CaUC02G045590 (gene) Watermelon (USVL246-FR2) 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.ATGGAGGAAAATCATGTAAAGAAATTAGAAGATGGCAAATTCGAGATTTTGCTGTCTACTTTGGAGTTAAGGTTGCCGGATCGGGGTGATGATTTGATGAAGACTCCGAGATCTTTGGAAGCTACGGCGGTTGTGCTGGAGTGTCCTCCGCCGCCGAGAAAACCGAGGAGGTCCCCCTCGGCGGCGAAACGGAAGGCCGGTGGTGGCCGGTCGATTTTGATGTCGCATGATTATTTCTTTGGTGACGTGGAATTGGAGTTGCTGTTTCCGTCGAATCTTGTCGGCGGTAAGATTGTTAAGAAAGTTAAACGAGTAGAATAATTATTTAATGACGTAAGTAATTTTAAATATTTAATGTAAAATGCATGGGTTTCCCATTTGTTCTTTGCCTTTTTTTTTCTTCCTTCTCAATTTTTCTCCTATTTCTTGTAAAAAATCCAAAATTTATCACTTCAAATTTTAAATTAATTGCTGTATCGATTAACATTTTATGAACAAAGCAATTAATACCCTCTACTTTTTTTTAAGAAGTAATACAACATTTCTACGCACATATATAAGAATTTTTAAAATTTTATGATTGATATAATATATTAAATAGAGAAATGTTAGAATAACATAGAGAACTTTTTAATTAATATAGTTTTAATTGCTAAGTTAAATTATTTGTTTGAAATTTTAATTGTTGCCATGATATGTTTGAAGTTAGAAAAAACTTAAGTTAATGATTACGGTTTAAATTAATAATATTAGATCAATACAAATATTGTCGACGTCTTAATAATGAAATATGTCGAGTATATATATGTATGTGTATGTGTGTATATATATAAATTTTTTTTAAAGGAATATATATAGCAAAAGATATTTGAATGATTTTATATTATATTTCATAAAGATATTTGATTGTCTATGTTTATTTCATTATAGAGTTGATTAACATGAAAATTATGTTTGTAACAAAATTCCCTTAGTCTTTCATATTGGAAAAAAAAAAAAATTGGAGTGTTTGACAAATTTTTTAAAAAACATTTTTTTTTTCTCAAATCAATTCAAATGAGCGTGTATAACAAATATGAGAACATAGGTGGAAACTTGGCCCAATGCATTAGTAATTTGGGCCTTTCAAATCACGTGAAGTCCTCTTGCAAGTTCCAAATTAGATGATGACGACCAATCAAGACCTCGATTTTCATCCAATTTACTTGGAAACTAAAATGGGAAAATGCACTAACTAGTAACATTTTAGGTTGCATTTTAAAGATTGACAAAACAGAAAAAATTTCAAAATTTTGGCAAACTGCAAGCATCTCCACGTGATCCTAGTTTTTCAAAGAAAAAACTTGCACATTGGCACCCTTCTGCTCACCTAATTAGAAGTTGACACGTATCAATTTGTTTTTTTCTAAAAAAATTTATTTTTGATATGTAGAAAAAGAGGGAGCATGGACTTAGGACCGTACTAAGTAATGCCCTTCTCAAAATTCAAAAAATGTAGTCAATGTTATTTGAATTAATTAAATTTCGTGATTTATATATTTCGATATCAACATAAATTGAGGCCCCATTTGGATATTAAAAAGTGATTATATGAGAATCTTAACCACTTAAGTTGTTTGGTAAAATAACTTATTTATTAATCTATCCTTAATTAATTTTAAATTTTTTCTAATGTGCTAAAGTTATTTGATGGACATTTTAGATTTTAACTTGCCTTAAAATTTGGTATTTTCCTCTTCGTCTCAAATTTCACATTCCATTAATTTATTTTCTCACGTTTATTCCAAATTTTAATTGGTTTCATTTCTTAGAATGATTATTTAAAATAAATATTTTATAAAAAAAAATTAGATCAAATAATATTAGTAGCAAATCATGTATATTTTTAAATAATTATATTATAATAAATTTATAAATTAAATATGAATATAAAAAATAATCAAAATGATAATCTGTTTTTTTGTTCACATAACTAAATTACACAATATTATTCATTTACTAAACATCGTGACTAGAAATTTTTTTAAAAAAAATAAAAATAAAACTAAACTTTAATCAACACTATTTTACTTTTTTTCACTGCCGTTTTTTCTAAAAACACAACTACCATCAATTATTTTAAAAGCATAGTAATCCCAAACTAAACTTAATTCTAATATAAAAGATGACCCTATTTTATTTTGAATATTAAGATACAATCAAATCATAAATCTCTTAGTCACTAACACATCCATATGACAGTTTGATGTATGTTTGCGTTGGCAAAGTATCTAGTATGTTAGTCCAAATATGAAAAAATATATATATACGTAATTAACCCTTTTTTCTATACAAATAAAGACATGTTTTTAAAGTTTTTTATTTGAATAATATGTAGAGTGGATGGTGATTCAAACCTCCTACTTTTTGGTCGGGAGTATAAATTTTATGCCAGTAAAGTTATATTCATATTGTTATGAATTCTCTTAGTTTTCACTTTTAAGAACAAATCATTTTTATAATTTTAAAGTATTGTAATTTAAAATTACCCAAAAGACTTGAACAAAAACATTTAGAGTGATGCTAACTTAAGAAATAGTTCAATTGATTATGATTATTTTTTTTAGTGCAACAAGTGGGTCTTGGAGATTGAGAACTTTTGACTTAGATGTTCACTTTCTCGACATGCCTCTAACAACAAATCGGATCAATGATCTAAAAAAAAAAATCCCCTTATCCAATTCAAGATCAAGGTAATCACTTAAGATTAGGGATTCAAATCATAGACCTCTTAGTCAATGACATATTTATATACTAATTGAACTAGGTTCAAAATTATCTTAACACAACTGATTTTATATTTTAATTACTTAGTAACGTATATGATGAAAAAACTAAGTCATGAAAATAAAATCAAAATAAATCCTAAACTCTAAAATCAAACAACTTAAATGAAATTTGGAATGGGATATAAATGATATTATATAATATATAAATAGTATTCGTCCAAACAACATAATTCAACTAACTATATTAATTTAAAAGAGTGCACAAGTCAAAAGTTTGCTACAATCTCTTATCTTATTAACAAGATGAAAAGTAATGTAAATGTTGTCCAATTGCATCTCAAAAAATAATTATTGTTGTTAGAATTTGATCCCACAAATTTTGTGAGGAATTCTCTATGTTCCTCACAAAATTAAATGGAGAATTTTTGCAGGGATACGGACGTCGACCCTACCCCATCTCATAAACATCAACTTTTGAAAGTTCAGGAACATTTTTTTAATGAGGTATAAATAATTTCGATAGGAATATTTTTTTAATTTTTGTAAAATTTAAGGGCATAAGTGAAACTTCGAAAGTTTAGAGGATACTTTTGAAATAAAGTATCATAATGGTGATTTTTTTTTTGTTGTTGTTGAAAAATGAAGGGATCTTTTCAAATATAAACAAAAATGTTTATAAATATAGCAAAATTTTACTATCTATATGTTACAATAGACTACTATTTGTGTCTATTATGCAAAATTTTTTGTTATTAATTGTAAATATTTTAATAAATTTTGCATTTTTTATAAAATATAAAATAGCCCCATTTTATTTATTTATTATTATTTTTTAATGCAATAATCTTATACTTTACCTGTTCTTCAAGCCAATTCCCCTTCTCCTTCAGACTCAAACTCTCGATTTCTCTCTATCGTCTCTCAACGTTCTCTCCGTTTCCGATTGCTGAGGATCTCTCCATCTCTGATTTCGTTGTACCCTCTCACTCTCGGCTTTTCTTCAAGTGTGAGGTGTGTACATTTCAATTCTTATTTTTAGTTCAAGGGTTTGAGCGATGAAGGAATCTTGGTTCTGTTAGGCTATGTAAGGTTAAGGGTTTTTTGTTCTTTTTTTTTTTTTTTTGGATCTTAGATTTCTCTTTTACTTTGGCGCTTGAGATTTTCGTTTGTTTTTCTCTGGAATTTACGCCCTAGGGTTAATTGTATATGTAATTTTTTGTTATGTGATCTAGGTTTTTAGTTTCTGATTATGCGAACTCATAGTTCTTTTGTTTCCCTCTCTCTTGCTTGAGATTGTAGTTGGGTTTCTCTGTAATCGTTAGTTCTGAACTCTTCAACATCGTATTTATCCTTCTGGATAGAAACGAGCAAGTGGGAACCAAGATCTTCATTTAGAGGGACTTGGAAGCTTTGTGTTTCGGTTGCTTTTCAATTATTTTCTCCATATTTGAATGGAATGTTGATATATTATCTAATGCAGGACTTCGTAGTTATTTGACAAGGAGTTCGGACGTTTTGTTTTTGCTGTCTAAGTAAAATTTTCACGTTGTTCATTGACTTAATTCTGTAGGTTTCAACTCTGTAACTATGTCGACATCTTACCTACCTGCCTCTACTGAGTCAATTGCTCAGGCTTTAGAAGCTAAGAATTCCTCAGAGTCTATCTCAATCCTTTACCGTGTTCTTGAAAACCCTTCATCTTCCCCGGAGGCTCTACGGATAAAGGAACAGGCCATAACAAACCTTTCGGATCTTCTCAGACAGGAGAATCGTGCAGAGGATCTTCGGAACCTTTTGACTCAACTTAGGCCTTTCTTTAACTTGATACCAAAAGCAAAAACTGCAAAAATCGTCCGAGGAATCATTGATGCTGTGGCTAAAATACCAAACACATCTGATCTGCAGATTTCCTTGTGCAAGGAAATGGTGCAGTGGACACGTGCGGAGAAGCGAACATTCCTTCGGCAACGGGTTGAGGCGAGGCTTGCAGCTCTTTTGATGGAAAATAAGGAGTACCCTGAAGCCTTAAATCTCCTGACTGGATTAATCAAGGAAGTAAGAAGACTTGATGATAAGCTTCTCCTAGTAGACATAGATCTCTTGGAGAGCAAACTCCATTTTTCTCTGAGGAACCTCCCTAAAGCAAAGGCTGCACTTACTGCTGCAAGAACAGCTGCTAATGCCATATACGTTCCGCCGGCACAGCAGGGCACTATTGACCTGCAGAGTGGCATCCTTCATGCGGAAGAGAAGGATTACAAAACTGCTTACAGTTATTTCTTTGAAGCCTTTGAAGCCTTCAATGCTCTTGAAGATCCCCGGGCTGTATTTAGCCTCAAATATATGTTGCTGTGCAAAATAATGGTTAATCAGGCTGACGATGTGGCTGGAATAATATCATCAAAAGCAGGTCTACAATATGTGGGGATTGAGCTGGATGCCATGAAGGCTGTAGCTGATGCACATTCCAAGCGTTCGTTGAAGCTTTTCGAGACAGCACTTAGAGATTTTAAGGCTCAACTAGAGGAAGACCCTATTGTCCACAGGCATCTCTCTTCTCTCTATGACACTTTGTTGGAGCAAAATCTATGCAGGTTGATCGAACCATTCTCAAGAGTTGAGATTGCTCATATTGCTGATCTGATCGAACTGCCTGTGGATCATGTGGAAAAGAAGTTGTCTCAGATGATTCTAGACAAGAAGTTTGCAGGGACTCTAGATCAAGGTGCTGGATGCCTAATCATTTTTGACGACCCGAAGACTGACGCCATATATCCAGCCACACTGGAAACCATTTCCAACATTGGCAAGGTTGTGGATAGCCTCTATGTTAGGTCAGCAAAGATAATGGCATAGGGTAACCATTTCCAACACTGGACCGACCTGCTGTAATTTTGCACTTTGCTTGCCTTGGTATGGGACTGCATTGTTTTTATGGTTCATCTGCTTGACTCTTGAATGATTCCTCATGAACTATTTTGTGATTTAAAAAGAAGTTTAGTTTGAAGTTTTAGCAAGGTCTGTATCAAGATAGAATGTTTTGGCTATTTTCCCATTCTTTACGGTCTCAGGTACATATTTGATTTTCAGGTTACTTGTTGATCTGCAGTGGTTTCCTCTGAGTTGAACTTGAAACTTGAAAGTACCAACTAATCGTATTCCAGTTATTTGATGAAAAAGAATGTGTGGATTGTAACTGTGATTCAACCACCTTTGTTATGACTTAGGCGTCATAATATCTTCCTTCTCTTCAAACTATCACTCTTGTCTTGGATTGGCAAGGTTTGATCTGCTTGAACTTAGATAAGCCAATTTTTATGTTTGGATATGTTTTCATTGAAAAATTAGATATTTTGATATGTATTCAGTGCTCCTTCCATAGGCGGCTTTTCAATAGTTCTTCAAGGTAGATATATATGCTCTTCTTCTCAGGAAGATCATACTTTTTTTTTCATTTTTTTTTCCTTTTAATTATATATTTTTTAATAGAAGTGTAAGAAACCGAACCGGTTCGGTTTGGGTGGATTGGATTTCTATTGTGGTTTGAACTGTACCGAACCCTTTCAGTTTTTTTGGTCTGGGGCACAAAGGGAGAGTGGACTAGGTTTCAAGCCTGGTTTCATGTGACTGAGCTGAGAGTGGGCTTTCACTACAATTTTTTTTCCCATATCATCCTTCGAAAATTTTTAATCATTCATCATGCTAGGCAAATCCTAAATAACATGTACGGTACCGATTTGATGGAGTCATGATAAAAATAATATTAGTCTTGAATCTTCATTAAAAATTTGTATGTTTTTTTTGACATTTATCTAATGGTTTATTTTGTGCATTGATGAGTTTTAGCGCACACAGACATACATACATATAATTTACAAACTTTTAACCCTAATTCAAATTAGTTCACAAACCTATAAAGTTTTTATTTATATTATTCTCATAAGAGAAAATGTTAGCTCATTTAAATGTTTTTCTTAAAAAATATTTTAATGATTGTGTATTTACTTCATAAAACTTGATTACAACAATAAGAATATAGTTTATTTATTTTTTCTTTTTCGGAGTACGGGATTTGAACTACGAATGAGAATGTAGTTGTTTATTTTACTTTATGTTTGAAAGTGATTTTAAAATGGTTAAAATCACTTTTGTCATGTTGAAAATCACTTCAAAACATTCTTTTATATTCAAAATCAATTTTGATTATATGACAATTACATTGGAAAGTATAAAATTAAACATTAAATAAATTTTGCATTTTAAATATGACAATAAAATTAAACATTAAATAAATTTTGCATTTTAAATATGACAAAAACGATTTTTAAAATAAGGGAATTTTGTAACATTAGATTTTAGCTTCTGTCTTTTCCCTAAAATAATTTATGTAAATATGCTGGAATAAGTGAATAACTATACTTCTAACTATATATTATAATCTTCCCAAAGCTTTACCCTATGTTATGAGTAAGTAAAGGTGAACTCCAGCATCAACCAGAAATCCAAAGATTTCTGGATTTATACAAGTGATTTCATTATTTAAGTAAGTAATTAAAAATTAAAATTTGAGTAATTAATTAAAAAAAAAAAACAAAATGGAAAAAAAAAAATTCTCCATGGAATACTTGATCCCTGCTAATCCCTATGGAGAATATCAAGAGTGGAGACGGGAAGAGAAAACCACCTCCAATCTCGCCCGGCTCCATGAACATCTTGTTTTAGAGTATAATTCAATCAATTAAGACATATTTTCAAATTAGACATATTGAAAATTGAATTAAAATAATAATGATAAAAGATTGAACAAATTTAGGTTAATTCCCATAAAGTCCTGTAAATTGAAGATGTTAACTTCATATTTGATTTAAAATTTAGGTATGAATTTGATAAAATCAATCAAAAGTTGAAAAAGTGAAAATTAGATTGTACCATTCTCTCTATCTGCCCGATCATCATGGGGTAAAGCAACTTCAATTTAGCTTTCCCATTTTACCCCTCTAGATTCTACTTGATCATCAGGGTTAAAACCGACAATTACAAGGAGACAGCTTCTGAAATTTGGGCTTTGCTTTTTTCAATAATATTATGCCAAAAGAAAACGATTCCCCCGTTAAATTGAAAAAGAATTAATTAAGAAAAAAAAAAAAATCATCCCTAGATTTTAAGTGTAGTTTTTTTTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCCTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTTTAGATTTTAAAATGTTAAACCCTTTTTTATTTCAATTTATAATTTACAATTTTATTATTGAGATTTCAAGTGTTATTTCAATTTGATATCTATTTTTCAATACTCTTCTTCACTTAATGTAACTTTAAGTCTTTGACATTAATATCTATTAATTAAGACTCAAACTTAAAACATATGAACTTTTTTTGCCTAGTTTTTTTAAAAACTCTATTATTCTTCTAATTTATCTAAAAATTAAGGACAAAAATGTATTTTTTTTAAAAGAATTAATTTTAAAATATTAAATTCATGATTAAAAAAGAATACCAAATTTAGTTAAAGGTCTTCAGAAACCATTGGATTGGGTTGATTTGGGTTACATGCTTCTTTTTTTTAATTATTTTCATAAAAAAAAATTAGAAGTGGTTGGAGAATAAATGATTAAAAAAATCACAGAATTAAAATAAATTAATATAAATGTATGTATATATAAAAAATATAATTGTATCATAAATAAGAAAACATATATTTGTCCCTAAGTGAATAAATAAAATTTTCAGTTACTTAAACCTAATTAAACTCAAAAGAGTTGAATTTTTGGGATGGAATTTGTTGAACACTCCTGATTTAGAGGATAGAATCAAAGAGGGGACGAAAGTGAGATTAAAAAGAAAGCGAATCAAAAAAAGAAAGAAAGAAAGCTTCGAAAATGATAATAATCCTAAACCCTTGCGCTCTTTTTTGACCGATTTGGACTGTTGGACCCCAAAACCAAAATACCCAACTCCATGAAAACTGAAATGAAATGGTTTCTTCTTCTTTCTCCACTCCTCAAACCCCAGATTGAAGAAAATGACAACTCCTTTGTCTGAAACGAAATCTGATTCTTGAGGTGACGTCCATTACCCAAGTGGGGGTTTCAAGTTTCTTCTAAACATTTCATCGAGTACTTGGTGTGCAGTCACACACATGGCGCAACAGGTGTTTCATTTGTTTCCTCTTTCACATTCATTTCCATTTTCTCTCCCATCCCAATGCCCATTTCTGATGTGGGTCTTGTCTTGTCTCTGTTTTTTTCCCATTATTTCTCTGATGTTTTCTTCCTTTTTTGGTGGGTCGTTGCTCTGTCTATGTTTTTCCATCTTTTCCTTTATCAGATTGCTGTTTGTATTTTTTTGAATTCACTTTCTTGTTGATTTGATTGAAGGGAGAAGGATGGCCTCTTGGTCTACAACCTCTGAATGTAAGAGTTGGAGTACCTGCAAATCGAAACTATTCGGGATCAGTGTCTTTCAACACTTTAATGACGGCTTCTCCTATTTCATTCTCTGATTCTTCATCCGACTTGGACACTGAGGTCTGTAATTGTATTTGTTTTTCCCCTTTTTTTAACTGAGATTTTGAAATGTGAAAGTCTTCTTGATGTGTCTTGGGAATGTGTTACCTTATGGTTTAGTTTTGTTCTTAGTGTTTGTTCCTCTTAATCCACATAGTATTTAGAGTAATGCAGATGGAGATTAGTCAAGTGATTTGGTTTTTGTTAGTTAATTAATCTCAATGTTTGTGATGTTTGCTTTGAGTGCCTGCATGTTATTATTATTATTATTCTTTTATAATCGTGAGTATCTCGTTAGCTTGCACACATCTTGCCTATTCTCATAGGACATCTCATTCTACTAGTACTATTTTTTGTCGTTAAAGTAACTCGTAGGATATAAAATCATAAGTAGGTAGCTACCAATACCATAACTTGAACTCATTTACTCTTAGCCCTTTATCATTTACATGGCTCTTGTTGATTACTAGCCAAGGTCAATCCATCTTGGTTTAGTTTCAACATATTATTATAGTGCCATAATGTTAAGATATGCGATTCGAAATCATTTTTGACCTGAATCAAAAAGTTTGCGGTGTGAGTCAAGCGACTTTTTGAAGTGAGAAGAACTAGTATACGGTAGTAGCATAGGTATCTCATTTTTCATGAAGTCTCTATGTCCTTTTACTCGTCATTGGAAGAGGATGATTGAATGTATACTTTCATTTATTGCATTATAAGTTAGGCATAAGCTTTTGATTTCACTAGTAACAAGAGGAATTAAAGAGATCAACAAGAACTGCAAGACATGATCCCTTGTAATCCTTTGGACTTGGTCGGATTTTTGCCATCCCATCTGATAGATAACTAACGCTTATGAAATATTGATGCTGAAGATTCAATTTCAGTTCATATGCATATCTGTAGCTCAACAATTGTAATAGAAAGCCTAGCAATTTTCAAAACAACTCTAAAATCAGATAGCCATAGTCACAATTCATGACAATCGATCTTACTCTGCCATTCGTTGCCTTAATATTGCAGTCGACAGGATCATTCTTCCATGACAAGAGCATCACACTTGGGAGTCTTATAGGAGTTTCCAACATTTTCGAACTCTCAAGAAGATCAATCAGGGGAAGAAGAACAGAAAACACAAAGGACAAGAAGAGCAATACCAGGTCTAGAACATGGTTTTTCTCTTTGTGTTCTAGGGAGAGTACCGATGCAGATAGCATCGATAGTGGCCCGTCGTTAGGCCATTTCTTGGCAGAAGAAAGAAGAGCAGCCGACGAAAATAGGAGAAATCAGAGTGTAATCATGTATGGAGCAGATGAATTAGAATTAGCTCAGGCTGCTCCACAGCCAAACTCCCTATTCATCAATGGCTGTGTGGCACCTCCTCAATCTAGCCTTGGTTCAAATGCTGAAAATGGGAGAAATGGAGGAACTGAGCCAGCAAATGATAATAGAGTTGCACTGATTTGTTCTTGCATTTGTGGACACTGAAGCTGAGTTTTGAACTTTCTTTGTGTTTTTGCTATTGATTGAATTTCTTGCTTTCAGAAGCAAATAAAGATATCAATTTACAGTCACCCTTTCTCTCTTTCAATGGAGGAAAATCATGTAAAGAAATTAGAAGATGGCAAATTCGAGATTTTGCTGTCTACTTTGGAGTTAAGGTTGCCGGATCGGGGTGATGATTTGATGAAGACTCCGAGATCTTTGGAAGCTACGGCGGTTGTGCTGGAGTGTCCTCCGCCGCCGAGAAAACCGAGGAGGTCCCCCTCGGCGGCGAAACGGAAGGCCGGTGGTGGCCGGTCGATTTTGATGTCGCATGATTATTTCTTTGGTGACGTGGAATTGGAGTTGCTGTTTCCGTCGAATCTTGTCGGCGGTTTCAACTCTGTAACTATGTCGACATCTTACCTACCTGCCTCTACTGAGTCAATTGCTCAGGCTTTAGAAGCTAAGAATTCCTCAGAGTCTATCTCAATCCTTTACCGTGTTCTTGAAAACCCTTCATCTTCCCCGGAGGCTCTACGGATAAAGGAACAGGCCATAACAAACCTTTCGGATCTTCTCAGACAGGAGAATCGTGCAGAGGATCTTCGGAACCTTTTGACTCAACTTAGGCCTTTCTTTAACTTGATACCAAAAGCAAAAACTGCAAAAATCGTCCGAGGAATCATTGATGCTGTGGCTAAAATACCAAACACATCTGATCTGCAGATTTCCTTGTGCAAGGAAATGGTGCAGTGGACACGTGCGGAGAAGCGAACATTCCTTCGGCAACGGGTTGAGGCGAGGCTTGCAGCTCTTTTGATGGAAAATAAGGAGTACCCTGAAGCCTTAAATCTCCTGACTGGATTAATCAAGGAAGTAAGAAGACTTGATGATAAGCTTCTCCTAGTAGACATAGATCTCTTGGAGAGCAAACTCCATTTTTCTCTGAGGAACCTCCCTAAAGCAAAGGCTGCACTTACTGCTGCAAGAACAGCTGCTAATGCCATATACGTTCCGCCGGCACAGCAGGGCACTATTGACCTGCAGAGTGGCATCCTTCATGCGGAAGAGAAGGATTACAAAACTGCTTACAGTTATTTCTTTGAAGCCTTTGAAGCCTTCAATGCTCTTGAAGATCCCCGGGCTGTATTTAGCCTCAAATATATGTTGCTGTGCAAAATAATGGTTAATCAGGCTGACGATGTGGCTGGAATAATATCATCAAAAGCAGGTCTACAATATGTGGGGATTGAGCTGGATGCCATGAAGGCTGTAGCTGATGCACATTCCAAGCGTTCGTTGAAGCTTTTCGAGACAGCACTTAGAGATTTTAAGGCTCAACTAGAGGAAGACCCTATTGTCCACAGGCATCTCTCTTCTCTCTATGACACTTTGTTGGAGCAAAATCTATGCAGGTTGATCGAACCATTCTCAAGAGTTGAGATTGCTCATATTGCTGATCTGATCGAACTGCCTGTGGATCATGTGGAAAAGAAGTTGTCTCAGATGATTCTAGACAAGAAGTTTGCAGGGACTCTAGATCAAGGTGCTGGATGCCTAATCATTTTTGACGACCCGAAGACTGACGCCATATATCCAGCCACACTGGAAACCATTTCCAACATTGGCAAGGGAGAAGGATGGCCTCTTGGTCTACAACCTCTGAATGTAAGAGTTGGAGTACCTGCAAATCGAAACTATTCGGGATCAGTGTCTTTCAACACTTTAATGACGGCTTCTCCTATTTCATTCTCTGATTCTTCATCCGACTTGGACACTGAGTCGACAGGATCATTCTTCCATGACAAGAGCATCACACTTGGGAGTCTTATAGGAGTTTCCAACATTTTCGAACTCTCAAGAAGATCAATCAGGGGAAGAAGAACAGAAAACACAAAGGACAAGAAGAGCAATACCAGGTCTAGAACATGGTTTTTCTCTTTGTGTTCTAGGGAGAGTACCGATGCAGATAGCATCGATAGTGGCCCGTCGTTAGGCCATTTCTTGGCAGAAGAAAGAAGAGCAGCCGACGAAAATAGGAGAAATCAGAGTGTAATCATGTATGGAGCAGATGAATTAGAATTAGCTCAGGCTGCTCCACAGCCAAACTCCCTATTCATCAATGGCTGTGTGGCACCTCCTCAATCTAGCCTTGGTTCAAATGCTGAAAATGGGAGAAATGGAGGAACTGAGCCAGCAAATGATAATAGAGTTGCACTGATTTGTTCTTGCATTTGTGGACACTGAAGCTGAGTTTTGAACTTTCTTTGTGTTTTTGCTATTGATTGAATTTCTTGCTTTCAGAAGCAAATAAAGATATCAATTTACAGTCACCCTTTCTCTCTTTCA ATGGAGGAAAATCATGTAAAGAAATTAGAAGATGGCAAATTCGAGATTTTGCTGTCTACTTTGGAGTTAAGGTTGCCGGATCGGGGTGATGATTTGATGAAGACTCCGAGATCTTTGGAAGCTACGGCGGTTGTGCTGGAGTGTCCTCCGCCGCCGAGAAAACCGAGGAGGTCCCCCTCGGCGGCGAAACGGAAGGCCGGTGGTGGCCGGTCGATTTTGATGTCGCATGATTATTTCTTTGGTGACGTGGAATTGGAGTTGCTGTTTCCGTCGAATCTTGTCGGCGGTTTCAACTCTGTAACTATGTCGACATCTTACCTACCTGCCTCTACTGAGTCAATTGCTCAGGCTTTAGAAGCTAAGAATTCCTCAGAGTCTATCTCAATCCTTTACCGTGTTCTTGAAAACCCTTCATCTTCCCCGGAGGCTCTACGGATAAAGGAACAGGCCATAACAAACCTTTCGGATCTTCTCAGACAGGAGAATCGTGCAGAGGATCTTCGGAACCTTTTGACTCAACTTAGGCCTTTCTTTAACTTGATACCAAAAGCAAAAACTGCAAAAATCGTCCGAGGAATCATTGATGCTGTGGCTAAAATACCAAACACATCTGATCTGCAGATTTCCTTGTGCAAGGAAATGGTGCAGTGGACACGTGCGGAGAAGCGAACATTCCTTCGGCAACGGGTTGAGGCGAGGCTTGCAGCTCTTTTGATGGAAAATAAGGAGTACCCTGAAGCCTTAAATCTCCTGACTGGATTAATCAAGGAAGTAAGAAGACTTGATGATAAGCTTCTCCTAGTAGACATAGATCTCTTGGAGAGCAAACTCCATTTTTCTCTGAGGAACCTCCCTAAAGCAAAGGCTGCACTTACTGCTGCAAGAACAGCTGCTAATGCCATATACGTTCCGCCGGCACAGCAGGGCACTATTGACCTGCAGAGTGGCATCCTTCATGCGGAAGAGAAGGATTACAAAACTGCTTACAGTTATTTCTTTGAAGCCTTTGAAGCCTTCAATGCTCTTGAAGATCCCCGGGCTGTATTTAGCCTCAAATATATGTTGCTGTGCAAAATAATGGTTAATCAGGCTGACGATGTGGCTGGAATAATATCATCAAAAGCAGGTCTACAATATGTGGGGATTGAGCTGGATGCCATGAAGGCTGTAGCTGATGCACATTCCAAGCGTTCGTTGAAGCTTTTCGAGACAGCACTTAGAGATTTTAAGGCTCAACTAGAGGAAGACCCTATTGTCCACAGGCATCTCTCTTCTCTCTATGACACTTTGTTGGAGCAAAATCTATGCAGGTTGATCGAACCATTCTCAAGAGTTGAGATTGCTCATATTGCTGATCTGATCGAACTGCCTGTGGATCATGTGGAAAAGAAGTTGTCTCAGATGATTCTAGACAAGAAGTTTGCAGGGACTCTAGATCAAGGTGCTGGATGCCTAATCATTTTTGACGACCCGAAGACTGACGCCATATATCCAGCCACACTGGAAACCATTTCCAACATTGGCAAGGGAGAAGGATGGCCTCTTGGTCTACAACCTCTGAATGTAAGAGTTGGAGTACCTGCAAATCGAAACTATTCGGGATCAGTGTCTTTCAACACTTTAATGACGGCTTCTCCTATTTCATTCTCTGATTCTTCATCCGACTTGGACACTGAGTCGACAGGATCATTCTTCCATGACAAGAGCATCACACTTGGGAGTCTTATAGGAGTTTCCAACATTTTCGAACTCTCAAGAAGATCAATCAGGGGAAGAAGAACAGAAAACACAAAGGACAAGAAGAGCAATACCAGGTCTAGAACATGGTTTTTCTCTTTGTGTTCTAGGGAGAGTACCGATGCAGATAGCATCGATAGTGGCCCGTCGTTAGGCCATTTCTTGGCAGAAGAAAGAAGAGCAGCCGACGAAAATAGGAGAAATCAGAGTGTAATCATGTATGGAGCAGATGAATTAGAATTAGCTCAGGCTGCTCCACAGCCAAACTCCCTATTCATCAATGGCTGTGTGGCACCTCCTCAATCTAGCCTTGGTTCAAATGCTGAAAATGGGAGAAATGGAGGAACTGAGCCAGCAAATGATAATAGAGTTGCACTGATTTGTTCTTGCATTTGTGGACACTGA MEENHVKKLEDGKFEILLSTLELRLPDRGDDLMKTPRSLEATAVVLECPPPPRKPRRSPSAAKRKAGGGRSILMSHDYFFGDVELELLFPSNLVGGFNSVTMSTSYLPASTESIAQALEAKNSSESISILYRVLENPSSSPEALRIKEQAITNLSDLLRQENRAEDLRNLLTQLRPFFNLIPKAKTAKIVRGIIDAVAKIPNTSDLQISLCKEMVQWTRAEKRTFLRQRVEARLAALLMENKEYPEALNLLTGLIKEVRRLDDKLLLVDIDLLESKLHFSLRNLPKAKAALTAARTAANAIYVPPAQQGTIDLQSGILHAEEKDYKTAYSYFFEAFEAFNALEDPRAVFSLKYMLLCKIMVNQADDVAGIISSKAGLQYVGIELDAMKAVADAHSKRSLKLFETALRDFKAQLEEDPIVHRHLSSLYDTLLEQNLCRLIEPFSRVEIAHIADLIELPVDHVEKKLSQMILDKKFAGTLDQGAGCLIIFDDPKTDAIYPATLETISNIGKGEGWPLGLQPLNVRVGVPANRNYSGSVSFNTLMTASPISFSDSSSDLDTESTGSFFHDKSITLGSLIGVSNIFELSRRSIRGRRTENTKDKKSNTRSRTWFFSLCSRESTDADSIDSGPSLGHFLAEERRAADENRRNQSVIMYGADELELAQAAPQPNSLFINGCVAPPQSSLGSNAENGRNGGTEPANDNRVALICSCICGH Homology
BLAST of CaUC02G045590 vs. NCBI nr
Match: XP_038902079.1 (26S proteasome non-ATPase regulatory subunit 11 homolog [Benincasa hispida]) HSP 1 Score: 769.6 bits (1986), Expect = 2.3e-218 Identity = 406/408 (99.51%), Postives = 408/408 (100.00%), Query Frame = 0
BLAST of CaUC02G045590 vs. NCBI nr
Match: XP_008464137.1 (PREDICTED: 26S proteasome non-ATPase regulatory subunit 11 homolog [Cucumis melo] >XP_008464138.1 PREDICTED: 26S proteasome non-ATPase regulatory subunit 11 homolog [Cucumis melo] >KAA0061918.1 26S proteasome non-ATPase regulatory subunit 11-like protein [Cucumis melo var. makuwa] >TYK24010.1 26S proteasome non-ATPase regulatory subunit 11-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 764.6 bits (1973), Expect = 7.5e-217 Identity = 402/408 (98.53%), Postives = 408/408 (100.00%), Query Frame = 0
BLAST of CaUC02G045590 vs. NCBI nr
Match: XP_023550803.1 (26S proteasome non-ATPase regulatory subunit 11 homolog [Cucurbita pepo subsp. pepo] >KAG6579339.1 26S proteasome non-ATPase regulatory subunit 11-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 763.8 bits (1971), Expect = 1.3e-216 Identity = 401/408 (98.28%), Postives = 408/408 (100.00%), Query Frame = 0
BLAST of CaUC02G045590 vs. NCBI nr
Match: KAG6585857.1 (26S proteasome non-ATPase regulatory subunit 11-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 763.8 bits (1971), Expect = 1.3e-216 Identity = 401/414 (96.86%), Postives = 411/414 (99.28%), Query Frame = 0
BLAST of CaUC02G045590 vs. NCBI nr
Match: XP_022922323.1 (26S proteasome non-ATPase regulatory subunit 11 homolog [Cucurbita moschata]) HSP 1 Score: 763.5 bits (1970), Expect = 1.7e-216 Identity = 401/408 (98.28%), Postives = 407/408 (99.75%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy Swiss-Prot
Match: Q9LP45 (26S proteasome non-ATPase regulatory subunit 11 homolog OS=Arabidopsis thaliana OX=3702 GN=RPN6 PE=1 SV=1) HSP 1 Score: 674.9 bits (1740), Expect = 1.0e-192 Identity = 356/401 (88.78%), Postives = 382/401 (95.26%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy Swiss-Prot
Match: Q7KLV9 (26S proteasome non-ATPase regulatory subunit 11 OS=Drosophila melanogaster OX=7227 GN=Rpn6 PE=1 SV=1) HSP 1 Score: 406.4 bits (1043), Expect = 6.8e-112 Identity = 212/400 (53.00%), Postives = 290/400 (72.50%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy Swiss-Prot
Match: F6XBL2 (26S proteasome non-ATPase regulatory subunit 11 OS=Xenopus tropicalis OX=8364 GN=psmd11 PE=3 SV=2) HSP 1 Score: 406.4 bits (1043), Expect = 6.8e-112 Identity = 213/398 (53.52%), Postives = 284/398 (71.36%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy Swiss-Prot
Match: Q2KI42 (26S proteasome non-ATPase regulatory subunit 11 OS=Bos taurus OX=9913 GN=PSMD11 PE=2 SV=3) HSP 1 Score: 404.8 bits (1039), Expect = 2.0e-111 Identity = 210/398 (52.76%), Postives = 288/398 (72.36%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy Swiss-Prot
Match: O00231 (26S proteasome non-ATPase regulatory subunit 11 OS=Homo sapiens OX=9606 GN=PSMD11 PE=1 SV=3) HSP 1 Score: 404.8 bits (1039), Expect = 2.0e-111 Identity = 210/398 (52.76%), Postives = 288/398 (72.36%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy TrEMBL
Match: A0A1S3CMA8 (26S proteasome non-ATPase regulatory subunit 11 homolog OS=Cucumis melo OX=3656 GN=LOC103502089 PE=3 SV=1) HSP 1 Score: 764.6 bits (1973), Expect = 3.6e-217 Identity = 402/408 (98.53%), Postives = 408/408 (100.00%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy TrEMBL
Match: A0A5A7V2V6 (26S proteasome non-ATPase regulatory subunit 11-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold250G001020 PE=3 SV=1) HSP 1 Score: 764.6 bits (1973), Expect = 3.6e-217 Identity = 402/408 (98.53%), Postives = 408/408 (100.00%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy TrEMBL
Match: A0A6J1E690 (26S proteasome non-ATPase regulatory subunit 11 homolog OS=Cucurbita moschata OX=3662 GN=LOC111430338 PE=3 SV=1) HSP 1 Score: 763.5 bits (1970), Expect = 8.1e-217 Identity = 401/408 (98.28%), Postives = 407/408 (99.75%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy TrEMBL
Match: A0A6J1DT84 (26S proteasome non-ATPase regulatory subunit 11 homolog OS=Momordica charantia OX=3673 GN=LOC111024097 PE=3 SV=1) HSP 1 Score: 762.3 bits (1967), Expect = 1.8e-216 Identity = 401/408 (98.28%), Postives = 407/408 (99.75%), Query Frame = 0
BLAST of CaUC02G045590 vs. ExPASy TrEMBL
Match: A0A6J1IDD8 (26S proteasome non-ATPase regulatory subunit 11 homolog OS=Cucurbita maxima OX=3661 GN=LOC111471550 PE=3 SV=1) HSP 1 Score: 760.4 bits (1962), Expect = 6.8e-216 Identity = 400/408 (98.04%), Postives = 405/408 (99.26%), Query Frame = 0
BLAST of CaUC02G045590 vs. TAIR 10
Match: AT1G29150.1 (non-ATPase subunit 9 ) HSP 1 Score: 674.9 bits (1740), Expect = 7.3e-194 Identity = 356/401 (88.78%), Postives = 382/401 (95.26%), Query Frame = 0
BLAST of CaUC02G045590 vs. TAIR 10
Match: AT5G02440.1 (unknown protein; Has 71 Blast hits to 71 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 71; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 103.6 bits (257), Expect = 6.7e-22 Identity = 69/165 (41.82%), Postives = 94/165 (56.97%), Query Frame = 0
BLAST of CaUC02G045590 vs. TAIR 10
Match: AT2G26990.1 (proteasome family protein ) HSP 1 Score: 67.0 bits (162), Expect = 6.9e-11 Identity = 78/367 (21.25%), Postives = 163/367 (44.41%), Query Frame = 0
BLAST of CaUC02G045590 vs. TAIR 10
Match: AT3G17950.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 17 plant structures; EXPRESSED DURING: 10 growth stages; Has 63 Blast hits to 63 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 63; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 60.1 bits (144), Expect = 8.5e-09 Identity = 62/181 (34.25%), Postives = 80/181 (44.20%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL246-FR2) v1
Date Performed: 2022-01-31
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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