CmaCh05G007210 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh05G007210
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionFPL domain-containing protein
LocationCma_Chr05: 3933843 .. 3948917 (+)
RNA-Seq ExpressionCmaCh05G007210
SyntenyCmaCh05G007210
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTGGTTTTCCTTCTGGAGATCCAGGGATCCATTCTCGTTGGAAGAGCTCAGGTTCGGAACTGAATTTCAGATTACTTTTTTGGTTGTTACTTTTTATGTTACACTGGGGCACCATCATCAAATTGAACCAATGGAGCTTGATTATATTTTGGTTCTATGTTCTAAATTGTTATTATGTTTTATTCATGGAACAAATTTAGCTGCAAAAGGTATGGCTTGGACTTTGCAGCTGCTTAGAGCTGTTGTTTTACTGTATTTAACTGATCAGCTGTTAAACATTGAAATAGTCGATGAGATTAACGAGGATTTTGTTATTGAGGCGCTGCGATCACTATCAGAGTTGATAACTTACGGTGACCAGCATGATGCTTCCTTCTTCGAGTTTTTCATGGAGAAGCAAATCATGGGAGAATTTGTACGTATTTTGCAAATTAGTAGGACTGCTACTGTTTCACTTCAGTTGTTGCAGACAATGAGCATTATAATTCAGAATCTTAAAAGTGAACATGCTATATATTACCTATTCAGTACTGAACATATTAACAAGCTAATAACATATGCATTTGATTTCCGGAATGATGAGCTGTTGTCTTACTATATGTCTTTCTTAAGAGCAATTAGTGGGAAGCTGAACATGAACACAATCTCCCTTCTTGTGAAAACACAAAATGGTAAAGTAGTATCTTTTCCAATGTACGTAGAGGCTATACAATTTTCTTTTCATGAAGAAAGTATGATCCACACAGCAGTTCGGGCCTTGACACTTAATGTATACCATGTTGGAGATGATTGTGTCAATAGATTCATCACCAGTCCTCCTCATGCAGAATATTTCTCAAATTTAGTGACCTTTTTTAGGAAGCAGTGCATTAACTTGAATGAGTTGGTCTTTGAGACAAAGAGAAGCACTGAGCTCTCAACCTCTACAATTCTTGCTGCTATAGACGAAATTGAAGACAACCTATACTATATTAGTGATATTATTTCTGCAGGAATTCCTGACGTGGGAAGGTTAATAACTGATAACATTTTGCGGCACTTGATATTTCCTTTACTTCTTCCATCTTTGATGATAGAGGGAATTCAAATTGGAGCTGTCACTTCTCTATATTTACTTTGTTGCATTTTGCGCATAGTTAAAATAAAAGATCTGGCAAACACCATCTCTGCTGCCTTTTTTTGTCCATTGGATTCTTTCTCCCCACATTGTGAAGGCAGACTGATTGGAAATATGAATTGGTTATGTTGTGCAAATAGAAGCCAGTCATCAGGAAGTGATAGCATTGTAAGGCAGCCCTTGGATACCGAGTCTTTAAGAAAAGAAGTATTATATTCTTCTGCTCCTAAAACTGAGTTAGAAGGTGCGTCTACGAAGAATGGTTGTCGAGGCTCCCGCTTGGATTTGAGGGAAGCTTTGCTTTCTCATATAACAACTGGGGACGATGTAGAAGTCTTGGGTGCTCTAAGTGTTCTGGCTACACTATTGCAGACAGAAGGTCAGATCAATGCAGTTATTCAACTTCCTTCACTCCGTTATTCTTTTCTTATCATGCATCCCATCTCTGTAGAGCTGGATGAATCAATGCTGGATGCGCTTGGAATCCTTCCTCAAAGAAAACAACATAAGAAATTGTTATTGGAAGCCTTAGTTAGTGAGGATTCTGGCGAACAGCAACTCTTTTCTTCAGAAAACGCCTCATCGAAAGGTGGCATCGATGTTGAAATTGATGGTTACCTAAAGAAGCTTAAGGATTATGGCATTTCATATTTTCTTAAAGTAGGTGCAAGCCCTCGTGCCCTTAGGTTTGAGGTGCTAGATGCATTGGTCAGCCTCTTTTATCGTTCAAATATATCTGCAGAAATTTTGTGGGATGGCGGGTGGCTTCTGCGGCAGTTGTTACCTTATAGTGATGCAGAGTTTAACAGTCATCATCTAAAATTGCTGAAAGATTCATACAAGTACTGGGCTACTGAGCTCTTACAGGAAGCTAGAGGAATTTGGTCTGATTTCCTCGTAATAATTCTTTCTGACAAGTGGAAAAAGTGCAAAAGAGCAATTGAAGCCCCATCACCAATGAAAGAACCAAAGTGCATCCTCTTGTATTCTGCAAAGGCTTCTGTCGTAGATGCTGTTCCACCCGAATCATCGCTCGCTGCTGGTCAAAGAATGTCCGAGTTGGTAAAGGTATTTGTTCTTCTACACCAACTTCAGTCATTTTCCCTTGGCAAGGCTTTGCCAGAACAACCCTTTATGGACCCTCCCTCAGAAGTTTCTGAATGCTCGCGTGCAAAGGTTGCTGGGCTCGATGCATCAGGACCTAAACCGGGTGCCGAGTTGAGACTTGATGGATCTGTACCTTGTAGAATTTCATTTGAGAGAGGCAAAGAGCGCCATTTTTACTTTATTGGAACTTCCATGGGAACTTCCGGATGGATAATTCTTGCTGACGAACTGCCATCAAAACTGAATCGTGGAATTATTCGAGTTGCTGCACCTCTTGCTGGATCAAATCCTAGAATTGATGAAAAGCATCCAAGATGGCTGCATTTGAGGATTCGTCCATCAACTTTACCCTTTTTGGATCATCCTGCTAAATATGGTACCCTCTTAAACTTAAAGACAGAGCCTTTTGTGGATGGGAGATGGATCCTGGCATTCCAGGACGACGATACTTGCAAATCCGCTTTATCTATGGTTTTGGAGGAGATTAATCTGCAAAGCCTGGAGGTCGAGAGACGACTTAAACCGTTGGTCGACCTCGAAAGAGCTGTAGATTTTTCCGAGATGCATTGTTAAGTTCTACTAAGTAAGTCATTGACTTGTGAGTGAATGTATTAGCTCAGAAATGCAAAGGGAAAAGGGAAAAGGAAAGTAGTTTTAGGATGTGAGAGTTTGTATCATTGTTTGTTTGTATAGTAATAGTAAGTATTCATTCATTTGTTGATCTGTAACCATCGGCTTCTGCTCTCTCCCTCATTGTGTAATCAGTAATAACATGAGTGTATAATTGATTGATTGAACTTTTAAGGTTTTCTCTCGATATTTCATCGCAAA

Coding sequence (CDS)

ATGTGGTTTTCCTTCTGGAGATCCAGGGATCCATTCTCGTTGGAAGAGCTCAGGTTCGGAACTGAATTTCAGATTACTTTTTTGGTTGTTACTTTTTATGTTACACTGGGGCACCATCATCAAATTGAACCAATGGAGCTTGATTATATTTTGGTTCTATGTTCTAAATTGTTATTATGTTTTATTCATGGAACAAATTTAGCTGCAAAAGGTATGGCTTGGACTTTGCAGCTGCTTAGAGCTGTTGTTTTACTGTATTTAACTGATCAGCTGTTAAACATTGAAATAGTCGATGAGATTAACGAGGATTTTGTTATTGAGGCGCTGCGATCACTATCAGAGTTGATAACTTACGGTGACCAGCATGATGCTTCCTTCTTCGAGTTTTTCATGGAGAAGCAAATCATGGGAGAATTTGTACGTATTTTGCAAATTAGTAGGACTGCTACTGTTTCACTTCAGTTGTTGCAGACAATGAGCATTATAATTCAGAATCTTAAAAGTGAACATGCTATATATTACCTATTCAGTACTGAACATATTAACAAGCTAATAACATATGCATTTGATTTCCGGAATGATGAGCTGTTGTCTTACTATATGTCTTTCTTAAGAGCAATTAGTGGGAAGCTGAACATGAACACAATCTCCCTTCTTGTGAAAACACAAAATGGTAAAGTAGTATCTTTTCCAATGTACGTAGAGGCTATACAATTTTCTTTTCATGAAGAAAGTATGATCCACACAGCAGTTCGGGCCTTGACACTTAATGTATACCATGTTGGAGATGATTGTGTCAATAGATTCATCACCAGTCCTCCTCATGCAGAATATTTCTCAAATTTAGTGACCTTTTTTAGGAAGCAGTGCATTAACTTGAATGAGTTGGTCTTTGAGACAAAGAGAAGCACTGAGCTCTCAACCTCTACAATTCTTGCTGCTATAGACGAAATTGAAGACAACCTATACTATATTAGTGATATTATTTCTGCAGGAATTCCTGACGTGGGAAGGTTAATAACTGATAACATTTTGCGGCACTTGATATTTCCTTTACTTCTTCCATCTTTGATGATAGAGGGAATTCAAATTGGAGCTGTCACTTCTCTATATTTACTTTGTTGCATTTTGCGCATAGTTAAAATAAAAGATCTGGCAAACACCATCTCTGCTGCCTTTTTTTGTCCATTGGATTCTTTCTCCCCACATTGTGAAGGCAGACTGATTGGAAATATGAATTGGTTATGTTGTGCAAATAGAAGCCAGTCATCAGGAAGTGATAGCATTGTAAGGCAGCCCTTGGATACCGAGTCTTTAAGAAAAGAAGTATTATATTCTTCTGCTCCTAAAACTGAGTTAGAAGGTGCGTCTACGAAGAATGGTTGTCGAGGCTCCCGCTTGGATTTGAGGGAAGCTTTGCTTTCTCATATAACAACTGGGGACGATGTAGAAGTCTTGGGTGCTCTAAGTGTTCTGGCTACACTATTGCAGACAGAAGGTCAGATCAATGCAGTTATTCAACTTCCTTCACTCCGTTATTCTTTTCTTATCATGCATCCCATCTCTGTAGAGCTGGATGAATCAATGCTGGATGCGCTTGGAATCCTTCCTCAAAGAAAACAACATAAGAAATTGTTATTGGAAGCCTTAGTTAGTGAGGATTCTGGCGAACAGCAACTCTTTTCTTCAGAAAACGCCTCATCGAAAGGTGGCATCGATGTTGAAATTGATGGTTACCTAAAGAAGCTTAAGGATTATGGCATTTCATATTTTCTTAAAGTAGGTGCAAGCCCTCGTGCCCTTAGGTTTGAGGTGCTAGATGCATTGGTCAGCCTCTTTTATCGTTCAAATATATCTGCAGAAATTTTGTGGGATGGCGGGTGGCTTCTGCGGCAGTTGTTACCTTATAGTGATGCAGAGTTTAACAGTCATCATCTAAAATTGCTGAAAGATTCATACAAGTACTGGGCTACTGAGCTCTTACAGGAAGCTAGAGGAATTTGGTCTGATTTCCTCGTAATAATTCTTTCTGACAAGTGGAAAAAGTGCAAAAGAGCAATTGAAGCCCCATCACCAATGAAAGAACCAAAGTGCATCCTCTTGTATTCTGCAAAGGCTTCTGTCGTAGATGCTGTTCCACCCGAATCATCGCTCGCTGCTGGTCAAAGAATGTCCGAGTTGGTAAAGGTATTTGTTCTTCTACACCAACTTCAGTCATTTTCCCTTGGCAAGGCTTTGCCAGAACAACCCTTTATGGACCCTCCCTCAGAAGTTTCTGAATGCTCGCGTGCAAAGGTTGCTGGGCTCGATGCATCAGGACCTAAACCGGGTGCCGAGTTGAGACTTGATGGATCTGTACCTTGTAGAATTTCATTTGAGAGAGGCAAAGAGCGCCATTTTTACTTTATTGGAACTTCCATGGGAACTTCCGGATGGATAATTCTTGCTGACGAACTGCCATCAAAACTGAATCGTGGAATTATTCGAGTTGCTGCACCTCTTGCTGGATCAAATCCTAGAATTGATGAAAAGCATCCAAGATGGCTGCATTTGAGGATTCGTCCATCAACTTTACCCTTTTTGGATCATCCTGCTAAATATGGTACCCTCTTAAACTTAAAGACAGAGCCTTTTGTGGATGGGAGATGGATCCTGGCATTCCAGGACGACGATACTTGCAAATCCGCTTTATCTATGGTTTTGGAGGAGATTAATCTGCAAAGCCTGGAGGTCGAGAGACGACTTAAACCGTTGGTCGACCTCGAAAGAGCTGTAGATTTTTCCGAGATGCATTGTTAA

Protein sequence

MWFSFWRSRDPFSLEELRFGTEFQITFLVVTFYVTLGHHHQIEPMELDYILVLCSKLLLCFIHGTNLAAKGMAWTLQLLRAVVLLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRILQISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSFLRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGDDCVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRSTELSTSTILAAIDEIEDNLYYISDIISAGIPDVGRLITDNILRHLIFPLLLPSLMIEGIQIGAVTSLYLLCCILRIVKIKDLANTISAAFFCPLDSFSPHCEGRLIGNMNWLCCANRSQSSGSDSIVRQPLDTESLRKEVLYSSAPKTELEGASTKNGCRGSRLDLREALLSHITTGDDVEVLGALSVLATLLQTEGQINAVIQLPSLRYSFLIMHPISVELDESMLDALGILPQRKQHKKLLLEALVSEDSGEQQLFSSENASSKGGIDVEIDGYLKKLKDYGISYFLKVGASPRALRFEVLDALVSLFYRSNISAEILWDGGWLLRQLLPYSDAEFNSHHLKLLKDSYKYWATELLQEARGIWSDFLVIILSDKWKKCKRAIEAPSPMKEPKCILLYSAKASVVDAVPPESSLAAGQRMSELVKVFVLLHQLQSFSLGKALPEQPFMDPPSEVSECSRAKVAGLDASGPKPGAELRLDGSVPCRISFERGKERHFYFIGTSMGTSGWIILADELPSKLNRGIIRVAAPLAGSNPRIDEKHPRWLHLRIRPSTLPFLDHPAKYGTLLNLKTEPFVDGRWILAFQDDDTCKSALSMVLEEINLQSLEVERRLKPLVDLERAVDFSEMHC
Homology
[Close]
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match: Q8W4P9 (Protein TRANSPARENT TESTA 9 OS=Arabidopsis thaliana OX=3702 GN=TT9 PE=2 SV=1)

HSP 1 Score: 911.8 bits (2355), Expect = 6.5e-264
Identity = 498/848 (58.73%), Postives = 612/848 (72.17%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YLTDQL  I+IV+E N+D VIEALRS++E++TYGDQHD  FFEFFMEKQ+MGEFVRIL
Sbjct: 17  LRYLTDQLRKIQIVNEANKDLVIEALRSIAEILTYGDQHDPLFFEFFMEKQVMGEFVRIL 76

Query: 144 QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSF 203
           ++S+T TVS+QLLQTMSI+IQNLKSE AIYYLFS E++N LITY FDF+++ELLSYY+SF
Sbjct: 77  RVSKTVTVSVQLLQTMSIMIQNLKSEQAIYYLFSNEYVNYLITYTFDFQHEELLSYYISF 136

Query: 204 LRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGD 263
           LRA+SGKLN +TISLL+KT+N  VVSFP+YVE IQF+FHEE+MI TAVRALTLNVYHVGD
Sbjct: 137 LRAVSGKLNKHTISLLLKTENDVVVSFPLYVEGIQFAFHEENMIRTAVRALTLNVYHVGD 196

Query: 264 DCVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRS-TELSTSTILAAIDEIEDNL 323
           + VN ++ SPPH EYFS L++FF+KQC++L+ +V  T +S +  S   + +A+D IED L
Sbjct: 197 ESVNDYVVSPPHTEYFSKLISFFQKQCMDLSAMVLNTLKSPSPDSGGKLFSAVDGIEDTL 256

Query: 324 YYISDIISAGIPDVGRLITDNILRHLIFPLLLPSLMIEG---IQIGAVTSLYLLCCILRI 383
           YY SD+ISAGIPD+GRLITD+IL+HL  PLLLPSL  E    I +  VTSLYLL CILRI
Sbjct: 257 YYFSDVISAGIPDIGRLITDHILQHLTLPLLLPSLCSEAVNDISVDPVTSLYLLSCILRI 316

Query: 384 VKIKDLANTISAAFFCPLDSFSPHCEGRLIGNMNWLCCANRSQSSG-SDSIVRQPLDTES 443
           VKIKDLAN  +A  FCP+ +F       L+   + L     +  +G  D  V +  + + 
Sbjct: 317 VKIKDLANMTAATLFCPVKAF---ISSSLVKPNSSLAPEGLTYVNGHPDKGVTEEANQQC 376

Query: 444 LRKEVLYSSAPKTELEGAST-KNGCRGSRLDLREALLSHITTGDDVEVLGALSVLATLLQ 503
                  S    + L    T K+    S +  RE LL +I+ GDDV+  G+L VLATLLQ
Sbjct: 377 SSTAAGMSDDGNSHLCSEDTPKSIFNNSHMTFRETLLQYISEGDDVQAQGSLFVLATLLQ 436

Query: 504 TEGQINAVIQLPSLRYSFLIMHPISVELDESMLDALGILPQRKQHKKLLLEALVSEDSGE 563
           T+                        EL+ESMLDA GILPQRKQHKKLLL++LV ED+GE
Sbjct: 437 TK------------------------ELEESMLDAFGILPQRKQHKKLLLQSLVGEDTGE 496

Query: 564 QQLFSSENASSKGGIDVEIDGYLKKLKD-YGISYFLKVGA-SPRALRFEVLDALVSLFYR 623
           +QLFS  N S + G+  E+D YL++L++ +G+   L   A  PR  R +V+D LV+L  R
Sbjct: 497 EQLFSPRNGSMRDGLSSELDWYLRRLEEQFGVCCSLPGAARCPRVHRHQVVDTLVTLLCR 556

Query: 624 SNISAEILWDGGWLLRQLLPYSDAEFNSHHLKLLKDSYKYWATELLQEARGIWSDFLVII 683
            NISAE LWDGGWLLRQLLPYS+AEFN  HLK+L  SY+     L +E +GIW D L+ +
Sbjct: 557 ENISAETLWDGGWLLRQLLPYSEAEFNRKHLKMLNVSYEKCKNSLTREIKGIWPDLLIRV 616

Query: 684 LSDKWKKCKRAIEAPSPMKEPKCILLYSAKASVVDAVPPESSLAAGQRMSELVKVFVLLH 743
           L D+W+KCKR IEAPSP KEPK +LL   ++S  D    ESS  AG+RM E+VKVFVLLH
Sbjct: 617 LLDEWRKCKRVIEAPSPQKEPKSVLLQLDRSSSNDNSVSESSFTAGERMCEVVKVFVLLH 676

Query: 744 QLQSFSLGKALPEQPFMDPPSEVSECSRAKVAGLDASGPKPGAELRLDGSVPCRISFERG 803
           QLQ FSLG++LPEQP + PP++ SE SRA  AGLD S PKPG EL+L  +VPCRI+FERG
Sbjct: 677 QLQIFSLGRSLPEQPPIYPPADRSETSRATRAGLDVSVPKPGTELKLVDAVPCRIAFERG 736

Query: 804 KERHFYFIGTSMGTSGWIILADELPSKLNRGIIRVAAPLAGSNPRIDEKHPRWLHLRIRP 863
           KER F F+  S G SGWI+LAD      + GI+RV APLAG  PRIDEKHPRWLHLRIRP
Sbjct: 737 KERDFSFLALSSGESGWIVLADP-----DNGIVRVTAPLAGCKPRIDEKHPRWLHLRIRP 796

Query: 864 STLPFLDHPAKYGTLLNLKTEPFVDGRWILAFQDDDTCKSALSMVLEEINLQSLEVERRL 923
           STLP LD P K G    LK++  VDGRWILAF+DD++C SA SMV  EI+LQ  EVERRL
Sbjct: 797 STLPLLD-PTKRGVYEKLKSKGLVDGRWILAFRDDESCHSAYSMVAGEIDLQCSEVERRL 831

[Close]
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match: Q54GS1 (Protein CLEC16A homolog OS=Dictyostelium discoideum OX=44689 GN=DDB_G0289943 PE=3 SV=1)

HSP 1 Score: 208.8 bits (530), Expect = 2.7e-52
Identity = 115/323 (35.60%), Postives = 203/323 (62.85%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YL + L   +I+   N++ ++E+LR ++E++ +GDQHD  FF+FF+EK IMG F++ L
Sbjct: 19  LRYLHNTLKKNQIITAQNKNLIVESLRQIAEVMIWGDQHDNLFFDFFLEKNIMGFFIQFL 78

Query: 144 QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSF 203
               +  V++QLLQT+SI+++NL++E++IY+L S  +IN++I + FDF ++E+L Y++S 
Sbjct: 79  AQKTSTEVTIQLLQTLSILVENLRNENSIYFLLSNNYINEIIIHKFDFSSEEVLDYFVSL 138

Query: 204 LRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGD 263
           L+A+S KL+ +T++      N     FP+Y EAI+F  H+E+MI  A+R LTLN++ V +
Sbjct: 139 LKALSLKLDKSTVNFFF---NHVEKDFPLYTEAIKFVNHKETMIRIAIRTLTLNIFKVEN 198

Query: 264 DCVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRSTELSTSTILAAIDEIEDNLY 323
             +  +I +     YFSN+V F R+ C++L++++   ++S   S+  +   +DE+ D  Y
Sbjct: 199 KEMREYIINSTAVPYFSNIVWFIRRNCMSLSKVL---EKSNHDSSYQLKDYMDELTDQFY 258

Query: 324 YISDIISAGIPDVGRLITDNILRHLIFPLLLPSLM-------IEGIQIGAVTSLYLLCCI 383
           Y+ DI + G   +  ++ +  +++LI+P+ + SL+       +E  +I    +LYLL  +
Sbjct: 259 YLHDIFNLGFESMNIVLAEQFIQYLIYPVFIGSLIDPLKNPDLED-RITPTLALYLLAHV 318

Query: 384 LRIVKIKDLANTISAAFFCPLDS 400
             I   K L +TIS+A      S
Sbjct: 319 FNIFSFKPLLDTISSALLTATQS 334

[Close]
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match: Q9VEV4 (Protein CLEC16A homolog OS=Drosophila melanogaster OX=7227 GN=ema PE=1 SV=2)

HSP 1 Score: 176.8 bits (447), Expect = 1.1e-42
Identity = 103/277 (37.18%), Postives = 168/277 (60.65%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YL   L     V E N   ++E+LR ++E++ +GDQHD+  F+FF+EK ++  F+ I+
Sbjct: 25  LKYLYSILEKNTTVSESNRGLLVESLRCIAEILIWGDQHDSLVFDFFLEKNMLSYFLHIM 84

Query: 144 --QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYM 203
             +   ++ V +QLLQT++I+ +N+++E ++YYL S  H+N ++ + FDF +++++ YY+
Sbjct: 85  RQKSGGSSFVCVQLLQTLNILFENIRNETSLYYLLSNNHVNSIMVHKFDFSDEDVMGYYI 144

Query: 204 SFLRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHV 263
            FL+ +S KLN +TI       N     FP+Y EAI+F  H ESM+  AVR ++LNVY V
Sbjct: 145 LFLKTLSLKLNTHTIHFF---YNEHTNDFPLYTEAIKFFNHPESMVRIAVRTISLNVYKV 204

Query: 264 GDDCVNRFITSPPHAEYFSNLVTFFRKQCINLNELV-FETKRSTELSTSTILAAIDEIED 323
            +  + RFI     A YFSNLV F  K  + L+  V  +    +    S ++A   E  D
Sbjct: 205 QNPSMLRFIRDKTAAPYFSNLVWFIGKHILELDTCVRTDIDHQSNQKLSNLVA---EHLD 264

Query: 324 NLYYISDIISAGIPDVGRLITDNILRHLIFPLLLPSL 358
           +L+Y+SDI+   I D+  ++T+++L  L  PL + SL
Sbjct: 265 HLHYLSDILLLEIKDLNAVLTEHLLHKLFVPLYIFSL 295

[Close]
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match: Q2KHT3 (Protein CLEC16A OS=Homo sapiens OX=9606 GN=CLEC16A PE=1 SV=2)

HSP 1 Score: 171.8 bits (434), Expect = 3.7e-41
Identity = 111/314 (35.35%), Postives = 176/314 (56.05%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YL   L     V E N + ++E +RS++E++ +GDQ+D+S F+FF+EK +   F+ IL
Sbjct: 26  LKYLYHVLTKNTTVTEQNRNLLVETIRSITEILIWGDQNDSSVFDFFLEKNMFVFFLNIL 85

Query: 144 QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSF 203
           +      V +QLLQT++I+ +N+  E ++YYL S  ++N +I + FDF ++E+++YY+SF
Sbjct: 86  RQKSGRYVCVQLLQTLNILFENISHETSLYYLLSNNYVNSIIVHKFDFSDEEIMAYYISF 145

Query: 204 LRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGD 263
           L+ +S KLN +T+       N     F +Y EAI+F  H ESM+  AVR +TLNVY V  
Sbjct: 146 LKTLSLKLNNHTVHFF---YNEHTNDFALYTEAIKFFNHPESMVRIAVRTITLNVYKVSL 205

Query: 264 D--CVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRSTELSTSTILAAIDEIEDN 323
           D   +  +I       YFSNLV F     I L++ V   +        + L A  E  D+
Sbjct: 206 DNQAMLHYIRDKTAVPYFSNLVWFIGSHVIELDDCVQTDEEHRNRGKLSDLVA--EHLDH 265

Query: 324 LYYISDIISAGIPDVGRLITDNILRHLIFPLLLPSLMI-----EGIQIGAVTSLYLLCCI 383
           L+Y++DI+      +  ++TD++L  L  PL + SL       E  +I    SLYLL  +
Sbjct: 266 LHYLNDILIINCEFLNDVLTDHLLNRLFLPLYVYSLENQDKGGERPKISLPVSLYLLSQV 325

Query: 384 LRIVKIKDLANTIS 391
             I+    L N+++
Sbjct: 326 FLIIHHAPLVNSLA 334

[Close]
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match: Q80U30 (Protein CLEC16A OS=Mus musculus OX=10090 GN=Clec16a PE=1 SV=2)

HSP 1 Score: 171.0 bits (432), Expect = 6.3e-41
Identity = 111/314 (35.35%), Postives = 175/314 (55.73%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YL   L     V E N + ++E +RS++E++ +GDQ+D+S F+FF+EK +   F+ IL
Sbjct: 26  LKYLYHVLTKNTTVTEQNRNLLVETIRSITEILIWGDQNDSSVFDFFLEKNMFVFFLNIL 85

Query: 144 QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSF 203
           +      V +QLLQT++I+ +N+  E ++YYL S  ++N +I + FDF ++E+++YY+SF
Sbjct: 86  RQKSGRYVCVQLLQTLNILFENISHETSLYYLLSNNYVNSIIVHKFDFSDEEIMAYYISF 145

Query: 204 LRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGD 263
           L+ +S KLN +T+       N     F +Y EAI+F  H ESM+  AVR +TLNVY V  
Sbjct: 146 LKTLSLKLNNHTVHFF---YNEHTNDFALYTEAIKFFNHPESMVRIAVRTITLNVYKVSL 205

Query: 264 D--CVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRSTELSTSTILAAIDEIEDN 323
           D   +  +I       YFSNLV F     I L+  V   +        + L A  E  D+
Sbjct: 206 DNQAMLHYIRDKTAVPYFSNLVWFIGSHVIELDNCVQTDEEHRNRGKLSDLVA--EHLDH 265

Query: 324 LYYISDIISAGIPDVGRLITDNILRHLIFPLLLPSLMI-----EGIQIGAVTSLYLLCCI 383
           L+Y++DI+      +  ++TD++L  L  PL + SL       E  +I    SLYLL  +
Sbjct: 266 LHYLNDILIINCEFLNDVLTDHLLNRLFLPLYVYSLENPDKGGERPKISLPVSLYLLSQV 325

Query: 384 LRIVKIKDLANTIS 391
             I+    L N+++
Sbjct: 326 FLIIHHAPLVNSLA 334

[Close]
BLAST of CmaCh05G007210 vs. TAIR 10
Match: AT3G28430.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: mitochondrion; EXPRESSED IN: 17 plant structures; EXPRESSED DURING: 6 growth stages; CONTAINS InterPro DOMAIN/s: Protein of unknown function FPL (InterPro:IPR019155); Has 243 Blast hits to 233 proteins in 101 species: Archae - 0; Bacteria - 0; Metazoa - 110; Fungi - 0; Plants - 53; Viruses - 0; Other Eukaryotes - 80 (source: NCBI BLink). )

HSP 1 Score: 911.8 bits (2355), Expect = 4.6e-265
Identity = 498/848 (58.73%), Postives = 612/848 (72.17%), Query Frame = 0 

Query: 84  LLYLTDQLLNIEIVDEINEDFVIEALRSLSELITYGDQHDASFFEFFMEKQIMGEFVRIL 143
           L YLTDQL  I+IV+E N+D VIEALRS++E++TYGDQHD  FFEFFMEKQ+MGEFVRIL
Sbjct: 17  LRYLTDQLRKIQIVNEANKDLVIEALRSIAEILTYGDQHDPLFFEFFMEKQVMGEFVRIL 76

Query: 144 QISRTATVSLQLLQTMSIIIQNLKSEHAIYYLFSTEHINKLITYAFDFRNDELLSYYMSF 203
           ++S+T TVS+QLLQTMSI+IQNLKSE AIYYLFS E++N LITY FDF+++ELLSYY+SF
Sbjct: 77  RVSKTVTVSVQLLQTMSIMIQNLKSEQAIYYLFSNEYVNYLITYTFDFQHEELLSYYISF 136

Query: 204 LRAISGKLNMNTISLLVKTQNGKVVSFPMYVEAIQFSFHEESMIHTAVRALTLNVYHVGD 263
           LRA+SGKLN +TISLL+KT+N  VVSFP+YVE IQF+FHEE+MI TAVRALTLNVYHVGD
Sbjct: 137 LRAVSGKLNKHTISLLLKTENDVVVSFPLYVEGIQFAFHEENMIRTAVRALTLNVYHVGD 196

Query: 264 DCVNRFITSPPHAEYFSNLVTFFRKQCINLNELVFETKRS-TELSTSTILAAIDEIEDNL 323
           + VN ++ SPPH EYFS L++FF+KQC++L+ +V  T +S +  S   + +A+D IED L
Sbjct: 197 ESVNDYVVSPPHTEYFSKLISFFQKQCMDLSAMVLNTLKSPSPDSGGKLFSAVDGIEDTL 256

Query: 324 YYISDIISAGIPDVGRLITDNILRHLIFPLLLPSLMIEG---IQIGAVTSLYLLCCILRI 383
           YY SD+ISAGIPD+GRLITD+IL+HL  PLLLPSL  E    I +  VTSLYLL CILRI
Sbjct: 257 YYFSDVISAGIPDIGRLITDHILQHLTLPLLLPSLCSEAVNDISVDPVTSLYLLSCILRI 316

Query: 384 VKIKDLANTISAAFFCPLDSFSPHCEGRLIGNMNWLCCANRSQSSG-SDSIVRQPLDTES 443
           VKIKDLAN  +A  FCP+ +F       L+   + L     +  +G  D  V +  + + 
Sbjct: 317 VKIKDLANMTAATLFCPVKAF---ISSSLVKPNSSLAPEGLTYVNGHPDKGVTEEANQQC 376

Query: 444 LRKEVLYSSAPKTELEGAST-KNGCRGSRLDLREALLSHITTGDDVEVLGALSVLATLLQ 503
                  S    + L    T K+    S +  RE LL +I+ GDDV+  G+L VLATLLQ
Sbjct: 377 SSTAAGMSDDGNSHLCSEDTPKSIFNNSHMTFRETLLQYISEGDDVQAQGSLFVLATLLQ 436

Query: 504 TEGQINAVIQLPSLRYSFLIMHPISVELDESMLDALGILPQRKQHKKLLLEALVSEDSGE 563
           T+                        EL+ESMLDA GILPQRKQHKKLLL++LV ED+GE
Sbjct: 437 TK------------------------ELEESMLDAFGILPQRKQHKKLLLQSLVGEDTGE 496

Query: 564 QQLFSSENASSKGGIDVEIDGYLKKLKD-YGISYFLKVGA-SPRALRFEVLDALVSLFYR 623
           +QLFS  N S + G+  E+D YL++L++ +G+   L   A  PR  R +V+D LV+L  R
Sbjct: 497 EQLFSPRNGSMRDGLSSELDWYLRRLEEQFGVCCSLPGAARCPRVHRHQVVDTLVTLLCR 556

Query: 624 SNISAEILWDGGWLLRQLLPYSDAEFNSHHLKLLKDSYKYWATELLQEARGIWSDFLVII 683
            NISAE LWDGGWLLRQLLPYS+AEFN  HLK+L  SY+     L +E +GIW D L+ +
Sbjct: 557 ENISAETLWDGGWLLRQLLPYSEAEFNRKHLKMLNVSYEKCKNSLTREIKGIWPDLLIRV 616

Query: 684 LSDKWKKCKRAIEAPSPMKEPKCILLYSAKASVVDAVPPESSLAAGQRMSELVKVFVLLH 743
           L D+W+KCKR IEAPSP KEPK +LL   ++S  D    ESS  AG+RM E+VKVFVLLH
Sbjct: 617 LLDEWRKCKRVIEAPSPQKEPKSVLLQLDRSSSNDNSVSESSFTAGERMCEVVKVFVLLH 676

Query: 744 QLQSFSLGKALPEQPFMDPPSEVSECSRAKVAGLDASGPKPGAELRLDGSVPCRISFERG 803
           QLQ FSLG++LPEQP + PP++ SE SRA  AGLD S PKPG EL+L  +VPCRI+FERG
Sbjct: 677 QLQIFSLGRSLPEQPPIYPPADRSETSRATRAGLDVSVPKPGTELKLVDAVPCRIAFERG 736

Query: 804 KERHFYFIGTSMGTSGWIILADELPSKLNRGIIRVAAPLAGSNPRIDEKHPRWLHLRIRP 863
           KER F F+  S G SGWI+LAD      + GI+RV APLAG  PRIDEKHPRWLHLRIRP
Sbjct: 737 KERDFSFLALSSGESGWIVLADP-----DNGIVRVTAPLAGCKPRIDEKHPRWLHLRIRP 796

Query: 864 STLPFLDHPAKYGTLLNLKTEPFVDGRWILAFQDDDTCKSALSMVLEEINLQSLEVERRL 923
           STLP LD P K G    LK++  VDGRWILAF+DD++C SA SMV  EI+LQ  EVERRL
Sbjct: 797 STLPLLD-PTKRGVYEKLKSKGLVDGRWILAFRDDESCHSAYSMVAGEIDLQCSEVERRL 831

The following BLAST results are available for this feature:
BLAST of CmaCh05G007210 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8W4P96.5e-26458.73Protein TRANSPARENT TESTA 9 OS=Arabidopsis thaliana OX=3702 GN=TT9 PE=2 SV=1[more]
Q54GS12.7e-5235.60Protein CLEC16A homolog OS=Dictyostelium discoideum OX=44689 GN=DDB_G0289943 PE=... [more]
Q9VEV41.1e-4237.18Protein CLEC16A homolog OS=Drosophila melanogaster OX=7227 GN=ema PE=1 SV=2[more]
Q2KHT33.7e-4135.35Protein CLEC16A OS=Homo sapiens OX=9606 GN=CLEC16A PE=1 SV=2[more]
Q80U306.3e-4135.35Protein CLEC16A OS=Mus musculus OX=10090 GN=Clec16a PE=1 SV=2[more]
BLAST of CmaCh05G007210 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G28430.14.6e-26558.73unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR019155CLEC16A/TT9, N-terminalPFAMPF09758FPLcoord: 109..259
e-value: 2.7E-49
score: 167.0
IPR039272CLEC16A/TT9PANTHERPTHR21481UNCHARACTERIZEDcoord: 84..499
IPR039272CLEC16A/TT9PANTHERPTHR21481UNCHARACTERIZEDcoord: 524..929
NoneNo IPR availablePANTHERPTHR21481:SF4PROTEIN TRANSPARENT TESTA 9coord: 524..929
NoneNo IPR availablePANTHERPTHR21481:SF4PROTEIN TRANSPARENT TESTA 9coord: 84..499

Relationships

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

Feature NameUnique NameType
CmaCh05G007210.1CmaCh05G007210.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009718 anthocyanin-containing compound biosynthetic process
biological_process GO:0001708 cell fate specification
biological_process GO:0016197 endosomal transport
biological_process GO:0008333 endosome to lysosome transport
biological_process GO:1903415 flavonoid transport from endoplasmic reticulum to plant-type vacuole
biological_process GO:0044090 positive regulation of vacuole organization
biological_process GO:1901096 regulation of autophagosome maturation
cellular_component GO:0036020 endolysosome membrane
cellular_component GO:0019898 extrinsic component of membrane
cellular_component GO:0005794 Golgi apparatus
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005770 late endosome