
CsGy7G012660 (gene) Cucumber (Gy14) v2.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ACGGAAAACACCACTGCTTGCGCCATAAACCGCGTTTCTCCAAAATTCCCACATTCGAATATATCGATTACTTCTTCACTTCACCAAAATGTTCTCTACATTTGTTTTTCCCCTGTTTCCACTCCTACCCTTTGATCATCATCAATCATCATCGTTTCCCCTTTGGGAGAAACACAGAAAATTCTGTACAAGAAAACACATAAGTGGATGAATGGCTACCAGAAAGGACACTGCTCGCGGATTTGGTCCTCAATATGATCATCAAACCACCCCTCCAGGTTTTTTGGATATTTCCCATTTTTTTCATTCGCCTATCTTGGATGTTTGTTCATAGATAACTTGCTGTTTAAGGAAACGGTTTCTGTTTTTAACTTTGGAGTCTGCTTTTGATTGTTGTTATCTGCTAATCAGATCATAACTTAGCTTAGTGTATAAGATAGCTAATAGCATACTAAAGTGGATGGTTTGATGGCCCAGGTGTGAATTATTGAACTAAAAACAGGAAAAGAAGATAGTTGTTTTGTTATCTGTTTTTTTGTTTCTTAATCAACTTTCTTGACGTAGAATTCAATGAACACTCAGTCCTGGGAAAAGCAGCGGCTCGGTAGTTTTCATATTCCTGTGTGAGTAGCCTACAATCCTTTTGTAGCTTCAAACTCATCATATGGGGCTCAAGCAAATTCACTCTTACTATAGTTTTCAAAAAAGATGTAAACAAGAAATAACGATGCCTACCTGACGATGTAACTGTAATAGTTGGTATCATAGGCAGGTTCAACCGAACCCGTGGAGACCTTCCTGTCTTTTTTTTATTTGAACGAGATTGAAGGAACACAAAAATGGAAGGGTTACCGAAGGATTTCTTTGATGTTGTCGTTGTTATTTTTATTTATTTGTTTTGTTAGGATACAGAATCCATTCCATTGATTTAAGAAATAGATTACAAGAGGAATTCATATCATAGAGAATGTTACAAATAACAACTCCAACGAGATAAGACGATAGATAGGTTGTAATTACAAAAATGTGGAGAAAATTACTCCAGAATAAGCCAAGGAAAGAAATCGTTATCTAAAACAAGAAGGGTTGCTGTTGCTATTTTCTTTCTTTATTGTTCTGCTAATGTAAAGAATTTTGGTGAGTTTGTCTCTTGAGTTATAGTTTTTGTTGCTTTCATATGAACACACTTGAATTTGTAATGAATGTGCAATTTGATTGATTGGTCTATCTCAAAAGTTAAATTTATTTACTTTGGGTTTGCTTGAAATGGATTTTCAAGTGCTTCAAAGCACTACTTTAAGTATTTGAATAGTCATTCCAAACCACCTTTGTTAGATGAGGAATATTTATCTTGTGCGTATTGTGACCTTTTCTGTTTTCATCAATGTTTATTGTGAATTATTGTCACAGGTTTTTTCAGACTTTCAAGTTAAAACCTCTCTTTTTCTTTTTACCGTTTATTATTATTGGGTTTCAATAGAACATTTGTTTACAATCTGCTCAGTTATTTCTTTTGATTGGGTCAATGAGAAATTGAAATATAACCCATTTTAACTAACCTAAAATAAAAGTTAAAAAAGTTGGTTTTGATGTTTTAAAACTCGGATGTTTATGTTTTTTTCCTTGTCCATCATGTTTCTCTGCTTGCTACTATGTATTCTTTTTTCTTGTCCAACCTGTTCTACTATGGGCAGCTGTGTAGTCATTGTTAACTAGCGAGTAAATAATGTGATTGTGTATGGATCAAATTTTATGAAATACATTTTAGTTCCTCTTCAAAACATTAGTCACTTTTCATTTCATCAATGAATATTACGTTCTTGTCAATAAAATTGATAAAGTGAAGGTGAAACTTAGATATCTTGGTTGGAATTCGAGAAATGTTCTTCATATTAACAAGTCATGTTCTTCAAACTTCTCTTTAGAGTTCACAAGTTTAAGTTATCACTTCTGATTCCTTCAAGTGCTCCCAATATCAAGGATATCGGTCATTAGCGAATTCCCATCACTTTGTATTTCCATCCCTTGTCCAACTACATACGTAGAAGCTGCACTTTGTTTTAGTAGCTCAATTTTGATTTCCTTTAAAATACAGAACAATTTTAGTTGCCATCATCGGAAGGCATTCAACAATTGAGATGGGTCTTGCTGGTTAGTATTGCTAATTTTGAGATTGAGCCTTTGATCAAGGTTGATCCTATTAGGAAACTTCACATCTATTTTATTGGAATGGTACTGTGTAAACATGCGAAGTGGTATTATACTTACTGATTGTTGCCTCAGAAGGAAGCTTTTGCGTTTTCTTTCATCTAAACTTAGTCTTTGAAAATTTGAGCTTAGAACTAACAGTTAGTTACTAAAATTTAAATAATTTGGTTAAGCAACTAACGAGTCTTTCTATGAAATTATTCTACATTTGTCAAAATGCCATGCATTCTGTTTCGATTACTGTTCTTACTAACTGGTTGTTATGGAGTTGATCTTGTTGGTTATTTATTACTTTTAGTATGCCGATGATCCTGTGAAAATTGGAACATGATTTTGCAAACTTGCTTCCTTCTTGGTTAATTGATTTATATTTTGTTATTTATTCAGGTGTTCCAGGTCGATCGTTTTCAAAAAGTAACAGTCTCCACGTAGAGTTATCTTCAGACACCTTGGAACCAACATCATTTCAGCACCGACTTCAAAGATCAAAAACTGAGAGGCTGAGACATGAAACCATATTTGCAGAAGATGCAGCTCATATATTAGATATTAAAATTCCCATTGATCAGAAGGTATTCGAGAAAATCCAGTCGGTTTATATGTTTTAATAAGAGACATGAAATGTAACAACTAGAAGAAGTACAATAGATATGAAAAGGAGATGGCCATATGAATCAAAGAGGATTCCAGAAAGGCCCCTCAATCGGTATGGAAAGGAGAATAGCACAACCCCATAGTTTCCATAAAAGCCACCACCCAATAGTTTCCATAAATTAGCGTCACGGAAGCTAATGCTTCAAAGGACTTTGTCATAACTTTTGGATGAAGAGCAATATTTTTACCATCCAACATTGCAATGCTTAAGCTCCTTTTCCCGAAGGCTATGACAAAAATTCAATTTACTAAATGAAACCTTCCACCCTCCTCATTCCCTTCCTACAACATGGTTAGTCGTAAGCTTTTCTCATGTTCAACAGGAATAGGAATTGTCTGAATGCAAGTTTCTTCTTCACTTTACGATATTGAATCTGTAATGTACCTTCTTTTCAAATGTTTGTTTTAATGTTTACAAATTTTGCAGATTAAATTGTTGCACAGAGTAACTACTGTGAAAGATGATGGGTCTGTCGAGTTTGAAGTTCCAGAAGACATCGAATCTCTATCTATCAACGTTGAATCTGAAGAAATTTTCACTAATGTTGATGATGAACCCCTTGATACATCTGACTTTCAGTATATAAGGCCCATGCAAATAGTAATACTTATCGTCGGAACCCGGGGAGATGTGCAGCCATTTATTCCAATTGGCAAGCGTTTGCAGGTAATTGAACTTTTTGCAATCTTTATAATAATTTCATTTTCTCCGTCTCAGATTGCCTCCTGTTGTGATTGATATCACTTGATAGTAGGTTTTCGTAGTACTCGTTTTCTCATGTGCTTATTTTCCATTTTCATTGCTATTGGGGATAGAATATAATTGGGCCTGGAGGAATTGGAATCCTCTAGGCTTTGCTGCAAAGGAAAATTGAGTACCTGCAATTTTCTGCTAAGGAAAAGCCCAAATATATGCTTTTGCCAAATCGGTGTGTTTTATGTAGATCAGACTTGGAGGGCCATCATCACTTCCTTTTAAATGCTGCTACACAGCTTCCACTTAGTGTACAATTCTCAGCCTATATCAGTTGGTGCCTTACAAATAATGGTGGTAGCTCTTCTTTAGTTTATCAAGTCACACCTTTTAAGGGGCGGGCTAGCTATAACTCTTTGGTTTGACATGGTTATGGTGCCAGTGTGGAAAATCTGGCATGAGGCTTCTCAAAGAGAGGAGTTCTTGTCTAGAAGAACTATGGGCTTCAATCAGACTCTTTACATCTATATGTAAAGCGAAAAACTTCATTCTAGCACTTCTATGCTCCTAAAAGAACCTTTTCTTCAAATTTTAGATGTTGGTAGTCTCTCAAACAGCCCAAGGTGAACTTTCAAATGATGCTGTAAACTTCTTGTGACGAATAAATACCGACCAGAAAATCCTAGTGTTCTTCTTCCAAATGGTTGTATAAATGTATGTTGATTTGTGAATCTTCAGGTTATGCTACATCAATCTAATTTCAATAATTTCAAGTGCATGAAACTCACAAAGAAATTTCATCTTTGGCAAATACTGCATCTAAATATTTATAAACAATGCTACCATTTATAAATCTTTCAAAATTCAAAGGAAGTTTCTACTTCATCCCATGGACCTTTTATCGAGATCACCCTCATGAAAATACCCATCCAAACATAGAATTAGACTCTCTTTTCGTGCGTACTAGCTTCTACTGGCGTTCCCTCCATAATCTTAAGTTTGCTTCAAAACTATCTTATTCATGGTGATTTAGTATTGTTTCAGAAACAATAGAATAGAAATAGCATTCCTCATTACTTTCTCCTTTTCCCTCTCATGTTCCCCGCCACTCTTAAGCATCCATTTCGTCTATGGAAGTCATTTTTTATGCCTTGTGGATCTTTTTGATCTTCTGAGATTCTGATCCTGACAAAATCTCAAATCCCAAGCAACATGAGCACAATTTCAAACTTCAATGACTTTCCTAGTTGGCCGAATACTTAGGCGAAAAAGATAAAGGAAAACAGTGACAATAACTCCATAACTCAGGCAAGAATTTGTTAGGTACCCAAACATAGAAAACTCAAAGTTATTCGAGAGAGCTACTCTCTCTCAAAGTTCCACATTGGAGACTCCTACAAAAATAATTTCTATCTTGCTCCCAATCCACTCCCTCTATTTATAATTAGGGTTCTCACATAATCATTTCAAAAAGAGATGGACCTACCTTACCAAGCATCGATGAACATGAATCTCTCACCTACTAGCTCCCACATTCTTGTTTTCGAAAAATATTAAAAATAAATAATAGTAGTAATAATAATAAAAATGTCCAAGTTAAGTCTAGATGTTTGTTTCTAGAGGTCATTGCAATCTCTTAGGAGAAGAGGTCATTGCAATCTCTTAGGAGATTGGTGCACACATTCACACATTCCTTTCTAAGTCAATGCCCCTACAGATGAAGTTCTTCAAGGAATCAAGAGTGACGAGGACAGGACAGAAACTTTTAGAATATGCTGCTTGGGTATTATGCCCCTTCAAGCCTTTACCTCATCCTCTGCAACTATTGTGGTCCTATAAATTTAAAACGGAAGCTTTCAGAGTCAGTTCCTTTCGTTTCTTTACAGTCAAATACTTTATTTTGTATCTTGCCAAACAACAACAGTTAGATATCAGAGGATTCTTTGTGGATCCTATGAGCCGAGTTGAGTGAAAACAAGTTTAGATTAGAAACACAAGAACGAAGGAAAAACAAAAGAGACAGTAACTTTTTAAAAATGAAACTCCCAACTTTCTCCATTGTTCAACCAAATTTTTTTACGACAACAGGTATCAAGCTTGGACTGTTGAATGACATTCCATCTTGAATGTTGAAACATAAGCTGTAGAGGAAGACTTTAGCATATGAATTACAAGTGATGAAACGTTATAAGAATGATTTTTTTTCATTTTATGGTAATTTAAAATAATCATGTTTTCCTTGTTGACTTCAAGCTTATTTTCTTGAGAATTGTATATGTAGGACTATGGCCATCGTGTTAGATTAGCTACTCATCCAAATTTCAAGGAATTTGTCTTGCTGGCTGGATTGGAATTTTATCCTTTAGGGGGGGATCCTAAAGAGCTTGCAGCTTGTACGTACTTCACACCATTTTCTTTGATGCATGCCCTGTCCTTTGGACTTTGGAGTGTGTAGCTTAATTCTATTTCTTGTTAAACAATGTACTGACGATGATAAATCATTGATCAAATGACGTTTTGATTTACTAATTAAAATCCTCAAATAAGTTCTAGAAATCCACGAGTCAATCTAAAAGACTAGTCATTTATAATATGTGAAATTGAAATTTTACTTTCTATGCAACCTTTTCTAAATGATAAATTTGTTTACTTTTATGCATCTTTTTCTAAATGCTCTTTCATTATGAATCAGATATGGTAAGAAATAAAGGCTTCTTGCCTTCTTGGCCTTCTGAGATACTTATTCAAAGAAATCAAATGAAGGAAATTATTTATTCCCTTCTTCCAGCTTGCAAAGATCCCGATATGGATACCGGGATTCCCTTTGAAGCAGATGCAATCATTGCCAACCGCACAGCATATGGTTAGATTTTGTCACCACCAATATCATTTTATTGCATCTGACATAATTGATATCCAATTTTAGCAAGGGCTAGTTTCTTAGGAACTGATCTCCAAGCACATTTAGTGATAGATAGCTTCGAATAACTGGAATCTTTCATCTTCTATTTTTATTTTATTTTCTCTTTTTGGTAAGAAACAAAATTTTTCATCGAAAGAAGAAAATCAGAGTGCAGAACTCCCATTAGAAAACAGAGAAGATAAGCAAAGAGGCTGCTTATATTTAGCTCATTTTCAATTTTCCTCTGCTGTTAAAATCTGCATCTATGTTCTTGCGTCTAAGTATATTTGTTTTTGTCTTCTGATTTCTTATGATCCATATTTCTGAAAATATTGCTTTAACCACATTCTCTAAAACCAAGTTTACTTTTCTTTTGAACTTGATGCCACATAGAAGTTGAAGAACATCGTACTTCGCACAAATATCCCACCCAAGAAATATTAAAATGCTGGAACAAGAACTGCAAACATTATATATACTCGTATGTGATATCACATTTTATTACCTGTATCAAAGTGATTATTCACTTGAAATTTGGAAACACTTGAAGTAAGTGAACTAGAGCTGTCAAAAATACTTCTTCAGCATTTTGTGGAACCAAAACGGTTCTTCTCTTTTAGTCACACATGGGAAATTGTAGGTATCTTGACAATGACTATGTTCTTAAGTTGCTTATCATGCTGCTGGTACAATTTCAGTAATCTACTAACTAAACTTACTGATAGTAATTTCTCGTCAACTCTGTATTTTAGGGCACACACATGTGGCAGAGGGACTTAAGCTACCGCTTCATATATTTTTTACAATGCCATGGACGTAAGTCTTTTGTGGGACTGGACTGATTCTGAACTATGATCTGCTTGACTTGTTCTAATGTTTATGGTTGTGTGATGCATGCATTCTTATATATATATAACATGTGAGGTTGATTGTTTAAGTCGGGACTCTTGAACTGCCTATGTTTTACTCTCCTTCAGGCCAACTAGTGAATTTCCACATCCACTATCCCGAGTCAAGCAACAAGCAGGGTATAGGGTGAGTCTGTTGCTTTTTTTTTTTTTTCCATAAAAAATTTTATATGTTCTCTTTGAAATTCAAACCATTAAGTGGAAATTTTATATGACAATCTCAAGATGGAGAATCACATATCATGGCCATTTTATATTTACAGCCAGTTTGGATATTGGGTTGTGTTTGATCACTAATCATATGTATGTGTTTGAATATACCAAAAGAATGTCTGAGAATTCAATATTTTTATTTGTTTTATGAGTTTTTCTCTTCTCTAGTATCATTGGTTCTCTTCAATTTTCAGCTTTCATATCAAATCGTTGATTCCTTGATTTGGCTTGGACTGCGAGACATTATTAATGATTTTAGGAAGAAGAAGCTGCAGATACGACCTGTAACATATTTAAGTGGTTCACAATTCTCTGAATCTGACGTGCCACATGTTTATTTGTGGAGTCCCTACATCGTTCCTAAACCCAAAGGTGGTGATTTTATACTACAACAGCATATTGCACTTTTTCTTTCTTTTTTACTACGTACAACTTTAGAATTAAAAACAGATTTTCATTTTTCTGTTTCTAGATGATTCACTTTTTGGATAAATTTCGTTTTTCCTCTCTTTGTTTACACTGATATTCAGATTATAGGCTATCATATGAGTTGTTTCTCCCTTTTTAACTTGGCTAAAATAATTAACACAAATTTCTAGATAAGTCCAAATGTATCCTAGTTGTTTCCTGTCAAAAAATTAAGACAAATTTCTTTTTGTCGAGAACTTTATTTCTTAAAAAAAATATTAATACTAAATTGGGAAATGTTGTTTAGGAAGCTTTTGTCGGATTGGCAAATTTTACTTTTATTGTCTATTGAAGCTAGAATGACTAATATTCATACCTAATTTACTTTAAGAAGTAGAAAAATATCATAACAAGTTGATAGAACCCAAATATGTTGAAATATAAAAGATAACAGAAATACAAGATAAACCAAGTGTTTGAGGTACTTGGACCTCCCAATCTTAAGATATTCCAAATTATTTTACCTTCTCCATTCCCCTACCCTCTATTTATAACCAACTTCCCTATTAAACTTCCTATCTAATTACTAATATACCCTTAATAATACCTTAATACCAATCCTATAACAATCGTTATCAAGAATCTAGAAGTAACATACCTTTTATTAAAAACAGTAGGGTTTCCTCATTTAAAATAGGTTTTGGAACTTACATCTATTCGTTATTTTTCAAGGGGGATCAACCAACTTTCACCTGACATGAGTTAGGAATTCACTAAGAAACCGTAGAGATACTTTGTAAATTGCCTTTCTCTTGGGTAGTCGGATTAAGTTATCAAATTATAGAGTTCTACGTTAGAAGGACGTCCAAAATATTTCTTGGTTTCTTATCTTTACTGTGTTGGTTATCGTGATATTCAACCCTTTTTACTGAACTTAATTTCCTTTTGTTTGCCCTGTAATTTTTTCTTGTAGTTGTATGTAGTATCTTTGAAAATGAACAAGAGAAGGAAAAGAGAAGATTTGAGCTGCCAAGTCCGTTACTCTAAGAACGCCTTTTTTAGATGTTGACATTCACTTTTTTTCTCTTTAATTTTTAGATTGGGGGCCTAAGATTGATGTTGTAGGATATTGCTTCCTTGACCTTTCATCAAATTATGAACCTCCCGAGTCACTTGTGAAATGGCTTGAAGCTGGAGACAAGCCTGTCTATATTGGTTTTGGCAGCCTTGTAAGTTTCTTGCTTCTTCCTCTCGTCAGTTAGATTTTACCCTAATTAATTTCTCACGTAAAGTATCAAGTAGGCATATTTTCATGTGATTGGATGTGGTTATGCAATTACATGATATGTTTTATTGTCACAGACTCATAGATGATATTGCTCTTAGTTAATAGTCTATCTATATTAGTTTGTGTTTTTAGTTTTTTTTCTTGTTCTTAAAATACAAGAACCAAATGTGTTTGATTACTGATTTTGATTTTTTTTTTTTCCTTTTTGAGGATAATAGAGAGGTAAGGGATTTGGAACTCAAACCTCTTAGGTTACTTGATGGTAACACATACTATGTACTATGTATAGCTAGCTAGGCTCTTTTTGGCATTAAGAGCAACAAAGAGTGATATTTTAGAGAGAGAAAATTATGTATGTAGACATATAGTTTTGGATATACTAACGTTTTTCTCCAGAAGTTTATCTCTTTCTTTTGCTAACATTGGCTCTTTGAATCTTTTTTTTACCACCTTAAATTTACTCTAAAATTTCTCAATAAAGAATGATATGCTAGAGAGAATATGCATATGGTTATGGAAATACTAACTTTTCCAAAAATTTCTCTTCCTCCAGCGTTAACATTCACTCTCAAAATCTTTATTTAGAGAGAAAAGTTAGTGAGAAATTTTAGAGTAAATTTAGGCTGTTAAAAGAAATGATTCAGAGAGCGAAATGTTAGCTAGAGAAGAGAGTTTTGGAGAAAAAGTTAGTGAGTGAGAAATTTGTGAGAGTGAATTGAGAGAAGATATGCTAGACGAATAAGAGTTGTAGTGAGACATGGTTTAGAGAGAAATTCAAGTTATATGCAGATGAAAATTTTAAAGAGAATAAATTCAAAAACAAGAAACAGTGAAGGAAATGAAACCATTATGAAACTTTCCTTTGGAGTGGGCGAAGCCTTCCCAGAATCAGCACGTGAGCTATAAGAAAAATGCGAGTATGTTTGGTTTTATAAAAACATATGTATCTCAAAGTTATACACTAATACTTGTGCAAAATTGACAATGTTTTCCAACGTGCAATAGTGCACTTTGTCCTTCAACTTGTTGGGGCCATTGAAACAACACCACCAATTAGTTATCAGATCAAGAACCAAAGATAATCAACATAAATAAACTAGAATTAGATTACATCCAACTGTTGTACACAGTTTATATAATGACAGATTGAATTTCAAGGAGGAAACTAGTTAACTAGATATAAAGAGAGAAGAATCTAGGCATGGAGTTTGAAAGTCAGATTGATGGTTTACCTACTTTTTCATTTGTTCTTCAGCCTGTACAAGATCCAGAAAAGATGACACAAATTATCATACAAGCATTGGAAACCACCAAACAGCGGGGTATCATTAATGAAGGGTGGGGTGGCCTTGGAAAGTGTAAGTGTTCAGTTTCGGTTTGATTACTAGCTCCATTTGTGTGCTCATTAAGCGATGTGGCTTTCATGACTGAATTTATGTCTTCCCTCCCAGCTGCAGAACCGAAGGACTTCTTATATTTGTTGGACAATTGCCCTCATGATTGGCTTTTTCCTAAATGCAAGGCTGTGGTGAGGCTTAGTAGATTTTTCTTTGTTGCTTTGAATGCATTTTACTACCTAGATGTTGTCTTCTATAAGCAGAGCATTAGATCATTTCAGCAGTTTAGTACATTGAATTCCCGGGTTCTTTTCTTCTCTGTACAGCCTTAAACACTGGTCTTTCATGTTTTTAATTTTAAGTGCGACAACGAAGGATCAAATAATTCAAAAAAAGAAAAAACATAGGTGGGGAATGGGAAAATCATATGGCAAAGGAACTATACTGAAGCTGCAAAATGAATCATGACAACTCCTAGCCCTAAGCCTCAAGATCTTTCTAGGATTGGACCAGAAGGAGATCTGTAGGGTTCAGATGGGACTCAATCCCCTTTGATATTAACAAGATTAGATCAGAAGCAACTACTTTCACTTGAGTATACATGTTTTTACTTCATTGCCTCTTTGTTCTCAACTCAGGTGCATCACGGTGGTGCTGGAACAACTGCTGCTGGTCTAAAAGCTGCGGTACTAGTTTCATCATCCAATATGGTTGTGTTTTAGTTTAGTTTGACTTGATTTGGTTCTGATTTTCATTGAATTCCACAGTGCCCAACTACAGTTGTTCCTTTCTTTGGTGACCAACCTTTCTGGGGGGAACGAGTACACGACAAAGGAGTTGGCCCTCCACCCATCCCAGTTGATGAGTTCTCACTTCAAAGATTGGTGAATGCTATAAACTATATGCTTGATCCCAAGGTAAAAATGGAGATCCTCTTTTCAATACTGTCTTTAACTTTTGACTACTCTTCATCAGTTTTTCTTCTTTGGAACAATATATGAGAATAGTTTGATAGAATAGTTACCTGTGAATTTCAATATCATATGATTGATTATATTATACTTTTAGTTCTTATGCTTCATTCATTCTGTCAGTTGGCCTCGATATAACATTGAAATATTTTTTTTACACTGTTTAGAATCCTTGTAACAGTGTCAGGATGTTTGGAAAATCTTATTCTGGATTGAAAAGAACATGCGATAATTTGGTTGGTTCTTGCACAAAATTATTAAGAGAGTGACTTGACAGGTAAAAGAGCGGGCTGTCTTGCTTGCAAAGGTTCTCGAGAACGAGGATGGGGTCGAAGGTGCAGTGAGAGCGTTCTTCAGGCAACTTTCTCGTAGGAAACTTGAGCCAGAGCCCGAACCTCAGAAGTCAAATCTTTTGTTTATTAGGAAGTGTTTTGGTTGCTTTTGAACGTTGGATTGGGTGGTGGGTTCTGTATTTAATTTGCAAATACCTCTTTTGCTGAATCTTGTGCAGGATGAAGATTTGTTCATGGGATGGCAAGACTACAATGAAAGCATCATGTATTATAATCGTTGTAAAATTTAAGGTTAAAGAAATAAATGTGAGTTTGATAGATTGTTTTGTTTCTGTAAAGTCATCTTTTAAGAA ACGGAAAACACCACTGCTTGCGCCATAAACCGCGTTTCTCCAAAATTCCCACATTCGAATATATCGATTACTTCTTCACTTCACCAAAATGTTCTCTACATTTGTTTTTCCCCTGTTTCCACTCCTACCCTTTGATCATCATCAATCATCATCGTTTCCCCTTTGGGAGAAACACAGAAAATTCTGTACAAGAAAACACATAAGTGGATGAATGGCTACCAGAAAGGACACTGCTCGCGGATTTGGTCCTCAATATGATCATCAAACCACCCCTCCAGGTGTTCCAGGTCGATCGTTTTCAAAAAGTAACAGTCTCCACGTAGAGTTATCTTCAGACACCTTGGAACCAACATCATTTCAGCACCGACTTCAAAGATCAAAAACTGAGAGGCTGAGACATGAAACCATATTTGCAGAAGATGCAGCTCATATATTAGATATTAAAATTCCCATTGATCAGAAGATTAAATTGTTGCACAGAGTAACTACTGTGAAAGATGATGGGTCTGTCGAGTTTGAAGTTCCAGAAGACATCGAATCTCTATCTATCAACGTTGAATCTGAAGAAATTTTCACTAATGTTGATGATGAACCCCTTGATACATCTGACTTTCAGTATATAAGGCCCATGCAAATAGTAATACTTATCGTCGGAACCCGGGGAGATGTGCAGCCATTTATTCCAATTGGCAAGCGTTTGCAGGACTATGGCCATCGTGTTAGATTAGCTACTCATCCAAATTTCAAGGAATTTGTCTTGCTGGCTGGATTGGAATTTTATCCTTTAGGGGGGGATCCTAAAGAGCTTGCAGCTTATATGGTAAGAAATAAAGGCTTCTTGCCTTCTTGGCCTTCTGAGATACTTATTCAAAGAAATCAAATGAAGGAAATTATTTATTCCCTTCTTCCAGCTTGCAAAGATCCCGATATGGATACCGGGATTCCCTTTGAAGCAGATGCAATCATTGCCAACCGCACAGCATATGGGCACACACATGTGGCAGAGGGACTTAAGCTACCGCTTCATATATTTTTTACAATGCCATGGACGCCAACTAGTGAATTTCCACATCCACTATCCCGAGTCAAGCAACAAGCAGGGTATAGGCTTTCATATCAAATCGTTGATTCCTTGATTTGGCTTGGACTGCGAGACATTATTAATGATTTTAGGAAGAAGAAGCTGCAGATACGACCTGTAACATATTTAAGTGGTTCACAATTCTCTGAATCTGACGTGCCACATGTTTATTTGTGGAGTCCCTACATCGTTCCTAAACCCAAAGATTGGGGGCCTAAGATTGATGTTGTAGGATATTGCTTCCTTGACCTTTCATCAAATTATGAACCTCCCGAGTCACTTGTGAAATGGCTTGAAGCTGGAGACAAGCCTGTCTATATTGGTTTTGGCAGCCTTCCTGTACAAGATCCAGAAAAGATGACACAAATTATCATACAAGCATTGGAAACCACCAAACAGCGGGGTATCATTAATGAAGGGTGGGGTGGCCTTGGAAAGTCTGCAGAACCGAAGGACTTCTTATATTTGTTGGACAATTGCCCTCATGATTGGCTTTTTCCTAAATGCAAGGCTGTGGTGAGGCTTAGTAGATTTTTCTTTGTTGCTTTGAATGCATTTTACTACCTAGATGTTGTCTTCTATAAGCAGAGCATTAGATCATTTCAGCAGTTTAGTACATTGAATTCCCGGGTTCTTTTCTTCTCTGTACAGCCTTAAACACTGGTCTTTCATGTTTTTAATTTTAAGTGCGACAACGAAGGATCAAATAATTCAAAAAAAGAAAAAACATAGGTGGGGAATGGGAAAATCATATGGCAAAGGAACTATACTGAAGCTGCAAAATGAATCATGACAACTCCTAGCCCTAAGCCTCAAGATCTTTCTAGGATTGGACCAGAAGGAGATCTGTAGGGTTCAGATGGGACTCAATCCCCTTTGATATTAACAAGATTAGATCAGAAGCAACTACTTTCACTTGAGTATACATGTTTTTACTTCATTGCCTCTTTGTTCTCAACTCAGGTGCATCACGGTGGTGCTGGAACAACTGCTGCTGGTCTAAAAGCTGCGTGCCCAACTACAGTTGTTCCTTTCTTTGGTGACCAACCTTTCTGGGGGGAACGAGTACACGACAAAGGAGTTGGCCCTCCACCCATCCCAGTTGATGAGTTCTCACTTCAAAGATTGGTGAATGCTATAAACTATATGCTTGATCCCAAGGTAAAAGAGCGGGCTGTCTTGCTTGCAAAGGTTCTCGAGAACGAGGATGGGGTCGAAGGTGCAGTGAGAGCGTTCTTCAGGCAACTTTCTCGTAGGAAACTTGAGCCAGAGCCCGAACCTCAGAAGTCAAATCTTTTGTTTATTAGGAAGTGTTTTGGTTGCTTTTGAACGTTGGATTGGGTGGTGGGTTCTGTATTTAATTTGCAAATACCTCTTTTGCTGAATCTTGTGCAGGATGAAGATTTGTTCATGGGATGGCAAGACTACAATGAAAGCATCATGTATTATAATCGTTGTAAAATTTAAGGTTAAAGAAATAAATGTGAGTTTGATAGATTGTTTTGTTTCTGTAAAGTCATCTTTTAAGAA ATGGCTACCAGAAAGGACACTGCTCGCGGATTTGGTCCTCAATATGATCATCAAACCACCCCTCCAGGTGTTCCAGGTCGATCGTTTTCAAAAAGTAACAGTCTCCACGTAGAGTTATCTTCAGACACCTTGGAACCAACATCATTTCAGCACCGACTTCAAAGATCAAAAACTGAGAGGCTGAGACATGAAACCATATTTGCAGAAGATGCAGCTCATATATTAGATATTAAAATTCCCATTGATCAGAAGATTAAATTGTTGCACAGAGTAACTACTGTGAAAGATGATGGGTCTGTCGAGTTTGAAGTTCCAGAAGACATCGAATCTCTATCTATCAACGTTGAATCTGAAGAAATTTTCACTAATGTTGATGATGAACCCCTTGATACATCTGACTTTCAGTATATAAGGCCCATGCAAATAGTAATACTTATCGTCGGAACCCGGGGAGATGTGCAGCCATTTATTCCAATTGGCAAGCGTTTGCAGGACTATGGCCATCGTGTTAGATTAGCTACTCATCCAAATTTCAAGGAATTTGTCTTGCTGGCTGGATTGGAATTTTATCCTTTAGGGGGGGATCCTAAAGAGCTTGCAGCTTATATGGTAAGAAATAAAGGCTTCTTGCCTTCTTGGCCTTCTGAGATACTTATTCAAAGAAATCAAATGAAGGAAATTATTTATTCCCTTCTTCCAGCTTGCAAAGATCCCGATATGGATACCGGGATTCCCTTTGAAGCAGATGCAATCATTGCCAACCGCACAGCATATGGGCACACACATGTGGCAGAGGGACTTAAGCTACCGCTTCATATATTTTTTACAATGCCATGGACGCCAACTAGTGAATTTCCACATCCACTATCCCGAGTCAAGCAACAAGCAGGGTATAGGCTTTCATATCAAATCGTTGATTCCTTGATTTGGCTTGGACTGCGAGACATTATTAATGATTTTAGGAAGAAGAAGCTGCAGATACGACCTGTAACATATTTAAGTGGTTCACAATTCTCTGAATCTGACGTGCCACATGTTTATTTGTGGAGTCCCTACATCGTTCCTAAACCCAAAGATTGGGGGCCTAAGATTGATGTTGTAGGATATTGCTTCCTTGACCTTTCATCAAATTATGAACCTCCCGAGTCACTTGTGAAATGGCTTGAAGCTGGAGACAAGCCTGTCTATATTGGTTTTGGCAGCCTTCCTGTACAAGATCCAGAAAAGATGACACAAATTATCATACAAGCATTGGAAACCACCAAACAGCGGGGTATCATTAATGAAGGGTGGGGTGGCCTTGGAAAGTCTGCAGAACCGAAGGACTTCTTATATTTGTTGGACAATTGCCCTCATGATTGGCTTTTTCCTAAATGCAAGGCTGTGGTGAGGCTTAGTAGATTTTTCTTTGTTGCTTTGAATGCATTTTACTACCTAGATGTTGTCTTCTATAAGCAGAGCATTAGATCATTTCAGCAGTTTAGTACATTGAATTCCCGGGTTCTTTTCTTCTCTGTACAGCCTTAA MATRKDTARGFGPQYDHQTTPPGVPGRSFSKSNSLHVELSSDTLEPTSFQHRLQRSKTERLRHETIFAEDAAHILDIKIPIDQKIKLLHRVTTVKDDGSVEFEVPEDIESLSINVESEEIFTNVDDEPLDTSDFQYIRPMQIVILIVGTRGDVQPFIPIGKRLQDYGHRVRLATHPNFKEFVLLAGLEFYPLGGDPKELAAYMVRNKGFLPSWPSEILIQRNQMKEIIYSLLPACKDPDMDTGIPFEADAIIANRTAYGHTHVAEGLKLPLHIFFTMPWTPTSEFPHPLSRVKQQAGYRLSYQIVDSLIWLGLRDIINDFRKKKLQIRPVTYLSGSQFSESDVPHVYLWSPYIVPKPKDWGPKIDVVGYCFLDLSSNYEPPESLVKWLEAGDKPVYIGFGSLPVQDPEKMTQIIIQALETTKQRGIINEGWGGLGKSAEPKDFLYLLDNCPHDWLFPKCKAVVRLSRFFFVALNAFYYLDVVFYKQSIRSFQQFSTLNSRVLFFSVQP* Homology
BLAST of CsGy7G012660 vs. ExPASy Swiss-Prot
Match: Q9M8Z7 (Sterol 3-beta-glucosyltransferase UGT80A2 OS=Arabidopsis thaliana OX=3702 GN=UGT80A2 PE=1 SV=1) HSP 1 Score: 662.9 bits (1709), Expect = 2.9e-189 Identity = 322/446 (72.20%), Postives = 372/446 (83.41%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy Swiss-Prot
Match: Q9XIG1 (Sterol 3-beta-glucosyltransferase UGT80B1 OS=Arabidopsis thaliana OX=3702 GN=UGT80B1 PE=2 SV=1) HSP 1 Score: 463.0 bits (1190), Expect = 4.4e-129 Identity = 219/410 (53.41%), Postives = 287/410 (70.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy Swiss-Prot
Match: Q6C8M8 (Sterol 3-beta-glucosyltransferase OS=Yarrowia lipolytica (strain CLIB 122 / E 150) OX=284591 GN=ATG26 PE=3 SV=3) HSP 1 Score: 216.1 bits (549), Expect = 9.3e-55 Identity = 124/340 (36.47%), Postives = 190/340 (55.88%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy Swiss-Prot
Match: Q5B4C9 (Sterol 3-beta-glucosyltransferase OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) OX=227321 GN=atg26 PE=3 SV=1) HSP 1 Score: 210.7 bits (535), Expect = 3.9e-53 Identity = 116/362 (32.04%), Postives = 194/362 (53.59%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy Swiss-Prot
Match: Q8NJS1 (Sterol 3-beta-glucosyltransferase OS=Leptosphaeria maculans OX=5022 GN=ATG26 PE=3 SV=1) HSP 1 Score: 209.9 bits (533), Expect = 6.7e-53 Identity = 115/354 (32.49%), Postives = 190/354 (53.67%), Query Frame = 0
BLAST of CsGy7G012660 vs. NCBI nr
Match: XP_004139716.1 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X2 [Cucumis sativus] >KGN44575.1 hypothetical protein Csa_016320 [Cucumis sativus]) HSP 1 Score: 959 bits (2478), Expect = 0.0 Identity = 463/464 (99.78%), Postives = 463/464 (99.78%), Query Frame = 0
BLAST of CsGy7G012660 vs. NCBI nr
Match: XP_008457965.1 (PREDICTED: sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 [Cucumis melo]) HSP 1 Score: 933 bits (2412), Expect = 0.0 Identity = 447/464 (96.34%), Postives = 459/464 (98.92%), Query Frame = 0
BLAST of CsGy7G012660 vs. NCBI nr
Match: XP_031744211.1 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X5 [Cucumis sativus]) HSP 1 Score: 925 bits (2390), Expect = 0.0 Identity = 453/475 (95.37%), Postives = 456/475 (96.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. NCBI nr
Match: XP_031744209.1 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X3 [Cucumis sativus]) HSP 1 Score: 925 bits (2390), Expect = 0.0 Identity = 453/475 (95.37%), Postives = 456/475 (96.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. NCBI nr
Match: XP_031744208.1 (sterol 3-beta-glucosyltransferase UGT80A2 isoform X1 [Cucumis sativus]) HSP 1 Score: 925 bits (2390), Expect = 0.0 Identity = 453/475 (95.37%), Postives = 456/475 (96.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy TrEMBL
Match: A0A0A0K4H9 (Glyco_transf_28 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G336540 PE=4 SV=1) HSP 1 Score: 959 bits (2478), Expect = 0.0 Identity = 463/464 (99.78%), Postives = 463/464 (99.78%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy TrEMBL
Match: A0A1S3C6V6 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103497529 PE=4 SV=1) HSP 1 Score: 933 bits (2412), Expect = 0.0 Identity = 447/464 (96.34%), Postives = 459/464 (98.92%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy TrEMBL
Match: A0A1S3C6Q5 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103497529 PE=4 SV=1) HSP 1 Score: 852 bits (2201), Expect = 1.23e-308 Identity = 415/464 (89.44%), Postives = 427/464 (92.03%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy TrEMBL
Match: A0A6J1D7Z6 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111018111 PE=4 SV=1) HSP 1 Score: 816 bits (2109), Expect = 4.03e-294 Identity = 390/464 (84.05%), Postives = 425/464 (91.59%), Query Frame = 0
BLAST of CsGy7G012660 vs. ExPASy TrEMBL
Match: A0A6J1D8X5 (sterol 3-beta-glucosyltransferase UGT80A2-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018111 PE=4 SV=1) HSP 1 Score: 777 bits (2006), Expect = 6.50e-279 Identity = 371/434 (85.48%), Postives = 403/434 (92.86%), Query Frame = 0
BLAST of CsGy7G012660 vs. TAIR 10
Match: AT3G07020.2 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 662.9 bits (1709), Expect = 2.0e-190 Identity = 322/446 (72.20%), Postives = 372/446 (83.41%), Query Frame = 0
BLAST of CsGy7G012660 vs. TAIR 10
Match: AT3G07020.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 662.9 bits (1709), Expect = 2.0e-190 Identity = 322/446 (72.20%), Postives = 372/446 (83.41%), Query Frame = 0
BLAST of CsGy7G012660 vs. TAIR 10
Match: AT1G43620.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 463.0 bits (1190), Expect = 3.1e-130 Identity = 219/410 (53.41%), Postives = 287/410 (70.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. TAIR 10
Match: AT1G43620.2 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 463.0 bits (1190), Expect = 3.1e-130 Identity = 219/410 (53.41%), Postives = 287/410 (70.00%), Query Frame = 0
BLAST of CsGy7G012660 vs. TAIR 10
Match: AT1G43620.3 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 463.0 bits (1190), Expect = 3.1e-130 Identity = 219/410 (53.41%), Postives = 287/410 (70.00%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucumber (Gy14) v2.1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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