Cucsat.G6517.T11 (mRNA) Cucumber (B10) v3
Overview
Sequences
The following sequences are available for this feature:
Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.TTCTAATTCATAACAAGTTCTAGTTCAACGAAAATGAGCACGACCTTCAAATACATAACAAATATGAAAATTTATTTCATTTCAAACAAAGTGATAAAAGTGGAAGTCTTCCGTTTGTGAATGAGTCGGCCTTCTATACTTTGGTGAATAAAAGAAAAAAAAAAAATTGGTCATGTCTTTTTGGTACCAATTTCCCTTTTTCTCTTTAGAGCTTTTTTGTTTTCCCCATAATTGATCTCACCACTTCCTTTATCATTCGCTCCAACTTTCCTTCTCTGACGAAAACTACGACAATCTGAATCGGCCGTTCATCACAATGGCTCCCATTCTGTCGGAAAACGGCGTCGAAGGAGACGACGAGAGAGAGGAGGAGGAGGAGGACGATGAGGATGACGAAGAAGAAGAAGAAATTGCTGACGACGAGGAGGAGCCCAGGCTCAAGTATCAGAGAATGGGAGGAAGCGTACCATCTTTGCTGGCTAGTGATGCCGCCTCCTGCCTTGCCGTTGCCGAGCGGATGATCGCGCTTGGGACTCACGCCGGCACCGTTCATATTCTCGACTTTCTCGGGAATCAGGTTGGTTTCTCTTGTTTAAATCGGTGCTAAATTTGATTCTTCTAACTCGGTTTTTTTGTTTGGAAATTTCTTGAAATTCGTTGTGCAATTGCCTCCAGTTCCGAGCTGTGTTAAAATTTGAGATTATGATAGTTGTTTTTGAACTGTTTCAGTGTGGCTACATTTTACGCTATCAGATTAGTCGCTGTCTTACAGACCTGAGCTTCGATTATCTATGTATTCTATTCCTATCTATATACGCCGCTTCCTGATTATCTTTAATTAGATTGCACTTTTTTGGTAGTGAACAAAATGTATCAATGGTCAAACTGTGAGATTTGATGAGGCATTAGAGTGGAAGGTTTTTTTTTGGGTAACCGTCGGATTTATTGCTACACATGCTCTAATCTTGTGAAGTATGTGCTCGATATTGTTTTTCTTAGGTTAAGGAGTTCCCTGCTCATACTGCCGTAGTCAACGATCTCAGCTTTGATACAGAAGGTGAATATGTAGGTAGTTGTTCGGATGATGGTTCGGTGGTAATAAATAGTCTTTTCACTGACGAGAGAATGAGGTTTGAGTATCATCGCCCAATGAAGGCAATTGCATTGGACCCAGACTATGCCAAAAAAACTTCAAGAAGATTTGCAGCAGGTGGTCTAGCGGGTCACTTGTATTTTAATTCCAAGAAATGGCTAGGATACAAAGACCAGGTTTTCACATCCTTTTTTTTGCCACCCCAGTTGAGAAAGTATTCCTTGTATCAGACAGACAGACTTGATTCTCACTACAAAGTTTGCGTGCGTTTTTAGGTCTTGCATTCTGGTGAAGGCCCAATACATGCAGTGAAATGGAGAACAAGCCTTATTGCTTGGGCAAATGATGCAGGCGTAAAGGTTTATGATGCTGCAAATGATCAGCGAATTACATTTATTGAAAGACCGAGAGGAAGCCCACGTCCTGAACTTTTGCTCCCTCAGTTAGTTTGGCAGGTTTGTTTCATTTTCATTACGTTGTAGATATACTGTACTGTACAAAGAAAATAACTGAAGTGGATGCTACTGCAACTAGCTGTAGGTCTAAGTTTCTAACAGAAGAAATAGCCACTGATTTGCAGAAGCTGACACTATCTTCTGGTTATTTCATTAATATGCAAGTTGTATTTGTGGGCCTTTTTAAAATTAAATTCTGGTCTTTTGCATTTTTAATGTGAGGGAGATTTGAATATTTCTAAATAACATCTTGTTCTTGAATACTAGTAGAACTTTTCAAATATGAAGTTATTTCTTTTATATATAAAAAAATAAAATTACTTGGTACCAAATTAAGGTAGTGTTATTTAATTATTTGATACATTAACGTTTCAAATATTAAGAACTTTCTTCAGATAACTATATATATTTTGTTAATTAGGTCTAGAGAAATTACTATGTTCTATTACTATTCATTCTCTTGGAATAAAATACGTGTAGTTAATGTATTTTTTTCTTGGGATGAAATGCCTCTGTTAGTAAGAACAAAAAGAAAAAAAATATGAAGTATGCTTTGTTTCTCAAATTTTTTAAATGAATACTTTCTCTTAAGATTCTCCTCTTCGCCACTCTCAAGTATTATTGGGCCTTGTGGCCTCATTTTGTTCAGGGTTTCTTTTAGACAACTTGGCAAGAAAGGTACCAAAGAATTTCTAAAGATAAGGAGCCTTTTTTTCTTTCTTGTATTTGTCTCTAATTTCTTCACTCCTTGGAGAGTTTCCCTTGCACATTTTCTTTTCATTACACCAATGGAAAATTTTGGAAAAGAAAAAGTTTGAGAGCCCTCTTTTGACAGAATTTTTTATGGTATTGTATATGTGACAATTACTTGGTTACACATCCTGTTTTTAATGATTATAGTTATCTTCTCTTTTATCCAGTTGAAGACCCTTATGTAACTCTTGGAATGCGGTGGTTCTTTTTCTTTCTTTTGTAATTTCATACATCAATGAACCTGTTTCTTATATTTATAAAAAAAATGAATACTTGGTAATTACCCTAAGCATTTTTCTATACAATACGATTGTTAATGGTGTAAACCAAAACTCTAATTTTTCATCAAAATGATTATTCTCCAAATGAGGAGAGAAATGTTGTATTTATAGAGAAATATGAGGACAAGGTTCTAACTATCCTTCTAACTTTCTTAACTAACACTTCTTTTCTATTACAATTAACTCTCTTTCTCACTCTTGGGTACACCAGTTAACATTCTCACTAACTACTTTTGCACCTTTTTAGTTTTGATAAGGCATGTAAGTTGTAGTCAAAATAACTTGGTGCTATCCTCTTGTCATAGGATTAGTGTTACTATTTTCTTTATTTAGTATAATTTCTTGTTGTATATTCTTTATGTTTGTGTAGGATGATACTCTGTTGGTCATTGGCTGGGGTACATCTGTCAAGATTGCATCAATTAGAACGAACCATAATAGAGCAGCCAATGGGACACAAAGTAGTAGGCATGTTCCAACATCTAGCATGAACCGGGTTGATATAGTGGCATCTTTTCAAACCAGCTACTTAATCACGGGAATGGCTCCATTTGGTGATGTCCTGGTTGTTTTGGCTTATATTCCTGGGGAAGAAGGTGAAAAAGATTTTAGTATGACTGCTCCATCCCGGCAGGTATGTTCACACCAAGCTGAATGTACATATGCCCAGTCTTACCAGCATAAGATTTTAAATGTGTTTGAACTTTATTTTTGTACAAGTTTTTAGTGACTTGTTCAAATTGTACTTGTACTGCAAACTGGGAGCTTAGTAGTGAACTTGTGTTATGCATGTATCACAGCTTTTGGAATTAGATCCAAATAGATTTAATTTGTTCCTTGTCAGTTGTTCAGTGGCATGTTTGTCAAATTTCATGAGAAATCATAGTCCTTCTTTCTCCAGAAATGGAGGAGTATATTATTTTTTAAAACTTAAAACAATTCCTGATTTAATTATTTGAAGATTGTGAATATGCTGTTTCTTCTGTTCAAGTGTATATGCGTGAGTGGTTTATAAAGGTGTTTTATGATTATGTTAGGTGCCTGCTCATTTTTCTTCATAAAGGTGCTGGTTAATCCCTTTGATGTGTTATTCTTATCTTGTGTAAATCACTTTCAAGTAGGGAAATGCCCAAAGACCAGAAGTTCGTGTTGTAACATGGAACAATGATGAATTATCTACCGATGCCCTACCTGTACATGGTTTTGAGCATTACAAGGCAAAGGACTATTCCCTTGCACATGCTCCTTTTGCAGGTTAATTTATATCTATGGAAGAATATAAATTTTTTTAGCACAAGGTAAATTGTCTTAAATGTTCAAATACTTCTTTATGTCAGTGTAGGCAGCAGCTATGCTGGTGGTCAGTGGGCTGCGGGTGTTGAACCTCTATACTATATCGTATCCCCAAAAGACATAGTTATTGCAAAGCCCAGGTCGGTTTTTAATTTGTGTTGTTTCATAACTATAGATTTCTCATTTCTTGTTGTACCTACTTTTAATTGGTAACCACCGGAGAAAGAACTCTTATGACATGGACAACATGAAAAGTTCAAACAATTTTGAAGAAGTTTGCATATTTTCATCTTTAAAATAATATGTACGTCTTATGTAGTATGCTAATAACTCTTATGACATGGTCAACATGAGGATGCTATTAAATGGAACTTCTCCATGGATCCTTAGAATTGGGCAGGTCTTACAAGTCTCAAATGAATAATCAAATTGAGAATAGTAGTTTCAAAATTTATGCTTTAACTAAAGGGTTTTGCAGATGAAACTGTAATAATAGGACATTGGTGCTACATTACTCTTTTGAAAATATTGGTACTTTGGCTTTTCAATTGTAACGTTCATCATATTATTTTAAACAATGCAAAAGGAACTACACCATGTATCTTTTACTCTGCATCTGTATGTTTTCAGGATTGTATGTTTTATTTTTTCTTAGGGATGCTGAAGATCATATTGCTTGGCTTCTTGAACACGGTTGGCACGAAAAGGCTTTGGAAGCAGTTGAAGCAGGTCAAGGAAGAAGTGAACTACTTGACGAGGTACATTTCTTTAGCCCATTCATTTCTCTGCCTCCCTGCTTAACCATTCCTTTAATTTAAATTGATGTTTGATAATTTTTTTTGAAACGGAGACAAACTTCTTTATTAATAATAGTAAGAGCTCAATGGACAAGAGAATTATACAATGAGCTAAATAAAGAAGTCCAAACAAGCGAAAGAAGAAGAATAATAGGGATCAGAAGGTGCACCCGGACATCTCAATTAGGTTGACACCCCCTTAGCACCAAAACATCACATCCCATTAAAACTAACCTATTGCAACAATGAGAACTAAATCCATATTTACATGCACAGTTCATGAATACATATCATTAGTTCGAAGAACTTCTGAGCTCTTTCTATTATATGAAGACACTTCTGCATTTCATATTTTGTATACTTGGTGTTAGTTGCATCATGTCTTGGTAACATAAGGGTTAGGCCCCAATGTTCCCCCTACCTGACACATTCAGGTTGAGCCCTTTTGCATGACTCCTCTTGCTAGGCTTAGGGATCATACCTGACTGGGTGTCTATCTTCTTTCATGATTATTATATTCATCCATTTCTCATAAAAAAAGAAAAAATTGGTTGCCCCATGTTATTTATCTAATGTTTCAATCTTTCTTGAAGTCTTCAAACAGATCTTTTCTTTTGAAATGGAAACAAGCCTCTTCATTGATATAAGGAGTGAGACTAACATCCCAGCAGAATTATAATTTGACCTTTTATTGAATCTCGGAAGTCTTGTACAACAACACTATATTTTTGTGATTCTTTTGAAAATTTTATTTCTACATTTCATCTTACCAATGAAATTTCTTTTGCAAATGAAAAATACGAAGTAAATCTTAATGTTGAAGTTCTTGATTGGCTCTGGGGATCCATTATCCTTTTAGTTTTCTTGAAAGCCTTGCTCGCAGAAATATGGTTCAGAACCAAGGGATCTTCCATAATGACTTTAATTGGTCAGCTTTTATCTCTCAAGTCTGCTAGAAGTTGAGGATGGTGGATTTTTTCCTTTTATTTCTTCTCAGCATCTATCGAGTCACTATTAGAACGTTTTGTATTGAGTTCTTTCACTTTTTTGGTCGGCTTTTGCTTCTTGTATTCTGGCATTACTTTTGTAGATTTGCCTTCTTTTGATATACTCTTTATTATTATTAGTATTTTCTGGATATGATGAGGACGCTAAAGGGGTGTCAACCTAGTTGAGATGTCCGGGTCCGCCTCCGGATCCTTAAGTTTCTTTGTCTGTACTCATAGTATATATCTCTTCTACTTTGAGTTTTCATTAATAAAGTGGTTGTCTCCTTTAGAAAAAAAATGTGGAAAAATTAATGTTTTGTCATTTTTGCACGAGGTTAGTATAATAGTATTATAGTTTCCTAAGTTTTCTGCTGCCTTCTTTTAAAAAGAATAAAAGGGTATAATATTTTTTTGTTCCTCATGTGTTTAGGTAGGATCCAAATATCTTGATCACTTGATTGTGGAGAGAAAATATGCGGAAGCTGCCTTACTGTGTCCCAAATTGTTGCGAGGCTCAGCTTCTGCTTGGGAGAGGTAATTAGTTGATTGCCTTGTCTTACTTTCTTCATATGCTAGCATAACTACAGAAACTCATTTTTCACAGATGGGTTTTCCACTTTGCTCATTTGCGTCAACTTGCCGTATTAGTTCCATACATACCAACAGAGAACCCTAGATTGCGTGATACTGCTTATGAGGTTAGTCTGGAAGAAAACTCTGTTCTTTTTTCATTAATGAGTGATTTATTCATCTCCAACGGGAAAACTTAACATTTTTTAAACTTGTTTATGGTAGGTTGCTCTCGTTGCTCTTGCTTCAAACTCATCGTTTCATAAGGATTTATTAACAACTGTTAAGACTTGGCCACCTGTAATTTATTCTGCCGTGCCCGTTATCTCAGCCATAGAACCTCAGTTCAATACTTCTTCAATGACTGATGCTCTTAAAGAAGTAAATATTTATTTTTCTGTTATCTTTTTTTTTTTCACTTAAAGTGTGTTTTGCAGTAAGCTCATTTTTTTTTCCTGCATCAGGCATTAGCTGAGCTATATGTTATAGATGGGCAGTACGAGAAAGCTTTTTTGCTTTATGCTGATGTAAGTTTTTAGTTTTGTGCTCTCTCTCCATTGTTAGCTGGATCTAGAACACCACTACCGTTTCCCTTTTGAATACACATTTGCTTATGTTGCTCTTATTTTCAGCTGCTGAAACCAGATATATTTGACTTTATTGAGAAATACAATCTGCACGAGGCCATTCGTGAGAAGGTATGAGAATTTGGGATTAGAAACCATGCAATTCTCTTGTTTTTTTCTTCCAAGTAAAATTAAGTTTGTGTGGCAATTATGTTATAAAATGTCGTTTTGTGGCAACACATCTTGAAAGATAGGATCTTCTAACCATGATGAGTTGACCTAGTAGTTGGATTTGAATGGAAACTTGTCACTTTTCATTGATATAATGAAAAGAGTGAAAACTTAAAATACAATGTCACTTGAAACAAAGGTACAAGAGAAATAAACATCTAGACTGTAAAGATAAAAGCAGTACAATTCAAGCAAATATCTTTCTCTCGAACTAAATTTCAGCAAGAAAAACTTTAAGTGCATTTGACCATAATACTATTAAAACAAAAAACTGCATTTGACCATAATAATTGAGATTAGGGCTTCAAAGAGGGACCAACAAGTATAATTCTCTTCTTTCGCTTGTTTGGACTTCTTTATTTAGCTCTTTGTATAATTCTCTTGTACATTGAGTTCTTATTATTAGTAAAGAAGTCTGTCTCCATTTCAAAAAAAAGAGGGACCAAACAAGTATTTGGAACACATTTTCCTTGAATGAACTTTTAGAGGTCCACTGAAGATGAAAAATAGCAAAGTTTGTACCAACAAACCGCATCAAATCTACAAAAAAAAATTGGTGCCAAAAATCTTCACTTGCTTCCGTACATAGGGGTATTGAGGGAGACTAATGAACTGGAAGCTTCCTTTGGGTGGTGGTGGAACAATTTAACGTTCCAAATATCATAGCCCAAATAAGGATATTAATTCTCTTGGGTGTGTTGGTTTTCAACAAATTCTGAAAAACAGTTTTATCAGTTGCAATGGAGCTGCCAAGTGAAATGATTTTACTGGTAAACTCCTGAAGAACCCAAGCTCCATCCACGACTCTCTGAGTGGGTCTCTATCTTTTTTCCCCAATAGAATTTGTAGAAGTTGTTCAAACTTCTGAATTTCAACATCTTTTAGAAGCCTTTTGAAGTAGTTGCTCAAGAAAAAGTATTGGCATCCCTATGGTCGTAGACCAATTGGGAGAAATTGCAATCCTGAAAAGCTGAGGAAAACTAGAACTGAGTGAGCAAACATCAACTCAAGGGTGATTCCCGAATTGATTTATCTACCATTTTCTAATTTAAATGATGCCAACGAATCAACTTGCAACCACACTTTGGATGTACTAATTCAAGAGTTTCTTAGACTCGTGCCAAATTTTCCGGCCGCATGGTAAGAGAGTGAATCTAGCTCATGAAAAAGTCTTCAACCCTATTTTGCTAGTAGTGCCTCATTTCTGAATGTTAATCCCCCATTTTTTAATGGCTAGGAAACCAAATCCAATTTACAAGATGATTGATTTTACTGCCTTTGTTTCCTTCCCAAAATGGAGTCTTCAAGATTCTTTCAATAATTGAAATTACTTTGGCTGGCATAAGAAATAGAGACATAATATATTGTAAGATTCTCCAATACAGTTCTATGTAAAGTGAGTCTTCCTACACAAGAGATTAAAACACTTCCAACAATCTAATTTTTTCTAGATTTTATCAACTGTGGACTGCCAAAAAAACGTGACTTTTTTTGGGATAGCCATCCAATGGAAGGCCAAGGTATAAAAAAGGTAAATGTCTGCCTTACAGTGAAGCCGTGTGAAATCAGCTTTTCCGCATCAATATTGATTCCACTAAAAGCAGATTCTTCCCTATTAACTTTTTGCCTCGAGCATCACTCAAATAACTCTATTGCCTTTGTGAGTACATTTAACATGCCATCATCGTATTTGCGTAAAAGAAGAGTGTCATTGCAAATTGTAAAATAGACACATGGACCTTGTCTTTTCCAACAACAAATCCTTCAAAGAATGTGTTGTCTTGGCCTTCCATTGATAAATACTGAAAATTTGGGATTGCGAGCACAACTATTAATCCAAGTGATCCATTTAGGATCAAAGCCTTTTAACGTAAGAGCATCCTTCAGGAATCCAATCCACATGGTCGAAGGCCTTCTCCAAATCAAACTCAAGAATCTGTTAGATATTATATTAAATTTACCTTCACCTATTAGCTTAAGCTTTTGGGTTACATTGGTGATTTAAGAGGTTATCAGAGAATTTGCCCATTTTCTTTTTTGCTCTATATTCTTTAACAATCTCTATAGCAACAAGGATATAATTTGTATTTGTCTTCCACCTATAAGGCACTCTAAGAAGGAGAAACAATATCTGGCATTACTGACTAGTGACTCCATTATTTCTGCTTGAACTTTTGTGATGAGCTTGTTGATTGAAGTTGTGATACAATCTTACTTGAACAAGATTTATTCTATAGGTTGTACAACCGTGTCCTTGATTTCTAGAGATTGAAGCTGTGAGGCCAATTGGTCGGTAATCTTTAACAAAGGAAGCAACTTCTTTCTTCTAAATCAGACAAATGAAGTTCTCTTTGATACAAGCATTTAACTTTCCATTTCTGAAGAATTTTGTAAATAGTTCAAGTAAATCAGCTCTAATCAAATTCCAAAAACATACTGTAAACCCATCAGGGCCTTAGAACCTGGCGCTTTATTCTTTTCAAGGGCTTTCAAGGCTCTAAAAAGATTTTCAGCTGTAAGAGGGGCTATAAGATTCAAGTCTTGAGCTGCAGAAACTTGAGTTGAACGAAGATTAACTGAAATTGAACGGGAACCAGGTTATTGCTTTTATAAAGAAGAGGATTTAAAATTTCTTCTTCAATGTTTTTGGTAGAAGTAAGAGAAACTCCTTGGCTGGAAAATAACTCTGAAATCAAGTTTCCTTCTCTTTTTTGCTGCCAAGAATTTGTGAAAGAAGCCAGAGTTTTCATCACCTAATCAAAACCTGTTGACCTTGCTTTTTTGAATAAAATTACGCTTTGCAAAAAGATAATTTCCATCCATTCACCTTGATTGCAGCTCGTATATCATCTTCCAGGGAAGACAAATTATTTGCTTCAGCTTTGAATCAAAATAATCTAATTCACTGAGAAGACTCTTTTTTCTTGGTTTTTATTATTTCTTCTGCAGCCGCATTCCACTCTTTTAATATCTCTTTAAATTTTCTAAGCTTTGAACAAATAACAAATCCAGCCCAACCTTGAATACTATTTCCATCAAAAGAAGCTTCAATTTCCTTGCAACAAGCAATATCCAAAAACCAACCTGGGAGTCTTGTAATTCAGTTTGTACCTTAGTTATTTTGTCTTTTGTAATTTGTTGATATCCTTTTGTAAATTTAAAAAAAAATGGATTTAGAGAGAACAATTTTTCAGTCAGTCTCATGAGTAAACTATTTTTATGTTAATGTATTATATACATCTGCCTATTGCCAAAGTCTTTCTTATTTTCTCCCTCTCTCCTCTCCCCTCCCCTCCTTCCTTTCGTCCCTAACCACACTCTGGCCCCCTTTTTCTCCTCCGGTGTTCCTCATCCTTCTTCTCCGGTAAGTCCCCTAGAGTCTATTCTTCTTGTCCATTTCTGTTTAAGTAGTGGTCTGGTTTTGGTCATAATGGAAGTAGAAAGATGCAAAGTAGCGAATGCCCTTTACTGTATTTGGTTCGACAAAGAATACTTCCCTTTAGAAGACGTGGGAGCTTAGAAGATCTTGACATTATCTATTAGACACTCAACTCAGATGGTACTTGAAGGAGATTTCAGAATTCTTGTGTGGCCCGAGAATTGTTTTCTTCTTCAATCCTTAGGAAGTTAAACTCTCATATTAATTCAGTTGATATTTTTCCTAAAGAAAGACAATGTAGTTCCCTTTTCAACAGACGTTCCTCCTTTCAACCCTTCATCTTCAGTTTCCCTTTCCTCTTCTCTTTATTCCTCAACAAAGTCAAGCTCTAGAGCAAATTTGAAACGAAAGAAATATGCTAAGATCTTCCTACAACACCTCAAGCCATTTCTGAAGTACTTCATCCGAGAGAAAAAATCAAAGAAGATTTTGGCAAAACGTTCCTTAAAACCCTGATTTTTGAAGATCAAGTACCCGATTTTCTTGAGGAAAATTGTGCTCATTGTCTTTCATCAGCTTATTCCAGCAGCTCTAAGCTGTTTTTAGAGGCTAATCCAGATTTATTGGAGGTTAGCTGCACCTAAATTCAAGCCCCATCCTGTCCTTCTAAGTCAACTTCTCATCATCCTCACCCTACTCGGTTTAAGTACTATGAGTTCTCTTTGCCTAACTCTAAGGTAAAATTTTTGAGGGGCTCTCCGAGCAAAACCCCTCAACCAATCCAACAAGAAGGGTGAGCGTCTTTTTGACTCCCCTTTCAGCATTAGTAGTGAGGAATTGGAGCATTTGGATAGGTCAACTGATCTTGAAAGTAAGGAACATTTTGAGCCTTTAGAAATAGATTTCAATGTCCTATTTTTTTTGAAACGCAGACAAGAACTTCTTTATTAATATGAACTCAAAGTATTGCGGAAGAAATAAAAAAAAAAAAGAATTCATTTTTGAAGAGATACAAAGAGAGCCATAAAGAAGTAGTAATCAAGGGAGTTCTAGAGGAATTAGGAGGCGCACCCGGACAACTAAGTTGACGCGTCAAACATCATATCCTGAGCACAACCAATCAAAACAATAAAGAAACAATAATAAAATCATTCAGCTTAGTACAAAGGTCCAGAAAATAATATGGGACCGGAAGAAAACAACAAGAAACTAGGGGGGAGGGGGAGGGGGAGGGGGGAACAAACTAAAATAGGGGGCAATCCTTCAAGGCTTCAAAAGCAGTAGAGGGCTTCAGTCTGTATAATTTGCAAACATTGAAACTGAGGCAACATAGGATTAGGCAGGTTGAGAAAGAAAAGCAACCCAATTAAGGTAAATGTCTTGGATGGAATAATTAACGAACTCCTTTTTAAGGGAACACCAAGCTGCAACATTTTTTTTTTTGAAAAGGAGACAAGCTTCTTTATTATTAATAAACTCAATGTTCTGCTGCATGCATAATTTCTGCCCTTGGTCTTGCTTTATCGTGTTGATTTCATTCGAACCATAATTCTGAAAGTAAAGCATTTGACAAATTTTTCCATATGATACTTGATTTTTTGGGCAAACTTGGACCCGACAGAAGTTGAGCCACACTACCACTTAGTGAAATGTCAAATACTCGAGTTAAATTAAACAAGGAGAAAATCCTTACCCAGCAAAAGGAAGAGACAGGACAGTTCAGGAAAATATGAGAAAGATTTATACAAAGGTCTCAATGCCCTATTTCAATTCGAGAAGAGCCATGATCCGCAAATTTGCCTTCTGCAACTCATTTTTGTCCCCAGTTTTGCTAAATACTAGATCACTTAAAATCAATAGTTGCAGATTGTGGAACTATTCTAATTTGATTGTTCAGCCATTTAATATATTCCCCTTGATGTTGGTCTAACTTCAGTTTTTCTTGGATTTACCTCACGTGGGTGGTAAGTAAAGCCTTCATGGCGATACTGAAATAGTGGAAGACTTTTTCGAGCTTCTTCTGAATTTGGAAGGCAGCCGGTTGCATCTTCTTGCAATTTTTTAGTTTTGAATGGGTTCTTTATGAGACAAATTTTCTATTATGCTTTGTATTTAGATTTCCACAACTTGATCTCTTCTGTTTGGATTTTGTTTGTTAGCTTTTGTTGTAGTTGTTGACTGAATTTCTCTTTACTCTTGCTCATAGTATAATACTCATGTACTTGGATCTCAAGTCTCTTTTATTAATAATAAATTAAGAGACTTATTTCTGCTTTAAAAAAAAAGTAAACTATTATTATGTTTATTATCATGTTCAAATGTATGACAGTCTTTCTTCTTTTACCCATCTTTCGTAGGTTGTTCAACTCATGATGCTAGATTGCAAGCGTGCTGTTCAATTGTTTATCCAAAATAAGGAACTTATTCCTCCAAACGAAGTTGTTTCACAGCTTTTCAAAGCTGGCGATAAGTGTGATTTCAGATATTTCTTGCACCTATATCTGCATTCCTTATTTGAAGTAAATCCACATGCTGGAAAGGATTTCCATGACATTCAGGTACAAACTACTGAAGATTAAGTTATCCTTTAGCGACTTGGTTTCCATGTTTTCACTCCTGTAGATGATTGATCTGTTCAAGTTAATGTGAGATGTGACAAGATTGCACCATTGTAGTAAAGTGAGAGATATAAATAAAATTACAACCAGCAATAATTTGACAATGAATTATCCTGTATAATGTCATACATTAATCATTAATATTTAAGCGATAAAAGTTCATCATAGCAGTAGCTATGCAGTCTTCAATTGCAATTAAGTCATCAATTTACAGATGGCAGTGGCGCTTCTTTTGAGGTGGGTTGCATAGACAGACGAGAGCTCAAACTTGACTACTGATAATTTTATATAATATATTGAATATTCAAAATAATTAAGAGTAAATAATGATCTTTTACATAGGGGTATAAGTAGACTTCAAAGGAACCACCTAATTTCCAAAATGAAAAATACCAAAAAGAAAAATAATTGTCAAAATTAGTGGACTTGGCCCAAGGAAGGATTTGACCTAATTTCCATTCCTTTTTTATCATAAGCGTGTTGTCTATTTATTTCCCCCTTCTATCTTTTGTTAATATGAGAAATTAATAAGAAAGTCAGATCATGGTTTTCTCCCGGTACTCGGGTTTCCATGTAACTTGGTGTCTATTTTCTTTACTGCTTTTAATATGGTATCGTAGCAGAGTAAAGACGAAACTCTAGACACGATTGTTGATGAAACCCAAACAGAGACAGTCGTCGCTGTTGCTAGGATCAACGCTGTCGTTGTCATTGTCATGGAAAAGTTGCTCCAACTTCAGAAGCAGCCAATGATCACAATGGGCTCACCCTTGGAATCAGTCGCATTGTCTAGTGGAGGGAAAGAGCCTCACGCGCCACATCTGTCTGCCCACGCACTGTCGTCTGTCGTCTCTGCCATTCAATTGGTCTACTTACAACCGTAGCCCTCTGTCCAGTCGTAGCACCCTCTTGGTCAGCCACATGTGCATGCATTGCCGCTGCCCTCATTTCATGCGCTGCCCTCTTTTCATGAAACGTTGCATTCTGATCTTTTACATCAGCTGCACTTCCATGGTTCCGGTATATGAATCTAGGTTTGAAGTTGGTGAATCTTCGGTACAACCCAAACCAATTGACTTGTCGATGTATTCCAAGAACTCAGTAACTTCATTTCGTACTTTGGCCTTAAATTATATAAGTAGTTCTCTGGCACCATCTACAGGTGTCTTTCCAGAAGAGAAGCTGAATGACCCGTACTATTTTTCCTGGTCTCTAATGGTCAAAATGTTTCTTGAGGGAAGTCACCAATTCGGTTTCATGACAGGGGAGTCTCTTCGCCCTCCACTCGGTGATGCCCATAAACTCTATTTGAAGCGTTAGAACGCCTCTTGTCTATATACATTGAGGAATATGGGATGTTATCTCCTACTTCAATAAACTTTCCAAGATGGGTCTGTGCAAAGAGACAATATGGGATACTTCAAATACCATGTACTCTGTGCTTAGGAGAATAATCTCTTATTATTTAATCGGGCTAAAGATACATATATATATATAGACAACTATACATAATAATATATAACTACATATTATAGCAATCATCACCATCATTATTCTTTTGACAAAGTATACTTTTCATTGGTTGAAGAAAAGATCACACTGCTAATGAGTATACCAAGAAAACATCCCCACTCTCTTAACAACCATGTCAACTCAAACTACCGTTATTATCCTTTAGACATGATTTTGTATAGTTGGATCACCTTCTTATGGAAGGGTCCCCTGTTTTTTATGCGCCCATGAATTCTTTCATTTTTTCTCAATGAAAGTTGTTATTTCTCTCTCTATATGTATAAAAAAACAGAAAGAGCTCCCTTTTGGTATATTGATTACACTGATAGAATAACAAAAATTGATTTGTCAAAGAACACCATAAAGCAGCATACTTCTTAGCTCAATCCATAACTTGACCGAATCAAACAATTCCTTTAAGATTCTTTGGTTTCTCTGAAATCATGTTCTTTGGCTTTGGATGCATTTATTCAGCTTCACTCCACAAGTTGAACTATATTCTCCTATGAACTTCTATTGAACTACCAAATCAAATTAGAAGTCTAGAAAAGCTGCTCCGAACTCTAACCACTGTAGACATAATGAAAGAATAAATGAAATTGATCTCCATCTGCCACCAAAAAAAGGTTTACAATATCAATACCATTGTAGGGCATTTTAATCGAGTGTGTTGGACAAGAAATGGAGGTTAAACTAACAAAAGCACGTTATACAAAACTGGATATGCGATATACTCACAGAATTAACATCCCAAGTGAAACTTTTTTGGTATGCCAAATGAGTAAAACTGTAAACATTGCAGGTGAGGTTTATTCTGACTGATATTAAGATACTTTTTATTTAGAGCTTTTGGCTCATTTTATTCGCAACCATAATAAGTGGTTTCTTTTAGTTAGAATTTTCTTGCTTTTATTTAATAACTATTATGGTAGTTTCTTTTAGTTAGAATTTTCTTGTTTTTATTTAATAATTATCTTCCCCTTGACCCTCCAAAACTATTTCAGGTGGAACTTTATGCTGACTACGATACAAAGATGCTGCTTCCTTTTCTTCGTAGTAGTCAACATTATACACTTGAGAAGGTTTGGATTACCTATTGCTGTTTCTAGTGGTTATGCTGTATCTGTCTATGACCTTGTGAACATAATCTCAGGCATATGATATTTGCATTAAAAAAAATCTTTTGAGGGAGCAAGTCTTTATTCTTGGAAGAATGGGAAACGCAAAACAAGCCCTTGCTGTCATCATTGATAAATTAGGAGATATAGAAGAGGTACTTGCATTATCTTTTGACTGAAGGCAGTTTGGCTTCCAGATAGCATGGAAATTTGCATCTGAGTTTTCTTTTCGCTTTTGAGTTGTGGTTACAAACTAGTCATAAAACCTTGTTGTCATCACGGACAGGCAGTAGAGTTTGTTAGCATGCAACATGATGATGAGCTCTGGGAAGAACTAATAAAGCTATGTCTTCATAAGGCTGAAATGGTATCAACAGAGGCTCTTCCGTTGTTGTCTACTTTTCCATACCCTGATTTATTAAAAGGGTTAAAAAGGGTTTGTCCTCTGTTATTGTCAGGTTGGCATGTTATTGGAGCACACAGTTGGCAATCTAGATCCTCTTTATATTGTCAACATGGTTCCTAATGGTTTAGAGATACCTCGGTTTGTTTCACTTTCTGAAATCATTAGTTTTCAATTTCTGTGGTGTTTGTATCTGTTGTCTTTCTATTGCAAGTGGCATATATCTCTTTAAAGTGTACTGTGGTTCCTTTTCACTTGTATAATTCTATTTATTTAATATTTTAATGTTGTCTGGTCTAGAATTACGTTAGTGTTGGGTTAGAAATCCAGGTCTATCACAATTTTCAGTGCTTCTTCTTATACCTACTTGAATGAATTCTTTAGTTGCTTCACCTTTCCATATTCTCAATTTTGGAAACGCTTTGTATGTCCTGATTTTGTCTTGGTCATGTATTTTATAGCACGAAATCCTTAGCATAGTAAACTAACTTCAAACATTTTAGTAGCTATCGATTCTCTTCTCAGAGACAACAGGTTGTGCATAACATATAGCACTTATAGATATTGGGTGGTTTTACAACTATTTGTCACTGGCAAAAAGTAGTAAAGAAAACCACATAGGACTTGAATCTTGGCGTTCTTTTATCGAATCAGCTAATAATTTCACATCGTCTCTTCAAATTGTCTATTGGTTTTGTATTGTTTATTGATAATGTCCCTTGTATTATTCTTCTGTTGTCATTGATATCTGCACAATTTACAAGGGTACTATTTATTCGGCTAGGATTGTGTAATGTGCGCCTATACTATTAGTCCTTGTAATCTCTGTTTGAAACATTCGCAAGCTGTTTATAGTTGATTGTTGAAGCATTAAAACTTGGTTATTAACGTTCTTTCTACTTCCAGATGTTTTTTCCTCAAATTTTTTAATTGTCCAACGTGTGTCGCAATGAGTCATGAAAATAAGCATTTTAACCATCAACTTTGTTGTCAGATTATAGGTTGTGCCTAAATTAAACAAATTGAATGTATGCAAAATTAGATTTTTCATTCGTATTTGGATGTACATTGAACTAAAATCCTTCCCTTGTTTTTATTTCAGCCTCCGGGATCGGCTAGTTAAAATCATTACTGATTACAGGACGGAGACCAGTCTTAGACATGGATGCAATGATATTTTGAAGGTATTTTCATGCGAGACAAATTTTCTTGCTTCACTAGAACTGAACTTTGTGCTATCAAGATAGTAATGCGTGATTTCCAACAGGCCGACACTGTGAATCTATTAGTTAAGTACTACAAAGAGGCCAGACATGGAATTTACTTGAGCAATGAAGAAGATGAAGCACGTGGGAAGAGGAACGAAAATAAGGTTTCTCAATCAATTCAAAAATCTTTGAATGTTAGAATGATGGAGGTTAAGTCGAAAACTCGGGGAGGCACTCGATGCTGCATATGTTTTAATCCATTTTCAATACAAAACATTTCAGTCATCGTATTCTTTTGCTGCCATGCATATCACGAGACTTGTCTCATAGAATCAACCTCCAATCTTGATGCTATGAAAGGGACTGGAGAGACTGGCCACGACTTGACATCTGACTTCGATTATGACAACGGAGAAATAGAAGACGATGAAGACGGTGAGGATGATACAGATGTGGGCGGTCCTAGAATGCGTTGTATTTTATGTACTACTGCTGCTTCCAAGACTTGACAATGCTTTGTGGCGTCATGGGTTTCGTTATTTTTCTTTGTTGGGATTTTCTGAATTTGCTTATGAGCGTGCAAATATGTACAGGCTATCATCTCTTTCCTTGCATCCGCTATTTGTACTTCTTTACTTTATCGAAGTTTGTATAATTAGTTGGAAGATTTTGGTTGATAGGTTGTACCCATTTTTTTTAAATTTTCATACAAAGCCTTTTAAGTTATGCTCGGGTTTGTAGCCGAGTTGAGTTGGGTTAGCTGATTTATGGGTTGAGGCCTGGGGTGATTGACACTTGTATATTTCTTTTTTCAACTTCAGTTCTTATGAGAATTGTAACTTCTTATAATGTCAATAATATACATGAATCATATTTGTGGCAAAGCA ATGGCTCCCATTCTGTCGGAAAACGGCGTCGAAGGAGACGACGAGAGAGAGGAGGAGGAGGAGGACGATGAGGATGACGAAGAAGAAGAAGAAATTGCTGACGACGAGGAGGAGCCCAGGCTCAAGTATCAGAGAATGGGAGGAAGCGTACCATCTTTGCTGGCTAGTGATGCCGCCTCCTGCCTTGCCGTTGCCGAGCGGATGATCGCGCTTGGGACTCACGCCGGCACCGTTCATATTCTCGACTTTCTCGGGAATCAGGTTAAGGAGTTCCCTGCTCATACTGCCGTAGTCAACGATCTCAGCTTTGATACAGAAGGTGAATATGTAGGTAGTTGTTCGGATGATGGTTCGGTGGTAATAAATAGTCTTTTCACTGACGAGAGAATGAGGTTTGAGTATCATCGCCCAATGAAGGCAATTGCATTGGACCCAGACTATGCCAAAAAAACTTCAAGAAGATTTGCAGCAGGTGGTCTAGCGGGTCACTTGTATTTTAATTCCAAGAAATGGCTAGGATACAAAGACCAGGTCTTGCATTCTGGTGAAGGCCCAATACATGCAGTGAAATGGAGAACAAGCCTTATTGCTTGGGCAAATGATGCAGGCGTAAAGGTTTATGATGCTGCAAATGATCAGCGAATTACATTTATTGAAAGACCGAGAGGAAGCCCACGTCCTGAACTTTTGCTCCCTCAGTTAGTTTGGCAGGATGATACTCTGTTGGTCATTGGCTGGGGTACATCTGTCAAGATTGCATCAATTAGAACGAACCATAATAGAGCAGCCAATGGGACACAAAGTAGTAGGCATGTTCCAACATCTAGCATGAACCGGGTTGATATAGTGGCATCTTTTCAAACCAGCTACTTAATCACGGGAATGGCTCCATTTGGTGATGTCCTGGTTGTTTTGGCTTATATTCCTGGGGAAGAAGGTGAAAAAGATTTTAGTATGACTGCTCCATCCCGGCAGGGAAATGCCCAAAGACCAGAAGTTCGTGTTGTAACATGGAACAATGATGAATTATCTACCGATGCCCTACCTGTACATGGTTTTGAGCATTACAAGGCAAAGGACTATTCCCTTGCACATGCTCCTTTTGCAGGCAGCAGCTATGCTGGTGGTCAGTGGGCTGCGGGTGTTGAACCTCTATACTATATCGTATCCCCAAAAGACATAGTTATTGCAAAGCCCAGGGATGCTGAAGATCATATTGCTTGGCTTCTTGAACACGGTTGGCACGAAAAGGCTTTGGAAGCAGTTGAAGCAGGTCAAGGAAGAAGTGAACTACTTGACGAGGTAGGATCCAAATATCTTGATCACTTGATTGTGGAGAGAAAATATGCGGAAGCTGCCTTACTGTGTCCCAAATTGTTGCGAGGCTCAGCTTCTGCTTGGGAGAGATGGGTTTTCCACTTTGCTCATTTGCGTCAACTTGCCGTATTAGTTCCATACATACCAACAGAGAACCCTAGATTGCGTGATACTGCTTATGAGGTTGCTCTCGTTGCTCTTGCTTCAAACTCATCGTTTCATAAGGATTTATTAACAACTGTTAAGACTTGGCCACCTGTAATTTATTCTGCCGTGCCCGTTATCTCAGCCATAGAACCTCAGTTCAATACTTCTTCAATGACTGATGCTCTTAAAGAAGCATTAGCTGAGCTATATGTTATAGATGGGCAGTACGAGAAAGCTTTTTTGCTTTATGCTGATCTGCTGAAACCAGATATATTTGACTTTATTGAGAAATACAATCTGCACGAGGCCATTCGTGAGAAGGTTGTTCAACTCATGATGCTAGATTGCAAGCGTGCTGTTCAATTGTTTATCCAAAATAAGGAACTTATTCCTCCAAACGAAGTTGTTTCACAGCTTTTCAAAGCTGGCGATAAGTGTGATTTCAGATATTTCTTGCACCTATATCTGCATTCCTTATTTGAAGTAAATCCACATGCTGGAAAGGATTTCCATGACATTCAGGTACAAACTACTGAAGATTAA MAPILSENGVEGDDEREEEEEDDEDDEEEEEIADDEEEPRLKYQRMGGSVPSLLASDAASCLAVAERMIALGTHAGTVHILDFLGNQVKEFPAHTAVVNDLSFDTEGEYVGSCSDDGSVVINSLFTDERMRFEYHRPMKAIALDPDYAKKTSRRFAAGGLAGHLYFNSKKWLGYKDQVLHSGEGPIHAVKWRTSLIAWANDAGVKVYDAANDQRITFIERPRGSPRPELLLPQLVWQDDTLLVIGWGTSVKIASIRTNHNRAANGTQSSRHVPTSSMNRVDIVASFQTSYLITGMAPFGDVLVVLAYIPGEEGEKDFSMTAPSRQGNAQRPEVRVVTWNNDELSTDALPVHGFEHYKAKDYSLAHAPFAGSSYAGGQWAAGVEPLYYIVSPKDIVIAKPRDAEDHIAWLLEHGWHEKALEAVEAGQGRSELLDEVGSKYLDHLIVERKYAEAALLCPKLLRGSASAWERWVFHFAHLRQLAVLVPYIPTENPRLRDTAYEVALVALASNSSFHKDLLTTVKTWPPVIYSAVPVISAIEPQFNTSSMTDALKEALAELYVIDGQYEKAFLLYADLLKPDIFDFIEKYNLHEAIREKVVQLMMLDCKRAVQLFIQNKELIPPNEVVSQLFKAGDKCDFRYFLHLYLHSLFEVNPHAGKDFHDIQVQTTED Homology
BLAST of Cucsat.G6517.T11 vs. ExPASy Swiss-Prot
Match: P93231 (Vacuolar protein sorting-associated protein 41 homolog OS=Solanum lycopersicum OX=4081 GN=VPS41 PE=2 SV=1) HSP 1 Score: 1127.9 bits (2916), Expect = 0.0e+00 Identity = 555/669 (82.96%), Postives = 610/669 (91.18%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy Swiss-Prot
Match: P93043 (Vacuolar protein sorting-associated protein 41 homolog OS=Arabidopsis thaliana OX=3702 GN=VPS41 PE=1 SV=3) HSP 1 Score: 1040.8 bits (2690), Expect = 6.7e-303 Identity = 523/679 (77.03%), Postives = 594/679 (87.48%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy Swiss-Prot
Match: P49754 (Vacuolar protein sorting-associated protein 41 homolog OS=Homo sapiens OX=9606 GN=VPS41 PE=1 SV=3) HSP 1 Score: 404.4 bits (1038), Expect = 2.4e-111 Identity = 241/662 (36.40%), Postives = 372/662 (56.19%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy Swiss-Prot
Match: Q5KU39 (Vacuolar protein sorting-associated protein 41 homolog OS=Mus musculus OX=10090 GN=Vps41 PE=1 SV=1) HSP 1 Score: 403.7 bits (1036), Expect = 4.1e-111 Identity = 238/659 (36.12%), Postives = 371/659 (56.30%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy Swiss-Prot
Match: Q9P7N3 (Vacuolar protein sorting-associated protein 41 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=vps41 PE=3 SV=2) HSP 1 Score: 290.8 bits (743), Expect = 3.9e-77 Identity = 188/657 (28.61%), Postives = 332/657 (50.53%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. NCBI nr
Match: XP_004139459.1 (vacuolar protein sorting-associated protein 41 homolog [Cucumis sativus] >KGN64876.1 hypothetical protein Csa_022695 [Cucumis sativus]) HSP 1 Score: 1321 bits (3418), Expect = 0.0 Identity = 662/668 (99.10%), Postives = 664/668 (99.40%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. NCBI nr
Match: XP_008462162.1 (PREDICTED: vacuolar protein sorting-associated protein 41 homolog [Cucumis melo]) HSP 1 Score: 1308 bits (3386), Expect = 0.0 Identity = 655/668 (98.05%), Postives = 660/668 (98.80%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. NCBI nr
Match: XP_038894312.1 (vacuolar protein sorting-associated protein 41 homolog isoform X1 [Benincasa hispida]) HSP 1 Score: 1298 bits (3358), Expect = 0.0 Identity = 650/668 (97.31%), Postives = 656/668 (98.20%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. NCBI nr
Match: XP_023520851.1 (vacuolar protein sorting-associated protein 41 homolog [Cucurbita pepo subsp. pepo] >XP_023520852.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita pepo subsp. pepo] >XP_023520853.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita pepo subsp. pepo] >XP_023520854.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1265 bits (3273), Expect = 0.0 Identity = 635/668 (95.06%), Postives = 648/668 (97.01%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. NCBI nr
Match: XP_022969631.1 (vacuolar protein sorting-associated protein 41 homolog [Cucurbita maxima] >XP_022969632.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita maxima] >XP_022969633.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita maxima] >XP_022969634.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita maxima] >XP_022969636.1 vacuolar protein sorting-associated protein 41 homolog [Cucurbita maxima]) HSP 1 Score: 1263 bits (3267), Expect = 0.0 Identity = 633/670 (94.48%), Postives = 649/670 (96.87%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy TrEMBL
Match: A0A0A0LY23 (Vacuolar protein sorting-associated protein 41 homolog OS=Cucumis sativus OX=3659 GN=Csa_1G144290 PE=3 SV=1) HSP 1 Score: 1321 bits (3418), Expect = 0.0 Identity = 662/668 (99.10%), Postives = 664/668 (99.40%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy TrEMBL
Match: A0A1S3CGC3 (Vacuolar protein sorting-associated protein 41 homolog OS=Cucumis melo OX=3656 GN=LOC103500583 PE=3 SV=1) HSP 1 Score: 1308 bits (3386), Expect = 0.0 Identity = 655/668 (98.05%), Postives = 660/668 (98.80%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy TrEMBL
Match: A0A6J1I1J7 (Vacuolar protein sorting-associated protein 41 homolog OS=Cucurbita maxima OX=3661 GN=LOC111468604 PE=3 SV=1) HSP 1 Score: 1263 bits (3267), Expect = 0.0 Identity = 633/670 (94.48%), Postives = 649/670 (96.87%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy TrEMBL
Match: A0A6J1FDJ3 (Vacuolar protein sorting-associated protein 41 homolog OS=Cucurbita moschata OX=3662 GN=LOC111444390 PE=3 SV=1) HSP 1 Score: 1261 bits (3264), Expect = 0.0 Identity = 632/668 (94.61%), Postives = 647/668 (96.86%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. ExPASy TrEMBL
Match: A0A5A7U9Q0 (Vacuolar protein sorting-associated protein 41-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold578G00440 PE=4 SV=1) HSP 1 Score: 1255 bits (3247), Expect = 0.0 Identity = 619/630 (98.25%), Postives = 622/630 (98.73%), Query Frame = 0
BLAST of Cucsat.G6517.T11 vs. TAIR 10
Match: AT1G08190.1 (vacuolar protein sorting 41 ) HSP 1 Score: 1040.8 bits (2690), Expect = 4.7e-304 Identity = 523/679 (77.03%), Postives = 594/679 (87.48%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (B10) v3
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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