CmUC11G220460 (gene) Watermelon (USVL531) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGCCGGAGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTTGCTCGAGATCCTCGTCTCACCGTCGCAATTCTTGCCATTAAGCTACCCTTTGATGCCAAAGCTAATGAATATATTCAATCCCTTTCTGCACAGTCTCTTACCAACAATAACACATCCATACGCTTCATTGTGCTTCCTGAATTACCACCTCCCTCAAAAGATGGGAACCATTTCTTGCTAGACGTAGTGCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTACACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTAGTAATGAGGTAATCCAACAGTTGAAGGATTCAGATGTTAATTTGAGTGTATCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATTAACAAAGCTGCTGTTTGGTTGCATGAACAAGTTAAAAGAATTAGATTCGAAGTAAAAGGTGTTCTCATCAATACATTTGAGGAGATGGAATCACATGTGATATCTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCATTGTATTCTGTTGGGCCTGTTTTGCACTTGAAGAAGAATATTGAGACTATGGATCATGTAGATGTATTGAAGTGGCTTGATGATCAACCTCCATCATCGGTGGTGTTTTTGTGCTTTGGAAGCAGGGGAAGCATTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCAAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCATTTGAAGTGGCAATTGACTATACAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACCGTAGATGTTGGGAAGGTCATTGGTTGGGCACCACAAGTGGAGATATTAGCCCATCCAGCCACAGGTAAGGATTAAAACATCTTTGATACATCCCAATATGAACATATGCACTATAACAAGATTTATAACTTAATTTGGAACTACAACTAACTTAATTGTTAATTTATTTTTTTTATAATTTTTTTAATTACAGAAATATATGTCAACATCGATATTTTATCGAAATATCTATCAAATTGAAACACCAATATCAATATTACAATCTTTGTTCACAGGTGGATTCGTGTCGCATTGTGGTTGGAACTCAACGTTGGAGAGTTTGTGGCATGGTGTGCCGATGGCAACATGGCCTCTATATGCAGAGCAACAATTTAACGCGTTTGAACTTGTGGTAGAATTGGAATTGGCTGTGGAGATCACTATAGACTATCGAAATGAATTTAAGGAACAAGACAAGCCAAAAATAGTGAGTGCAGAAGAGATAGAGAGAGGGATCAGAAAGTTGATGGACGACAACAATAATGAGATTCGAAAGAAAGTAAAAACAAAAAGTGAAGAATGTAGAAAAAGTGTAGTAGAAGGTGGATCCTCCTTCATCTCATTGCAAAAATTTATAGATGACGTCTTGACCAACACGCTAGGAGGAGGAAACTAAGGAGCGGGTAGGGTGGTTGTTTCATTGAGAGTGGTTTGAATAATATTAAGACATCTATTAAGTTGAAATGAATAGTAACAACGATTTTAATCTTCTATGCATGTGATTAAAATGATACATCTTACTTTTGGGCTCTTTCGGGTGAATGCAATGTTCGTTTTTTTAGGGACTCTACCTCTACTTTTGAGAGATTTTTGGACACAATTCTTGTGTTTATAATTGGTGTAAATTTGAGCTTCCATTTATTTCCAATTGGAAAGATTTCTTGTAATCACCTTCACGTGTTGGGTTTTCCCTATTTGATTTATTCAATGAAATGTTTCTTTATCCAAAAAAAAAATTAAAATGATAGAAACCATACAAATATATGTTTTCGATAAGGATATGACCATAATCCAATGAAAAATATTTAGGTACATCCTATATTGCATCCATATTTGTACATTCCACCTAATTGTTCAATTATAGGTTGCCATGTGACACACCCTTCTTTCTTTTTTTAAAAAAAGAAATGAGTTATAATTATTAGTGTTTTGTGGGTCATTAAATTGGGATGTACCAAGATATATGTGATATGCACTCAAATTAATTATGACAATTGGTTCAACTTTTTCTCCATGAGAAAATGGGGACAATTTGTGATAGTTTTTGCTATCTTCCTAAACATTATCATGTCATATGTAATTCAAACCATTCATTTTTCAAAATTATTTATTTGATCTCTAGTCTTTCCTTTCTAAACCAAAGCCACCACGAATGCATCACTTCCTTCTTCAATCAAAATCTGTAACATTACAAACTAAAAACTTCTCCCACTGCCTTTTCTCTCTAACCCTAAGCCTATTCAAAATGCCCCAGAAGTTTGAGCTGGATTTCATACCGATGCCGGGGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTCGCTCGAGATCCTCGTCTCACCGTCGCAATTCCTGCCATTAAGCTATCCTTTGAGGTCAAAGCTAATGAATGTATCCAGTCTCTTTCCAACAACACATCCATACGCTTCATTGACCTTCCTGAATTACCACCTCCCCCAAAAGGTGGGAACCATTTTTTCCTGAAAGTTGTTCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTATACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTTGCCATGAGGTAATACAACAATTGAAGGATTCAGATGTCAATTTGAGTGTGTCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATGTAAATTTTGCTGTTTGGTTTCATGAACAATCTAAAAGAATTAGATCTGAAGTAAAAGGTATTCTCATCAATACATTTGAGGAGCTGGAAGCACATGTGATATGTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCTTTGTATTCTGTTGGACCTATTTTGCACTTGAAGAAGAATATTGAGACTATGGATCATGTAGATGTATTGAAGTGGCTCATCATCGGTGGTGTTCTTGTGCTTTGGAAGCAGGGGAAGCTTTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCGAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCGTTTGAAGTGGCAATCGACTATTCAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACTGTAGATGTTGGGAGGGTCATCGGTTGGGCACCTCAAGTGGAGATATTAAGTCATCCAGCCACAGGGAAAGATAAATATATATGTCGATACATCCCAATATGAAGATGTACTCTAATAACAACATCTATAACTAAATTTGAAGTAAGAATACCTTAATTATTAATTGAAATATTTTTTTTTAATTTTTTAATTAAAAAAATTAGTTAAATATGTAAAATTGAAACACTAATTTCAATACTTTAATCTTTGGTACCAGGTGGGTTCGTGTCACATTGTGGTTGGAACTTAACATTAGAGAGTTTGTTATAATTTAGCCTAAAATCAAACGTAACTTTTGAAAGTAAGAAATTTAGTGATATTTTATATAATTGATTAAATTAAAAAAAAAAAAAAAGGCTTTGAACTTTGTACTTAGTGTCAAAAATAACAAACAAATACTCTTATCATTAGTTTTGAATGATAACCGTTAGTGTTTAGTTTAAAAAATACCCAAGTTTCAAAAGTATCAAAAGTGCTCTTAAACTTAAAAAAAAAAAAGTTCAAAAATACATTTACTATTAGTATATGAACAAAAATCGTGAATACCTCTTAGCAAAAATAACTCTAAAATTTCAACAAAAAAAAAAAAAAAAAGTTTAAAAATGCTGATAGTATAGTGATCAATTCTTGTGAAGTTTTCTTGGATTCGAAAAGAACCAATTTGAAAACAAATTATATAGATATCTTCATTTTTTTCATATAGATGCTCTTATTTTTCTCCTATTTGTCCAATTCTTATATCATTTTTCATAGCAACCAAAATAAAACCAAAACTATAAGTAAAAATATAAAATCTCACAAATTTCCAAAATTCAAATCTTCCCTTCAAACATACCAAAACCATAAATAACCAAATATAAGAAAAATATATTTGGCTATAAAAACACACTCAATTACTAGTGTACAACCTTATTAAAACATTTAAGTCTTAAGATCCCTTGGTGTCTTTTTTTTCTTTTTTTTTCTTGCTATAGTCTAAACTTTAACACGAAAGTGGGCAGCTTTGTTATTATTATATATAACAAATGTCAAAACAATTAACAAAAATGGGGGTAAGATGGTAGTGAAAAAGTATTGAAAAAAAAGGAGAAAAAAGAGTAAAGTAGAGAAGTAAGAGGGAATTAGCGGTTCATGTTCATATACTAACAATAGGATTTTTTTTTTTTTAGTTTAAGGGTATTTTTCAAACTTTTGAAAGTTCAAGAGTATTTTGACACAAAACTATCCAAAACTACTGGTAATAGTTTTTTTAAAAACCATTTTTGGTATTTTTGAAACTTTTGAAAGTTCAAGGATATTTTTGATACAAAATACAAAGTTTTAAGGGTATTTTTGTATAATCTAACCTATATAATTTAACCTGGGAAAGAAAATCTTCCAAACTTATAATCCAATCTCCAGGGTCCACAGAGCAAATGGGTAGAAGCAACAAAACAAACAAACTATTAAAGAGTGTGTGTTTCCCTTATCACCTTCATATCACAAGGCTGATTGAAGCCACTCATCTTTGGTCCCACCCCTATCTTTCATTTTACAAACAACTAACATTTCTTCTTCCCCACCTCCCATAGCTAACAATTCTCTTTGAATCTGTAAGTTTAATTCATCACCAAAGGAAGATGTTTGAGTTGATTTTCATACCTGCCCCCGGAATGGGTCACCTTGCATCCACCGTCGAAATGGCCAATGTTCTTGCCACTCGGGATCATCGTCTCTCCATCACAGTGCTTGCCATGAAGCTTCCCTACGATGTCAAAGTTGCCGAATGTATCGAGTCACTTTCTTCGTCTTTCGCAGGCAAACATATACAATTCAACGTCCTTCCGGAACCGCCACTTCCAGAAGAAAGTAAAAAGGACTTCATTGTGTTAGTTGAAAGCTACAAGCCTTATGTTAGAGAGGCTGTCACCAACTTTACTACCTCAGCAGAGACAAGTCTCGACTCGCCTCGGCTTGTCGGGTTAGTCATTGACATGTTTTGTACAACCATGATAGATGTGGCTAACGAATTCGGGGTTCCTTGTTATGTGTTTTATACTTGTAGTGCTAGTTTTCTTGCTTTTAGTCTTTATCTTCAAGAGCTTTATGAGGAGAATGGTAGCAATGAAGTGGTGGAACAGTTGCTGAACTCAGATAATGATGAGTTAACTTTGCCAAATTTTGTTAATCCTATTCCTAGTAAACTCATTCCTAGTCTCTTCTCTAACAAGGTCAAGGCTGTTTGGTTTCATGACCATATTAAAAGATTTAGATTGGAAATCAAAGGGATTCTCATCAATACATTCTTGGAGATGGAATCACATGTGGTGAAGTCCTATTCTCAAGTCCTTCCACCCTTATATTTTGTTGGACCTGTTTTGCACTTGAAAAATACAGGAGTGGCTGGATCAAGTGAGGCTCAAAACTATGGAGATATATTAAAGTGGCTTGATGATCAACCTCCATCATCAGTGGTTCTAGTGTGCTTTGGGACCATGGTGAGTTTTGATGAGGATCAGGTGGTGGCAATTGCACAAGCATTGGAGGAAAGCGGGGTTCGTTTCATATGGTCTCTCCGGCAACCCCCACCGAAGGGTAAGTTCGAAGCACCGAGAAACTACACGGACATCAAAGACGTCCTACCAGAGGGATTTCTGGATCGAACAACGAGTACAGGGAAGGTCATTGGATGGACATCGCAAGCAGAGATATTAGCCCACCCAGCAATCGGAGGATTCGTATCGCATTGTGGTTGGAACTCGATACTAGAAAGTATATGGCATGGGGTGGCGATGGCAACATGGCCGATGCACGCCGAGCAACAATTCAATGCCTTTGAAATGGTGGTGGAATTGGGATTGGCAGTGGAGATCACGTTAGACTATCGGATAACTTTTGGGGAAGACAAGCCGAGATTAGTGAGTGCGGAAGAGATAAAGAGTGGGATCAAGAAATTAATGGGGGAAGAAAGTGATGAGATAAGGAAGAAAGTGAAAGCAAAAAGTGAAGAAAGTAGGAAAAGTGTAATGGAAGGTGGATCTTCCTTCATCTCGTTGGGAAAATTTATAGATGATGTTTTGGGCAATTTGGCAAGAGGAGGAGCTTAAATGTAAGTAAACCCATTTCATTTTGTTGCCAAAGCTACCATTTCTAAATATGATGAGAGTGGAATATCTTGGATGGTTTCAATTTGTATTAAAAAAAAGAATGTAAGAAAGTAAGTTATGCATTTATGGTGTCTTGTCAAAGGATGTAAATGTAACAGAGCTAAAATCAGTTCCTTCCTGGGACCAACTTTCTTGTTTCATAGATACTTAAAACCATGGAGATAATTGTATAAAAGCCAAATAAAAAATTGACTCACTTTTTGAAACATAACAATTCTGCCCTCCCTCAAAATTACAAAATTACTCTTTATTTTCTTTTATTTTCCCCTTTCTTCATTTTTTTTTTCCAGTTGCCAGAGTGGGGTTGGAATGTTGTAGTGGGGTCACCGAAGTGGGATCAGAATGTTGAACGTGTGGGGTTGTAGGAAAGCGAGAGAGCGAGAGAGAAAAATGGAGATGCCGGAAAGCAAGTGAGAAATGAAGAAAGCCGATCGGTGAACGTTGTAGAGGCAAGACAAAATCAAGATGGGGTGTCACTGGCGAGAGCGAGAAGTGAGAGGAGATCAAGATGGGGAGAGCGTGATTTGTATTGCCAGTTAGAGCGAGAGAACAATAGAGAAGAGCGAGAGTAAGAGGCTCAATCTACGTACGCGAGTTCTGTTTTGGTAATTTCACTCGGATATGACATGAAAAAAAAAAAAAAAAAAAAATCTTAAAATTTAGAAAGCATGTAAAATCTCTTTTCAACCCATTATTTTGGGTCATCAATATGATTATCCCAAAAACATAGGTACAAAATAATAAAACAGTAGCATGATCAACTAGTATAAATTAGGCTAAATATACTTCCTATAAATTAAAAAAAAAAATTAAAAAAAATCATAAACTTCCCGAGTTAGTCATCCTCTTATTGTAATTAATAAATAAATAAATTACTGACCTTATCATGTTGTATGTGGTTTCCTTTCCTTGTAACCAACCATTCATTTTCTGGATCTTCATACTAAGCTTTCTTTATACAAAGACGTAAAGGACCACAACAAAGAAACGTAGTCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTTCTCTACTCCATTCCCAATTAACAAAATCTCCCACTTTGACCTTTAGAGTTCTCATCTTTGTCTGTACCAATTCTAGATGAAGAAGTTTGAGCTGGTTTTCATACCAGGACCTGGAATAGGCCATCTTGCATCTACTGTTGAGATGGCCAATATGCTTGTCACTCGAGATCACCGTCTCGTCGTCACGGTGCTTGTCATGCAATTGTCTTACGACAACAAAGCAATGGATCATATCCAACTACTTTCTGCATCTTTTGCTGGAAAATCTATACACTTGATCCTTCTTCCTGAATTCCCCCTTCCAGAGGAATGTCAAAATGGTATGCCACAACCCCTTATTGAAATCTATAAGCCCCATGTTAGAGAAGCTATGGCCAAACATGCCAACTCTCAAACTAGTCCTGACTTGCCCCAACTAGTTGGATTTGTTCTTGACATGTTTTGTATGACAATGATAGATGTGGCTAAAGAATTTGAGGTACCTTGTTATGTGTTTTACACTTCCAGTGCTGCCTTTCTTGCTCTCAATTTTCACCTTCAAGAGCTTTATGATCAGAGTAATAGCAACAAGGTAGTTGAACAGTTAAAGAACTCAGATTCTGAAGCACTAACTATACCAAGTTTTGTCAAACCAATTCCTGGGAAAGTCATTCCTAGTATATTTGTTTATAATGACATTGCTGTTTGGTTGTATGAAAATACTAGGAAGTTTAGAACAGAAATCAAAGGTGTTTTGATCAATACTTGTGCAGAGATAGAATCTCATGTGATTAATATGATGTCAAGTGGCTCATCCTCACAAGTCCCTTGTATTTTGTTGGACCTATTTTGAACTTGAAAAACACTGTCAACCAAGTAAATATACTTAAATGGCTTGATGATCAGCCTCAAGCATCAGTGGTTTTCTTGTGTTTTGGGAGCATGGGAAGCTTTGATGAGGATCAAGTGAAGGAGATTGCACGAGGGCTAGAGCACTGTGGGGTTCGCTTCTTGTGGTCGCTTCGACAACCCCCACCAAAGGGGAAGTGGGTAGCACCAAGCGATTATGCTGACATCAAAGACGTCTTGCCAGAGGGATTTCTTGACCGAACAATGAGTGTTGGAAAGATCATTGGTTGGGCACCACAGGTTGAGATATTGGCCCACCCATCCATTGGAGGGTTCGTATCGCATTGTGGTTGGAACTCTACGTTGGAGAGCCTATGGCATGGCGTGCCAATGGTGGCATGGCCAATGTATGCCGAGCAACAACTAAACGCCTTTCAAATGGTGGTGGAGTTAGGATTAGCCGTGGAGATCACATTAGATTATCGAAAGGATTACCGCCTAGAAAGGTCAAAAATAGTAACTGCAAAAGAGATAAAGAGTGGAATAAGAAAATTGATGGACGACGGGGACCAAATTCGGAAGAAAGTCAAAGCAAAAAGCGAAGAAATTCGAAAGGCTGTAATGGAAGGTGGATCTTCCTACATCTCATTGGTTCATTTTATAAATGATGCTTTAGCCAACTCATCCCATGGAAAAGACTAAACTACATAGTTTTAGGGGCATATTTACCATAGGTTCGAGCCCCCAACTTCAATGTGTTTTTATATTAGTATAAAATAAGGCCATTTTAGTTATCAAAATGGCTATCTGGCATAGTGGTAGGACATTTTAGCCACTTTCTATTGGCCTAGGTTCGAATCTTTCTATTTCTACGAAGCTTTAAACTAAGCTCTCTGAACAAAAATTTTGGATAATGCATAGTTTCACGTGTTATAAATTAAAGCTAGTTCTACGATTGTGATATTTCATTTGTCTCACATTGTTAGATTTGTTGTAGATATGTTCTGCACCAACATAATTTGAGATTTCTTATTATGTGTTTTATACTTCTAGTATTGGCTACTCGGAAGCCAGGTTAGTTGTGCCATGTTTTGTCAATCCAATTCCTAGCACAGAGTCTTCCCTCGCTCTTTGTTTGATTATGAAACTGCTCTTTGGTTTTATGATAATGTCTAAAAGATTTAGGTAA ATGCCGGAGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTTGCTCGAGATCCTCGTCTCACCGTCGCAATTCTTGCCATTAAGCTACCCTTTGATGCCAAAGCTAATGAATATATTCAATCCCTTTCTGCACAGTCTCTTACCAACAATAACACATCCATACGCTTCATTGTGCTTCCTGAATTACCACCTCCCTCAAAAGATGGGAACCATTTCTTGCTAGACGTAGTGCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTACACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTAGTAATGAGGTAATCCAACAGTTGAAGGATTCAGATGTTAATTTGAGTGTATCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATTAACAAAGCTGCTGTTTGGTTGCATGAACAAGTTAAAAGAATTAGATTCGAAGTAAAAGGTGTTCTCATCAATACATTTGAGGAGATGGAATCACATGTGATATCTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCATTGTATTCTGTTGGGCCTGTTTTGCACTTGAAGAAGAATATTGAGACTATGGATCATGTAGATGTATTGAAGTGGCTTGATGATCAACCTCCATCATCGGTGGTGTTTTTGTGCTTTGGAAGCAGGGGAAGCATTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCAAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCATTTGAAGTGGCAATTGACTATACAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACCGTAGATGTTGGGAAGGTCATTGGTTGGGCACCACAAGAACAAGACAAGCCAAAAATAGTGAGTGCAGAAGAGATAGAGAGAGGGATCAGAAAGTTGATGGACGACAACAATAATGAGATTCGAAAGAAAGTAAAAACAAAAAGTGAAGAATGTAGAAAAAGTGTAGTAGAAGGTGGATCCTCCTTCATCTCATTGCAAAAATTTATAGATGACAAGTTTGAGCTGGATTTCATACCGATGCCGGGGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTCGCTCGAGATCCTCGTCTCACCGTCGCAATTCCTGCCATTAAGCTATCCTTTGAGGTCAAAGCTAATGAATGTATCCAGTCTCTTTCCAACAACACATCCATACGCTTCATTGACCTTCCTGAATTACCACCTCCCCCAAAAGGTGGGAACCATTTTTTCCTGAAAGTTGTTCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTATACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTTGCCATGAGGTAATACAACAATTGAAGGATTCAGATGTCAATTTGAGTGTGTCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATAATTAGATCTGAAGTAAAAGGTATTCTCATCAATACATTTGAGGAGCTGGAAGCACATGTGATATGTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCTTTTGGCTCATCATCGGTGGTGTTCTTGTGCTTTGGAAGCAGGGGAAGCTTTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCGAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCGTTTGAAGTGGCAATCGACTATTCAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACTGTAGATGTTGGGAGGGTCATCGGTTGGGCACCTCAAATGTTTGAGTTGATTTTCATACCTGCCCCCGGAATGGGTCACCTTGCATCCACCGTCGAAATGGCCAATGTTCTTGCCACTCGGGATCATCGTCTCTCCATCACAGTGCTTGCCATGAAGCTTCCCTACGATGTCAAAGTTGCCGAATGTATCGAGTCACTTTCTTCGTCTTTCGCAGGCAAACATATACAATTCAACGTCCTTCCGGAACCGCCACTTCCAGAAGAAAGTAAAAAGGACTTCATTGTGTTAGTTGAAAGCTACAAGCCTTATGTTAGAGAGGCTGTCACCAACTTTACTACCTCAGCAGAGACAAGTCTCGACTCGCCTCGGCTTGTCGGGTTAGTCATTGACATGTTTTGTACAACCATGATAGATGTGGCTAACGAATTCGGGGTTCCTTGTTATGTGTTTTATACTTGTAGTGCTAGTTTTCTTGCTTTTAGTCTTTATCTTCAAGAGCTTTATGAGGAGAATGGTAGCAATGAAGTGGTGGAACAGTTGCTGAACTCAGATAATGATGAGTTAACTTTGCCAAATTTTGTTAATCCTATTCCTAGTAAACTCATTCCTAGTCTCTTCTCTAACAAGGTCAAGGCTGTTTGGTTTCATGACCATATTAAAAGATTTAGATTGGAAATCAAAGGGATTCTCATCAATACATTCTTGGAGATGGAATCACATGTGGTGAAGTCCTATTCTCAAGTCCTTCCACCCTTATATTTTGTTGGACCTGTTTTGCACTTGAAAAATACAGGAGTGGCTGGATCAAGTGAGGCTCAAAACTATGGAGATATATTAAAGTGGCTTGATGATCAACCTCCATCATCAGTGGTTCTAGTGTGCTTTGGGACCATGGTGAGTTTTGATGAGGATCAGGTGGTGGCAATTGCACAAGCATTGGAGGAAAGCGGGGTTCGTTTCATATGGTCTCTCCGGCAACCCCCACCGAAGGGTAAGTTCGAAGCACCGAGAAACTACACGGACATCAAAGACAAATTAATGGGGGAAGAAAGTGATGAGATAAGGAAGAAAGTGAAAGCAAAAAGTGAAGAAAGTAGGAAAAGTGTAATGGAAGGTGGATCTTCCTTCATCTCGTTGGGAAAATTTATAGATGATATGAAGAAGTTTGAGCTGGTTTTCATACCAGGACCTGGAATAGGCCATCTTGCATCTACTGTTGAGATGGCCAATATGCTTGTCACTCGAGATCACCGTCTCGTCGTCACGGTGCTTGTCATGCAATTGTCTTACGACAACAAAGCAATGGATCATATCCAACTACTTTCTGCATCTTTTGCTGGAAAATCTATACACTTGATCCTTCTTCCTGAATTCCCCCTTCCAGAGGAATGTCAAAATGGTATGCCACAACCCCTTATTGAAATCTATAAGCCCCATGTTAGAGAAGCTATGGCCAAACATGCCAACTCTCAAACTAGTCCTGACTTGCCCCAACTAGTTGGATTTGTTCTTGACATGTTTTGTATGACAATGATAGATGTGGCTAAAGAATTTGAGGTACCTTGTTATGTGTTTTACACTTCCAGTGCTGCCTTTCTTGCTCTCAATTTTCACCTTCAAGAGCTTTATGATCAGAGTAATAGCAACAAGGTAGTTGAACAGTTAAAGAACTCAGATTCTGAAGCACTAACTATACCAAGTTTTGTCAAACCAATTCCTGGGAAAGTCATTCCTAGTATATTTGTTTATAATGACATTGCTGTTTGGTTGTATGAAAATACTAGGAAGTTTAGAACAGAAATCAAAGGTGTTTTGATCAATACTTGTGCAGAGATAGAATCTCATTGGCTCATCCTCACAAGTCCCTTGTATTTTGTTGGACCTATTTTGAACTTGAAAAACACTGTCAACCAAGTAAATATACTTAAATGGCTTGATGATCAGCCTCAAGCATCAGTGGTTTTCTTGTGTTTTGGGAGCATGGGAAGCTTTGATGAGGATCAAGTGAAGGAGATTGCACGAGGGCTAGAGCACTGTGGGGTTCGCTTCTTGTGGTCGCTTCGACAACCCCCACCAAAGGGGAAGTGGGTAGCACCAAGCGATTATGCTGACATCAAAGACGTCAAAAATAGTAACTGCAAAAGAGATAAAGAGTGGAATAAGAAAATTGATGGACGACGGGGACCAAATTCGGAAGAAAGTCAAAGCAAAAAGCGAAGAAATTCGAAAGGCTGTAATGGAAGTATTGGCTACTCGGAAGCCAGGTTAGTTGTGCCATGTTTTGTCAATCCAATTCCTAGCACAGAGTCTTCCCTCGCTCTTTGTTTGATTATGAAACTGCTCTTTGGTTTTATGATAATGTCTAAAAGATTTAGGTAA ATGCCGGAGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTTGCTCGAGATCCTCGTCTCACCGTCGCAATTCTTGCCATTAAGCTACCCTTTGATGCCAAAGCTAATGAATATATTCAATCCCTTTCTGCACAGTCTCTTACCAACAATAACACATCCATACGCTTCATTGTGCTTCCTGAATTACCACCTCCCTCAAAAGATGGGAACCATTTCTTGCTAGACGTAGTGCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTACACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTAGTAATGAGGTAATCCAACAGTTGAAGGATTCAGATGTTAATTTGAGTGTATCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATTAACAAAGCTGCTGTTTGGTTGCATGAACAAGTTAAAAGAATTAGATTCGAAGTAAAAGGTGTTCTCATCAATACATTTGAGGAGATGGAATCACATGTGATATCTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCATTGTATTCTGTTGGGCCTGTTTTGCACTTGAAGAAGAATATTGAGACTATGGATCATGTAGATGTATTGAAGTGGCTTGATGATCAACCTCCATCATCGGTGGTGTTTTTGTGCTTTGGAAGCAGGGGAAGCATTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCAAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCATTTGAAGTGGCAATTGACTATACAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACCGTAGATGTTGGGAAGGTCATTGGTTGGGCACCACAAGAACAAGACAAGCCAAAAATAGTGAGTGCAGAAGAGATAGAGAGAGGGATCAGAAAGTTGATGGACGACAACAATAATGAGATTCGAAAGAAAGTAAAAACAAAAAGTGAAGAATGTAGAAAAAGTGTAGTAGAAGGTGGATCCTCCTTCATCTCATTGCAAAAATTTATAGATGACAAGTTTGAGCTGGATTTCATACCGATGCCGGGGACGGGTCACCTCGCATCCACGGTGGAGATGGCCAATATTCTTGTCGCTCGAGATCCTCGTCTCACCGTCGCAATTCCTGCCATTAAGCTATCCTTTGAGGTCAAAGCTAATGAATGTATCCAGTCTCTTTCCAACAACACATCCATACGCTTCATTGACCTTCCTGAATTACCACCTCCCCCAAAAGGTGGGAACCATTTTTTCCTGAAAGTTGTTCTTGAAAGCTACAAACCCCATGTCAAACAAGCTCTTATCTCCTCTCTAACTACCACCACCAACCACCTTGCTGGATTTGTCTTGGACATGTTCTGCACAACCATGGTTGATGTTGCTAATGAATTTCAGGTTCCTTCTTATGTGTATTATACTTCTAGTGCCGCCTATCTTGCTTTTAGTTTTCATCTTGAACAACTTTACACACAAAATAATAGTTGCCATGAGGTAATACAACAATTGAAGGATTCAGATGTCAATTTGAGTGTGTCAAGCTTAGTGAATCAAGTTCCAAGTAAAGTCATTCCTGGTATCTTCTTTATAATTAGATCTGAAGTAAAAGGTATTCTCATCAATACATTTGAGGAGCTGGAAGCACATGTGATATGTTCTTTGTCAACTGACTCCTCTTTGCAACTCCCACCTTTTGGCTCATCATCGGTGGTGTTCTTGTGCTTTGGAAGCAGGGGAAGCTTTGAGAAGGATCAAGTGGAGGAGATTGGACGAGCGCTTGAGCGAAGCGGGGTTCGTTTCATTTGGTCCCTCCGACGACCATCACCAGGGGGTGCGTTTGAAGTGGCAATCGACTATTCAAACTTCGAAGACATCTTACCTGAGGGATTTCTCAATCGGACTGTAGATGTTGGGAGGGTCATCGGTTGGGCACCTCAAATGTTTGAGTTGATTTTCATACCTGCCCCCGGAATGGGTCACCTTGCATCCACCGTCGAAATGGCCAATGTTCTTGCCACTCGGGATCATCGTCTCTCCATCACAGTGCTTGCCATGAAGCTTCCCTACGATGTCAAAGTTGCCGAATGTATCGAGTCACTTTCTTCGTCTTTCGCAGGCAAACATATACAATTCAACGTCCTTCCGGAACCGCCACTTCCAGAAGAAAGTAAAAAGGACTTCATTGTGTTAGTTGAAAGCTACAAGCCTTATGTTAGAGAGGCTGTCACCAACTTTACTACCTCAGCAGAGACAAGTCTCGACTCGCCTCGGCTTGTCGGGTTAGTCATTGACATGTTTTGTACAACCATGATAGATGTGGCTAACGAATTCGGGGTTCCTTGTTATGTGTTTTATACTTGTAGTGCTAGTTTTCTTGCTTTTAGTCTTTATCTTCAAGAGCTTTATGAGGAGAATGGTAGCAATGAAGTGGTGGAACAGTTGCTGAACTCAGATAATGATGAGTTAACTTTGCCAAATTTTGTTAATCCTATTCCTAGTAAACTCATTCCTAGTCTCTTCTCTAACAAGGTCAAGGCTGTTTGGTTTCATGACCATATTAAAAGATTTAGATTGGAAATCAAAGGGATTCTCATCAATACATTCTTGGAGATGGAATCACATGTGGTGAAGTCCTATTCTCAAGTCCTTCCACCCTTATATTTTGTTGGACCTGTTTTGCACTTGAAAAATACAGGAGTGGCTGGATCAAGTGAGGCTCAAAACTATGGAGATATATTAAAGTGGCTTGATGATCAACCTCCATCATCAGTGGTTCTAGTGTGCTTTGGGACCATGGTGAGTTTTGATGAGGATCAGGTGGTGGCAATTGCACAAGCATTGGAGGAAAGCGGGGTTCGTTTCATATGGTCTCTCCGGCAACCCCCACCGAAGGGTAAGTTCGAAGCACCGAGAAACTACACGGACATCAAAGACAAATTAATGGGGGAAGAAAGTGATGAGATAAGGAAGAAAGTGAAAGCAAAAAGTGAAGAAAGTAGGAAAAGTGTAATGGAAGGTGGATCTTCCTTCATCTCGTTGGGAAAATTTATAGATGATATGAAGAAGTTTGAGCTGGTTTTCATACCAGGACCTGGAATAGGCCATCTTGCATCTACTGTTGAGATGGCCAATATGCTTGTCACTCGAGATCACCGTCTCGTCGTCACGGTGCTTGTCATGCAATTGTCTTACGACAACAAAGCAATGGATCATATCCAACTACTTTCTGCATCTTTTGCTGGAAAATCTATACACTTGATCCTTCTTCCTGAATTCCCCCTTCCAGAGGAATGTCAAAATGGTATGCCACAACCCCTTATTGAAATCTATAAGCCCCATGTTAGAGAAGCTATGGCCAAACATGCCAACTCTCAAACTAGTCCTGACTTGCCCCAACTAGTTGGATTTGTTCTTGACATGTTTTGTATGACAATGATAGATGTGGCTAAAGAATTTGAGGTACCTTGTTATGTGTTTTACACTTCCAGTGCTGCCTTTCTTGCTCTCAATTTTCACCTTCAAGAGCTTTATGATCAGAGTAATAGCAACAAGGTAGTTGAACAGTTAAAGAACTCAGATTCTGAAGCACTAACTATACCAAGTTTTGTCAAACCAATTCCTGGGAAAGTCATTCCTAGTATATTTGTTTATAATGACATTGCTGTTTGGTTGTATGAAAATACTAGGAAGTTTAGAACAGAAATCAAAGGTGTTTTGATCAATACTTGTGCAGAGATAGAATCTCATTGGCTCATCCTCACAAGTCCCTTGTATTTTGTTGGACCTATTTTGAACTTGAAAAACACTGTCAACCAAGTAAATATACTTAAATGGCTTGATGATCAGCCTCAAGCATCAGTGGTTTTCTTGTGTTTTGGGAGCATGGGAAGCTTTGATGAGGATCAAGTGAAGGAGATTGCACGAGGGCTAGAGCACTGTGGGGTTCGCTTCTTGTGGTCGCTTCGACAACCCCCACCAAAGGGGAAGTGGGTAGCACCAAGCGATTATGCTGACATCAAAGACGTCAAAAATAGTAACTGCAAAAGAGATAAAGAGTGGAATAAGAAAATTGATGGACGACGGGGACCAAATTCGGAAGAAAGTCAAAGCAAAAAGCGAAGAAATTCGAAAGGCTGTAATGGAAGTATTGGCTACTCGGAAGCCAGGTTAGTTGTGCCATGTTTTGTCAATCCAATTCCTAGCACAGAGTCTTCCCTCGCTCTTTGTTTGATTATGAAACTGCTCTTTGGTTTTATGATAATGTCTAAAAGATTTAGGTAA MPETGHLASTVEMANILVARDPRLTVAILAIKLPFDAKANEYIQSLSAQSLTNNNTSIRFIVLPELPPPSKDGNHFLLDVVLESYKPHVKQALISSLTTTTNHLAGFVLDMFCTTMVDVANEFQVPSYVYYTSSAAYLAFSFHLEQLYTQNNSSNEVIQQLKDSDVNLSVSSLVNQVPSKVIPGIFFINKAAVWLHEQVKRIRFEVKGVLINTFEEMESHVISSLSTDSSLQLPPLYSVGPVLHLKKNIETMDHVDVLKWLDDQPPSSVVFLCFGSRGSIEKDQVEEIGRALEQSGVRFIWSLRRPSPGGAFEVAIDYTNFEDILPEGFLNRTVDVGKVIGWAPQEQDKPKIVSAEEIERGIRKLMDDNNNEIRKKVKTKSEECRKSVVEGGSSFISLQKFIDDKFELDFIPMPGTGHLASTVEMANILVARDPRLTVAIPAIKLSFEVKANECIQSLSNNTSIRFIDLPELPPPPKGGNHFFLKVVLESYKPHVKQALISSLTTTTNHLAGFVLDMFCTTMVDVANEFQVPSYVYYTSSAAYLAFSFHLEQLYTQNNSCHEVIQQLKDSDVNLSVSSLVNQVPSKVIPGIFFIIRSEVKGILINTFEELEAHVICSLSTDSSLQLPPFGSSSVVFLCFGSRGSFEKDQVEEIGRALERSGVRFIWSLRRPSPGGAFEVAIDYSNFEDILPEGFLNRTVDVGRVIGWAPQMFELIFIPAPGMGHLASTVEMANVLATRDHRLSITVLAMKLPYDVKVAECIESLSSSFAGKHIQFNVLPEPPLPEESKKDFIVLVESYKPYVREAVTNFTTSAETSLDSPRLVGLVIDMFCTTMIDVANEFGVPCYVFYTCSASFLAFSLYLQELYEENGSNEVVEQLLNSDNDELTLPNFVNPIPSKLIPSLFSNKVKAVWFHDHIKRFRLEIKGILINTFLEMESHVVKSYSQVLPPLYFVGPVLHLKNTGVAGSSEAQNYGDILKWLDDQPPSSVVLVCFGTMVSFDEDQVVAIAQALEESGVRFIWSLRQPPPKGKFEAPRNYTDIKDKLMGEESDEIRKKVKAKSEESRKSVMEGGSSFISLGKFIDDMKKFELVFIPGPGIGHLASTVEMANMLVTRDHRLVVTVLVMQLSYDNKAMDHIQLLSASFAGKSIHLILLPEFPLPEECQNGMPQPLIEIYKPHVREAMAKHANSQTSPDLPQLVGFVLDMFCMTMIDVAKEFEVPCYVFYTSSAAFLALNFHLQELYDQSNSNKVVEQLKNSDSEALTIPSFVKPIPGKVIPSIFVYNDIAVWLYENTRKFRTEIKGVLINTCAEIESHWLILTSPLYFVGPILNLKNTVNQVNILKWLDDQPQASVVFLCFGSMGSFDEDQVKEIARGLEHCGVRFLWSLRQPPPKGKWVAPSDYADIKDVKNSNCKRDKEWNKKIDGRRGPNSEESQSKKRRNSKGCNGSIGYSEARLVVPCFVNPIPSTESSLALCLIMKLLFGFMIMSKRFR Homology
BLAST of CmUC11G220460 vs. NCBI nr
Match: RXH90235.1 (hypothetical protein DVH24_032592 [Malus domestica]) HSP 1 Score: 726.5 bits (1874), Expect = 4.7e-205 Identity = 534/1549 (34.47%), Postives = 773/1549 (49.90%), Query Frame = 0
BLAST of CmUC11G220460 vs. NCBI nr
Match: XP_038899112.1 (anthocyanidin 3-O-glucosyltransferase 2-like [Benincasa hispida] >XP_038899113.1 anthocyanidin 3-O-glucosyltransferase 2-like [Benincasa hispida]) HSP 1 Score: 647.9 bits (1670), Expect = 2.1e-181 Identity = 347/480 (72.29%), Postives = 365/480 (76.04%), Query Frame = 0
BLAST of CmUC11G220460 vs. NCBI nr
Match: XP_008464636.1 (PREDICTED: anthocyanidin 3-O-glucosyltransferase 2-like [Cucumis melo] >KAA0066881.1 anthocyanidin 3-O-glucosyltransferase 2-like [Cucumis melo var. makuwa] >TYK28028.1 anthocyanidin 3-O-glucosyltransferase 2-like [Cucumis melo var. makuwa]) HSP 1 Score: 632.1 bits (1629), Expect = 1.2e-176 Identity = 341/480 (71.04%), Postives = 356/480 (74.17%), Query Frame = 0
BLAST of CmUC11G220460 vs. NCBI nr
Match: XP_004146065.2 (anthocyanidin 3-O-glucosyltransferase 2 [Cucumis sativus]) HSP 1 Score: 630.6 bits (1625), Expect = 3.5e-176 Identity = 339/481 (70.48%), Postives = 357/481 (74.22%), Query Frame = 0
BLAST of CmUC11G220460 vs. NCBI nr
Match: KAE8649804.1 (hypothetical protein Csa_012084 [Cucumis sativus]) HSP 1 Score: 629.8 bits (1623), Expect = 6.0e-176 Identity = 339/480 (70.62%), Postives = 356/480 (74.17%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy Swiss-Prot
Match: Q66PF3 (Putative UDP-glucose flavonoid 3-O-glucosyltransferase 3 OS=Fragaria ananassa OX=3747 GN=GT3 PE=2 SV=1) HSP 1 Score: 320.5 bits (820), Expect = 1.0e-85 Identity = 193/471 (40.98%), Postives = 269/471 (57.11%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy Swiss-Prot
Match: Q2V6K0 (UDP-glucose flavonoid 3-O-glucosyltransferase 6 OS=Fragaria ananassa OX=3747 GN=GT6 PE=1 SV=1) HSP 1 Score: 304.3 bits (778), Expect = 7.6e-81 Identity = 190/474 (40.08%), Postives = 267/474 (56.33%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy Swiss-Prot
Match: D3THI6 (UDP-glycosyltransferase 71A15 OS=Malus domestica OX=3750 GN=UGT71A15 PE=1 SV=1) HSP 1 Score: 298.9 bits (764), Expect = 3.2e-79 Identity = 190/479 (39.67%), Postives = 268/479 (55.95%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy Swiss-Prot
Match: D3UAG1 (UDP-glycosyltransferase 71A16 OS=Pyrus communis OX=23211 GN=UGT71A16 PE=1 SV=1) HSP 1 Score: 293.5 bits (750), Expect = 1.3e-77 Identity = 188/479 (39.25%), Postives = 266/479 (55.53%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy Swiss-Prot
Match: A0A068J840 (UDP-glycosyltransferase 1 OS=Panax ginseng OX=4054 GN=UGT1 PE=1 SV=1) HSP 1 Score: 273.1 bits (697), Expect = 1.9e-71 Identity = 175/474 (36.92%), Postives = 249/474 (52.53%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy TrEMBL
Match: A0A498J662 (Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_032592 PE=3 SV=1) HSP 1 Score: 726.5 bits (1874), Expect = 2.3e-205 Identity = 534/1549 (34.47%), Postives = 773/1549 (49.90%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy TrEMBL
Match: A0A5D3DX75 (Glycosyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold384G002770 PE=3 SV=1) HSP 1 Score: 632.1 bits (1629), Expect = 5.9e-177 Identity = 341/480 (71.04%), Postives = 356/480 (74.17%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy TrEMBL
Match: A0A1S3CLY5 (Glycosyltransferase OS=Cucumis melo OX=3656 GN=LOC103502474 PE=3 SV=1) HSP 1 Score: 632.1 bits (1629), Expect = 5.9e-177 Identity = 341/480 (71.04%), Postives = 356/480 (74.17%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy TrEMBL
Match: A0A0A0L1T2 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G618540 PE=4 SV=1) HSP 1 Score: 604.0 bits (1556), Expect = 1.7e-168 Identity = 302/335 (90.15%), Postives = 315/335 (94.03%), Query Frame = 0
BLAST of CmUC11G220460 vs. ExPASy TrEMBL
Match: A0A5D3DW35 (Glycosyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold384G002760 PE=3 SV=1) HSP 1 Score: 601.7 bits (1550), Expect = 8.5e-168 Identity = 324/470 (68.94%), Postives = 354/470 (75.32%), Query Frame = 0
BLAST of CmUC11G220460 vs. TAIR 10
Match: AT3G21790.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 271.6 bits (693), Expect = 3.9e-72 Identity = 179/484 (36.98%), Postives = 267/484 (55.17%), Query Frame = 0
BLAST of CmUC11G220460 vs. TAIR 10
Match: AT3G21760.1 (UDP-Glycosyltransferase superfamily protein ) HSP 1 Score: 265.0 bits (676), Expect = 3.6e-70 Identity = 175/480 (36.46%), Postives = 248/480 (51.67%), Query Frame = 0
BLAST of CmUC11G220460 vs. TAIR 10
Match: AT4G15280.1 (UDP-glucosyl transferase 71B5 ) HSP 1 Score: 259.6 bits (662), Expect = 1.5e-68 Identity = 168/476 (35.29%), Postives = 247/476 (51.89%), Query Frame = 0
BLAST of CmUC11G220460 vs. TAIR 10
Match: AT3G21780.1 (UDP-glucosyl transferase 71B6 ) HSP 1 Score: 257.7 bits (657), Expect = 5.8e-68 Identity = 174/477 (36.48%), Postives = 253/477 (53.04%), Query Frame = 0
BLAST of CmUC11G220460 vs. TAIR 10
Match: AT3G21750.1 (UDP-glucosyl transferase 71B1 ) HSP 1 Score: 250.8 bits (639), Expect = 7.1e-66 Identity = 157/478 (32.85%), Postives = 261/478 (54.60%), 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
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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