CmUC02G030300 (gene) Watermelon (USVL531) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCGAATTCCTCTTCGAACTTGACCCAGAGCCAGAATGGGAATGTTAAAAACAATGATGCTTTATTCACAGTGGATGAGATTGAAGAAAGTGAGTTTTCGAAGCTATTGGATAGGCCAAGGCCGTTGAACATGGAGAGACAGAGGTCGTTTGATGAAAGATCGCTCGGGGATTTGGCGATTGGTTTTTCCCCACGGCTATCGACGAGAGTTTCTTCAGAGAACTTTGGTCGATTGACTGATTATTATGATCAAACTCCATCCCCCGGCAGAAAATCGGATTTCAATACTCCAAGATCACAGACTGGATTCGAGCAGCATCCTATGGTGGCTGAAGCTTGGGAAGCTTTGAGGCGTTCGTTGGTCCATTTCCGTGGACAACCAGTTGGTACTATTGCTGCGTTGGATTGTACTGAAGAAAATCTTAATTATGATCAAGTAAGAAATAACCCTTTATGAATAATTACTTGCATTCATCGCTCAATCCCTGTTTGGTTGTGTTTATGATAATGCAGGGTGATGTCTATGTCCTTGCTTGTATTTTATTGCATACAGAATCAGTTTGTAATGATTCAGAAAGCACTTCCTCTGTTTAAACTTTGAAACTCACAACTAATTATGCATTCTTGAAAATAAGAAATCCCTATAGATGCTCATAACAATAATGTTATCCATGGTAGTACTTCTCTAGTTATTAGGATTTGGAGTGGTTGCTTTTCATTTAATCTTCGAAACTTTGTGAGCATATGTTGAACACTTGTTAAAATGCCATAAACTCGTGTCAAACACTCATGAACATTTTAAGAGTAAAATACATAAAAATGCTTAAGCATTATTGACTTGATATTTCCTTTGAATTAATGTGTGAAACCATTTACAAAATTGATGAGTTGGCTTGAATCATAAATGCATAAACATTGTATATTTTGAACTAAAACACTGTATCGTGAATGCATAAACATCATTAAGTAAGAAGACATTTTAGCATGAAAATCATTAAAATGAATAATATTTAGAAATAAACTTATGTAATTCTTGTCATGTTCTTAATTGTTAGTTATGGGATTTGTGTTGGTCTGAACCGAGAGCAAAAGCTAACATATGGATACTTTCTTTGTCTGCATAGGTGTTTGTGAGAGACTTCGTCCCGAGCGCATTTGCTTTTCTAATGAATGGGGAGCCTGAAATAGTAAAAAACTTTATCTTAAAAACTCTTCGGCTTCAGTCATGGGAGAAAAAGATTGACAGATTCCAGCTTGGAGAAGGGGTGATGCCTGCTAGTTTCAAAGTGCTTCATGATCCAGTGAGGAATACTGAAACTTTAATTGCAGATTTTGGAGAGAGTGCAATAGGAAGAGTTGCTCCGGTTGACTCTGGATTTTGGTGGATTATATTGCTTAGAGCATACACAAAGTCCACTGGTGATACTTCCTTGGCTGAACTGCCAGAATGCCAAAAGGGAATGCGCCTTATTTTGAGTCTGTGTCTTTCAGAAGGGTTTGACACATTCCCAACCCTTCTCTGTGCTGATGGATGCTGCATGATTGATAGACGAATGGTGCGGTTCTTTCAACCCTTCCCTCTAAAGATATAATAATGAAACTAACATGAAGCTTGACTTCTGAAATTCACTTGACAGACGGTTTGAACTGTTAATGGAATGATCACATATTGTTAAAAATCATGGTTTAAATCTTATTTTGGTCTTAGACTTTCAGGTTTGTATCATTCATTTTAGTCCAGGGACTTTTAAAGGTTTATTTTAGTCTCTAGATTTTAAAAAGAGTAATGATTTTAGTCTTTGATCTTTTAAAAAGTAACTATTTAGGTTATAAAACAACGTACACGTAACAACTAAAATAGTAACTTTTTAAAATTCAGGGAAATAGACATGTTAAAAGTTTAGAATCACAAGCATAAACTGAAAGTTTAGGGATGAAATTATAATAACTTTGAATGTTTTAAAATCGAAATAAGATTTAACCAAAATTATCTACATTGTCTAGCGGACTCCATCTGATGTACATTTTCTTTTTTCTTTTTCTTACATTTAGGGAGACACAAGGTTTTCATTAAAGACTATATTAACAATACCATGTATCGTCCATGAGTATCTTGCTTTATTGTGTCCTATTAGGTTTGCTTAACAAAATGAGCTGTATGCACTGTGGAGTCTTGAAATCATTTGATTATTGTCCATTCATTTCTTATTTCTTACTGCTTTTATTATTGGTTTCAGGGTGTATATGGCTACCCAATTGAAATTCAAGCTCTTTTCTTTATGGCTTTAAGGTGTGCTTTGCTTTTACTTAAGCAAGACCACGAGGGGAAGGACTTTGTAGAAAGAATAACAAAACGGCTTCACGCCTTGAGCTATCACATGAGAACTTACTTTTGGCTCGACCTAAAGCAACTAAATGATATATACCGATATAAAACTGAAGAATACTCTCACACTGCTTTGAACAAGTTCAATGTAATACCTGATTCTCTTCCCGAATGGATTTTTGACTTCATGCCAACTCGTGGTGGTTACTTTATCGGAAACGTCAGCCCTGCAAGAATGGATTTCCGTTGGTTTTGCTTGGGAAACTGCATTGCAATTCTTTCTGCCTTGGCAACACCAGAGCAGTCCACTGCCATTATGGATCTTATTGAATCACGTTGGGAAGAGCTGGTCGGAGAAATGCCTTTAAAGGTTTGTTACCCTGCCATTGAAGGTCACGAGTGGCGGATTGTAACTGGGTGTGATCCAAAAAATACAAGATGGAGTTACCATAATGGTGGTTCTTGGCCAGGTAAACATCTTTACTCCTAATTGACTGTAAGTTCAAATCCCAAAATCTTGTATTTGTGACCTGATATTTTGTTGACCAGGTAGTTTATACGTTCATAGTTCCCATTTATGATTTGAGTATGTAAATTAGGAAGCTTTTGAGGATCATTGGTATAATTTTGAATCCCCTAACCTCTGATGTTGCACTAGAACTGAGATATTGACATTGCCGCAATTCTTGCAGTTCTCCTATGGCTTCTAACAGCTGCATGTATCAAGACCGGGCGACCCCAGATTGCGAGACGTGCACTCGAACTGGCTGAAACCAGGCTACTGAAAGACAACTGGCCAGAATATTATGATGGGACAGTTGGGCGGTACATTGGGAAACAGGCACGAAAGTTTCAGACGTGGTCGATTGCAGGTTATTTAGTGGCAAAGATGATGCTGGAAGACCCATCTCATTCAGGCATGGTGTCCTTGGAGGAAGACAAGCAGATGAAACCTGTAATGAAAAGGTCACATTCATGGACTTGCTAATGCTTCAAAATTTTAGTTTGCTTAGTAGTTGAACTTTTGTCTTCACAAGGTTCCAACCAGTAATTTTCTTATAATGTTTCGTTTTGTTCTGATTTCTAGAAGGGGATATTTTGTTTGAGTTTTTCTGGCTAACAGATAAATACAAATGACACAAGTACATCACTAATCCAGTTTACTTTTAGGAGATAAATGTTCTATGTTAGTATGCTACATACATGGTTTTTTTTTTTTTTTTTTTTTTTCCCTCTTCTTCTTTAATAAAAATGTTATATGTCCTGTATCTTCTTAAACAGAACTGAAAATAATCTATGATTCTACCATTTTCTAGTTCCTGAAGTATTTAATATTTAGATGACATACAATTTAATATTTACCTATTTCTTAGTTTCTATTTTTTTAAAAGGGAAAAGTTATGTGAATGAATAAATAAATTTATTTTTTAAAATAAAATAAAAATCGAAGGGGTCGTTTGCGTTGGGCCTATTACAGGATTACTATTTCATAACCAACTCAGCATCAGCTTCTAACAAATTTCGGATCAAACCACTACAAAATTTGTTTTCATTTTAATGTTAAATTGTTTACTCAATTTCATAATGTACTCATGTTTTAATGATATTCAATTTATGCTCTGGTGAAACAAAAAAATCTTTCAAAAGAAAAAACAATCCTCCCTAGAAAAACTGAATAAGATAGAGCTTTGAATAGATAAAAAATGAGAGAAATTTTCAACAAATATTCAAATTTTTGAAAAATGATTTCAATGACAAAAAGAGAGGGAAAATAAAGTTTAAAATTGGAGAAATTTTAGGCTGGCTAAATCAATTTGGGTAGTAATTTAAAAAAAAAAAAAAAAAGCGCTAAATGTGATTAGAGAAAGTTGAGATTTTTGTATGGATGACCAAATCTTGGTGGTGTTAACGTGGAATGACCAAATCCAAGAAAACTAATGAAAATAAACCTTTTACTTACATCATAGAACACTCTACCATAGCTCCAAATGCATTATTGCATTATAGGTCTCACCCATCAAGAAATGGTAGGAGCCCTAATGAATTTTTCATATTTAATCCTCGGTTGGTCAATTGTTGATTTTAGAAAAATCTCGATTGATATGAATATCACCTTAGGACGCCTATTATTTTGTAGGAGTGTATATCGGTTGGTCGGTGTTGGTTTTGGGTGAAGACCGGTATTGAAAACTGACCAGAAAAAATGGTTGAAATTTGATCGATAGTCGGTCGGTTCGGTTGATTCTTTCTTTTAGGCCTCACCTCTTTAGAACTTCCTTCTCCATGGACTTGTGGAAAAAGAACTTCTTCATGGATTTGTTATTTGTACATATGGAAAATAAATAAATTTTCTTTTTTTAAAAAGAGGGAAAAATACCAAAAACACACTATGGTCAGTCGTTTGGGGGGGTCGGTTTTTGGCGGAGAAACTGACCACCAACAGAACATGACACATCCAAGACCGATTATGGTTGATTCAGTTGGTTTCGACGGGTTGGATAAGTTTTCGGTGCCTTCATGTACATCCTTATTATTTTGAGATAGGAGAGACATTACTAACGCAAAAGTGCTATGTGACATCAGCAGAAGGTTAGTTCTAATTTGTTTTTAAAGATTGAGTCATCCGTATAAAATTACTAGAAAATTGAGGATTAAATTATAAAAAGAAATTAAAAATTGTTGCAAATGAGGAGTAAAAGGTACCAAAGGATCCTAAAATAACACTTAATTTTTGCTATTTTCTTTAGTACAATAATTTAGATTTAGAGAATTCAAACCTTTTAACTCTAGAATAAAAATTTATGTTAATCATTATCGAATTAAACTCACTTTAACAATCCTCGCTGCTAATTAACAATATCGTATTTTTATAAATGTTTCTCAAAAGGACCTAAAGTAACAGTTAATCCTTTCTAATTAGTTGATGTGGCATTTTTTTTGTTTGTACCTTCTTCATTAAGTTGGCTCTATATTTCATCAGCCAAGGATACAGAAGAAGCATGATCATGATGCGTAGAAGTCGAAAACAGAGCAACAAACAAGGGACAAAATGGCTTTATCTTGCTTCCAATCAGAAGAAACCATTCAATTCATGAACCACAAGAAACACATAGCAATTATAAACAAAACCCACCATTTGTATTTCCCCAATATTCATCTTCCTTCAAATCCCCCATCCAAAATTCAAACCCCATTTTTCCATTTCTCCCAAAAATTTTATTAACTTTTGTTTATTCAAAATACCCAATCCCAACCCGCATCTGCAGCTGAAACACGACAACGACAAGCATCATCTTTCAAACATCTTCTGTCGCCTGCTGCAATGGAGTTCCGACCACGACACTTAGCCCCTCCAAAGGTTAGACCAATCGATGATTCCTAGAATTTCTTGTTTGAATATAAGATGGATAAGATGGGGATGGAGTTTTCTAGATTCTCCACCCCCTTTTGGGTTTGGGTAAGGTTTCTTCTTCTTCAAACAAGCAAAATCTCAATTGGGTCAGGGTTTGATTTGTCTCAAGTTGTTTAGTTTAATGTGGCTGAGGGAAATGGAACCAAACCCTTTTCCTGCATTTCTTTCTTTGTTTTTGGTAGCTATGTGCTGTTGTTTGGCAGGCATCACTCTTGCCTACTTTGTGGATTTAATTGTCTGGGAATAATATGCCTTTCTTTTTGCTGTTTGATCCATTACTTAAGTCTTGAACCATGTGTTTCTTCTGCAGATTGTTATGATCCCTTGGATCCTAATGGAAACATTACCATTACTTATGATATTCAAACTTGGACCACTCGTGGATATGTGGTGAGTTTAATACTTGTACTTTGCCAAAATGTGAAAATCATCCTCGCAAAGATTATTGAGTTTGTTGATTTAGCATTTGAACTTCTAATTTGAGCAATTATCCACCAAATTTATACAACTCAACTACAACATATAAGAACACTAATCCCAAATTAGTCCTTAAATCCTAAACCGGCCAGGGGCTTTTCTTTCTTTGATTAAAAGAATTCGCGCTAAGATTGGTAAAATGTAATCGACTGTTTCGTGTGCTTTTTAGGTCTTTTAGATAGGTGACTTCCCGGTGGAAGTGACTAGCATTTATGTCAACTATCTAAAAGTCGACCAATCACTCTCGCGCTCCATCTTAGATGTCTTCACTACACAAAATAGACAACTTGATTGGATTCACTCCCACAAATGGGACAAGTCTTCATGTCTCTTTCTTCTTTACTATTCATTAAGAGATCGATTTGCTCTTTTATAGCATTCTTCCTCAGAGTTATTGAAACTATAAACACAACAGAGTTATAAGTTCAAGCCGTAGAGTGTAATTGCAACAACACCTATCATTCAAAGTTGGTTTTTTCAATTTTGGTTGTTTTTGTTAATTTGGGTATTTTTGGAAGATAGGAAAGCTATGAACTTTATGGCCAACTTGTCATTCTTAGGGGAGGGTCACTGTCCAAAACTACTACCAGTTCCGGCATGTGGAGAAGCCTGGTTGGAGGCTTGGGTGGACATGGACGAGGGGTGAAGTCATCTGGTCAATGAGTGGAGCTTTCGTGACTAAACAGGGAAATTGCTCATTGTTCAAATTTGATCCTCCACATTCCTGTGAGAAGAGCCCTGTCATTCTCGATCTCGTGTTGGAGGCATCATTGGAAAACAGGTCGGAGGGTTGTTGTCGCAGTGGGGTTCTTTCTGCTTGGGCTGTAGACCCTTCCAAATCTTTCTCTTCGTTTGAAATCTCAGTGGGGAGCATGGATGGAGATGGCAATGAGCAACCGCCCGCCAATATTACTCTCATGGCGCCTGGTCCTGGTTACACTTGCAGCCCCTTCTTGGACGCTCATCCAACTGTTTCTTCTCTGATTGATGGCAAAAGACAAGTTCAGGCTTTTAGTAAGTACTTTAAATGTCAATTGAAATGCTAGAGAAAATGCTGTTTTTAGCAGTGGAAATTGCGCAAGTACCAAAAGAATGGCATGGTCTGCTAATTTGATTTTTGAATCCAACTCTCATATGCTACACGGTTGCTTTCCTCATATCAAATATATGGTTTTTTTTAAACTTATTCTTCTTCACTATCTATATACGGTTGCACAAAATAAGTTTTATAATCATAGGCTAAACAAACTGTGGCTTAATAAACACACGGCGATGAGATATTTGACTCAACGGTTTTATTGAGCTTGTCTGCATTTTGGCGTAGACTTCAAAGTTTAGATCGTGTAGGAGAAGAATATCAAAATTTGAATTTGTGTGTATGTGGTGTGTGTTTAGTTCTTTGATTCATGATTAGTAAAAGTCAGTATGCAGTATAAAAGACATTTTTTCACAAATCAGAGTTTATGTAGTTTGTGGGATCAACAAAGCCATAACTTATAATATACAAACTTACATACAAAATATAGATTCAACTTCTCATGTACAAACTTACATACCAAATATAGATTCAAGTTCTAGTAACTTTAGTTTAGATAAACAAACTCACATACTAATTATCGATTCACATTTTTGGTAGCTTCAGCTGCATAATCCTAACCTATGAAACAAATACCATTAAAGTGATGTCTTGTGGCTAGGGGCATTTCTTTATTGTGGGATCTTGAGAGAGGAGCAATAGAGTGTCTAGAGGCTTGGAAAGGAACTGTGTGATGTGTGGTCGCTTGCTAGATTTCAATTTTTATGTTTCTCTTTGAGTTTTGGTTACAAAGGTTTTTTTTTGTAATTACTCGTGAGGTGTTATTTTATTATTTTATAGAATCGGAGGCCCTTTCCCCCCCCCCCCCCCCCCCCTAATGGTTGTTTCTCATTATATATATATGATAAAAAAACCATCTCTTTCTCTTAGGGAAAACTTCACCAAATTCCTAAAGCAGAAACTTGACTACTGTTATTTGCAGGAACATGGAAATCAACATGTACTTACTCCATATTTGTGTATAACAAGACACCACTCTGTTGTGTCTCACTCTCAGCATTTTACAATCCCTCCATCACACCTTGCCCTACATGCAGCTGTGGATGCAGAGAAGCAAACCAAACCTCTGTTCAATGTACAAGGTATATTGACTACTTGCTAACTTGTTTTTTTTTACTGTCATGCTTTATCCAAGGGTTTTTCAGTAAACTAGTGACATTCATTGATCAATAGCATACTTTCCGTTACCATATGATCAACACGTGTGGTACGACTTTTAAAGAGAATAATTGGGAATATATCACAGCGAGTGCAAGGGTGAAAGTTGGGGCAGCATAGTATATCAAAATTATGTTACGGTTTTTACAAGTGTTGTTGTGTAGATGCCAAGGCTAACCGCCCTATCTTATATTGATTTTTTTTCTTTCTTTCTATGAAATTTCTTCTTCTCTATTCATGTTCTTTCCTATTTTTCACTCTGTTTTCTTGTAACTTGACACCAGAGACAAACTCCAGTTGTCGACCACGGAATCGGCTAATCTTCTTGCCTCAGTACAGTGCTCGGATCACATGTGTCCGGTTCGAGTGCATTGGCATGTTAAGACGAACTACATCGACCACTGGAAGGTGAAACTCACAGTTTCCAACTACAACTATGACAGAAACTACTCAAACTGGAACATCCTAGTGCAGCATCCAGGATTTAGCCAATCAACAGAAGCATTTAGTTTCAATAGTTCACAACTTCCATCCGTCAGATATGGAGGTACATTACACAATTCTTCTTCTGCAATGTTCATTTCGACGTAACGTGTGACCCGGTTGAACAACGACTGTATCAAACCGGGTCGAACTGGCTTTACATGAAAAAAGAAAGTTCGAGTAAAATGCAGCGGATTTGTTGCGTGTTTGCAGATGAGTTGGCTCTCTTTTGGGGCATTGAGTATTACAACACAGAGCTTGTGCAATCCACTGAGAGTAATGTAGGGTATGTGACAACAGATATTCTTCTTGAGAAAGATTTAGAATCATTCACATTAAGCAATGGTTGGGCCCTTCCAAGAAGAGTTTATTTCAATGGAGATAACTGTCAAATGCCTTTACCAGACACCTTCCCAATGCTACCAAATGGGAGTTCTAAGCAAAGCCTCTCACTTTTCATCTCCATTATTCTTTTTTTGACCTTTTTGTTTTGGTGACAGTATAGTCTGGGTTGTTTGGCCGCTTGTAATTAAGAGTTTGTTTGATAAGCAATTTCAAAATAGAATTTTGAAAATGAGGGATTGAATGAAAATAAAGTTGTATTTCATGTTTACAAGTAATGTCGAATTCCTCTTCGAACTTGACCCAGAGCCAGAATGGGAATGTTAAAAACAATGATGCTTTATTCACAGTGGATGAGATTGAAGAAAGTGAGTTTTCGAAGCTATTGGATAGGCCAAGGCCGTTGAACATGGAGAGACAGAGGTCGTTTGATGAAAGATCGCTCGGGGATTTGGCGATTGGTTTTTCCCCACGGCTATCGACGAGAGTTTCTTCAGAGAACTTTGGTCGATTGACTGATTATTATGATCAAACTCCATCCCCCGGCAGAAAATCGGATTTCAATACTCCAAGATCACAGACTGGATTCGAGCAGCATCCTATGGTGGCTGAAGCTTGGGAAGCTTTGAGGCGTTCGTTGGTCCATTTCCGTGGACAACCAGTTGGTACTATTGCTGCGTTGGATTGTACTGAAGAAAATCTTAATTATGATCAAGTGTTTGTGAGAGACTTCGTCCCGAGCGCATTTGCTTTTCTAATGAATGGGGAGCCTGAAATAGTAAAAAACTTTATCTTAAAAACTCTTCGGCTTCAGTCATGGGAGAAAAAGATTGACAGATTCCAGCTTGGAGAAGGGGTGATGCCTGCTAGTTTCAAAGTGCTTCATGATCCAGTGAGGAATACTGAAACTTTAATTGCAGATTTTGGAGAGAGTGCAATAGGAAGAGTTGCTCCGGTTGACTCTGGATTTTGGTGGATTATATTGCTTAGAGCATACACAAAGTCCACTGGTGATACTTCCTTGGCTGAACTGCCAGAATGCCAAAAGGGAATGCGCCTTATTTTGAGTCTGTGTCTTTCAGAAGGGTTTGACACATTCCCAACCCTTCTCTGTGCTGATGGATGCTGCATGATTGATAGACGAATGGGTGTATATGGCTACCCAATTGAAATTCAAGCTCTTTTCTTTATGGCTTTAAGGTGTGCTTTGCTTTTACTTAAGCAAGACCACGAGGGGAAGGACTTTGTAGAAAGAATAACAAAACGGCTTCACGCCTTGAGCTATCACATGAGAACTTACTTTTGGCTCGACCTAAAGCAACTAAATGATATATACCGATATAAAACTGAAGAATACTCTCACACTGCTTTGAACAAGTTCAATGTAATACCTGATTCTCTTCCCGAATGGATTTTTGACTTCATGCCAACTCGTGGTGGTTACTTTATCGGAAACGTCAGCCCTGCAAGAATGGATTTCCGTTGGTTTTGCTTGGGAAACTGCATTGCAATTCTTTCTGCCTTGGCAACACCAGAGCAGTCCACTGCCATTATGGATCTTATTGAATCACGTTGGGAAGAGCTGGTCGGAGAAATGCCTTTAAAGGTTTGTTACCCTGCCATTGAAGGTCACGAGTGGCGGATTGTAACTGGGTGTGATCCAAAAAATACAAGATGGAGTTACCATAATGGTGGTTCTTGGCCAGTTCTCCTATGGCTTCTAACAGCTGCATGTATCAAGACCGGGCGACCCCAGATTGCGAGACGTGCACTCGAACTGGCTGAAACCAGGCTACTGAAAGACAACTGGCCAGAATATTATGATGGGACAGTTGGGCGGTACATTGGGAAACAGGCACGAAAGTTTCAGACGTGGTCGATTGCAGGTTATTTAGTGGCAAAGATGATGCTGGAAGACCCATCTCATTCAGGCATGGTGTCCTTGGAGGAAGACAAGCAGATGAAACCTGTAATGAAAAGGCATCACTCTTGCCTACTTTGTGGATTTAATTGTCTGGGAATAATATGCCTTTCTTTTTGCTGTTTGATCCATTACTTAAGTCTTGAACCATGTGTTTCTTCTGCAGATTGTTATGATCCCTTGGATCCTAATGGAAACATTACCATTACTTATGATATTCAAACTTGGACCACTCGTGGATATGTGGGGAGGGTCACTGTCCAAAACTACTACCAGTTCCGGCATGTGGAGAAGCCTGGTTGGAGGCTTGGGTGGACATGGACGAGGGGTGAAGTCATCTGGTCAATGAGTGGAGCTTTCGTGACTAAACAGGGAAATTGCTCATTGTTCAAATTTGATCCTCCACATTCCTGTGAGAAGAGCCCTGTCATTCTCGATCTCGTGTTGGAGGCATCATTGGAAAACAGGTCGGAGGGTTGTTGTCGCAGTGGGGTTCTTTCTGCTTGGGCTGTAGACCCTTCCAAATCTTTCTCTTCGTTTGAAATCTCAGTGGGGAGCATGGATGGAGATGGCAATGAGCAACCGCCCGCCAATATTACTCTCATGGCGCCTGGTCCTGGTTACACTTGCAGCCCCTTCTTGGACGCTCATCCAACTGTTTCTTCTCTGATTGATGGCAAAAGACAAGTTCAGGCTTTTAGAACATGGAAATCAACATGTACTTACTCCATATTTGTGTATAACAAGACACCACTCTGTTGTGTCTCACTCTCAGCATTTTACAATCCCTCCATCACACCTTGCCCTACATGCAGCTGTGGATGCAGAGAAGCAAACCAAACCTCTGTTCAATGTACAAGAGACAAACTCCAGTTGTCGACCACGGAATCGGCTAATCTTCTTGCCTCAGTACAGTGCTCGGATCACATGTGTCCGGTTCGAGTGCATTGGCATGTTAAGACGAACTACATCGACCACTGGAAGGTGAAACTCACAGTTTCCAACTACAACTATGACAGAAACTACTCAAACTGGAACATCCTAGTGCAGCATCCAGGATTTAGCCAATCAACAGAAGCATTTAGTTTCAATAGTTCACAACTTCCATCCGTCAGATATGGAGATGAGTTGGCTCTCTTTTGGGGCATTGAGTATTACAACACAGAGCTTGTGCAATCCACTGAGAGTAATGTAGGGTATGTGACAACAGATATTCTTCTTGAGAAAGATTTAGAATCATTCACATTAAGCAATGGTTGGGCCCTTCCAAGAAGAGTTTATTTCAATGGAGATAACTGTCAAATGCCTTTACCAGACACCTTCCCAATGCTACCAAATGGGAGTTCTAAGCAAAGCCTCTCACTTTTCATCTCCATTATTCTTTTTTTGACCTTTTTGTTTTGGTGACAGTATAGTCTGGGTTGTTTGGCCGCTTGTAATTAAGAGTTTGTTTGATAAGCAATTTCAAAATAGAATTTTGAAAATGAGGGATTGAATGAAAATAAAGTTGTATTTCATGTTTACAAGTA ATGTCGAATTCCTCTTCGAACTTGACCCAGAGCCAGAATGGGAATGTTAAAAACAATGATGCTTTATTCACAGTGGATGAGATTGAAGAAAGTGAGTTTTCGAAGCTATTGGATAGGCCAAGGCCGTTGAACATGGAGAGACAGAGGTCGTTTGATGAAAGATCGCTCGGGGATTTGGCGATTGGTTTTTCCCCACGGCTATCGACGAGAGTTTCTTCAGAGAACTTTGGTCGATTGACTGATTATTATGATCAAACTCCATCCCCCGGCAGAAAATCGGATTTCAATACTCCAAGATCACAGACTGGATTCGAGCAGCATCCTATGGTGGCTGAAGCTTGGGAAGCTTTGAGGCGTTCGTTGGTCCATTTCCGTGGACAACCAGTTGGTACTATTGCTGCGTTGGATTGTACTGAAGAAAATCTTAATTATGATCAAGTGTTTGTGAGAGACTTCGTCCCGAGCGCATTTGCTTTTCTAATGAATGGGGAGCCTGAAATAGTAAAAAACTTTATCTTAAAAACTCTTCGGCTTCAGTCATGGGAGAAAAAGATTGACAGATTCCAGCTTGGAGAAGGGGTGATGCCTGCTAGTTTCAAAGTGCTTCATGATCCAGTGAGGAATACTGAAACTTTAATTGCAGATTTTGGAGAGAGTGCAATAGGAAGAGTTGCTCCGGTTGACTCTGGATTTTGGTGGATTATATTGCTTAGAGCATACACAAAGTCCACTGGTGATACTTCCTTGGCTGAACTGCCAGAATGCCAAAAGGGAATGCGCCTTATTTTGAGTCTGTGTCTTTCAGAAGGGTTTGACACATTCCCAACCCTTCTCTGTGCTGATGGATGCTGCATGATTGATAGACGAATGGGTGTATATGGCTACCCAATTGAAATTCAAGCTCTTTTCTTTATGGCTTTAAGGTGTGCTTTGCTTTTACTTAAGCAAGACCACGAGGGGAAGGACTTTGTAGAAAGAATAACAAAACGGCTTCACGCCTTGAGCTATCACATGAGAACTTACTTTTGGCTCGACCTAAAGCAACTAAATGATATATACCGATATAAAACTGAAGAATACTCTCACACTGCTTTGAACAAGTTCAATGTAATACCTGATTCTCTTCCCGAATGGATTTTTGACTTCATGCCAACTCGTGGTGGTTACTTTATCGGAAACGTCAGCCCTGCAAGAATGGATTTCCGTTGGTTTTGCTTGGGAAACTGCATTGCAATTCTTTCTGCCTTGGCAACACCAGAGCAGTCCACTGCCATTATGGATCTTATTGAATCACGTTGGGAAGAGCTGGTCGGAGAAATGCCTTTAAAGGTTTGTTACCCTGCCATTGAAGGTCACGAGTGGCGGATTGTAACTGGGTGTGATCCAAAAAATACAAGATGGAGTTACCATAATGGTGGTTCTTGGCCAGTTCTCCTATGGCTTCTAACAGCTGCATGTATCAAGACCGGGCGACCCCAGATTGCGAGACGTGCACTCGAACTGGCTGAAACCAGGCTACTGAAAGACAACTGGCCAGAATATTATGATGGGACAGTTGGGCGGTACATTGGGAAACAGGCACGAAAGTTTCAGACGTGGTCGATTGCAGGTTATTTAGTGGCAAAGATGATGCTGGAAGACCCATCTCATTCAGGCATGGTGTCCTTGGAGGAAGACAAGCAGATGAAACCTGTAATGAAAAGGCATCACTCTTGCCTACTTTGTGGATTTAATTGTCTGGGAATAATATGCCTTTCTTTTTGCTGTTTGATCCATTACTTAAGTCTTGAACCATGTGTTTCTTCTGCAGATTGTTATGATCCCTTGGATCCTAATGGAAACATTACCATTACTTATGATATTCAAACTTGGACCACTCGTGGATATGTGGGGAGGGTCACTGTCCAAAACTACTACCAGTTCCGGCATGTGGAGAAGCCTGGTTGGAGGCTTGGGTGGACATGGACGAGGGGTGAAGTCATCTGGTCAATGAGTGGAGCTTTCGTGACTAAACAGGGAAATTGCTCATTGTTCAAATTTGATCCTCCACATTCCTGTGAGAAGAGCCCTGTCATTCTCGATCTCGTGTTGGAGGCATCATTGGAAAACAGGTCGGAGGGTTGTTGTCGCAGTGGGGTTCTTTCTGCTTGGGCTGTAGACCCTTCCAAATCTTTCTCTTCGTTTGAAATCTCAGTGGGGAGCATGGATGGAGATGGCAATGAGCAACCGCCCGCCAATATTACTCTCATGGCGCCTGGTCCTGGTTACACTTGCAGCCCCTTCTTGGACGCTCATCCAACTGTTTCTTCTCTGATTGATGGCAAAAGACAAGTTCAGGCTTTTAGAACATGGAAATCAACATGTACTTACTCCATATTTGTGTATAACAAGACACCACTCTGTTGTGTCTCACTCTCAGCATTTTACAATCCCTCCATCACACCTTGCCCTACATGCAGCTGTGGATGCAGAGAAGCAAACCAAACCTCTGTTCAATGTACAAGAGACAAACTCCAGTTGTCGACCACGGAATCGGCTAATCTTCTTGCCTCAGTACAGTGCTCGGATCACATGTGTCCGGTTCGAGTGCATTGGCATGTTAAGACGAACTACATCGACCACTGGAAGGTGAAACTCACAGTTTCCAACTACAACTATGACAGAAACTACTCAAACTGGAACATCCTAGTGCAGCATCCAGGATTTAGCCAATCAACAGAAGCATTTAGTTTCAATAGTTCACAACTTCCATCCGTCAGATATGGAGATGAGTTGGCTCTCTTTTGGGGCATTGAGTATTACAACACAGAGCTTGTGCAATCCACTGAGAGTAATGTAGGGTATGTGACAACAGATATTCTTCTTGAGAAAGATTTAGAATCATTCACATTAAGCAATGGTTGGGCCCTTCCAAGAAGAGTTTATTTCAATGGAGATAACTGTCAAATGCCTTTACCAGACACCTTCCCAATGCTACCAAATGGGAGTTCTAAGCAAAGCCTCTCACTTTTCATCTCCATTATTCTTTTTTTGACCTTTTTGTTTTGGTGA MSNSSSNLTQSQNGNVKNNDALFTVDEIEESEFSKLLDRPRPLNMERQRSFDERSLGDLAIGFSPRLSTRVSSENFGRLTDYYDQTPSPGRKSDFNTPRSQTGFEQHPMVAEAWEALRRSLVHFRGQPVGTIAALDCTEENLNYDQVFVRDFVPSAFAFLMNGEPEIVKNFILKTLRLQSWEKKIDRFQLGEGVMPASFKVLHDPVRNTETLIADFGESAIGRVAPVDSGFWWIILLRAYTKSTGDTSLAELPECQKGMRLILSLCLSEGFDTFPTLLCADGCCMIDRRMGVYGYPIEIQALFFMALRCALLLLKQDHEGKDFVERITKRLHALSYHMRTYFWLDLKQLNDIYRYKTEEYSHTALNKFNVIPDSLPEWIFDFMPTRGGYFIGNVSPARMDFRWFCLGNCIAILSALATPEQSTAIMDLIESRWEELVGEMPLKVCYPAIEGHEWRIVTGCDPKNTRWSYHNGGSWPVLLWLLTAACIKTGRPQIARRALELAETRLLKDNWPEYYDGTVGRYIGKQARKFQTWSIAGYLVAKMMLEDPSHSGMVSLEEDKQMKPVMKRHHSCLLCGFNCLGIICLSFCCLIHYLSLEPCVSSADCYDPLDPNGNITITYDIQTWTTRGYVGRVTVQNYYQFRHVEKPGWRLGWTWTRGEVIWSMSGAFVTKQGNCSLFKFDPPHSCEKSPVILDLVLEASLENRSEGCCRSGVLSAWAVDPSKSFSSFEISVGSMDGDGNEQPPANITLMAPGPGYTCSPFLDAHPTVSSLIDGKRQVQAFRTWKSTCTYSIFVYNKTPLCCVSLSAFYNPSITPCPTCSCGCREANQTSVQCTRDKLQLSTTESANLLASVQCSDHMCPVRVHWHVKTNYIDHWKVKLTVSNYNYDRNYSNWNILVQHPGFSQSTEAFSFNSSQLPSVRYGDELALFWGIEYYNTELVQSTESNVGYVTTDILLEKDLESFTLSNGWALPRRVYFNGDNCQMPLPDTFPMLPNGSSKQSLSLFISIILFLTFLFW Homology
BLAST of CmUC02G030300 vs. NCBI nr
Match: XP_038888871.1 (probable alkaline/neutral invertase B isoform X1 [Benincasa hispida]) HSP 1 Score: 1154.4 bits (2985), Expect = 0.0e+00 Identity = 555/571 (97.20%), Postives = 562/571 (98.42%), Query Frame = 0
BLAST of CmUC02G030300 vs. NCBI nr
Match: XP_016900464.1 (PREDICTED: probable alkaline/neutral invertase B [Cucumis melo] >KAA0049725.1 putative alkaline/neutral invertase B [Cucumis melo var. makuwa] >TYK12150.1 putative alkaline/neutral invertase B [Cucumis melo var. makuwa]) HSP 1 Score: 1143.6 bits (2957), Expect = 0.0e+00 Identity = 550/571 (96.32%), Postives = 561/571 (98.25%), Query Frame = 0
BLAST of CmUC02G030300 vs. NCBI nr
Match: XP_004144831.1 (probable alkaline/neutral invertase B [Cucumis sativus] >KGN43226.1 hypothetical protein Csa_020324 [Cucumis sativus]) HSP 1 Score: 1140.9 bits (2950), Expect = 0.0e+00 Identity = 547/571 (95.80%), Postives = 561/571 (98.25%), Query Frame = 0
BLAST of CmUC02G030300 vs. NCBI nr
Match: XP_022989039.1 (probable alkaline/neutral invertase B isoform X1 [Cucurbita maxima] >XP_022989040.1 probable alkaline/neutral invertase B isoform X1 [Cucurbita maxima] >XP_022989041.1 probable alkaline/neutral invertase B isoform X1 [Cucurbita maxima]) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 534/571 (93.52%), Postives = 549/571 (96.15%), Query Frame = 0
BLAST of CmUC02G030300 vs. NCBI nr
Match: XP_022928456.1 (probable alkaline/neutral invertase B isoform X2 [Cucurbita moschata]) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 533/571 (93.35%), Postives = 549/571 (96.15%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy Swiss-Prot
Match: Q9SW48 (Probable alkaline/neutral invertase B OS=Arabidopsis thaliana OX=3702 GN=INVB PE=1 SV=1) HSP 1 Score: 985.3 bits (2546), Expect = 5.1e-286 Identity = 471/573 (82.20%), Postives = 522/573 (91.10%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy Swiss-Prot
Match: Q67XD9 (Alkaline/neutral invertase CINV2 OS=Arabidopsis thaliana OX=3702 GN=CINV2 PE=1 SV=1) HSP 1 Score: 904.0 bits (2335), Expect = 1.5e-261 Identity = 421/550 (76.55%), Postives = 481/550 (87.45%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy Swiss-Prot
Match: Q69T31 (Cytosolic invertase 1 OS=Oryza sativa subsp. japonica OX=39947 GN=CINV1 PE=1 SV=1) HSP 1 Score: 898.7 bits (2321), Expect = 6.2e-260 Identity = 431/561 (76.83%), Postives = 482/561 (85.92%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy Swiss-Prot
Match: F4I2X9 (Probable alkaline/neutral invertase D OS=Arabidopsis thaliana OX=3702 GN=INVD PE=2 SV=1) HSP 1 Score: 887.5 bits (2292), Expect = 1.4e-256 Identity = 423/543 (77.90%), Postives = 472/543 (86.92%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy Swiss-Prot
Match: Q9LQF2 (Alkaline/neutral invertase CINV1 OS=Arabidopsis thaliana OX=3702 GN=CINV1 PE=1 SV=1) HSP 1 Score: 869.8 bits (2246), Expect = 3.1e-251 Identity = 407/551 (73.87%), Postives = 476/551 (86.39%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy TrEMBL
Match: A0A5D3CL60 (Alkaline/neutral invertase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold106G00870 PE=3 SV=1) HSP 1 Score: 1143.6 bits (2957), Expect = 0.0e+00 Identity = 550/571 (96.32%), Postives = 561/571 (98.25%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy TrEMBL
Match: A0A1S4DWV7 (Alkaline/neutral invertase OS=Cucumis melo OX=3656 GN=LOC103490310 PE=3 SV=1) HSP 1 Score: 1143.6 bits (2957), Expect = 0.0e+00 Identity = 550/571 (96.32%), Postives = 561/571 (98.25%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy TrEMBL
Match: A0A0A0K5W2 (Alkaline/neutral invertase OS=Cucumis sativus OX=3659 GN=Csa_7G009210 PE=3 SV=1) HSP 1 Score: 1140.9 bits (2950), Expect = 0.0e+00 Identity = 547/571 (95.80%), Postives = 561/571 (98.25%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy TrEMBL
Match: A0A6J1JL97 (Alkaline/neutral invertase OS=Cucurbita maxima OX=3661 GN=LOC111486232 PE=3 SV=1) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 534/571 (93.52%), Postives = 549/571 (96.15%), Query Frame = 0
BLAST of CmUC02G030300 vs. ExPASy TrEMBL
Match: A0A6J1EKW4 (Alkaline/neutral invertase OS=Cucurbita moschata OX=3662 GN=LOC111435262 PE=3 SV=1) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 533/571 (93.35%), Postives = 549/571 (96.15%), Query Frame = 0
BLAST of CmUC02G030300 vs. TAIR 10
Match: AT4G34860.1 (Plant neutral invertase family protein ) HSP 1 Score: 985.3 bits (2546), Expect = 3.6e-287 Identity = 471/573 (82.20%), Postives = 522/573 (91.10%), Query Frame = 0
BLAST of CmUC02G030300 vs. TAIR 10
Match: AT4G34860.2 (Plant neutral invertase family protein ) HSP 1 Score: 985.3 bits (2546), Expect = 3.6e-287 Identity = 471/573 (82.20%), Postives = 522/573 (91.10%), Query Frame = 0
BLAST of CmUC02G030300 vs. TAIR 10
Match: AT4G09510.1 (cytosolic invertase 2 ) HSP 1 Score: 904.0 bits (2335), Expect = 1.1e-262 Identity = 421/550 (76.55%), Postives = 481/550 (87.45%), Query Frame = 0
BLAST of CmUC02G030300 vs. TAIR 10
Match: AT1G22650.1 (Plant neutral invertase family protein ) HSP 1 Score: 887.5 bits (2292), Expect = 1.0e-257 Identity = 423/543 (77.90%), Postives = 472/543 (86.92%), Query Frame = 0
BLAST of CmUC02G030300 vs. TAIR 10
Match: AT1G35580.1 (cytosolic invertase 1 ) HSP 1 Score: 869.8 bits (2246), Expect = 2.2e-252 Identity = 407/551 (73.87%), Postives = 476/551 (86.39%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) v1
Date Performed: 2022-01-31 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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