIQSLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHD 398

Query: 385 LTYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQ 444
           LT+LPF+ERELMLIK+AVNAAARRDVLDIA IFRAKAVDVSDHTITLQLTGDL+KMVALQ
Sbjct: 399 LTHLPFSERELMLIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQLTGDLDKMVALQ 458

Query: 445 RLLEPYGICEVCGKDR 460
           RLLEPYGICEV    R
Sbjct: 459 RLLEPYGICEVARTGR 468

[Close]
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match: Q9FFF4 (Acetolactate synthase small subunit 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=VAT1 PE=1 SV=1)

HSP 1 Score: 570.5 bits (1469), Expect = 1.9e-161
Identity = 304/435 (69.89%), Postives = 349/435 (80.23%), Query Frame = 0 

Query: 26  YVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVFV 85
           Y F        Q  Q ++  ++    V SAA  D  +T + S  P     V+RHTISVFV
Sbjct: 24  YGFPAKTPNSLQVNQIIDGRKMRNATVLSAASTDKAITTAQSVAPTACDRVRRHTISVFV 83

Query: 86  GDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVI 145
           GDESGIINRIAGVFARRGYNIESLAVGLN+DKALFTIVV GT+ VL+QVVEQL+KLVNVI
Sbjct: 84  GDESGIINRIAGVFARRGYNIESLAVGLNEDKALFTIVVLGTDKVLQQVVEQLNKLVNVI 143

Query: 146 KVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKL 205
           KVED+SKEP VEREL+L+KLNAD STR+EIMWLVDIFR KIVDTSE SLTIEVTGDPGK+
Sbjct: 144 KVEDLSKEPHVERELMLIKLNADPSTRSEIMWLVDIFRAKIVDTSEQSLTIEVTGDPGKM 203

Query: 206 VAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQ 265
           VA+  N  KFGIKE+ARTGKIALRREKMGETAPFWRFSAASYP L      E     +  
Sbjct: 204 VALTTNLEKFGIKEIARTGKIALRREKMGETAPFWRFSAASYPHLVKESSHETVAEKTKL 263

Query: 266 SVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVL 325
           ++ GN + S+ GDVYPVEPY +F    VLDAHWG++YD DSSGL+SHTLS+LV + PGVL
Sbjct: 264 ALTGNGNASSGGDVYPVEPYNDF--KPVLDAHWGMVYDEDSSGLRSHTLSLLVANVPGVL 323

Query: 326 NVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDL 385
           N++TG ISRRGYNIQSLAVG AEK GLSRITTVIPGTDE+I KLV+QL KLIDL E++++
Sbjct: 324 NLITGAISRRGYNIQSLAVGPAEKEGLSRITTVIPGTDENIDKLVRQLQKLIDLQEIQNI 383

Query: 386 TYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQR 445
           T++PFAERELMLIKVA + +ARRDVLDIA +FRAKA+DVSDHTITL++TGDL KM ALQ 
Sbjct: 384 THMPFAERELMLIKVAADTSARRDVLDIAQVFRAKAIDVSDHTITLEVTGDLRKMSALQT 443

Query: 446 LLEPYGICEVCGKDR 460
            LE YGICEV    R
Sbjct: 444 QLEAYGICEVARTGR 456

[Close]
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match: Q9SMC2 (Acetolactate synthase small subunit 1, chloroplastic OS=Nicotiana plumbaginifolia OX=4092 PE=2 SV=1)

HSP 1 Score: 559.7 bits (1441), Expect = 3.4e-158
Identity = 286/369 (77.51%), Postives = 327/369 (88.62%), Query Frame = 0 

Query: 91  IINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVIKVEDI 150
           +INRIAGVFARRGYNIESLAVGLNKDKALFTIVV+GTE VL+QV+EQL KLVNVIKVED+
Sbjct: 37  MINRIAGVFARRGYNIESLAVGLNKDKALFTIVVSGTERVLQQVMEQLQKLVNVIKVEDL 96

Query: 151 SKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKLVAVER 210
           SKEPQVEREL+L+K++AD   RAE+MWLVD+FR KIVD S+ SLTIEVTGDPGK+VAV+R
Sbjct: 97  SKEPQVERELMLIKISADPKYRAEVMWLVDVFRAKIVDISDQSLTIEVTGDPGKMVAVQR 156

Query: 211 NFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQSVNG- 270
           N SKFGI+E+ARTGKIALRREKMGE+APFWRFSAASYPDLE +           ++ NG 
Sbjct: 157 NLSKFGIREIARTGKIALRREKMGESAPFWRFSAASYPDLEGAMSAGTISRTIKRTPNGE 216

Query: 271 NISTSTGDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVLNVVTG 330
           ++S + GDVYPVE  +N   +QVLDAHWGVL D D+SGL+SHTLSMLVND PGVLN+VTG
Sbjct: 217 SMSMAEGDVYPVETDDNSGVSQVLDAHWGVLNDEDTSGLRSHTLSMLVNDTPGVLNIVTG 276

Query: 331 IISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDLTYLPF 390
           + +RRGYNIQSLAVGHAE  GLSRITTV+PGTDES+ KLVQQL+KL+D+HEVRD+T+LPF
Sbjct: 277 VFARRGYNIQSLAVGHAEVEGLSRITTVVPGTDESVSKLVQQLYKLVDIHEVRDITHLPF 336

Query: 391 AERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQRLLEPY 450
           AERELMLIK+AVNAAARR+VLDIA IFRAKAVDVSDHTITL+LTGDL+KMV LQRLLEPY
Sbjct: 337 AERELMLIKIAVNAAARRNVLDIASIFRAKAVDVSDHTITLELTGDLHKMVRLQRLLEPY 396

Query: 451 GICEVCGKD 459
           GICEV   D
Sbjct: 397 GICEVARTD 405

[Close]
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match: Q55141 (Acetolactate synthase small subunit OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=ilvH PE=3 SV=2)

HSP 1 Score: 179.1 bits (453), Expect = 1.2e-43
Identity = 92/156 (58.97%), Postives = 126/156 (80.77%), Query Frame = 0 

Query: 78  RHTISVFVGDESGIINRIAGVFARRGYNIESLAVGLNK--DKALFTIVVTGTENVLRQVV 137
           +HT+SV V DE+G++ RIAG+FARRG+NIESLAVG  +  D +  T+VV G EN + Q+ 
Sbjct: 2   KHTLSVLVEDEAGVLTRIAGLFARRGFNIESLAVGSAEQGDVSRITMVVPGDENTIEQLT 61

Query: 138 EQLHKLVNVIKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLT 197
           +QL+KLVNVIKV+DI++ P VEREL+L+K++A++  RAE++ L  +FR +IVD SE ++T
Sbjct: 62  KQLYKLVNVIKVQDITETPCVERELMLVKVSANAPNRAEVIELAQVFRARIVDISEDTVT 121

Query: 198 IEVTGDPGKLVAVERNFSKFGIKELARTGKIALRRE 232
           IEV GDPGK+VA+ +  +KFGIKE+ARTGKIAL RE
Sbjct: 122 IEVVGDPGKMVAILQMLAKFGIKEVARTGKIALVRE 157

[Close]
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match: Q9TLY1 (Acetolactate synthase small subunit OS=Cyanidium caldarium OX=2771 GN=ilvH PE=3 SV=1)

HSP 1 Score: 168.3 bits (425), Expect = 2.2e-40
Identity = 83/155 (53.55%), Postives = 123/155 (79.35%), Query Frame = 0 

Query: 78  RHTISVFVGDESGIINRIAGVFARRGYNIESLAVGLNKDKAL--FTIVVTGTENVLRQVV 137
           ++T+SV V DE+G++ RIAG+FARRG+NIESLAVG  + K +   T+VV G +  + Q+ 
Sbjct: 2   KYTLSVLVEDEAGVLTRIAGLFARRGFNIESLAVGPAEQKGISRITMVVPGDDRTVEQLT 61

Query: 138 EQLHKLVNVIKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLT 197
           +QL+KLVN++KV++I++ P VEREL+L+K+NA +S+R EI+ ++ +FR K+VD SE+ L 
Sbjct: 62  KQLYKLVNILKVDNITEIPCVERELILVKINASTSSRPEILSILQVFRAKVVDLSENLLV 121

Query: 198 IEVTGDPGKLVAVERNFSKFGIKELARTGKIALRR 231
           +E+TGDPGK+ A+++   KFGI E+ARTGKIAL R
Sbjct: 122 LELTGDPGKVAAIQQLLQKFGIIEIARTGKIALTR 156

[Close]
BLAST of CmaCh11G009240 vs. TAIR 10
Match: AT2G31810.1 (ACT domain-containing small subunit of acetolactate synthase protein )

HSP 1 Score: 575.9 bits (1483), Expect = 3.2e-164
Identity = 299/436 (68.58%), Postives = 356/436 (81.65%), Query Frame = 0 

Query: 25  SYVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVF 84
           SY+   S   G +  +++  F    +R     ++D+  + + S+ P  +  V++HTISVF
Sbjct: 39  SYLSGISSHRGDEMGKRMEGF----VRSVDGKISDASFSEASSATP--KSKVRKHTISVF 98

Query: 85  VGDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNV 144
           VGDESG+INRIAGVFARRGYNIESLAVGLN+DKALFTIVV GTE VL+QV+EQL KLVNV
Sbjct: 99  VGDESGMINRIAGVFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNV 158

Query: 145 IKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGK 204
           +KVEDIS EPQVEREL+L+K+NA   +RAEIMWLVD FR ++VD +EH+LTIEVTGDPGK
Sbjct: 159 LKVEDISSEPQVERELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGK 218

Query: 205 LVAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSI 264
           ++AVERN  KF I+E+ RTGKIALRREKMG TAPFWRFSAASYPDL++  PV        
Sbjct: 219 MIAVERNLKKFQIREIVRTGKIALRREKMGATAPFWRFSAASYPDLKEQAPVSVLRSSKK 278

Query: 265 QSVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGV 324
            ++     TS  GDVYPVEP+ +   +++LDAHWG+L D D+SGL+SHTLS+LVND PGV
Sbjct: 279 GAIVPQKETSAGGDVYPVEPFFDPKVHRILDAHWGLLTDEDTSGLRSHTLSLLVNDIPGV 338

Query: 325 LNVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRD 384
           LN+VTG+ +RRGYNIQSLAVGHAE  G+SRITTVIP TDES+ KLVQQL+KL+D+HEV D
Sbjct: 339 LNIVTGVFARRGYNIQSLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHD 398

Query: 385 LTYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQ 444
           LT+LPF+ERELMLIK+AVNAAARRDVLDIA IFRAKAVDVSDHTITLQLTGDL+KMVALQ
Sbjct: 399 LTHLPFSERELMLIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQLTGDLDKMVALQ 458

Query: 445 RLLEPYGICEVCGKDR 460
           RLLEPYGICEV    R
Sbjct: 459 RLLEPYGICEVARTGR 468

[Close]
BLAST of CmaCh11G009240 vs. TAIR 10
Match: AT5G16290.1 (VALINE-TOLERANT 1 )

HSP 1 Score: 570.5 bits (1469), Expect = 1.4e-162
Identity = 304/435 (69.89%), Postives = 349/435 (80.23%), Query Frame = 0 

Query: 26  YVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVFV 85
           Y F        Q  Q ++  ++    V SAA  D  +T + S  P     V+RHTISVFV
Sbjct: 24  YGFPAKTPNSLQVNQIIDGRKMRNATVLSAASTDKAITTAQSVAPTACDRVRRHTISVFV 83

Query: 86  GDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVI 145
           GDESGIINRIAGVFARRGYNIESLAVGLN+DKALFTIVV GT+ VL+QVVEQL+KLVNVI
Sbjct: 84  GDESGIINRIAGVFARRGYNIESLAVGLNEDKALFTIVVLGTDKVLQQVVEQLNKLVNVI 143

Query: 146 KVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKL 205
           KVED+SKEP VEREL+L+KLNAD STR+EIMWLVDIFR KIVDTSE SLTIEVTGDPGK+
Sbjct: 144 KVEDLSKEPHVERELMLIKLNADPSTRSEIMWLVDIFRAKIVDTSEQSLTIEVTGDPGKM 203

Query: 206 VAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQ 265
           VA+  N  KFGIKE+ARTGKIALRREKMGETAPFWRFSAASYP L      E     +  
Sbjct: 204 VALTTNLEKFGIKEIARTGKIALRREKMGETAPFWRFSAASYPHLVKESSHETVAEKTKL 263

Query: 266 SVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVL 325
           ++ GN + S+ GDVYPVEPY +F    VLDAHWG++YD DSSGL+SHTLS+LV + PGVL
Sbjct: 264 ALTGNGNASSGGDVYPVEPYNDF--KPVLDAHWGMVYDEDSSGLRSHTLSLLVANVPGVL 323

Query: 326 NVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDL 385
           N++TG ISRRGYNIQSLAVG AEK GLSRITTVIPGTDE+I KLV+QL KLIDL E++++
Sbjct: 324 NLITGAISRRGYNIQSLAVGPAEKEGLSRITTVIPGTDENIDKLVRQLQKLIDLQEIQNI 383

Query: 386 TYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQR 445
           T++PFAERELMLIKVA + +ARRDVLDIA +FRAKA+DVSDHTITL++TGDL KM ALQ 
Sbjct: 384 THMPFAERELMLIKVAADTSARRDVLDIAQVFRAKAIDVSDHTITLEVTGDLRKMSALQT 443

Query: 446 LLEPYGICEVCGKDR 460
            LE YGICEV    R
Sbjct: 444 QLEAYGICEVARTGR 456

[Close]
BLAST of CmaCh11G009240 vs. TAIR 10
Match: AT5G16290.2 (VALINE-TOLERANT 1 )

HSP 1 Score: 570.5 bits (1469), Expect = 1.4e-162
Identity = 304/435 (69.89%), Postives = 349/435 (80.23%), Query Frame = 0 

Query: 26  YVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVFV 85
           Y F        Q  Q ++  ++    V SAA  D  +T + S  P     V+RHTISVFV
Sbjct: 24  YGFPAKTPNSLQVNQIIDGRKMRNATVLSAASTDKAITTAQSVAPTACDRVRRHTISVFV 83

Query: 86  GDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVI 145
           GDESGIINRIAGVFARRGYNIESLAVGLN+DKALFTIVV GT+ VL+QVVEQL+KLVNVI
Sbjct: 84  GDESGIINRIAGVFARRGYNIESLAVGLNEDKALFTIVVLGTDKVLQQVVEQLNKLVNVI 143

Query: 146 KVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKL 205
           KVED+SKEP VEREL+L+KLNAD STR+EIMWLVDIFR KIVDTSE SLTIEVTGDPGK+
Sbjct: 144 KVEDLSKEPHVERELMLIKLNADPSTRSEIMWLVDIFRAKIVDTSEQSLTIEVTGDPGKM 203

Query: 206 VAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQ 265
           VA+  N  KFGIKE+ARTGKIALRREKMGETAPFWRFSAASYP L      E     +  
Sbjct: 204 VALTTNLEKFGIKEIARTGKIALRREKMGETAPFWRFSAASYPHLVKESSHETVAEKTKL 263

Query: 266 SVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVL 325
           ++ GN + S+ GDVYPVEPY +F    VLDAHWG++YD DSSGL+SHTLS+LV + PGVL
Sbjct: 264 ALTGNGNASSGGDVYPVEPYNDF--KPVLDAHWGMVYDEDSSGLRSHTLSLLVANVPGVL 323

Query: 326 NVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDL 385
           N++TG ISRRGYNIQSLAVG AEK GLSRITTVIPGTDE+I KLV+QL KLIDL E++++
Sbjct: 324 NLITGAISRRGYNIQSLAVGPAEKEGLSRITTVIPGTDENIDKLVRQLQKLIDLQEIQNI 383

Query: 386 TYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQR 445
           T++PFAERELMLIKVA + +ARRDVLDIA +FRAKA+DVSDHTITL++TGDL KM ALQ 
Sbjct: 384 THMPFAERELMLIKVAADTSARRDVLDIAQVFRAKAIDVSDHTITLEVTGDLRKMSALQT 443

Query: 446 LLEPYGICEVCGKDR 460
            LE YGICEV    R
Sbjct: 444 QLEAYGICEVARTGR 456

[Close]
BLAST of CmaCh11G009240 vs. TAIR 10
Match: AT2G31810.3 (ACT domain-containing small subunit of acetolactate synthase protein )

HSP 1 Score: 530.4 bits (1365), Expect = 1.6e-150
Identity = 276/409 (67.48%), Postives = 333/409 (81.42%), Query Frame = 0 

Query: 25  SYVFSKSLIGGFQKAQKLNSFQLPTLRVSSAAVNDSVVTVSDSSRPAIRLAVKRHTISVF 84
           SY+   S   G +  +++  F    +R     ++D+  + + S+ P  +  V++HTISVF
Sbjct: 39  SYLSGISSHRGDEMGKRMEGF----VRSVDGKISDASFSEASSATP--KSKVRKHTISVF 98

Query: 85  VGDESGIINRIAGVFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNV 144
           VGDESG+INRIAGVFARRGYNIESLAVGLN+DKALFTIVV GTE VL+QV+EQL KLVNV
Sbjct: 99  VGDESGMINRIAGVFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNV 158

Query: 145 IKVEDISKEPQVERELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGK 204
           +KVEDIS EPQVEREL+L+K+NA   +RAEIMWLVD FR ++VD +EH+LTIEVTGDPGK
Sbjct: 159 LKVEDISSEPQVERELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGK 218

Query: 205 LVAVERNFSKFGIKELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSI 264
           ++AVERN  KF I+E+ RTGKIALRREKMG TAPFWRFSAASYPDL++  PV        
Sbjct: 219 MIAVERNLKKFQIREIVRTGKIALRREKMGATAPFWRFSAASYPDLKEQAPVSVLRSSKK 278

Query: 265 QSVNGNISTST-GDVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGV 324
            ++     TS  GDVYPVEP+ +   +++LDAHWG+L D D+SGL+SHTLS+LVND PGV
Sbjct: 279 GAIVPQKETSAGGDVYPVEPFFDPKVHRILDAHWGLLTDEDTSGLRSHTLSLLVNDIPGV 338

Query: 325 LNVVTGIISRRGYNIQSLAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRD 384
           LN+VTG+ +RRGYNIQSLAVGHAE  G+SRITTVIP TDES+ KLVQQL+KL+D+HEV D
Sbjct: 339 LNIVTGVFARRGYNIQSLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHD 398

Query: 385 LTYLPFAERELMLIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQL 433
           LT+LPF+ERELMLIK+AVNAAARRDVLDIA IFRAKAVDVSDHTITLQ+
Sbjct: 399 LTHLPFSERELMLIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQV 441

[Close]
BLAST of CmaCh11G009240 vs. TAIR 10
Match: AT2G31810.2 (ACT domain-containing small subunit of acetolactate synthase protein )

HSP 1 Score: 529.6 bits (1363), Expect = 2.7e-150
Identity = 270/364 (74.18%), Postives = 312/364 (85.71%), Query Frame = 0 

Query: 98  VFARRGYNIESLAVGLNKDKALFTIVVTGTENVLRQVVEQLHKLVNVIKVEDISKEPQVE 157
           VFARRGYNIESLAVGLN+DKALFTIVV GTE VL+QV+EQL KLVNV+KVEDIS EPQVE
Sbjct: 35  VFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNVLKVEDISSEPQVE 94

Query: 158 RELVLMKLNADSSTRAEIMWLVDIFRGKIVDTSEHSLTIEVTGDPGKLVAVERNFSKFGI 217
           REL+L+K+NA   +RAEIMWLVD FR ++VD +EH+LTIEVTGDPGK++AVERN  KF I
Sbjct: 95  RELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGKMIAVERNLKKFQI 154

Query: 218 KELARTGKIALRREKMGETAPFWRFSAASYPDLEDSRPVEGFVGDSIQSVNGNISTST-G 277
           +E+ RTGKIALRREKMG TAPFWRFSAASYPDL++  PV         ++     TS  G
Sbjct: 155 REIVRTGKIALRREKMGATAPFWRFSAASYPDLKEQAPVSVLRSSKKGAIVPQKETSAGG 214

Query: 278 DVYPVEPYENFHSNQVLDAHWGVLYDGDSSGLQSHTLSMLVNDYPGVLNVVTGIISRRGY 337
           DVYPVEP+ +   +++LDAHWG+L D D+SGL+SHTLS+LVND PGVLN+VTG+ +RRGY
Sbjct: 215 DVYPVEPFFDPKVHRILDAHWGLLTDEDTSGLRSHTLSLLVNDIPGVLNIVTGVFARRGY 274

Query: 338 NIQS-LAVGHAEKAGLSRITTVIPGTDESIGKLVQQLHKLIDLHEVRDLTYLPFAERELM 397
           NIQ+ LAVGHAE  G+SRITTVIP TDES+ KLVQQL+KL+D+HEV DLT+LPF+ERELM
Sbjct: 275 NIQAYLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHDLTHLPFSERELM 334

Query: 398 LIKVAVNAAARRDVLDIADIFRAKAVDVSDHTITLQLTGDLNKMVALQRLLEPYGICEVC 457
           LIK+AVNAAARRDVLDIA IFRAKAVDVSDHTITLQLTGDL+KMVALQRLLEPYGICEV 
Sbjct: 335 LIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQLTGDLDKMVALQRLLEPYGICEVA 394

Query: 458 GKDR 460
              R
Sbjct: 395 RTGR 398

The following BLAST results are available for this feature:
BLAST of CmaCh11G009240 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q93YZ74.6e-16368.58Acetolactate synthase small subunit 2, chloroplastic OS=Arabidopsis thaliana OX=... [more]
Q9FFF41.9e-16169.89Acetolactate synthase small subunit 1, chloroplastic OS=Arabidopsis thaliana OX=... [more]
Q9SMC23.4e-15877.51Acetolactate synthase small subunit 1, chloroplastic OS=Nicotiana plumbaginifoli... [more]
Q551411.2e-4358.97Acetolactate synthase small subunit OS=Synechocystis sp. (strain PCC 6803 / Kazu... [more]
Q9TLY12.2e-4053.55Acetolactate synthase small subunit OS=Cyanidium caldarium OX=2771 GN=ilvH PE=3 ... [more]
BLAST of CmaCh11G009240 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G31810.13.2e-16468.58ACT domain-containing small subunit of acetolactate synthase protein [more]
AT5G16290.11.4e-16269.89VALINE-TOLERANT 1 [more]
AT5G16290.21.4e-16269.89VALINE-TOLERANT 1 [more]
AT2G31810.31.6e-15067.48ACT domain-containing small subunit of acetolactate synthase protein [more]
AT2G31810.22.7e-15074.18ACT domain-containing small subunit of acetolactate synthase protein [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR004789Acetolactate synthase, small subunitTIGRFAMTIGR00119TIGR00119coord: 77..231
e-value: 2.0E-51
score: 172.0
coord: 310..455
e-value: 2.2E-44
score: 149.1
IPR004789Acetolactate synthase, small subunitPANTHERPTHR30239ACETOLACTATE SYNTHASE SMALL SUBUNITcoord: 29..459
IPR019455Acetolactate synthase, small subunit, C-terminalPFAMPF10369ALS_ss_Ccoord: 158..230
e-value: 5.0E-25
score: 87.5
coord: 392..455
e-value: 1.1E-19
score: 70.5
NoneNo IPR availableGENE3D3.30.70.260coord: 307..386
e-value: 4.3E-28
score: 98.8
coord: 75..153
e-value: 2.8E-28
score: 99.4
NoneNo IPR availablePFAMPF13710ACT_5coord: 319..381
e-value: 1.9E-9
score: 37.2
NoneNo IPR availablePANTHERPTHR30239:SF18ACETOLACTATE SYNTHASE SMALL SUBUNIT 1, CHLOROPLASTICcoord: 29..459
NoneNo IPR availableSUPERFAMILY55021ACT-likecoord: 77..153
NoneNo IPR availableSUPERFAMILY55021ACT-likecoord: 310..384
NoneNo IPR availableSUPERFAMILY55021ACT-likecoord: 388..455
NoneNo IPR availableSUPERFAMILY55021ACT-likecoord: 153..232
IPR027271Acetolactate synthase/Transcription factor NikR, C-terminalGENE3D3.30.70.1150coord: 157..238
e-value: 7.8E-25
score: 88.4
IPR027271Acetolactate synthase/Transcription factor NikR, C-terminalGENE3D3.30.70.1150coord: 389..459
e-value: 3.5E-20
score: 73.8
IPR002912ACT domainPFAMPF01842ACTcoord: 79..142
e-value: 2.6E-11
score: 43.1
IPR002912ACT domainPROSITEPS51671ACTcoord: 80..152
score: 14.807495
IPR002912ACT domainPROSITEPS51671ACTcoord: 312..389
score: 13.575991
IPR039557AHAS, ACT domainCDDcd04878ACT_AHAScoord: 79..148
e-value: 4.04964E-28
score: 104.517
IPR039557AHAS, ACT domainCDDcd04878ACT_AHAScoord: 311..382
e-value: 1.19173E-26
score: 100.665

Relationships

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

Feature NameUnique NameType
CmaCh11G009240.1CmaCh11G009240.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009097 isoleucine biosynthetic process
biological_process GO:0050790 regulation of catalytic activity
biological_process GO:0009099 valine biosynthetic process
biological_process GO:0009082 branched-chain amino acid biosynthetic process
cellular_component GO:0005737 cytoplasm
molecular_function GO:1990610 acetolactate synthase regulator activity