CmaCh11G005770 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh11G005770
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionZinc-binding dehydrogenase family protein
LocationCma_Chr11: 2770056 .. 2778847 (-)
RNA-Seq ExpressionCmaCh11G005770
SyntenyCmaCh11G005770
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.
CTCCAAATAATCCCACCTCCCCAATGGCAGTTCGCGGGTTGTGGCTCAAATGGCCGCTCTTCGATTTTCCCTCCAAAACTCTCTCGCACTCTCAACCCCATCACTCGGTTTCGGTTTCCGGCCGCCCAATTCTGGCAGACTAATCACCCGAAGCAGAACTGTACCTTCTAAACCCCATACCCGAAATTCCAAGTGGGTCGTTCGATTAAGCTTGGTCGATCAAAACCCACCAAAATCGACGGTCGATGTGGACCAATTGGTGGATTTCTTATACCAAGATCTTCCCCATCTCTTCGATGAACAGGGGATTGATCGAACGGCGTATGACGATCAAGTGAGATTTCGGGACCCCATTACCAAGCACGATACGATTACTGGGTATTTGTTCAATATTTCCCTCTTGCGAGAACTCTTCAAGCCTGAGTTCTTATTGCACTGGGTTAAAAAGGTTCGATTCTCTTCAATTTCTCGCACATTATAATCAATTCCATCATTACTCATTAGTTAGATCTGGGAGTTTAATGATTTCATAGAGCTGGTTTTGAATATTAATCTCACTGATTGAGTCGCTCTAGACAGGAGCTTATGAAATAACTACAAGATGGACTATGGTAATGAAGTTTGTTCTTCTGCCATGGAAACCACAATTAGTTTTTACGGGAAATTCCATCATGGGTATCAATCCAGAGACGGGCAAGTTCTGTAGTCATGTGGTAACGTCCTCCTTACTTTGAAAGTTGAATGAGAAAATTTGTGGCTGAGTTATGACATTGTATCCAAGCCCATCTCATCCTTTTGTATCGTAGGATCTCTGGGATTCAATACAGAATAACGACTACTTTTCTGTAGAAGGGTTGTTGGATGTATTTAAGCAGGTACTCTCGTTATAATATGATGAAAATCATCTACAAGAGACTTCTGATGTTTTTTTTTTTTTTTATATTTTTTGGTCTCTTTAGCTTCGATTTTATAAGACTCCAGAATTGGAATCACCCAAGTATGAGATACTGAAAAGGACTGCTAATTATGAGGTTTGTTTTCTACTTCTCTTCGCTCTGTTTCATGATCTTTATAGGAACCTTTTATCTCTGAAGAAGATTTTAGTAATCTTAGAGGTTTGATTCAATGTAAATGTTTTCTTCAGGTGAGGAAATATGCACCATTTATTGTTGTTGAAACAAGTGGAGATAAACTCGCTGGGTCTGCTGGATTCAATACAGTTGCTGGGTAAGTCTTTGTGAGATCCCACGTCAGTTGGAGAGGGTAACGAGTGCCAGCGAGGACGCTGGGCTCCGAAGGGGTGGATTGTGAGATCCCATACTGGTTGTTGGAGAAGGAAATGAAACATTTTTTATAAGGGTGTGGAAACCTCTTCTTAGCAGACGCGTTTTAAAAACTTTGAGGGGAAGCTTGAAAGGGAAAGAGCTCAAAGAGGACATTATCGGCTAGTGGTGGGCTTAGACTATTACAAATAGTATCAGAGCCAAACACCGGGCGGTGTGCCAGCGAGAATGCTGGGCCAGATTGTGAGATCCCACATCGGTTGGAGAGGGGAACAAATCATTTTTTATAAGAGTGTGAAAACTTTTCTCTAACAGACACGTTTTAAAAACCTTGATGGGAAGTCTGAAAGGGAAAGCCTAGAGTAGACAATATCTGCTAGCAGTGGGCTTGGCTCTTTTCCTTTAGTTGGGTCACGTTTGAATTACCTTTCTCAGTGATTTTAGAAGGTATTCCGAACTCACTTAAGTAATATGTTGGGCCACTGCAGCACAGCACCTATAAAATCCTGCATTTTTTTTTTTGTAATAGTAGGAAGTATAATTCTTATTGTTGAGGAGGATGATACTATGTGATTCAATAAACACAGGTATATATTTGGGAAAAACTCAGCAAAGGAGAAGATAGCCATGACTACTCCTGTATTCACCCAAACATTTGACTCTGAATCACCCAAAGTCTCCATTCAAATAGTTCTTCCTTCAGAGAAAGATCTATACAGGTGTGGTTAACTGATCCCTCTTCAAATCCTTTGAAATGAAACTATGGAAGAACTGAACACAGGAAGTTATAGCCAAACTCAAACCATTACTAATGCTGCTAAGCTATTAATGAGCATCATCACTTCACTTTGTTCAGTTTACCAGATCCTGAACAAGACACAATTGGCTTGAGAAAGGTTGAAGGAGGAACTGCTGCAGTGTTGAAATTCAGTGGAAAACCTACCGAAGAGATTGTGCAAGAGAAGGCCAAACAGTTGCGGTCTAGTCTCATAAAGGATGGTCTCAAACCCGGTAACGGCTGTTTGCTTGCTCGGTATAACGACCCTGGACGAACATGGAACTTTATAATGGTAAGTCCCAACTCCATTTTCCTTTCCATCATATGTTGTTCTAGTTATGGCTTGACATTGTTTGATCGCATATTGAGTTCAAGGACAGATTTTAAGGTTCTGTTCCATACAAATAAGCACTTATTTGGGGTTTTGTTGGCAGAGAAATGAGGTTCTAATATGGCTTGAAGAATTCTCATTGGAGTAGACCCAATTAAGCAGAGGTTTTGAAGCCTTTGAGTCCTAATTCATATTTTGTATATATTTTGACTGTTCTGCGATCATCAAGTTTTGCTTATAGTTAAGTTAGCAAACAAAAGTATCTTGAGATTGCATGTTCATTTTTGTTTTCCCCATTTCTTATTTTTACATTTTGGAGAAAGAAAGTTAATGAGAACAATTTTGATAGTTAATTTTCACTCAATGGATAGCTAATGCTATGAAAGTTGTAGATCGGGGGGCATACCGGTTGACAATAGAGGTCGTTTGGTTTGTAAAAGTGAGAGGTTTTTTTAAATCTAGAGATGTCTGTAGAGCAAAGTGTATGCTATGTTGATACAATAGGTGTGAAATCTCACATCAGTTCTTAGTAGGATGGAAACCTTTCTATAACAGACGTTTTTATAAACCTTGAGGAGAGCTCAGAAGAGAAGCCCACAAAATGACCTTTTTATCCCTATGTTGACTTTTAATGGATTATGTTGACTTTTTATCCATTTTCAACTCTTAGGAAAACGAAAATGTTGCCAACTTCAATATTGATTGTTATTTTTAGCTTTGGGGCTGAGTTGGACACCTACATTTCCGTGTGAGATATACTCCTACTTCAATCACATCCTTAACCTTATCCCTTCCAACAAGCACAACCTTCTTACAACTCTACCCAGACTAAGTAAACCTTTAACGACCCAAACACACGACTAATAGATATGGTTCGAATTGGCCAATTACGTATCGTTGTTAGCTTCACAGTTTTAAAACGCGTCTACTAAAGAGAAGTTTTCACACCCTAATAAAGAATGTTTCGTTTCTTTCTCCAACCAACGTGGGATCTCACAAAACTGCTTCACTGACTTGTTAGTTTACCAGTGGATAGGATGACTTTTAGATGTATGATGAAAATTGGTAACTAACTACTAAATTTCTTTTAGTATAACTATGCTTTTGACCATAACTCCAATATCGAGTATATATTAAAAACTTGAGTTGCCACTTAAATGATGTTTCTTTGAAAATTAAAGATGTATTACGCAGCATGTAGAGAAAATTGATTGAACAAATTATCTTAAATTTAAAGTTGTGAGTATACTTAAGGCAACAATGATAATTTGAACGTATGATGATAGAGATACGTGAAGGTTTGCGGTCCAAAAAGTGGACCGTAGGGAAAATGATGACTAATAATTGAGATGCCATTTCTTCGTTTTAGGCAGAGTATATCTAGGGATCCAGAGCTTTAACTCTCCATCCTCTTCTACGGCTCACACCCTTTTGTCATTGCGGCTCCCATATTTATCTCTTTCCCTCTGCTCTGAAATATCAGGACACTCTAATTCATGGAGGAACAAGTGATTAACAATAAAACTCCCTATCGATGGCTTCCCACATGCCTCAGATTTTGAGCTTAAATCCCGACCTCCTCATCTCTCTGTTAAGCCCGGCCATATTGTCCTAAAAAATCTGTGTGTTTCCATTGACCCATATCAGATCAACCATATGAAGCTCCACAGCTCTTCACATGCAGTTTCATCTGCCACTCGTTTTATCACTCCTGGACAGGTAAGAGTATTCAAAGTTTCTACCTTTGGATAGTTGGCATATGTCTTAAGATTATGTTCGTGTTTTGGTGGCTTTTGGGTTTGTTTGGAACAGGCGATTAGTGCTTATGGTGTAGCAGAAGTTGTGGCTTCAAGCGACTCTGAATTTCAAAAGGTGGACTTGGTTAAGGGGTTCATACATTGGGCGGAATACAGCGTTGTTAAAGCTGAAGAATGCACTCTAACAAAGTTGGATACTTTGGGATTTCCCTTAACATACTATCTAGGAATTTTAGGTGAGTTGTATGGCTTGTTTGGAATCAATTTTTGTATTCCTTCTAAATTGTGGCGCGTTTTAAAATTTGATGGGAAAGCCTAAAGAGGACAATATTTACTAGTAGTGCTTTAGGCCATTATAAATTGTATTAGAGCTAGACACCGGCGATGTGACAGTCAGGACAATGGCCCCCTAGGGGGTGGGTTGTGACATCCCATGTCGATTGGAGAGTGGAATGAAACATTGCTTATAAAGTGTGGAAATTTGTCCTTTGGGAACGTGTTTCAAAACCTTGAAGGGAAGCTTAAAAAGAATAATATCTACAAGCGGTGGGTTTGAATCATTACACTTTTACCGTTTTTAAGTAAAAAAAAAAAAGGTTATAAAACACTTTTGGAAGAATATAATATGCTGTGAAGAAACCCTTATTTTCCTTTTGTGGTTGATCAGGGATGAGTGGCCACACTGCTTACACTGGTCTGTTTGGAGTAGGGAAGGTTAAGGAAGGGGACAAAGTGTTTGTGTCTGCAGCATCTGGCTCTGTTGGGAATTTAGTTGGACAGTTTGCTAAGCTGCATGGTTGCTATGTTGTTGGATGTGCTGGTTCTGATCAAAAGGTCCAACTTTTCACAAACAATCAATATTAACGATCCTTCTTCGTGATTGATTAATTTTGCTTCTCGTCGTTAACTTTTTGATCAGTGGAAGACGAGATAGAGAAAACAGTTTTTGTTTTGAAAATTTAGCTATAATAAACGTACGAAAACAAACACATTTTTTTTTCCAACTTACACTAATGGCAGGTGCCATTGCAGGAAGAGAAGCTTGTAATGGCAGGTGGCATTGCTGGAAGAGAAGCTTGGCTTTGACGAAGCATTCAACTACAAGCAACAAAAAAATCTGAGTTCTTCCATTCATTTGAACATTAAAAATACCCAACACATTCAAAACAGTAGAAGCATTGTGCAGGTACTTCCCCAAAGGAATTAATACTTACTTCGACGACGTGGGGGACGAGATGCTAGAGGCAGCCATTGCAAACATGAAGCCATTTGGAAAAGTGGCTGCGTGCAGTGTTATTTCAGAGTACACAAAATCAGCAAAACGAGAGGGCCCAAACATGTTGGACATTGTATACAAAAGGATCACAATCCAAGGATTTTTGGTGATTGATTATTGGGATGTTTTTCCAGATTTCATATCCAGGACCGTCGGCTACCTTCGCTCCGGCAAGATTAAGGCTGTCGAAGACATATCAGTGGGTGTGGACAGCATTCCCACATCTTTCATCGGATTGTTCCAAGGCAATAATATTGGGAAGAAGATAGTCAAACTTGCTTACTAGTATTACTATCATCGTCATCATCATTTTAAATCAAATATTGTTACCTTTCTTTTTCCTGAAACATATTTGGGCTCAGTTATCCCTCCAAACATTCCAAGTTTTTATTTCCTTCAGAAACACTGTTCTTTTGTTTTGTTTCAAAACAATTGGAACTTTTCTCTCACATCACATCAGTGTTCTACTGTCCACTTGCCTTTACCGACCATTCAATATTCTCCAAAATCTTCCCATTGGACCAACGTGTGGATTCCTGTCTTTTTGGCATGAAAGAATTCTATGTTCCACCAGTATTTTGGCGAGACGAAAACCCAACCCCATGTGACATATACTGTCATTTTTACGCTACTTTGTTATGGGGATCAATTTCTTGCTAGGAATAACGAACCTCCATTATGATATGATATTGTCCACTTTAAGTATAAGTTCTCTTGACTTTACTTTTGATCTCCTTAGGAGAGTTTATACCAATGGAGATGTATTTCTTATAAACTCGTGATCAACCCCTTAACTAGTCTATGTGGGACTCCTCTCTTAACAATCCTCCCCTCGAACAAAGTACATCATAGAGCTTCTCCTGAGACCTATGGAGCCCTCGAACAAAGTACACTCTTTATTCGATATTTGAACATTCTATTAACATGACTAAGTTAAAGAGCATGACTCTGATACCATGTTAGAACCACGACTCTCCATAATAGTATGATATTATTCAGTTTGAGTATAAGCTCTCATGGTTTTACTTTTAGTTTTTCCAAAAGGCTTCAAGAGACGTATTCCTTACTTATAAACCCGTGATCAATCTTGGACTCCTCTCCCAACAACTTTAAAATAAGTTAGCAGTGTTACTAAACGGAGGGAGAAGGAGAGCATGTACAAGAAAGAGTTAGATATGATGGAAATGCTAAAGAAAACGATTTATGGCAGAGATGACTGAAAATTAGGAATGTGACATTGGATTCATCTTTGAAACAGACAATACTTTACACATAAAGCATGATACATTCTCAATCCAACTTTACATCATAATTTAGTGTAGGAGAGAATTGAAAGGAAAAGCACAAGGCATTACTTAGTTTTCATAGCTCCCACTAGCATTTCTCTTCAGCCAAGTTGTGGTTCTTCTGCGAGTCTTTGCCTTCTTGCGGAATGTACCGGTTAACACAAACCAGAAAAGCAACAAAGTTGATCACACTTGATATGGTCAGTAGTCCATAGAAGCAGTCAAGTCTGCCGTAGTTTATATTGTCTGCGAGCCAACCTTGTCCATCGTTTCCTGTCACCCTCTTCACAACCAAAACCAAGAAACTGCTGATGAAAAACCCGAGTGATAAAGTGGAGAGGAACAGACCGGTACTCATAGTTTTCATCCCTTTGGGAGAATTGGTTATGAAGAAATCAAGCTGCCCAGTGTATATGAAGGCTTCACCTGAACCCACCAAGAAAAACTGTGGGATCAACAGGAACACCGTTACAGGCAGAGTAGCTGTGTTGTCACCCACTGCTTTTGCCACTGCTAGCCGTTTCCTCTCGGCTACTGCTGCAGCTGCCATTCCAAGTATTGACAGGACAAGGCCTATGGCCATTCTCTGTATGTTTGTGAAACCTGTCACATAGCAACATAGCTACTCAGGATTCCTTGAAGTACAGATTAGGATTTTGTAATTGGATCTTAGTTTACCTTGTTTTCCTTTCCATTTCTTCCATAGAGGCATAATAAGACGGTCATAAACACCCAGTGTGATGAGTATAGCTGCAACAAAGAAGACAGTGAGAGAGCCTGCTGGGATTTGGAATGACCCTATTGTTCTTTCCATGGTGGATGCTTGTACAACTGAGAAAGTGATCATCTGAGCATATATAGTCCAGAAGAGTATGGTTGTGGCCCATACAGGCAGCAGTCTTGCCACCATTTTCACCTCCTCCACTCTTGTCACTGAGCTTAGCTTCCATGGATTTTGAGCTGAATCTCCTTCTGCAACAATTGCAGCCTTGTCCAAGAACCTATAGGAAAAGGAATCACAAATTAATGACATTACTTGAAAATTGCAGCTAATCAATGAACTTACTGGAATTGTTTTGTGTGCTGGATTCTTGTAGCATGCTCAGAAGAATCCTCATAAAGCAAAGCAACATTGTGAGGAAGCTCCAGTTTCCTGTTTTTGATTGCAGCAGAAATGACTTGGAGAATGTGAATTACAGGGCTTCCCATGCTCTTCTTGTATCTGTACCGCTTGGTCCCCGACAAGAACAACAAAATGGCGACAAACATTGAGACAGAACAAATCCCATAAGCCCAACTCCGACCCACTTCATCTTGAATGTAAACCAGCACAGTGACTGCCATCAGTGTTCCAGTGCTGATAAAGAAAAAGAATCTGTTAAAGAAAAAGGCCATCTTAGTCGTTTCCTTCTCATCTTTCTCATCAAACTGGTCGGTTCCAAAGCCCGAAATGCTTGATTTTAGTCCACCCGTCCCCAAAGCAATGAGATACAGAGTCAGGTACAGAATTCCCATTTGAAACCCATTTGCTTCCTTACAGGTCTTGGTGCCATCACACGGCGGCGGACGAAGCTGTGGCAGTTTTGTTGTAATTGCAAGTGCAGCAGTTCCCTATGGTGGCATACAATTTAATCAACACCCTCTATACGTTCTTGAAATGATTGATTTAAGTGAGGTTGATGAACATACCAGTGTTTGAATTGAAGCAGAGATGAGAATGGTATAGTATCGGCCCAGGAAAGAATCAGCAAGAAAGCCTCCAAGCAAAGAAAGGAGAAAGCAAGTGCCCATGAAATCTGTAACGATGTTGGCTGAAGCAGCGCTGGGTAGATGCATTACCCCACTCATGTACGTCACAAGATTCACTGCTATTCCCATTGTTGACAGCCTTTCACATATTTCAATACCTGAAAATTAAAATTTTTTATTTGTAGGTTTAGTTTCATTCTTTTTATGAACACCAAGTTATGATCAATGAAGCTCTTCATCCTTCTCATCCATCATTCTTGTATGTAAGGAAGGTTTATTCTCCAAGTTTTGATTTTTAAATTTTTTTGCAGGAACCTCCTTACTGGTTCTAA

mRNA sequence

CTCCAAATAATCCCACCTCCCCAATGGCAGTTCGCGGGTTGTGGCTCAAATGGCCGCTCTTCGATTTTCCCTCCAAAACTCTCTCGCACTCTCAACCCCATCACTCGGTTTCGGTTTCCGGCCGCCCAATTCTGGCAGACTAATCACCCGAAGCAGAACTGTACCTTCTAAACCCCATACCCGAAATTCCAAGTGGGTCGTTCGATTAAGCTTGGTCGATCAAAACCCACCAAAATCGACGGTCGATGTGGACCAATTGGTGGATTTCTTATACCAAGATCTTCCCCATCTCTTCGATGAACAGGGGATTGATCGAACGGCGTATGACGATCAAGTGAGATTTCGGGACCCCATTACCAAGCACGATACGATTACTGGGTATTTGTTCAATATTTCCCTCTTGCGAGAACTCTTCAAGCCTGAGTTCTTATTGCACTGGGTTAAAAAGACAGGAGCTTATGAAATAACTACAAGATGGACTATGGTAATGAAGTTTGTTCTTCTGCCATGGAAACCACAATTAGTTTTTACGGGAAATTCCATCATGGGTATCAATCCAGAGACGGGCAAGTTCTGTAGTCATGTGGATCTCTGGGATTCAATACAGAATAACGACTACTTTTCTGTAGAAGGGTTGTTGGATGTATTTAAGCAGCTTCGATTTTATAAGACTCCAGAATTGGAATCACCCAAGTATGAGATACTGAAAAGGACTGCTAATTATGAGGTGAGGAAATATGCACCATTTATTGTTGTTGAAACAACAAAGGAGAAGATAGCCATGACTACTCCTGTATTCACCCAAACATTTGACTCTGAATCACCCAAAGTCTCCATTCAAATAGTTCTTCCTTCAGAGAAAGATCTATACAGTTTACCAGATCCTGAACAAGACACAATTGGCTTGAGAAAGGTTGAAGGAGGAACTGCTGCAGTGTTGAAATTCAGTGGAAAACCTACCGAAGAGATTGTGCAAGAGAAGGCCAAACAGTTGCGGTCTAGTCTCATAAAGGATGGTCTCAAACCCGGTAACGGCTGTTTGCTTGCTCGGTATAACGACCCTGGACGAACATGGAACTTTATAATGCTTAAATCCCGACCTCCTCATCTCTCTGTTAAGCCCGGCCATATTGTCCTAAAAAATCTGTGTGTTTCCATTGACCCATATCAGATCAACCATATGAAGCTCCACAGCTCTTCACATGCAGTTTCATCTGCCACTCGTTTTATCACTCCTGGACAGGCGATTAGTGCTTATGGTGTAGCAGAAGTTGTGGCTTCAAGCGACTCTGAATTTCAAAAGGTGGACTTGGTTAAGGGGTTCATACATTGGGCGGAATACAGCGTTGTTAAAGCTGAAGAATGCACTCTAACAAAGTTGGATACTTTGGGATTTCCCTTAACATACTATCTAGGAATTTTAGGGATGAGTGGCCACACTGCTTACACTGGTCTGTTTGGAGTAGGGAAGGTTAAGGAAGGGGACAAAGTGTTTGTGTCTGCAGCATCTGGCTCTGTTGGGAATTTAGTTGGACAGTTTGCTAAGCTGCATGGTTGCTATGTTGTTGGATGTGCTGGTTCTGATCAAAAGGTGGCATTGCTGGAAGAGAAGCTTGGCTTTGACGAAGCATTCAACTACAAGCAACAAAAAAATCTGATAGAAGCATTGTGCAGGTACTTCCCCAAAGGAATTAATACTTACTTCGACGACGTGGGGGACGAGATGCTAGAGGCAGCCATTGCAAACATGAAGCCATTTGGAAAAGTGGCTGCGTGCAGTGTTATTTCAGAGTACACAAAATCAGCAAAACGAGAGGGCCCAAACATGTTGGACATTGTATACAAAAGGATCACAATCCAAGGATTTTTGGTGATTGATTATTGGGATGTTTTTCCAGATTTCATATCCAGGACCGTCGGCTACCTTCGCTCCGGCAAGATTAAGGCTGTCGAAGACATATCAGTGGGTGTGGACAGCATTCCCACATCTTTCATCGGATTGTTCCAAGGCAATAATATTGGGAAGAAGATAAAATCAAGCTGCCCAGTGTATATGAAGGCTTCACCTGAACCCACCAAGAAAAACTGTGGGATCAACAGGAACACCGTTACAGGCAGAGTAGCTGTGTTGTCACCCACTGCTTTTGCCACTGCTAGCCGTTTCCTCTCGGCTACTGCTGCAGCTGCCATTCCAAGTATTGACAGGACAAGGCCTATGGCCATTCTCTGTATCATGCTCAGAAGAATCCTCATAAAGCAAAGCAACATTGTGAGGAAGCTCCAGTTTCCTGTTTTTGATTGCAGCAGAAATGACTTGGAGAATGTGAATTACAGGGCTTCCCATGCTCTTCTTGTCTTGGTGCCATCACACGGCGGCGGACGAAGCTGTGGCAGTTTTGTTGTAATTGCAAGTGCAGCAGTTCCCTATGGTGGCATACAATTTAATCAACACCCTCTATACGTTCTTGAAATGATTGATTTAAGTGAGGAACCTCCTTACTGGTTCTAA

Coding sequence (CDS)

ATGGCCGCTCTTCGATTTTCCCTCCAAAACTCTCTCGCACTCTCAACCCCATCACTCGGTTTCGGTTTCCGGCCGCCCAATTCTGGCAGACTAATCACCCGAAGCAGAACTGTACCTTCTAAACCCCATACCCGAAATTCCAAGTGGGTCGTTCGATTAAGCTTGGTCGATCAAAACCCACCAAAATCGACGGTCGATGTGGACCAATTGGTGGATTTCTTATACCAAGATCTTCCCCATCTCTTCGATGAACAGGGGATTGATCGAACGGCGTATGACGATCAAGTGAGATTTCGGGACCCCATTACCAAGCACGATACGATTACTGGGTATTTGTTCAATATTTCCCTCTTGCGAGAACTCTTCAAGCCTGAGTTCTTATTGCACTGGGTTAAAAAGACAGGAGCTTATGAAATAACTACAAGATGGACTATGGTAATGAAGTTTGTTCTTCTGCCATGGAAACCACAATTAGTTTTTACGGGAAATTCCATCATGGGTATCAATCCAGAGACGGGCAAGTTCTGTAGTCATGTGGATCTCTGGGATTCAATACAGAATAACGACTACTTTTCTGTAGAAGGGTTGTTGGATGTATTTAAGCAGCTTCGATTTTATAAGACTCCAGAATTGGAATCACCCAAGTATGAGATACTGAAAAGGACTGCTAATTATGAGGTGAGGAAATATGCACCATTTATTGTTGTTGAAACAACAAAGGAGAAGATAGCCATGACTACTCCTGTATTCACCCAAACATTTGACTCTGAATCACCCAAAGTCTCCATTCAAATAGTTCTTCCTTCAGAGAAAGATCTATACAGTTTACCAGATCCTGAACAAGACACAATTGGCTTGAGAAAGGTTGAAGGAGGAACTGCTGCAGTGTTGAAATTCAGTGGAAAACCTACCGAAGAGATTGTGCAAGAGAAGGCCAAACAGTTGCGGTCTAGTCTCATAAAGGATGGTCTCAAACCCGGTAACGGCTGTTTGCTTGCTCGGTATAACGACCCTGGACGAACATGGAACTTTATAATGCTTAAATCCCGACCTCCTCATCTCTCTGTTAAGCCCGGCCATATTGTCCTAAAAAATCTGTGTGTTTCCATTGACCCATATCAGATCAACCATATGAAGCTCCACAGCTCTTCACATGCAGTTTCATCTGCCACTCGTTTTATCACTCCTGGACAGGCGATTAGTGCTTATGGTGTAGCAGAAGTTGTGGCTTCAAGCGACTCTGAATTTCAAAAGGTGGACTTGGTTAAGGGGTTCATACATTGGGCGGAATACAGCGTTGTTAAAGCTGAAGAATGCACTCTAACAAAGTTGGATACTTTGGGATTTCCCTTAACATACTATCTAGGAATTTTAGGGATGAGTGGCCACACTGCTTACACTGGTCTGTTTGGAGTAGGGAAGGTTAAGGAAGGGGACAAAGTGTTTGTGTCTGCAGCATCTGGCTCTGTTGGGAATTTAGTTGGACAGTTTGCTAAGCTGCATGGTTGCTATGTTGTTGGATGTGCTGGTTCTGATCAAAAGGTGGCATTGCTGGAAGAGAAGCTTGGCTTTGACGAAGCATTCAACTACAAGCAACAAAAAAATCTGATAGAAGCATTGTGCAGGTACTTCCCCAAAGGAATTAATACTTACTTCGACGACGTGGGGGACGAGATGCTAGAGGCAGCCATTGCAAACATGAAGCCATTTGGAAAAGTGGCTGCGTGCAGTGTTATTTCAGAGTACACAAAATCAGCAAAACGAGAGGGCCCAAACATGTTGGACATTGTATACAAAAGGATCACAATCCAAGGATTTTTGGTGATTGATTATTGGGATGTTTTTCCAGATTTCATATCCAGGACCGTCGGCTACCTTCGCTCCGGCAAGATTAAGGCTGTCGAAGACATATCAGTGGGTGTGGACAGCATTCCCACATCTTTCATCGGATTGTTCCAAGGCAATAATATTGGGAAGAAGATAAAATCAAGCTGCCCAGTGTATATGAAGGCTTCACCTGAACCCACCAAGAAAAACTGTGGGATCAACAGGAACACCGTTACAGGCAGAGTAGCTGTGTTGTCACCCACTGCTTTTGCCACTGCTAGCCGTTTCCTCTCGGCTACTGCTGCAGCTGCCATTCCAAGTATTGACAGGACAAGGCCTATGGCCATTCTCTGTATCATGCTCAGAAGAATCCTCATAAAGCAAAGCAACATTGTGAGGAAGCTCCAGTTTCCTGTTTTTGATTGCAGCAGAAATGACTTGGAGAATGTGAATTACAGGGCTTCCCATGCTCTTCTTGTCTTGGTGCCATCACACGGCGGCGGACGAAGCTGTGGCAGTTTTGTTGTAATTGCAAGTGCAGCAGTTCCCTATGGTGGCATACAATTTAATCAACACCCTCTATACGTTCTTGAAATGATTGATTTAAGTGAGGAACCTCCTTACTGGTTCTAA

Protein sequence

MAALRFSLQNSLALSTPSLGFGFRPPNSGRLITRSRTVPSKPHTRNSKWVVRLSLVDQNPPKSTVDVDQLVDFLYQDLPHLFDEQGIDRTAYDDQVRFRDPITKHDTITGYLFNISLLRELFKPEFLLHWVKKTGAYEITTRWTMVMKFVLLPWKPQLVFTGNSIMGINPETGKFCSHVDLWDSIQNNDYFSVEGLLDVFKQLRFYKTPELESPKYEILKRTANYEVRKYAPFIVVETTKEKIAMTTPVFTQTFDSESPKVSIQIVLPSEKDLYSLPDPEQDTIGLRKVEGGTAAVLKFSGKPTEEIVQEKAKQLRSSLIKDGLKPGNGCLLARYNDPGRTWNFIMLKSRPPHLSVKPGHIVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVDLVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDKVFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEALCRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKRITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKKIKSSCPVYMKASPEPTKKNCGINRNTVTGRVAVLSPTAFATASRFLSATAAAAIPSIDRTRPMAILCIMLRRILIKQSNIVRKLQFPVFDCSRNDLENVNYRASHALLVLVPSHGGGRSCGSFVVIASAAVPYGGIQFNQHPLYVLEMIDLSEEPPYWF
Homology
[Close]
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match: Q9SLN8 (2-alkenal reductase (NADP(+)-dependent) OS=Nicotiana tabacum OX=4097 GN=DBR PE=1 SV=1)

HSP 1 Score: 293.9 bits (751), Expect = 5.6e-78
Identity = 146/301 (48.50%), Postives = 205/301 (68.11%), Query Frame = 0 

Query: 361 IVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVD 420
           +V+KNL +S DPY  + M+    S+  S A     PG  I+ YGVA+V+ S D +FQK D
Sbjct: 43  VVVKNLYLSCDPYMRSRMRKIEGSYVESFA-----PGSPITGYGVAKVLESGDPKFQKGD 102

Query: 421 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 480
           LV G   W EYS++   + TL K+     PL+YY GILGM G TAY G   V   K+G+ 
Sbjct: 103 LVWGMTGWEEYSIITPTQ-TLFKIHDKDVPLSYYTGILGMPGMTAYAGFHEVCSPKKGET 162

Query: 481 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 540
           VFVSAASG+VG LVGQFAK+ GCYVVG AGS +KV LL+ K GFDEAFNYK++++L  AL
Sbjct: 163 VFVSAASGAVGQLVGQFAKMLGCYVVGSAGSKEKVDLLKSKFGFDEAFNYKEEQDLSAAL 222

Query: 541 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 600
            RYFP GI+ YF++VG +ML+A + NMK +G++A C +IS+Y         N+  ++ KR
Sbjct: 223 KRYFPDGIDIYFENVGGKMLDAVLVNMKLYGRIAVCGMISQYNLEQTEGVHNLFCLITKR 282

Query: 601 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 660
           I ++GFLV DY+ ++P ++   +  +++GK+  VED++ G++S PT+ +GLF G NIGK+
Sbjct: 283 IRMEGFLVFDYYHLYPKYLEMVIPQIKAGKVVYVEDVAHGLESAPTALVGLFSGRNIGKQ 337

Query: 661 I 662
           +
Sbjct: 343 V 337

[Close]
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match: Q39173 (NADP-dependent alkenal double bond reductase P2 OS=Arabidopsis thaliana OX=3702 GN=P2 PE=2 SV=2)

HSP 1 Score: 283.1 bits (723), Expect = 1.0e-74
Identity = 138/301 (45.85%), Postives = 200/301 (66.45%), Query Frame = 0 

Query: 361 IVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVD 420
           +++KNL +S DPY  + M     S A++ A     PG+ I  YGV+ V+ S   +++K D
Sbjct: 40  VLVKNLYLSCDPYMRSRMGKPDPSSALAQA---YAPGKPIYGYGVSRVIESGHPDYKKGD 99

Query: 421 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 480
           L+ G + W EYSV+        K+     PL+YY G+LGM G TAY G + V   K+G+ 
Sbjct: 100 LLWGIVGWEEYSVITPMAHMHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKKGET 159

Query: 481 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 540
           V+VSAASG+VG LVGQFAK+ GCYVVG AGS +KV LL+ K GFD+AFNYK++ +L  AL
Sbjct: 160 VYVSAASGAVGQLVGQFAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLSAAL 219

Query: 541 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 600
            R FPKGI+ YF++VG +ML+A + NM P G++A C +IS+Y    +    N+ +I+YKR
Sbjct: 220 KRCFPKGIDMYFENVGGKMLDAVLLNMNPHGRIAVCGMISQYNLENQEGVHNLSNIIYKR 279

Query: 601 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 660
           I IQGF+V D++D +P F+   +  ++ GKI  VED++ G++  P + +GLF G N+GK+
Sbjct: 280 IRIQGFVVADFYDKYPKFLELVLPRIKEGKITYVEDVADGLEKAPEALVGLFHGKNVGKQ 337

Query: 661 I 662
           +
Sbjct: 340 V 337

[Close]
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match: Q39172 (NADPH-dependent oxidoreductase 2-alkenal reductase OS=Arabidopsis thaliana OX=3702 GN=AER PE=1 SV=1)

HSP 1 Score: 278.1 bits (710), Expect = 3.2e-73
Identity = 133/301 (44.19%), Postives = 198/301 (65.78%), Query Frame = 0 

Query: 361 IVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVD 420
           +++KNL +S DPY    +++     + ++  +  TPGQ I  YGV+ ++ S   +++K D
Sbjct: 41  VLVKNLYLSCDPYM--RIRMGKPDPSTAALAQAYTPGQPIQGYGVSRIIESGHPDYKKGD 100

Query: 421 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 480
           L+ G + W EYSV+        K+     PL+YY G+LGM G TAY G + V   KEG+ 
Sbjct: 101 LLWGIVAWEEYSVITPMTHAHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKEGET 160

Query: 481 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 540
           V+VSAASG+VG LVGQ AK+ GCYVVG AGS +KV LL+ K GFD+AFNYK++ +L  AL
Sbjct: 161 VYVSAASGAVGQLVGQLAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLTAAL 220

Query: 541 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 600
            R FP GI+ YF++VG +ML+A + NM   G++A C +IS+Y    +    N+ +I+YKR
Sbjct: 221 KRCFPNGIDIYFENVGGKMLDAVLVNMNMHGRIAVCGMISQYNLENQEGVHNLSNIIYKR 280

Query: 601 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 660
           I IQGF+V D++D +  F+   + ++R GKI  VED++ G++  P + +GLF G N+GK+
Sbjct: 281 IRIQGFVVSDFYDKYSKFLEFVLPHIREGKITYVEDVADGLEKAPEALVGLFHGKNVGKQ 339

Query: 661 I 662
           +
Sbjct: 341 V 339

[Close]
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match: Q6WAU0 ((+)-pulegone reductase OS=Mentha piperita OX=34256 PE=1 SV=1)

HSP 1 Score: 265.4 bits (677), Expect = 2.2e-69
Identity = 133/304 (43.75%), Postives = 203/304 (66.78%), Query Frame = 0 

Query: 359 GHIVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQK 418
           G I++KNL +S++PY I  M         S     I PG  I +YGV++V+ S+   ++K
Sbjct: 39  GAILVKNLYLSVNPYLILRMGKLDIPQFDS-----ILPGSTIVSYGVSKVLDSTHPSYEK 98

Query: 419 VDLVKGF-IHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKE 478
            +L+ G    W EY++++     L K+     PL+YY+GILGM G TAY G F +   K+
Sbjct: 99  GELIWGSQAGWEEYTLIQ-NPYNLFKIQDKDVPLSYYVGILGMPGMTAYAGFFEICSPKK 158

Query: 479 GDKVFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLI 538
           G+ VFV+AA+GSVG LVGQFAK+ GCYVVG AGS +KV LL+ K GFD+AFNYK++ +  
Sbjct: 159 GETVFVTAAAGSVGQLVGQFAKMFGCYVVGSAGSKEKVDLLKNKFGFDDAFNYKEESDYD 218

Query: 539 EALCRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIV 598
            AL R+FP+GI+ YFD+VG +MLEA I NM+  G++A C ++S+Y+        N+L ++
Sbjct: 219 TALKRHFPEGIDIYFDNVGGKMLEAVINNMRVHGRIAVCGMVSQYSLKQPEGVHNLLKLI 278

Query: 599 YKRITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNI 658
            K+I +QGF+V+DY+ ++P F+   +  ++ GK+  VEDIS G++S P++ +G++ G N+
Sbjct: 279 PKQIRMQGFVVVDYYHLYPKFLEMVLPRIKEGKVTYVEDISEGLESAPSALLGVYVGRNV 336

Query: 659 GKKI 662
           G ++
Sbjct: 339 GNQV 336

[Close]
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match: O34812 (Putative NADP-dependent oxidoreductase YfmJ OS=Bacillus subtilis (strain 168) OX=224308 GN=yfmJ PE=2 SV=1)

HSP 1 Score: 213.8 bits (543), Expect = 7.4e-54
Identity = 124/314 (39.49%), Postives = 186/314 (59.24%), Query Frame = 0 

Query: 357 KPGHIVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEF 416
           K G +++K L VS+DPY    M+         S        +A+S   +AEVV S  +  
Sbjct: 34  KQGEVLVKTLYVSVDPYMRGRMQ------DTKSYVEPFALDKALSGGVIAEVV-SDGNHL 93

Query: 417 QKVDLVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVK 476
           +K D+V G + W E+S V   E  L K+DT   P + YLGILGM+G TAY GL  +G+ K
Sbjct: 94  KKGDIVIGNLSWQEFSAV--SESALRKIDTSLAPASAYLGILGMTGLTAYFGLLDIGRPK 153

Query: 477 EGDKVFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNL 536
           EG+ V VS A+G+VG+ VGQ AK+ G  VVG AGSD+K+  L+++L FDEA NYK   ++
Sbjct: 154 EGETVVVSGAAGAVGSTVGQIAKIKGARVVGIAGSDEKIDYLKQELQFDEAINYKTADDI 213

Query: 537 IEALCRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKRE--GPNML 596
            +AL    P G++ YFD+VG  + +A +  +  F ++  C  IS Y   ++ +  GP + 
Sbjct: 214 QKALQNACPDGVDVYFDNVGGPISDAVMNLLNEFARIPVCGAISSYNAESEADDMGPRVQ 273

Query: 597 D-IVYKRITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQ 656
             ++  +  +QGF+V DY D F +   +   +L++GK+   E I+ G ++IP +F+GLF+
Sbjct: 274 SKLIKTKSLMQGFIVSDYSDRFSEGAKQLAEWLKAGKLHYEETITEGFENIPDAFLGLFK 333

Query: 657 GNNIGKK-IKSSCP 667
           G N GK+ IK S P
Sbjct: 334 GENKGKQLIKVSDP 338

[Close]
BLAST of CmaCh11G005770 vs. TAIR 10
Match: AT5G20140.1 (SOUL heme-binding family protein )

HSP 1 Score: 435.3 bits (1118), Expect = 1.1e-121
Identity = 215/339 (63.42%), Postives = 262/339 (77.29%), Query Frame = 0 

Query: 33  TRSRTVPSKPHTRNSKWVVRLSL-VDQNPPKSTVDVDQLVDFLYQDLPHLFDEQGIDRTA 92
           TR   VP +  T   + ++ L +  +     STV++++LV FLY+DLPHLFD+QGID+TA
Sbjct: 26  TRFLPVPRRNVTTRLRPILSLEVGKEVASAPSTVNMEELVGFLYEDLPHLFDDQGIDKTA 85

Query: 93  YDDQVRFRDPITKHDTITGYLFNISLLRELFKPEFLLHWVKKTGAYEITTRWTMVMKFVL 152
           YD++V+FRDPITKHDTI+GYLFNI+ L+ +F P+F LHW K+TG YEITTRWTMVMKF+ 
Sbjct: 86  YDERVKFRDPITKHDTISGYLFNIAFLKNIFTPQFQLHWAKQTGPYEITTRWTMVMKFIP 145

Query: 153 LPWKPQLVFTGNSIMGINPETGKFCSHVDLWDSIQNNDYFSVEGLLDVFKQLRFYKTPEL 212
           LPWKP+LVFTG SIM +NPET KFCSH+DLWDSI+NNDYFS+EGL+DVFKQLR YKTP+L
Sbjct: 146 LPWKPELVFTGLSIMEVNPETNKFCSHLDLWDSIKNNDYFSLEGLVDVFKQLRIYKTPDL 205

Query: 213 ESPKYEILKRTANYEVRKYAPFIVVET-----------------------TKEKIAMTTP 272
           E+PKY+ILKRTANYEVR Y PFIVVET                       T EKI MTTP
Sbjct: 206 ETPKYQILKRTANYEVRNYEPFIVVETIGDKLSGSSGFNNVAGYIFGKNSTMEKIPMTTP 265

Query: 273 VFTQTFDSE-SPKVSIQIVLPSEKDLYSLPDPEQDTIGLRKVEGGTAAVLKFSGKPTEEI 332
           VFTQT D++ S  VS+QIV+PS KDL SLP P ++ + L+K+EGG AA +KFSGKPTE++
Sbjct: 266 VFTQTTDTQLSSDVSVQIVIPSGKDLSSLPMPNEEKVNLKKLEGGFAAAVKFSGKPTEDV 325

Query: 333 VQEKAKQLRSSLIKDGLKPGNGCLLARYNDPGRTWNFIM 347
           VQ K  +LRSSL KDGL+   GC+LARYNDPGRTWNFIM
Sbjct: 326 VQAKENELRSSLSKDGLRAKKGCMLARYNDPGRTWNFIM 364

[Close]
BLAST of CmaCh11G005770 vs. TAIR 10
Match: AT5G20140.2 (SOUL heme-binding family protein )

HSP 1 Score: 435.3 bits (1118), Expect = 1.1e-121
Identity = 215/339 (63.42%), Postives = 262/339 (77.29%), Query Frame = 0 

Query: 33  TRSRTVPSKPHTRNSKWVVRLSL-VDQNPPKSTVDVDQLVDFLYQDLPHLFDEQGIDRTA 92
           TR   VP +  T   + ++ L +  +     STV++++LV FLY+DLPHLFD+QGID+TA
Sbjct: 26  TRFLPVPRRNVTTRLRPILSLEVGKEVASAPSTVNMEELVGFLYEDLPHLFDDQGIDKTA 85

Query: 93  YDDQVRFRDPITKHDTITGYLFNISLLRELFKPEFLLHWVKKTGAYEITTRWTMVMKFVL 152
           YD++V+FRDPITKHDTI+GYLFNI+ L+ +F P+F LHW K+TG YEITTRWTMVMKF+ 
Sbjct: 86  YDERVKFRDPITKHDTISGYLFNIAFLKNIFTPQFQLHWAKQTGPYEITTRWTMVMKFIP 145

Query: 153 LPWKPQLVFTGNSIMGINPETGKFCSHVDLWDSIQNNDYFSVEGLLDVFKQLRFYKTPEL 212
           LPWKP+LVFTG SIM +NPET KFCSH+DLWDSI+NNDYFS+EGL+DVFKQLR YKTP+L
Sbjct: 146 LPWKPELVFTGLSIMEVNPETNKFCSHLDLWDSIKNNDYFSLEGLVDVFKQLRIYKTPDL 205

Query: 213 ESPKYEILKRTANYEVRKYAPFIVVET-----------------------TKEKIAMTTP 272
           E+PKY+ILKRTANYEVR Y PFIVVET                       T EKI MTTP
Sbjct: 206 ETPKYQILKRTANYEVRNYEPFIVVETIGDKLSGSSGFNNVAGYIFGKNSTMEKIPMTTP 265

Query: 273 VFTQTFDSE-SPKVSIQIVLPSEKDLYSLPDPEQDTIGLRKVEGGTAAVLKFSGKPTEEI 332
           VFTQT D++ S  VS+QIV+PS KDL SLP P ++ + L+K+EGG AA +KFSGKPTE++
Sbjct: 266 VFTQTTDTQLSSDVSVQIVIPSGKDLSSLPMPNEEKVNLKKLEGGFAAAVKFSGKPTEDV 325

Query: 333 VQEKAKQLRSSLIKDGLKPGNGCLLARYNDPGRTWNFIM 347
           VQ K  +LRSSL KDGL+   GC+LARYNDPGRTWNFIM
Sbjct: 326 VQAKENELRSSLSKDGLRAKKGCMLARYNDPGRTWNFIM 364

[Close]
BLAST of CmaCh11G005770 vs. TAIR 10
Match: AT5G16960.1 (Zinc-binding dehydrogenase family protein )

HSP 1 Score: 289.3 bits (739), Expect = 9.9e-78
Identity = 146/301 (48.50%), Postives = 204/301 (67.77%), Query Frame = 0 

Query: 362 VLKNLCVSIDPYQINHMKLHSSSHAVSSAT-RFITPGQAISAYGVAEVVASSDSEFQKVD 421
           ++KNL +S DPY  N M+       +S AT +  TPG+ IS +GV++V+ S  S++++ D
Sbjct: 43  LVKNLYLSCDPYMRNRMR---KPDPLSPATAQSFTPGKPISGFGVSKVIDSGHSDYEEGD 102

Query: 422 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 481
           L+ G + W EYSV+        K+    FPL+YY G+LGM G TAY G + +   K+GD 
Sbjct: 103 LIWGAVGWEEYSVITPIPNLHFKIHHTNFPLSYYTGLLGMPGMTAYVGFYEICTPKKGDT 162

Query: 482 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 541
           VFVSAASG+VG LVGQFAKL GCYVVG AGS +KV LL+ K GFD+AFNYK++ NLI AL
Sbjct: 163 VFVSAASGAVGQLVGQFAKLMGCYVVGSAGSKEKVDLLKNKFGFDDAFNYKEEHNLIGAL 222

Query: 542 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 601
            R FP+GI+ YF++VG +ML+A I NM+P G++AAC +IS+Y          +  I YKR
Sbjct: 223 KRCFPEGIDIYFENVGGKMLDAVILNMRPHGRIAACGMISQYNLKNPEGIYGLSLITYKR 282

Query: 602 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 661
           I I+GF   DY+  + +F+   V Y++ GKIK VED++ G++S P + +GLF G N+GK+
Sbjct: 283 IRIEGFNCFDYFHKYSEFLEFVVPYIKEGKIKYVEDVADGLESAPAALVGLFHGKNVGKQ 340

[Close]
BLAST of CmaCh11G005770 vs. TAIR 10
Match: AT5G16990.1 (Zinc-binding dehydrogenase family protein )

HSP 1 Score: 283.1 bits (723), Expect = 7.1e-76
Identity = 138/301 (45.85%), Postives = 200/301 (66.45%), Query Frame = 0 

Query: 361 IVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVD 420
           +++KNL +S DPY  + M     S A++ A     PG+ I  YGV+ V+ S   +++K D
Sbjct: 40  VLVKNLYLSCDPYMRSRMGKPDPSSALAQA---YAPGKPIYGYGVSRVIESGHPDYKKGD 99

Query: 421 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 480
           L+ G + W EYSV+        K+     PL+YY G+LGM G TAY G + V   K+G+ 
Sbjct: 100 LLWGIVGWEEYSVITPMAHMHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKKGET 159

Query: 481 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 540
           V+VSAASG+VG LVGQFAK+ GCYVVG AGS +KV LL+ K GFD+AFNYK++ +L  AL
Sbjct: 160 VYVSAASGAVGQLVGQFAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLSAAL 219

Query: 541 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 600
            R FPKGI+ YF++VG +ML+A + NM P G++A C +IS+Y    +    N+ +I+YKR
Sbjct: 220 KRCFPKGIDMYFENVGGKMLDAVLLNMNPHGRIAVCGMISQYNLENQEGVHNLSNIIYKR 279

Query: 601 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 660
           I IQGF+V D++D +P F+   +  ++ GKI  VED++ G++  P + +GLF G N+GK+
Sbjct: 280 IRIQGFVVADFYDKYPKFLELVLPRIKEGKITYVEDVADGLEKAPEALVGLFHGKNVGKQ 337

Query: 661 I 662
           +
Sbjct: 340 V 337

[Close]
BLAST of CmaCh11G005770 vs. TAIR 10
Match: AT5G16970.1 (alkenal reductase )

HSP 1 Score: 278.1 bits (710), Expect = 2.3e-74
Identity = 133/301 (44.19%), Postives = 198/301 (65.78%), Query Frame = 0 

Query: 361 IVLKNLCVSIDPYQINHMKLHSSSHAVSSATRFITPGQAISAYGVAEVVASSDSEFQKVD 420
           +++KNL +S DPY    +++     + ++  +  TPGQ I  YGV+ ++ S   +++K D
Sbjct: 41  VLVKNLYLSCDPYM--RIRMGKPDPSTAALAQAYTPGQPIQGYGVSRIIESGHPDYKKGD 100

Query: 421 LVKGFIHWAEYSVVKAEECTLTKLDTLGFPLTYYLGILGMSGHTAYTGLFGVGKVKEGDK 480
           L+ G + W EYSV+        K+     PL+YY G+LGM G TAY G + V   KEG+ 
Sbjct: 101 LLWGIVAWEEYSVITPMTHAHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKEGET 160

Query: 481 VFVSAASGSVGNLVGQFAKLHGCYVVGCAGSDQKVALLEEKLGFDEAFNYKQQKNLIEAL 540
           V+VSAASG+VG LVGQ AK+ GCYVVG AGS +KV LL+ K GFD+AFNYK++ +L  AL
Sbjct: 161 VYVSAASGAVGQLVGQLAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLTAAL 220

Query: 541 CRYFPKGINTYFDDVGDEMLEAAIANMKPFGKVAACSVISEYTKSAKREGPNMLDIVYKR 600
            R FP GI+ YF++VG +ML+A + NM   G++A C +IS+Y    +    N+ +I+YKR
Sbjct: 221 KRCFPNGIDIYFENVGGKMLDAVLVNMNMHGRIAVCGMISQYNLENQEGVHNLSNIIYKR 280

Query: 601 ITIQGFLVIDYWDVFPDFISRTVGYLRSGKIKAVEDISVGVDSIPTSFIGLFQGNNIGKK 660
           I IQGF+V D++D +  F+   + ++R GKI  VED++ G++  P + +GLF G N+GK+
Sbjct: 281 IRIQGFVVSDFYDKYSKFLEFVLPHIREGKITYVEDVADGLEKAPEALVGLFHGKNVGKQ 339

Query: 661 I 662
           +
Sbjct: 341 V 339

The following BLAST results are available for this feature:
BLAST of CmaCh11G005770 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9SLN85.6e-7848.502-alkenal reductase (NADP(+)-dependent) OS=Nicotiana tabacum OX=4097 GN=DBR PE=1... [more]
Q391731.0e-7445.85NADP-dependent alkenal double bond reductase P2 OS=Arabidopsis thaliana OX=3702 ... [more]
Q391723.2e-7344.19NADPH-dependent oxidoreductase 2-alkenal reductase OS=Arabidopsis thaliana OX=37... [more]
Q6WAU02.2e-6943.75(+)-pulegone reductase OS=Mentha piperita OX=34256 PE=1 SV=1[more]
O348127.4e-5439.49Putative NADP-dependent oxidoreductase YfmJ OS=Bacillus subtilis (strain 168) OX... [more]
BLAST of CmaCh11G005770 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G20140.11.1e-12163.42SOUL heme-binding family protein [more]
AT5G20140.21.1e-12163.42SOUL heme-binding family protein [more]
AT5G16960.19.9e-7848.50Zinc-binding dehydrogenase family protein [more]
AT5G16990.17.1e-7645.85Zinc-binding dehydrogenase family protein [more]
AT5G16970.12.3e-7444.19alkenal reductase [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR018790Protein of unknown function DUF2358PFAMPF10184DUF2358coord: 69..178
e-value: 3.6E-25
score: 88.5
IPR041694Oxidoreductase, N-terminal domainPFAMPF16884ADH_N_2coord: 352..440
e-value: 3.4E-10
score: 39.8
IPR011256Regulatory factor, effector binding domain superfamilyGENE3D3.20.80.10Regulatory factor, effector binding domaincoord: 210..344
e-value: 2.8E-26
score: 94.2
IPR011256Regulatory factor, effector binding domain superfamilySUPERFAMILY55136Probable bacterial effector-binding domaincoord: 202..342
IPR006917SOUL haem-binding proteinPFAMPF04832SOULcoord: 240..340
e-value: 2.3E-19
score: 70.1
IPR006917SOUL haem-binding proteinPANTHERPTHR11220HEME-BINDING PROTEIN-RELATEDcoord: 51..346
IPR013149Alcohol dehydrogenase, C-terminalPFAMPF00107ADH_zinc_Ncoord: 490..620
e-value: 1.5E-18
score: 67.1
NoneNo IPR availableGENE3D3.40.50.720coord: 457..633
e-value: 3.6E-112
score: 376.4
NoneNo IPR availableGENE3D3.90.180.10coord: 349..661
e-value: 3.6E-112
score: 376.4
NoneNo IPR availablePANTHERPTHR11220:SF50SOUL HEME-BINDING FAMILY PROTEINcoord: 51..346
IPR011032GroES-like superfamilySUPERFAMILY50129GroES-likecoord: 352..475
IPR036291NAD(P)-binding domain superfamilySUPERFAMILY51735NAD(P)-binding Rossmann-fold domainscoord: 454..630

Relationships

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

Feature NameUnique NameType
CmaCh11G005770.1CmaCh11G005770.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0110165 cellular anatomical entity