CsGy4G000060 (gene) Cucumber (Gy14) v2
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TTACTGACCGAGAAGCTAAGGAGTCATCATCTTCACCAAAACCCCTCTCTCTCTCCCCTTAAATATTTTCGCCGACTTTCCATTTCTGTTCCACATTTGAATCTCTCAAATTTCTCTCCCCTTGCATCTGAAAATTCTTCTCTCAATTCCATTTCCATGGCGCTGCCGTCCAACAGGTCCTCCTCTCCGTCATTTCTGTCCGGAAGAACAAGCCCTAATTCAAGAAGTTCCGAAATCAGTAACCCCATCCGCCGGAGCTTCTCGGGTAACCCGTTTTCAAAGCAATCCATAGTTGCCAATCCCAGAGGCTTAAACCCTATCACTCCGGCCAATAGTCCCTCTGGTATGGTTTTGGTTTCTTCATGGTTATTCTTTTCATAGGGATCTTAGAGTGGTTTAAATCTGTTTGGTTAATGAATTTTTTTTTTTTTTTTGGGTTTGTAAAAGAATATCTGTTCGTTGGTATCTGGCTATGAGTTCGCCATTTCCTTGCTTGGTTTCTTCCTTTATATTTTTGCTTGGTTCAATTTTGTTTGTTTGCCGAGAATGTTTAGGGTTTTTTCCTTTTTTTTTTTGCTACAAAGAAATCTTCCATTCTTTTTAATCTCAAATTGCTTCCATCTTCAACGTTTGAATCTGCGATCTGTGTTTTTACTTGTTTATTTTTTAATAAAAATTTTAGATTATCCACGAAGAAACTCAGTGAACAGAGAAAATTCATTTACTTCTCGGGACATCTCGGAGAAAGAAAATGGTAAAGATCAGAGTCCTAAACCCGTTCGAGTTCGTTCACCGATAGTTGGAAAATCGTCGAAGCATTTTATGTCTCCTACAATTTCCGCTGCCTCCAAGATTGCAGTCTCTCCAAGGAAGAAGGTTCTGGGTGATCGGAACGAGCCAGCTCGGTCCTCTATTTCATTTTCCGGAATGAAGAGCTCTTCACTCAACTCGGTGAATCGAAGTTTGGAGGCACCAGAGGCACTTGAATCCGATACCAACTCTCAAATTCCTCCTGTTTCAAATTCAAAAACAGCAAAGATAGTGAGATTTGGTGGTTTTGAGGTCATTTCTGATTCATTTGACGATTCGAAATCCACTTACAGATACGATTTGAACCCGGAGATGGTGGTAACAATGGCAGTCGAAACCGATATGACGTCTGGAAATGCTCAAGTTTCAAAATCCACCAATGCTGTAGCACCTTCCGAACCATCTAATTCTGAGTTTGCGGTAATCTCTGTCTCGAACAACGATTTAGACTCTCCTCCAGCTAAGAGTAATTTAACTGAAGAAGTGGATTGTGTCAATCTTGATCTTGATCAAAGTTTTAAGATAAGTCCTGTTTCTTCTCCAACAATAGCACCTCTCGATGCTGATCCATCACTTCCCCCTTATGATCCAAAAACTAATTATCTGTCTCCAAGGCCTCAGTTCCTCCATTACAGACCAAACCGAAGAATCAATCGATTTGAACCAGACGGCAGACTTGAGGAAAAGCTCCTTTCCTTTGCCAATGTTTCCGAGTCTGAATCTGTGGAGGAAACTGATTCTGAAGATTCATCAAAGGAACTTGATGAAGCTTCTTCCAACGAATCGCAGATGGAAGAAGAAGAAGATGAAGTGGAAGAGGAGGAGGAGGGGATTAATGTTTCTGAACAAAGCCCAACAAAAGTTCAAAAGTCATGGAAGGTGTCCGTGTCAAGAATATTCAAGATCAGCTCTTTGCTTTTGATCTTGTTTACTGCTTGTTTTTCTCTTTATGTTGTGAATGTTCATGATCCGAGTATCTTCAAGAGGCCAAGCTCATTAACAATGGAAGATGCATCCGAAATTTACGAGCTGGCAAAAACAAATTTCAATGTGTTCGTCCAGAAACTTGAGGTTTGGAATGTGAATTCCATCTCTTTTATTTCTGATATGGTTTTCAATTTCAGAGGAGGGCTACCACTGGTTCATTATGAAAACCAGACCGAGTTCTTCAATATGAATGAGCAGTGTCTTGTATTATCTCATCAAACTGTGTGGGAAGAAGAAAACATATTGAATGTAATGGAAGCCATGAAGGATGGAGACACTGACATTTTTGAAGAACCTATTGAGATAGAAGAACGACAAGAAGAAGAAGAAACTGACATTTTTGAAGAACTTGTTGGAATAGAAAAGCGACCAGAAGAAGAAGAAATCGGCATTTTTGAAGAACCTGTTGAAAGAGAATCCGAGAACGAAGAACAAGAACAGGAACAACAAGTAGACTTGTTGCAAGAGATTGAAGCAATGAAGATGAGAGAAATTGGTATTGAAAATTTTGAAAGAGAATCTCAAAATGAAGAAGAGCTAGAAGAGGTATCATTTCAAGGAAGTGATGAAGTCAATGCCAATGAAGAAGAGAAGAATGGAGAGGTTTTTGAAGAACCATTAGAAGAAATCAATGAAGAGACCTCAGAAAATTCAGCTTCCGATGAACTATGTGAAGAAGAAGAATACATCCAAGAGAAATCTGAGGACAATTTCAAATTTTCTTCAACGGATGATTTCAAATTTCATGATCAAATTAGACAAGAAGCGGCAGCAGCAACAGGGGAAACAGAGGGAGCAAAGAACACAGAATTGCAATACCAGTCACCTCCAGTTGAACGTCAAACTGACTTTGACCATGAAATTGGAGGCAGAACCATTGATGTCATCAGAACAGAAATCGGAATCTCTCGGGATTTTACACAAACCAAAGCTATTATAATATCTGCTATACTGCTGGGTTTATCTCTTGTAACTGCAGGACTGATTTATGGAAGAAAATCAGGCTCAAAACCACCACCACTATCCATTGCCGATGAGCAAAAGAAGGAGCAGCCTCTGATGAACATGAGTCGAGTGGAAGAAAAAGATGATGAAGAAGATGATATGGGTGGAGAATTTTCTATTTCTGAAACCAGTAGTTTCCAATACAGTAGCATGAGGGAAGGAGAAACAAAAGCAGACAAAACATTGAATGAAGTTGAGAGCCATAGCCATGTAAGGAGGAAGATGAAGAAGAATTCAAGAAGAGAATCAATGGCTTCTTCTCTAGATGAATATTCATTGTCCACTTCAGCTTCTCCATCTTATGGGAGTTTCACGACCTATGAGAAGATCCCAATCAAGCATGTGAGTATCTCAAATTTGGAGTTCATTAGTAATGTGATATTTTTCTTTCTTGTCCTTTTGATTTTATTTTTAATTAACTTATTTAAAATAGGATGTGTTCAAATTATTTCAAAGTACAGTTTTATAAAATCCAATTATTATAAAGATTATTGTTTTGCAAAACAGCTCAAGTCAAAAATAAAAAATTTTAAAAGATGATATTTGGTAATTTACATAAATTGTTTTTTTTCTCTTATCTAATTCTTTCTATTTGTTTGTTATAGGGTGATGAAGAGATTGTGACTCCTGTGAGACGTTCTAGTAGAATTAGAAAGCAACACAACAATAGTTGAATTAGGTGAACTTGGAATATGCTTCTGTGGTTTGAAATTTAGAATATTTTGTGTAGGTAATGTCAATCTTCATTACTAAGATTAGAGCTAGAGAGCAAAGGCAACCGTAGTTGCTATTTTCATCTGTTATATAAAATGTCTTTGTTGGGACTCCTGAGACTATTTTGTTGTGCATACATTTTAAGTTCTTAGTTCTTCATTCTAACAAGAAAAACCTACCCCTCTACACAAAATTTTGTAGATTAAATTGACACAAAATGTATGAAATGATTTGTTGTTTGGATCTTTTTTATATATATAAATAATTATTTGACTTTTTATTTCAAGTAAAAAAAGATAATTGTGTTAATTGATTATTTAATCAAACTTAAATTAATTGAGTGTGAGTTTTCCACTGAAGACTGGAGGAGATAAGGTAATATATATTTAAAAAGCCTATCTATTTTTTATCCTTTTTATCGTCCTTTTTCATCGTTTACTTCACAAACTCCTTCACATCTCTAACAGGTCACAACTCAGTTTTTCGTCTTTCTTCCCTATTTTGATATTTTAAAATGACACCTGTTTGTATCGAGGTTCAAATCTTGTACCCTTACATTTTTTAATTGCAATAAATTTTTTTAAAAAAATATTTAATGTAGAAATTACAAATTTTAAAAATTGAGGGGTAGCTGTAAGTGGATAAAATAGTAAAAAAAGTAAATAAATAAAAGGATGAAGTATAGTTTTGGGGTTTGAAAGGTAAGAAGGGGAGAGACCTCCAGCTGTCGTCCAACAGCTGGGTCCGTATATTTTGGTGGGTTTTATATATATTTGCATATGCCGTCCGTACATCTTTGTCCCTTCCTCAACCAATCCTTTTTTTTCCCCTTAATATCATCTTTTGATTAATCCAAAATTTTAACCTATAGATTTAATTATATAACTGTCCTCTTCCTTCCTAACCCCTTTTGATATCCATAATAATAATAATACCTAACATGAAAATACACATATATAATCTAATGTTTTTTAGCTTATTGTTCTAAAAAATTAATTATCAAATTTTCATTGCCTCATATGCCACTCTTTTGTTTCATCCATATAATTCTATATCTACTACTCATTTTCCTCATAAATAGTGACATGCATTTGATGAAACTTTAAGAGATTTGCGTATTAACAAGAATTTGAAATAATTCTGGATCTATGAGTTTCTTTTTCTTTTTTTATCTCTATTCTTTATCAAATTTAAGCTTAATTTTGAAAACAAAAAAAAAAAATTAATGAAAATTTTGATAAAATATTTACAAAAAATATAACAAAATTTTAAAATTTTAGTTATAATAAAAAAAGAATTACCAAATGACACCCAAAGCGGTTTGGAACCAATAACCACTTCTTATTAAGCTAGATCTACATTTACTTCTCAGAGTAATTATTGCTATCTATTGCAATTTATTGTAGTGATTTTTTAATTTTTTTAAATTTTCATTTGAAACAAGTTAGAAGTAAATAATTGATAATTTAAGAGAAGAATTTGTTAAAGATTTAGGAAAATTCCAAAAGAAATGGGAAAGGGAGAAAAGGGTTTTGGGTCGGACAGAACTGCAGGAAACAGTGGGTGGCACGTGAGGTTTAGAGGTTGAACCTAAACCACAAGCCAACGCCGGGAAAGTTAGTTGACCGGTAAAGTTCAAATTAATTTATATCTCTTCTTAACACCTAAACACTGTGACAAAAGTCTTCTTCCCATTCATAAATAATTAGGGTTCTTCTCATCGAATATTCTTCTTCTTCTTTCTTGTTAAATCCACCATTGTTCCTTACTCGGCGGACTATACTATTTGAAGCTATCTAAGGCCTCTTCTTGCAGAAGAAGGCTAGATAGTTGCAGAGTTACTTAATCTTCTTTCTTGTTTTTTGTTAATGGCGGAGGTCAATGCTATGATGATTCGTGCTCGCTGTAATTTTATGGTGAGAAACCCTGTGTTGGATGTGAAGCGTTTGGGCTTTCGGATGCCGGTTATGGGTCGCCGAACAGTTTGGTGTAGTCGGAGGAGGATGAAGGGGAGAGTTGGAAATGGAGTGAAGGCGACAATGCAGGTCGATTTGGAGGATGAGGAGAGGTTGAAAAGATTGGAGGGTTTAGAGGCCACTTTAGGGCTTGATATTGTAGCGGAGAGGGAATTGAAGGAGAAGGGGTTTTTAGGGATGAGGAAGACGAAGCTTGTATGCACTGTTGGTCCAGCGTGTAGTGGGATTGCGGATTTGGAGAAGTTAGCGTTGGAAGGTATGAATATTGCGAGATTGAATATGTGTCACAACTCGATGGAGTGGCATTGTGATATGATTAAGAAAATCAAGAAGTTAAATGAGGAGAAAGGATTCTGTATTTCGGTTATGATTGATATTGAAGGAAGTCAGATTCATGTGGTTGATCATGGAGCTCCTTCCTCTGTAAAAGTTGAGGTAAATTGTAATTGTCATGTCTCTGTTTTCATTGTTTCCCTTTACTGTAGTCTAAATTCTCTGGTCGTCATTGTTCAGGATGGTTCAATCTGGTTGTTCACTGCTAAGAAATTCGAAGGTTCTCGTCCATTCACTGTGCAAGCGAGCTATGAAGGTTTCTCTGAAGGTGCGTTTTGAATCGTGTATTCTATTTGTGATCGAAGAAATATTTGAATCCGAGAAGCTAATTAGGACATGGTTTTGAAGTTGAAGATCTTGTTTTTACGAATTTGGGCAGGTATCCGAGTGGGTGATTCAATTGTAATTGATGGGGGAATGGCAACCTTTGAAGTTATTGAAAAGATTGGGAATGATTTAAGCTGCAGGTGCACAGACCCAGGTTTATTTCTTCCTCGGGCGAAGTGTAGCTTTTGGAGAGATGGAAGGCTTGTTATGAGAAATCACGAGTCTCCCACGTTGTCAAGTAAGGTAGGAACGTTTTTCCTGTAATATCAATATTCATACTGAGAAATTTATTTTTGATAAATATAATTAGAAGTGCTCACTCTTAAGTTAAACTTTCAAGTATGATGTATTCAAAGATCAAGAACCTAAGATGTTGCATTCTTCGTTTTGGTATTACTATGGAGGAAATCTTATATCCATTATTTTCGAAGTTTTCTTTCTGTGGGATTACAAGTTGGGTCCACTATCTTGAGTCGTGGGGACAGTTTCATGGTTCGACATTTTTTGTTACTCTGGGTTGTCAACATGGCAATGTTTTTACTTGATTCAATATGGGAATAACAGTTTAAGGTTCATTATTTAAGAGTTGGCTTCTTGTTGTGGTTGTCAACACTACGAGTTCAATTTCAAAATTTTTCTTTTTTGGGTGCCAGCATTAAAAGTTTATTCCTGGACATTTTCATCTCTGTCGTGAAGAAAATTTATCTATTTTTATGCACGTAAAACTAATTTTCTTGACAATTGTCTCTCCATTGACGAGGTTGACTTTCTCATATTAATGCAGAGTAAAAGGTCTTGGTATTATGTAATTAAATTTATCTAACCTATCAACTTATATATTTTTAGGCTGATCGATGTATTGGATCTTTCTGATTAATGTCATTTCTTCTAATTAATGTTAATTTTCACATGTGAACTTTTTACAAATTTATAATTCACGAGCCCGAGTATTAAACTATTGAAATAATTTCAGGTTGACATGGAATTCAATTAATATGATGGTGTATTACGTTATTCGGTTTTCCGTTGTGCAGGATTGGTCGGACATTGAATTTGGAATTTCAGAAGGCGTGGACTTCATTGCCCTTTCTTTTGTGAACAGTGCAGATCCTGTCAGGCATCTAAAGAACTACCTTTCAACAAAATCAGCGAAGTAAGCATCGATTCAAGAAGTCAATATTTTACCATGAGTTAGGTCGAAATATCACTATCACTACTATGCATGAACTTTTGATTCCTTGTCTTTTTTTAATTGAATTTTCAACAGCATTTCATAAGATGGATTCCCATGACACTATTGAGGCATTATTTTCCGCAAATTTTGATTACTGAAACAGATTGGGTAATTTTAAAACTTCGCTCAAGTGATGAAGTGTATATTCTCTTTTTCATGCACAGATCTATAAGGGTATTGGCTAAGATTGAAAGCTTGGAGGCCCTTCAAAATCTGGAAGAAATTGTAGAGGCCTCTGATGGAATCATGGTGGCTCGAGGGGACCTTGGGGTTGAAATTCCGCTCGAGCAGATACCAGCAGTGCAAGAGGAAATAACCAGAGTTTGTAGGGAATTGAACAAACCAGTGATCATAGCTTCTCAACTTCTAGAGTCCATGGTTGAATATCCTACCCCAACACGTGCTGAGGTACAAGTGACATGTGCTTTTGATTGTTTTCAATTTTGGACTTGTTTGAAATGACTATCTAAGTATTTAGAAAAGTGTCTTTTTAAGGCTCTTCTTGTGCTCTCCAGAAGGCTGAGATTTCATACTCTTCGTGTTCAATAGGTTGCAGATGTTTCTGAAGCTGTCCGACAATATGCTGATGCGTTGATGCTATCTGGGGAGTCTGCCATAGGATCATATGGACAGAAAGCACTTTCGGTTCTACAGATGGCCAGCAGCCGAATGGAATTATGGAGTCGTGAAGAAAATAGGAACAATTTCCTTCCCCAGCATCAACTTGGAGTGTCATTGCATGATCGCATTGCAGAAGAAATTTGCAATTCTGCAGCTGAATTGGGTAAAACTCACTTTTCTCCACTTTCTTTTTAAACAAAGTCCATCGTATGGGATCGTCAAAATAACATCATAATTCCCTTTTGGCTATGTCTCATGTCTATCGGCTACCTTCTTTATTACGTAATCATGCAAAAGAAAATCGTATGAAATATATTGGCTTGCCATTTTAGTCCATTCTTCTGCGCTTAGTTTCAATGTGGTATTTCTGGTTTAGAAGTATATATCATCAAAATCCTTCAAAAACATATCGGCTGGATGTTTTCACTCATTTCTGTTCTGAGTCACTGTCACACTGTTCTCGATCAAATTTTTAAAAAATCTTTTACTTATTAAGTAATTTAAAAACCTTTGTAAAAGGTAAGAGTAGAGTAATATCGTAACTTCCACAAGTACAGGGCTAGTTTTGAAACAAATGGTCAGTTGGAGGATATTTTCTTATGATTTAACCTTAAAAGTTGTTAACAATTGGTAACAACAGAGAAGTTTTGTGAGAAAAAGCTGGTTGTGTCATGGTGTGGTAGAACTAGAACACTGAGTCTTTGATTCTTAGGTTTGAAGAAGTAAATCAATTACCTTCAAAACAAGAGGTTCTGTTTGTTTGAATGTTGCTAATTGCATTTGGCCCACGTTTCCACTAAAATAAAAACCTCCATATTCTTTGTGGCAGCTAACAGACTTTCAGTAGACGCCATATTTGTGCTCACAAATCAAGGGCATATGGCATCTCTCCTTTCCCGGAACCGCCCAGGGCCGCCAATATTTGCATTAACCGACGATGATAGCACAAGAATGGCTTTGAATCTACAATGGGGAGTGTTTCCTTTGCGAATTGACCTCTCAGAAGACATTGAAGCAAACATCTCAAGAGGGATCGAGGTTGTGAAATCAAAGGGATTGGTAAAACAGGGGGACTCTGTGCTTGTGGTCTCAGAGATCTCTCCAGCTCGAGCTGCGTCAATGGCGTCCCAATCAATTCAGCTCAAAACCATCGTGTAGAACAAAGAAAAAACAGGTCAAGCTTTGTAAGTGAAACTTTATGATTGCATGTATCATATGTGGTGGATATTACACGTGAATGTTGCATCTTATCATTTGTGGCCCTCTGTTTGTAACGACTATTGAAGCCTTTGATAGGTTGTTTATTATTATTTGGAAAATGTAATAACTCTACTCAAATTTGAATTTAGTTTTAATAGTATTGTATTGTTTTGTTTGGTAA TTACTGACCGAGAAGCTAAGGAGTCATCATCTTCACCAAAACCCCTCTCTCTCTCCCCTTAAATATTTTCGCCGACTTTCCATTTCTGTTCCACATTTGAATCTCTCAAATTTCTCTCCCCTTGCATCTGAAAATTCTTCTCTCAATTCCATTTCCATGGCGCTGCCGTCCAACAGGTCCTCCTCTCCGTCATTTCTGTCCGGAAGAACAAGCCCTAATTCAAGAAGTTCCGAAATCAGTAACCCCATCCGCCGGAGCTTCTCGGGTAACCCGTTTTCAAAGCAATCCATAGTTGCCAATCCCAGAGGCTTAAACCCTATCACTCCGGCCAATAGTCCCTCTGATTATCCACGAAGAAACTCAGTGAACAGAGAAAATTCATTTACTTCTCGGGACATCTCGGAGAAAGAAAATGGTAAAGATCAGAGTCCTAAACCCGTTCGAGTTCGTTCACCGATAGTTGGAAAATCGTCGAAGCATTTTATGTCTCCTACAATTTCCGCTGCCTCCAAGATTGCAGTCTCTCCAAGGAAGAAGGTTCTGGGTGATCGGAACGAGCCAGCTCGGTCCTCTATTTCATTTTCCGGAATGAAGAGCTCTTCACTCAACTCGGTGAATCGAAGTTTGGAGGCACCAGAGGCACTTGAATCCGATACCAACTCTCAAATTCCTCCTGTTTCAAATTCAAAAACAGCAAAGATAGTGAGATTTGGTGGTTTTGAGGTCATTTCTGATTCATTTGACGATTCGAAATCCACTTACAGATACGATTTGAACCCGGAGATGGTGGTAACAATGGCAGTCGAAACCGATATGACGTCTGGAAATGCTCAAGTTTCAAAATCCACCAATGCTGTAGCACCTTCCGAACCATCTAATTCTGAGTTTGCGGTAATCTCTGTCTCGAACAACGATTTAGACTCTCCTCCAGCTAAGAGTAATTTAACTGAAGAAGTGGATTGTGTCAATCTTGATCTTGATCAAAGTTTTAAGATAAGTCCTGTTTCTTCTCCAACAATAGCACCTCTCGATGCTGATCCATCACTTCCCCCTTATGATCCAAAAACTAATTATCTGTCTCCAAGGCCTCAGTTCCTCCATTACAGACCAAACCGAAGAATCAATCGATTTGAACCAGACGGCAGACTTGAGGAAAAGCTCCTTTCCTTTGCCAATGTTTCCGAGTCTGAATCTGTGGAGGAAACTGATTCTGAAGATTCATCAAAGGAACTTGATGAAGCTTCTTCCAACGAATCGCAGATGGAAGAAGAAGAAGATGAAGTGGAAGAGGAGGAGGAGGGGATTAATGTTTCTGAACAAAGCCCAACAAAAGTTCAAAAGTCATGGAAGGTGTCCGTGTCAAGAATATTCAAGATCAGCTCTTTGCTTTTGATCTTGTTTACTGCTTGTTTTTCTCTTTATGTTGTGAATGTTCATGATCCGAGTATCTTCAAGAGGCCAAGCTCATTAACAATGGAAGATGCATCCGAAATTTACGAGCTGGCAAAAACAAATTTCAATGTGTTCGTCCAGAAACTTGAGGTTTGGAATGTGAATTCCATCTCTTTTATTTCTGATATGGTTTTCAATTTCAGAGGAGGGCTACCACTGGTTCATTATGAAAACCAGACCGAGTTCTTCAATATGAATGAGCAGTGTCTTGTATTATCTCATCAAACTGTGTGGGAAGAAGAAAACATATTGAATGTAATGGAAGCCATGAAGGATGGAGACACTGACATTTTTGAAGAACCTATTGAGATAGAAGAACGACAAGAAGAAGAAGAAACTGACATTTTTGAAGAACTTGTTGGAATAGAAAAGCGACCAGAAGAAGAAGAAATCGGCATTTTTGAAGAACCTGTTGAAAGAGAATCCGAGAACGAAGAACAAGAACAGGAACAACAAGTAGACTTGTTGCAAGAGATTGAAGCAATGAAGATGAGAGAAATTGGTATTGAAAATTTTGAAAGAGAATCTCAAAATGAAGAAGAGCTAGAAGAGGTATCATTTCAAGGAAGTGATGAAGTCAATGCCAATGAAGAAGAGAAGAATGGAGAGGTTTTTGAAGAACCATTAGAAGAAATCAATGAAGAGACCTCAGAAAATTCAGCTTCCGATGAACTATGTGAAGAAGAAGAATACATCCAAGAGAAATCTGAGGACAATTTCAAATTTTCTTCAACGGATGATTTCAAATTTCATGATCAAATTAGACAAGAAGCGGCAGCAGCAACAGGGGAAACAGAGGGAGCAAAGAACACAGAATTGCAATACCAGTCACCTCCAGTTGAACGTCAAACTGACTTTGACCATGAAATTGGAGGCAGAACCATTGATGTCATCAGAACAGAAATCGGAATCTCTCGGGATTTTACACAAACCAAAGCTATTATAATATCTGCTATACTGCTGGGTTTATCTCTTGTAACTGCAGGACTGATTTATGGAAGAAAATCAGGCTCAAAACCACCACCACTATCCATTGCCGATGAGCAAAAGAAGGAGCAGCCTCTGATGAACATGAGTCGAGTGGAAGAAAAAGATGATGAAGAAGATGATATGGGTGGAGAATTTTCTATTTCTGAAACCAGTAGTTTCCAATACAGTAGCATGAGGGAAGGAGAAACAAAAGCAGACAAAACATTGAATGAAGTTGAGAGCCATAGCCATGTAAGGAGGAAGATGAAGAAGAATTCAAGAAGAGAATCAATGGCTTCTTCTCTAGATGAATATTCATTGTCCACTTCAGCTTCTCCATCTTATGGGAGTTTCACGACCTATGAGAAGATCCCAATCAAGCATGGTGATGAAGAGATTGTGACTCCTAATATTTTGTGTAAGAAGGGGAGAGACCTCCAGCTGTCGTCCAACAGCTGGGTCCGTATATTTTGGAAAATTCCAAAAGAAATGGGAAAGGGAGAAAAGGGTTTTGGGTCGGACAGAACTGCAGGAAACAGTGGGTGGCACGTCAATGCTATGATGATTCGTGCTCGCTGTAATTTTATGGTGAGAAACCCTGTGTTGGATGTGAAGCGTTTGGGCTTTCGGATGCCGGTTATGGGTCGCCGAACAGTTTGGTGTAGTCGGAGGAGGATGAAGGGGAGAGTTGGAAATGGAGTGAAGGCGACAATGCAGGTCGATTTGGAGGATGAGGAGAGGTTGAAAAGATTGGAGGGTTTAGAGGCCACTTTAGGGCTTGATATTGTAGCGGAGAGGGAATTGAAGGAGAAGGGGTTTTTAGGGATGAGGAAGACGAAGCTTGTATGCACTGTTGGTCCAGCGTGTAGTGGGATTGCGGATTTGGAGAAGTTAGCGTTGGAAGGTATGAATATTGCGAGATTGAATATGTGTCACAACTCGATGGAGTGGCATTGTGATATGATTAAGAAAATCAAGAAGTTAAATGAGGAGAAAGGATTCTGTATTTCGGTTATGATTGATATTGAAGGAAGTCAGATTCATGTGGTTGATCATGGAGCTCCTTCCTCTGTAAAAGTTGAGGATGGTTCAATCTGGTTGTTCACTGCTAAGAAATTCGAAGGTTCTCGTCCATTCACTGTGCAAGCGAGCTATGAAGGTTTCTCTGAAGGTATCCGAGTGGGTGATTCAATTGTAATTGATGGGGGAATGGCAACCTTTGAAGTTATTGAAAAGATTGGGAATGATTTAAGCTGCAGGTGCACAGACCCAGGTTTATTTCTTCCTCGGGCGAAGTGTAGCTTTTGGAGAGATGGAAGGCTTGTTATGAGAAATCACGAGTCTCCCACGTTGTCAAGTAAGGATTGGTCGGACATTGAATTTGGAATTTCAGAAGGCGTGGACTTCATTGCCCTTTCTTTTGTGAACAGTGCAGATCCTGTCAGGCATCTAAAGAACTACCTTTCAACAAAATCAGCGAAATCTATAAGGGTATTGGCTAAGATTGAAAGCTTGGAGGCCCTTCAAAATCTGGAAGAAATTGTAGAGGCCTCTGATGGAATCATGGTGGCTCGAGGGGACCTTGGGGTTGAAATTCCGCTCGAGCAGATACCAGCAGTGCAAGAGGAAATAACCAGAGTTTGTAGGGAATTGAACAAACCAGTGATCATAGCTTCTCAACTTCTAGAGTCCATGGTTGAATATCCTACCCCAACACGTGCTGAGGTTGCAGATGTTTCTGAAGCTGTCCGACAATATGCTGATGCGTTGATGCTATCTGGGGAGTCTGCCATAGGATCATATGGACAGAAAGCACTTTCGGTTCTACAGATGGCCAGCAGCCGAATGGAATTATGGAGTCGTGAAGAAAATAGGAACAATTTCCTTCCCCAGCATCAACTTGGAGTGTCATTGCATGATCGCATTGCAGAAGAAATTTGCAATTCTGCAGCTGAATTGGCTAACAGACTTTCAGTAGACGCCATATTTGTGCTCACAAATCAAGGGCATATGGCATCTCTCCTTTCCCGGAACCGCCCAGGGCCGCCAATATTTGCATTAACCGACGATGATAGCACAAGAATGGCTTTGAATCTACAATGGGGAGTGTTTCCTTTGCGAATTGACCTCTCAGAAGACATTGAAGCAAACATCTCAAGAGGGATCGAGGTTGTGAAATCAAAGGGATTGGTAAAACAGGGGGACTCTGTGCTTGTGGTCTCAGAGATCTCTCCAGCTCGAGCTGCGTCAATGGCGTCCCAATCAATTCAGCTCAAAACCATCGTGTAGAACAAAGAAAAAACAGGTCAAGCTTTGTAAGTGAAACTTTATGATTGCATGTATCATATGTGGTGGATATTACACGTGAATGTTGCATCTTATCATTTGTGGCCCTCTGTTTGTAACGACTATTGAAGCCTTTGATAGGTTGTTTATTATTATTTGGAAAATGTAATAACTCTACTCAAATTTGAATTTAGTTTTAATAGTATTGTATTGTTTTGTTTGGTAA ATGGCGCTGCCGTCCAACAGGTCCTCCTCTCCGTCATTTCTGTCCGGAAGAACAAGCCCTAATTCAAGAAGTTCCGAAATCAGTAACCCCATCCGCCGGAGCTTCTCGGGTAACCCGTTTTCAAAGCAATCCATAGTTGCCAATCCCAGAGGCTTAAACCCTATCACTCCGGCCAATAGTCCCTCTGATTATCCACGAAGAAACTCAGTGAACAGAGAAAATTCATTTACTTCTCGGGACATCTCGGAGAAAGAAAATGGTAAAGATCAGAGTCCTAAACCCGTTCGAGTTCGTTCACCGATAGTTGGAAAATCGTCGAAGCATTTTATGTCTCCTACAATTTCCGCTGCCTCCAAGATTGCAGTCTCTCCAAGGAAGAAGGTTCTGGGTGATCGGAACGAGCCAGCTCGGTCCTCTATTTCATTTTCCGGAATGAAGAGCTCTTCACTCAACTCGGTGAATCGAAGTTTGGAGGCACCAGAGGCACTTGAATCCGATACCAACTCTCAAATTCCTCCTGTTTCAAATTCAAAAACAGCAAAGATAGTGAGATTTGGTGGTTTTGAGGTCATTTCTGATTCATTTGACGATTCGAAATCCACTTACAGATACGATTTGAACCCGGAGATGGTGGTAACAATGGCAGTCGAAACCGATATGACGTCTGGAAATGCTCAAGTTTCAAAATCCACCAATGCTGTAGCACCTTCCGAACCATCTAATTCTGAGTTTGCGGTAATCTCTGTCTCGAACAACGATTTAGACTCTCCTCCAGCTAAGAGTAATTTAACTGAAGAAGTGGATTGTGTCAATCTTGATCTTGATCAAAGTTTTAAGATAAGTCCTGTTTCTTCTCCAACAATAGCACCTCTCGATGCTGATCCATCACTTCCCCCTTATGATCCAAAAACTAATTATCTGTCTCCAAGGCCTCAGTTCCTCCATTACAGACCAAACCGAAGAATCAATCGATTTGAACCAGACGGCAGACTTGAGGAAAAGCTCCTTTCCTTTGCCAATGTTTCCGAGTCTGAATCTGTGGAGGAAACTGATTCTGAAGATTCATCAAAGGAACTTGATGAAGCTTCTTCCAACGAATCGCAGATGGAAGAAGAAGAAGATGAAGTGGAAGAGGAGGAGGAGGGGATTAATGTTTCTGAACAAAGCCCAACAAAAGTTCAAAAGTCATGGAAGGTGTCCGTGTCAAGAATATTCAAGATCAGCTCTTTGCTTTTGATCTTGTTTACTGCTTGTTTTTCTCTTTATGTTGTGAATGTTCATGATCCGAGTATCTTCAAGAGGCCAAGCTCATTAACAATGGAAGATGCATCCGAAATTTACGAGCTGGCAAAAACAAATTTCAATGTGTTCGTCCAGAAACTTGAGGTTTGGAATGTGAATTCCATCTCTTTTATTTCTGATATGGTTTTCAATTTCAGAGGAGGGCTACCACTGGTTCATTATGAAAACCAGACCGAGTTCTTCAATATGAATGAGCAGTGTCTTGTATTATCTCATCAAACTGTGTGGGAAGAAGAAAACATATTGAATGTAATGGAAGCCATGAAGGATGGAGACACTGACATTTTTGAAGAACCTATTGAGATAGAAGAACGACAAGAAGAAGAAGAAACTGACATTTTTGAAGAACTTGTTGGAATAGAAAAGCGACCAGAAGAAGAAGAAATCGGCATTTTTGAAGAACCTGTTGAAAGAGAATCCGAGAACGAAGAACAAGAACAGGAACAACAAGTAGACTTGTTGCAAGAGATTGAAGCAATGAAGATGAGAGAAATTGGTATTGAAAATTTTGAAAGAGAATCTCAAAATGAAGAAGAGCTAGAAGAGGTATCATTTCAAGGAAGTGATGAAGTCAATGCCAATGAAGAAGAGAAGAATGGAGAGGTTTTTGAAGAACCATTAGAAGAAATCAATGAAGAGACCTCAGAAAATTCAGCTTCCGATGAACTATGTGAAGAAGAAGAATACATCCAAGAGAAATCTGAGGACAATTTCAAATTTTCTTCAACGGATGATTTCAAATTTCATGATCAAATTAGACAAGAAGCGGCAGCAGCAACAGGGGAAACAGAGGGAGCAAAGAACACAGAATTGCAATACCAGTCACCTCCAGTTGAACGTCAAACTGACTTTGACCATGAAATTGGAGGCAGAACCATTGATGTCATCAGAACAGAAATCGGAATCTCTCGGGATTTTACACAAACCAAAGCTATTATAATATCTGCTATACTGCTGGGTTTATCTCTTGTAACTGCAGGACTGATTTATGGAAGAAAATCAGGCTCAAAACCACCACCACTATCCATTGCCGATGAGCAAAAGAAGGAGCAGCCTCTGATGAACATGAGTCGAGTGGAAGAAAAAGATGATGAAGAAGATGATATGGGTGGAGAATTTTCTATTTCTGAAACCAGTAGTTTCCAATACAGTAGCATGAGGGAAGGAGAAACAAAAGCAGACAAAACATTGAATGAAGTTGAGAGCCATAGCCATGTAAGGAGGAAGATGAAGAAGAATTCAAGAAGAGAATCAATGGCTTCTTCTCTAGATGAATATTCATTGTCCACTTCAGCTTCTCCATCTTATGGGAGTTTCACGACCTATGAGAAGATCCCAATCAAGCATGGTGATGAAGAGATTGTGACTCCTAATATTTTGTGTAAGAAGGGGAGAGACCTCCAGCTGTCGTCCAACAGCTGGGTCCGTATATTTTGGAAAATTCCAAAAGAAATGGGAAAGGGAGAAAAGGGTTTTGGGTCGGACAGAACTGCAGGAAACAGTGGGTGGCACGTCAATGCTATGATGATTCGTGCTCGCTGTAATTTTATGGTGAGAAACCCTGTGTTGGATGTGAAGCGTTTGGGCTTTCGGATGCCGGTTATGGGTCGCCGAACAGTTTGGTGTAGTCGGAGGAGGATGAAGGGGAGAGTTGGAAATGGAGTGAAGGCGACAATGCAGGTCGATTTGGAGGATGAGGAGAGGTTGAAAAGATTGGAGGGTTTAGAGGCCACTTTAGGGCTTGATATTGTAGCGGAGAGGGAATTGAAGGAGAAGGGGTTTTTAGGGATGAGGAAGACGAAGCTTGTATGCACTGTTGGTCCAGCGTGTAGTGGGATTGCGGATTTGGAGAAGTTAGCGTTGGAAGGTATGAATATTGCGAGATTGAATATGTGTCACAACTCGATGGAGTGGCATTGTGATATGATTAAGAAAATCAAGAAGTTAAATGAGGAGAAAGGATTCTGTATTTCGGTTATGATTGATATTGAAGGAAGTCAGATTCATGTGGTTGATCATGGAGCTCCTTCCTCTGTAAAAGTTGAGGATGGTTCAATCTGGTTGTTCACTGCTAAGAAATTCGAAGGTTCTCGTCCATTCACTGTGCAAGCGAGCTATGAAGGTTTCTCTGAAGGTATCCGAGTGGGTGATTCAATTGTAATTGATGGGGGAATGGCAACCTTTGAAGTTATTGAAAAGATTGGGAATGATTTAAGCTGCAGGTGCACAGACCCAGGTTTATTTCTTCCTCGGGCGAAGTGTAGCTTTTGGAGAGATGGAAGGCTTGTTATGAGAAATCACGAGTCTCCCACGTTGTCAAGTAAGGATTGGTCGGACATTGAATTTGGAATTTCAGAAGGCGTGGACTTCATTGCCCTTTCTTTTGTGAACAGTGCAGATCCTGTCAGGCATCTAAAGAACTACCTTTCAACAAAATCAGCGAAATCTATAAGGGTATTGGCTAAGATTGAAAGCTTGGAGGCCCTTCAAAATCTGGAAGAAATTGTAGAGGCCTCTGATGGAATCATGGTGGCTCGAGGGGACCTTGGGGTTGAAATTCCGCTCGAGCAGATACCAGCAGTGCAAGAGGAAATAACCAGAGTTTGTAGGGAATTGAACAAACCAGTGATCATAGCTTCTCAACTTCTAGAGTCCATGGTTGAATATCCTACCCCAACACGTGCTGAGGTTGCAGATGTTTCTGAAGCTGTCCGACAATATGCTGATGCGTTGATGCTATCTGGGGAGTCTGCCATAGGATCATATGGACAGAAAGCACTTTCGGTTCTACAGATGGCCAGCAGCCGAATGGAATTATGGAGTCGTGAAGAAAATAGGAACAATTTCCTTCCCCAGCATCAACTTGGAGTGTCATTGCATGATCGCATTGCAGAAGAAATTTGCAATTCTGCAGCTGAATTGGCTAACAGACTTTCAGTAGACGCCATATTTGTGCTCACAAATCAAGGGCATATGGCATCTCTCCTTTCCCGGAACCGCCCAGGGCCGCCAATATTTGCATTAACCGACGATGATAGCACAAGAATGGCTTTGAATCTACAATGGGGAGTGTTTCCTTTGCGAATTGACCTCTCAGAAGACATTGAAGCAAACATCTCAAGAGGGATCGAGGTTGTGAAATCAAAGGGATTGGTAAAACAGGGGGACTCTGTGCTTGTGGTCTCAGAGATCTCTCCAGCTCGAGCTGCGTCAATGGCGTCCCAATCAATTCAGCTCAAAACCATCGTGTAG MALPSNRSSSPSFLSGRTSPNSRSSEISNPIRRSFSGNPFSKQSIVANPRGLNPITPANSPSDYPRRNSVNRENSFTSRDISEKENGKDQSPKPVRVRSPIVGKSSKHFMSPTISAASKIAVSPRKKVLGDRNEPARSSISFSGMKSSSLNSVNRSLEAPEALESDTNSQIPPVSNSKTAKIVRFGGFEVISDSFDDSKSTYRYDLNPEMVVTMAVETDMTSGNAQVSKSTNAVAPSEPSNSEFAVISVSNNDLDSPPAKSNLTEEVDCVNLDLDQSFKISPVSSPTIAPLDADPSLPPYDPKTNYLSPRPQFLHYRPNRRINRFEPDGRLEEKLLSFANVSESESVEETDSEDSSKELDEASSNESQMEEEEDEVEEEEEGINVSEQSPTKVQKSWKVSVSRIFKISSLLLILFTACFSLYVVNVHDPSIFKRPSSLTMEDASEIYELAKTNFNVFVQKLEVWNVNSISFISDMVFNFRGGLPLVHYENQTEFFNMNEQCLVLSHQTVWEEENILNVMEAMKDGDTDIFEEPIEIEERQEEEETDIFEELVGIEKRPEEEEIGIFEEPVERESENEEQEQEQQVDLLQEIEAMKMREIGIENFERESQNEEELEEVSFQGSDEVNANEEEKNGEVFEEPLEEINEETSENSASDELCEEEEYIQEKSEDNFKFSSTDDFKFHDQIRQEAAAATGETEGAKNTELQYQSPPVERQTDFDHEIGGRTIDVIRTEIGISRDFTQTKAIIISAILLGLSLVTAGLIYGRKSGSKPPPLSIADEQKKEQPLMNMSRVEEKDDEEDDMGGEFSISETSSFQYSSMREGETKADKTLNEVESHSHVRRKMKKNSRRESMASSLDEYSLSTSASPSYGSFTTYEKIPIKHGDEEIVTPNILCKKGRDLQLSSNSWVRIFWKIPKEMGKGEKGFGSDRTAGNSGWHVNAMMIRARCNFMVRNPVLDVKRLGFRMPVMGRRTVWCSRRRMKGRVGNGVKATMQVDLEDEERLKRLEGLEATLGLDIVAERELKEKGFLGMRKTKLVCTVGPACSGIADLEKLALEGMNIARLNMCHNSMEWHCDMIKKIKKLNEEKGFCISVMIDIEGSQIHVVDHGAPSSVKVEDGSIWLFTAKKFEGSRPFTVQASYEGFSEGIRVGDSIVIDGGMATFEVIEKIGNDLSCRCTDPGLFLPRAKCSFWRDGRLVMRNHESPTLSSKDWSDIEFGISEGVDFIALSFVNSADPVRHLKNYLSTKSAKSIRVLAKIESLEALQNLEEIVEASDGIMVARGDLGVEIPLEQIPAVQEEITRVCRELNKPVIIASQLLESMVEYPTPTRAEVADVSEAVRQYADALMLSGESAIGSYGQKALSVLQMASSRMELWSREENRNNFLPQHQLGVSLHDRIAEEICNSAAELANRLSVDAIFVLTNQGHMASLLSRNRPGPPIFALTDDDSTRMALNLQWGVFPLRIDLSEDIEANISRGIEVVKSKGLVKQGDSVLVVSEISPARAASMASQSIQLKTIV
BLAST of CsGy4G000060 vs. NCBI nr
Match: XP_004150277.1 (PREDICTED: uncharacterized protein LOC101223143 [Cucumis sativus] >KGN52734.1 hypothetical protein Csa_4G000550 [Cucumis sativus]) HSP 1 Score: 1302.0 bits (3368), Expect = 0.0e+00 Identity = 891/891 (100.00%), Postives = 891/891 (100.00%), Query Frame = 0
BLAST of CsGy4G000060 vs. NCBI nr
Match: XP_004150267.1 (PREDICTED: plastidial pyruvate kinase 1, chloroplastic-like [Cucumis sativus] >KGN52735.1 hypothetical protein Csa_4G000560 [Cucumis sativus]) HSP 1 Score: 1079.3 bits (2790), Expect = 0.0e+00 Identity = 578/579 (99.83%), Postives = 578/579 (99.83%), Query Frame = 0
BLAST of CsGy4G000060 vs. NCBI nr
Match: XP_008454424.1 (PREDICTED: plastidial pyruvate kinase 1, chloroplastic-like [Cucumis melo] >ADN33819.1 pyruvate kinase [Cucumis melo subsp. melo]) HSP 1 Score: 1057.7 bits (2734), Expect = 3.6e-305 Identity = 539/579 (93.09%), Postives = 546/579 (94.30%), Query Frame = 0
BLAST of CsGy4G000060 vs. NCBI nr
Match: XP_008454425.1 (PREDICTED: histone acetyltransferase KAT6B-like [Cucumis melo] >ADN33820.1 hypothetical protein [Cucumis melo subsp. melo]) HSP 1 Score: 1021.1 bits (2639), Expect = 3.7e-294 Identity = 696/901 (77.25%), Postives = 711/901 (78.91%), Query Frame = 0
BLAST of CsGy4G000060 vs. NCBI nr
Match: XP_023553283.1 (plastidial pyruvate kinase 1, chloroplastic-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1001.9 bits (2589), Expect = 2.3e-288 Identity = 536/578 (92.73%), Postives = 555/578 (96.02%), Query Frame = 0
BLAST of CsGy4G000060 vs. TAIR10
Match: AT3G22960.1 (Pyruvate kinase family protein) HSP 1 Score: 568.2 bits (1463), Expect = 1.6e-161 Identity = 277/487 (56.88%), Postives = 355/487 (72.90%), Query Frame = 0
BLAST of CsGy4G000060 vs. TAIR10
Match: AT5G52920.1 (plastidic pyruvate kinase beta subunit 1) HSP 1 Score: 281.2 bits (718), Expect = 3.8e-75 Identity = 191/587 (32.54%), Postives = 298/587 (50.77%), Query Frame = 0
BLAST of CsGy4G000060 vs. TAIR10
Match: AT1G32440.1 (plastidial pyruvate kinase 3) HSP 1 Score: 276.9 bits (707), Expect = 7.2e-74 Identity = 175/491 (35.64%), Postives = 263/491 (53.56%), Query Frame = 0
BLAST of CsGy4G000060 vs. TAIR10
Match: AT5G63680.1 (Pyruvate kinase family protein) HSP 1 Score: 199.9 bits (507), Expect = 1.1e-50 Identity = 149/494 (30.16%), Postives = 234/494 (47.37%), Query Frame = 0
BLAST of CsGy4G000060 vs. TAIR10
Match: AT5G08570.1 (Pyruvate kinase family protein) HSP 1 Score: 196.4 bits (498), Expect = 1.2e-49 Identity = 145/494 (29.35%), Postives = 232/494 (46.96%), Query Frame = 0
BLAST of CsGy4G000060 vs. Swiss-Prot
Match: sp|Q9LIK0|PKP1_ARATH (Plastidial pyruvate kinase 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=PKP1 PE=1 SV=1) HSP 1 Score: 568.2 bits (1463), Expect = 2.8e-160 Identity = 277/487 (56.88%), Postives = 355/487 (72.90%), Query Frame = 0
BLAST of CsGy4G000060 vs. Swiss-Prot
Match: sp|Q43117|KPYA_RICCO (Pyruvate kinase isozyme A, chloroplastic OS=Ricinus communis OX=3988 PE=1 SV=1) HSP 1 Score: 562.4 bits (1448), Expect = 1.5e-158 Identity = 272/491 (55.40%), Postives = 359/491 (73.12%), Query Frame = 0
BLAST of CsGy4G000060 vs. Swiss-Prot
Match: sp|Q40545|KPYA_TOBAC (Pyruvate kinase isozyme A, chloroplastic OS=Nicotiana tabacum OX=4097 PE=2 SV=1) HSP 1 Score: 546.2 bits (1406), Expect = 1.1e-153 Identity = 266/491 (54.18%), Postives = 355/491 (72.30%), Query Frame = 0
BLAST of CsGy4G000060 vs. Swiss-Prot
Match: sp|Q40546|KPYG_TOBAC (Pyruvate kinase isozyme G, chloroplastic OS=Nicotiana tabacum OX=4097 PE=2 SV=1) HSP 1 Score: 290.4 bits (742), Expect = 1.1e-76 Identity = 172/465 (36.99%), Postives = 258/465 (55.48%), Query Frame = 0
BLAST of CsGy4G000060 vs. Swiss-Prot
Match: sp|Q9FLW9|PKP2_ARATH (Plastidial pyruvate kinase 2 OS=Arabidopsis thaliana OX=3702 GN=PKP2 PE=1 SV=1) HSP 1 Score: 281.2 bits (718), Expect = 6.9e-74 Identity = 191/587 (32.54%), Postives = 298/587 (50.77%), Query Frame = 0
BLAST of CsGy4G000060 vs. TrEMBL
Match: tr|A0A0A0KUZ2|A0A0A0KUZ2_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G000550 PE=4 SV=1) HSP 1 Score: 1302.0 bits (3368), Expect = 0.0e+00 Identity = 891/891 (100.00%), Postives = 891/891 (100.00%), Query Frame = 0
BLAST of CsGy4G000060 vs. TrEMBL
Match: tr|A0A0A0KSY4|A0A0A0KSY4_CUCSA (Pyruvate kinase OS=Cucumis sativus OX=3659 GN=Csa_4G000560 PE=3 SV=1) HSP 1 Score: 1079.3 bits (2790), Expect = 0.0e+00 Identity = 578/579 (99.83%), Postives = 578/579 (99.83%), Query Frame = 0
BLAST of CsGy4G000060 vs. TrEMBL
Match: tr|A0A1S3BYK3|A0A1S3BYK3_CUCME (Pyruvate kinase OS=Cucumis melo OX=3656 GN=LOC103494833 PE=3 SV=1) HSP 1 Score: 1057.7 bits (2734), Expect = 2.4e-305 Identity = 539/579 (93.09%), Postives = 546/579 (94.30%), Query Frame = 0
BLAST of CsGy4G000060 vs. TrEMBL
Match: tr|E5GBH7|E5GBH7_CUCME (Pyruvate kinase OS=Cucumis melo subsp. melo OX=412675 PE=3 SV=1) HSP 1 Score: 1057.7 bits (2734), Expect = 2.4e-305 Identity = 539/579 (93.09%), Postives = 546/579 (94.30%), Query Frame = 0
BLAST of CsGy4G000060 vs. TrEMBL
Match: tr|A0A1S3BZC8|A0A1S3BZC8_CUCME (histone acetyltransferase KAT6B-like OS=Cucumis melo OX=3656 GN=LOC103494834 PE=4 SV=1) HSP 1 Score: 1021.1 bits (2639), Expect = 2.5e-294 Identity = 696/901 (77.25%), Postives = 711/901 (78.91%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of cucumber Gy14 genome (v2)
Date Performed: 2018-09-25
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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