CmUC03G063470 (gene) Watermelon (USVL531) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCATTGGTTTCACATCTCTTCCCCAAGCTCTCGCTGCTTCCCCACATTTCTCTCCTCTGCCATGGCCACCGCCTCGGCTTAGTTCGCCGCCATTCAACTCTCCTCATTCGCCACCGTCCTCCTGCCTCTCTCGTCTCTCCACCTTCAACACTCGCCGGCCACTCTCGCCACGGCCGCCGGAGAGTTTCCATGGACTCTGCTTCACCGGAGGTTTCGGCGTCGGTCGACTCCGTGGCGGAGGGTTTGAAGAATCAGAGCTTGAACAGTGAAGATCGTGGCGATGGAGGTAGTAGCGTCAAGCACCAGGCCAAAAAGAAGCTCGAAGATCTGAACTGGGACAATTCGTTTGTCAGAGAGCTGCCTGGCGATCCCCGTACCGATATCATTCCACGAGAGGTACTATTCCTTTGTTTTGAGCTCTGATTTTTTGCTAATGTGAACAATTGTTTGAAAATTAGAATTATGAATGTTACTTGTATTTCCAGGAAATGTGGACTGTGGGGAATAATGTGTGTAATCAATTGAAAGCTCGAGTAGGAGCTCTTTTATTTGCTGTTGTTTAATGGTTTTACCTTACTGCGAGTTTCGGTTACTTCTTGGTGATAAGAAGGATTTTGAATTTGATGTACCCGCTATTTGGTGTATCAGATGATAAAAAGAAGTTAAATTCATTGTTTGTAATCCCGTATTTTCATTTTCATTTATAACAGAAAGCTCTAATTAATTAATTTTTGATGATAAGTTTATTTTATTGCAAGCATGGTATCCATTCTTGATGTAGTTAATTGGTTGCGTTGCGTTTAACTTCCATGCTATTTTTCTTAAGTTTGGAAAAAGGGTTGTGCTACCCCTTCATTTTCATCTCCAAGTACCTCTTCTGGTTTCCCGTGGGTTATGCACCGACAACTTGGATGAGTTATTTTGTTTAATGGGTTATTCTACTATTATGACTGATTATTTTATCTACGCTATGAATCTTAGGTATTACATGCATGTTATTCAAATGTATTACCTTCAGTTGAAGTACAAAACCCTCAGCTTGTTGCTTGGTCAGAATCAGTTGCCGATTTACTAGATTTGGATCCTCAAGAGTGAGTTTTCTTATTTCTTTTGCTTTCTGATAATTGAGATGAAGTATTTGCACTATGTAATATAAGTTATGAAACATGGGCATTTAATTTGAGTAGCATCTTAAATATCATCGTCTGATGCACAACATTATACTAGACACTTGAGATAATAGTGTAAAGTTTTTTTTGTTTTTTTTACTTTTGAATAATGTATGCATATATTTATATATTTATATATATTGACACAGAACCTTTTGAAGGTCTTCTTTCTTTTGATGCAAAATTGGTACCCATTTCTCACAAAAACCTTACAAATTCTCAAAATACAAATCACTCATGCAACTTGGAGGAATGCATAAAACCTTCTTAATTTTGAACACCTATCAAAAGGAGTAGAGTTCAAACTCCTTATCTAAAGAAGTTGACCGAATACGAATCACTAATGCAATTGGAAGAACCTTACAAATTCTAAAGAAGTTGACGGAGAACAATTATATTTTGCATGATTAGAAACCTGGACCCCCATCCATTCCTTAGAAGGATCTTTACAATTCCTCATGTTTCTTTCTTTCTATAGATTCCACGGAACCACCTTTACAACATAATTCCATTATACCTACCTCTTGTTTTCTTTCGATTTACTATGCTCTATTTATGATAGCGAGGCATCAAAGATGGTGGGCCTTCTTTCTCTTCTTTGTGATCAACACATGTACCAAGGGAGAAGGGAATCTAGGTTTTGGACTCTTTGTACTCTTCAAAGGGCTTCTTTTGTTTTTTTTTTGTTTTATTGTTTTATTGTTGTTTTTTCTTACATGTTGTTTGTCCCTTCCATACTCTAAACTGCCTTTCTTTCTTCCCTCTTTTGAATGTTAAAATCCCTAGGAAGGCAACTTTTTTTTTTTTTTTTTGGTGGTAAGTTTTGCTTGGTCGAGTCAGGGTTGTGGACTGTGTTCAAAGACACTCTTCCTTTGTGTTGTACCTTTAATTGTGCATTCTGTCAGGGAGGGGAAGAGCTATTGGAGGAAGGCAAAACATAAGCTACCAAATGTAGACTCTTATCAGATAGATGATAAAGATAAAGGACAAAGCACACATGGGTTTCTTTTCATCCATAAATCCTCCGAAAAATAAGTTTTTGACGGGTTGCTGATAGAGCATTTAACAAACTGAGAGAACATAAGAACACCCGAGGCAATAGCAGATTAGGGGCTTTTACAAGAATCATTAAACCTACCAGCTGAGACCCATTCAAAAGGTGAGATGCATACTTACTCACAATAATCTTCTGCTACAAAGAATTAGGTACCAAGTAAAAACACCACAACTAAGCGGGCCCTTCCCCTTTATCAGCCCTTTCCCACAAAAAAATTCCTCATTAACCTTTCAATGTTCTCTTCTTACTAACCGAGATGTGCACCCTAAAAAGGGAAAGGAGGTATAACAGGATTCCACTCAACATCGACCAAATCAAAGTCAATCTTCCCTGTTAGGGAGGAAAGCCTTTTTTCATGATGATAGCCTTTTCTGAATTTTCTCCATCATTGGGTTCCAAAAATGCACAAATCTGGGTTAGCACACAAAGGAAGGCCAAGATAAGCAGGCTCATAGTTCACTCCAAGAAATAGTGCTTTTCTGGCGATTAATTTTTATACCTAATATAGCAGAAGCCATTAAGGTTCCTAAAGGAGTTCTCCTTCTCAGAAGAAAAAAAGAGTGTCATCAACAAATTGGAGATGTGACAATTGAACTCTATTAGAACACACCAGGAAGCCCTTCACCACACGCTTCTCCACACCATTTTACATTGACATGTTGAGAATGTCCACCACCTGATTAAATAGATAGGGTGAAATAGGATCACCTGACCTAAGAGCTCTCATTGCAAAGATCTTCCCCCTTGATTGCATTGACCATGATGGAGAAGTTAGTTGACCGAAGACAATTCCAACTTCAAGCTGTACACTTAAACCCAATACCTTTTTGCTCAAACCTTTATCTAGCAAGCCTCAACCCATGTGATCATAAACTTTCTCACCACCACTAGAATCACCCCTTTCTTTTTTCTCACTTTAAAATCCTCAATGGCTTCAATCACGATACCCCTAGGCATTCAAAATAGTACTAGGGAGCACTTAGGGCTAAGGTCTTTGACTTCGATAACTTTTTCTTTTTTGGAATCAGACAAATATTAGTCTGACTCATAGCAACAAACAGTTTATAACCCCCTGTTGCGAAACTCACTAAAGTCTTTCCATCAGTCTTCCACTTCACATCCTCTTGATTATCTTGATAAAATGGCATAGTGAAACCATCTGACTTTGGTATTTTTTCCTAACAAAACCAAAAATGACCTTCTTGATCTCTTCCGAGGAGAATGGGGCCTTCAAGACCTCCTTTGCGCTAATAGAGATAGGGCTCCGATCCAACCTTTCCACAAAAGGTCTCGAGATTCATAGAGAAGAAGGAAAGGGCCTTTCGAATCTTGCTATCCTTCTTCACCATTTCACCATTTTCCTCATCCAAAAAATTAATAAGATTTTTACTCCTCCCCCTTGCACTCACTTGAAAGAAAGAGGTATTGGCATACCCTTATTCGGTCCACTTCACTGTAGTCTTTTGATGCCAACTAATATCATCGCTTCAAATGATGAAGGACTCAAGCTCCACTCTGAGACCATCCTTCTCCCTCTCCAACCTCATATATGAGAACAAGCCCCCTTCCACTCCGGATCATCTAACGCCTTCATCCACTACACTGCCTCCTTTGTATGCTTCAAGTTCCCAAATACACAGACAAGTTCCAACGCTTAAAGGCAAAGGTCTCATTGAGAGCCCTATAGATAACTATTTTCGTGGCTGCATGTCTAGCAATTGGATTTTTTTTGTTTTTAAAAAAAGATAATATAGATGCGTATGATTGGTCACCTTACGAGTGTTCTAATGATAATTTGTCTTTGTATTTCAGTCTTAATCTACTGTAGTCATTTAGATGTCTGTGTATGTCCTCTCCCATTAGAGTTGTTTTCTTCTTGCAAGAGCTGAAGGGTTTTGCTTTTGTCATTTCAGGTTTGAAAGGCCAGATTTCCCCCTCTTGTTCTCTGGGGCATCTCCATTAGTTGGAGTGTAAGTGTTAAATACTAATTGGTTGACAGCACCAGCATTGTGATTTTCGTTATCCCCTGGCTGCTGATATTGTGTATTACAGGTCGCCTTATGCTCAATGTTATGGTGGCCATCAGTTTGGCATGTGGGCTGGACAGTTAGGTGATGGCCGAGCAATAACCCTTGGGGAGATACTTAATTCACGATCTGAAAGGTGGGAGTTGCAGCTAAAAGGTGCTGGGAAGACTCCATACAGTCGGTTTGCAGATGGCTTAGCTGTATTACGAAGTAGCATCAGGGAGTTCCTTTGTAGTGAAGCAATGCACAGTCTTGGAATACCAACAACTCGTGCACTTTGTCTTCTGACCACAGGAACATTTGTTACCCGAGATATGTTTTATGAGTACGTAAACCAAAAAAAAAATCTGTTCAAGATGAAAGTTATAGAAATTTTGTAGTTATATGATGTTCTTATATCTTCTTGTGCATTTGAATAGGGTTTTCTCATAAATCCAAGAATTCTTAATCTCATAGTATGTTTTTTTTTTTTCTTTCTCTGCTAAACCTACAACACAAATAAATTTCTTCGACTAATTTTTTTTAATTAATTTTAGGTCAGGGATATGTATGTGTGTATATATATATTTAAATCGAAATCCTGTCTTCTTAAATACTTATATGTAGGTACTTATAGTTTTGAACATGTAAATATTAACTGTAAAATATGACGAGACATAAATTCATGTTGGTTACGACAATGCAATAATAAGTTCTGATTGTTTCAATTTATAGTGGGAATCCAAAAGACGAGCCTGGTGCAATTGTATGCAGAGTGGCTCAATCATTTCTGCGTTTTGGATCATACCAAATTCATGCCTCTAGAGGGAAAGATGATTATAAAATTGTTCGGGCTTTAGCAGACTACGTGATTCATCACCATTTTCCGCACCTAGAGAATATGAGCAGCAGTCAGAGTTTATCTTTCAGCACAGGCAATACAGATAGTTCAGTCGTTGATCTCACTTCAAACAAGTATGCAGGTAATCATTTCGGTTAAAAAATTGCATATGACATTGTTGTAAAAAATAGTTTTTGATGAGACGTACAGGTAGCGGGAAAGGCTACTTGAACTTAACTTAAAAAGTAGTTTGTGCCGGTGTACATTGCTATTTTATGTGAAAATTAATTGGTACGTGGAAGAAAAAAGTAAATTAATTCTTCAATTTTCTTTTTCTCTTGAGTTGCAGTGGGCTGTAAGGGGGAGATGGGGGAATAGTTTTTTTTTCCAATGTGGTTGTTAGCTGAAAAATCATGGACAGGGACATGAGACACGAATACTACATGACATGGATATGGTGAAATGTCAATTTCTGTAAATGTAGGACACAAACATGTGGGCTACACGTTGTTTTCATATGCATATATATTCTATTGAAAAAACCGTACGTGTGTATATATTGAAAACTTAAATTTAACATAAAAGATATGCCACTAAAAACATCCAAAATTAAGTTGATTAATGATATTTGAAAACTTAAACGATATAGACAGATTTAAAGATTTAGTTGGATCTGAGTGTAGGAAGAAGATGTCTTCCTAATACTTTAGAAATGACCAATATATAAGGATTAGAGTCTATAAGAGAATCTCTACTTTTTCCTTTCTAATTTTTAGTTTATGAGAGATTTTCTTTGGGAAGGGGTGGATGAAGGGAAGCATTCTTATTTGGTTAGTTGGAAGATTGATGGGCCCCCGTTAACCAAGGAGGGTTGGAAGTTGGTAATTTAAGGTTTTGAAACAAAGTTTTGTTGGCTAAGTGGCTTTGGCGTTTTGCCCTTGAGCTTGAATCCTTGTGGCATAGGATCATGGAGAGTAAGCATGGCACCCATCCTTTTGATTGGGTGGCTAAAGGGGTTAAAGATACATTGAAATTCTTGTTGTTGGATGAGTGCATTTTTTGGGTGGGGAGAAGGGGCATTTGAGTTTGGAGTCCTAACCCTAGTGAAGGCTTTTTTTGCAAGTCTTTCATTAGGTTGTTGTTGGATCCCTCCCTTGTGGTAGTGAGTTGGTCTTTGATGTGGTTTGGAGGATTAGGATTCCAAAGAAAATCAAGTTCTTTACTTGGCAAGTCTTGGTTGGTTGGGTAAACACTTTTGATAGGCTTGCTAGGAAGATGACCTCATTAATGAGTCCTTTCTGCTGTATTCTTGGTTGGAAGGCAGAGGAAGATCTGAATCATCTCCTTTGGGATTGTCAGTAAGCGAGGTCTGTGTGGAGTTGCTTCCTGTAGGAGTTCGATGTTCAGAATGCTGGCCAACATGATATTTGTTTGATGATTGGGGAGTTCCTCTTCCATCTGCCTTTTAGAGAGAAAGGCTGTTTTTTGTAGTTTGTTCGGGTGTTTGCCATTTGTTTTAAAAAACCCTCTCAAGCATGCGCCTAAGCTCAAGGTGTAGATCTGGTGCTTGCCTTGAAAAGACGAGCTCACAAAATAAGGTGTGCCTTTTGTGAAGCCCCGAGGCTTTACCCCCAGGTTTGGGGCTTTTTCATTATTTTTAAAATATAGTAATAATTAGGTTTCTTTATTAAATAAAAAAATTAAATTTACTAAGCCTAAATGCAAAATTTCTTGTGTTTAGGGGTTTACTTTTCACATTTTTACTTCAATTGTGCTTTCTTATCTTTATGTATTACTTTTATATATAGCGCGCATCACCAAAACCCCTACTCTTTTTTGCACCTTGAGCTTAAGCCCCCGAAAGACTATTGCGCTTTATTGCGCCTTGAGCTTTAAAAAACACTGGTGTGTGGTGTGTTATCATTGGGGGTAGAGGAACAAGAGTGTTTAGAGGTAGGGATAGGGACCCCTGTGAGGTTTGGTCCTTAGTGAGGTTTCATGTGTCACTTTGGGCTTCGAGCTTAAGTATTGAAGCTTTTTTGTAATTATTCTCTAGGTAATATCTTAGTTGGAAACCCTTTCTTTAGAAGGGGTGTTTTTGTGGGTTTGTTTTTTTGTATGCCCTTGTATTCTTTCATTTTTTCTCAATAAAAGTTGATTATATATATAAATAAATAAACAAATATATATATATATATATATATAATTAAAACACATTTTTTAGCATGTCAGGATGTGGCCAGAGCATGTCTAGATGTATCGAGGTTCGACAAATGTCCATGCTTCCTAGGGTGTTAGGTCATTCCATCCTTAGCAAAGCTAGGTTATCATTTAGATGATGTGAAGCAGTGATAAGGCTATTCATTGTCTGAATTTGCACATTCTTTTGTGCCACTGTATTGTTTCTCTGTTGTTACTGTTTATCAAAGATTGCTTTTGTCATCACGGAGCTTTGCTCACCGCATGGAGCAAACTATTTTTCCACCTTTTACTAAAGATTGCTTTTGTCATCTTAAGATCAAAATATTACTCAAAATGTAATCAAGGCTTCAATTTGTTCGAGGCATGGGTAAATCTTAGGATGGTATTTTTTATTTGAAATTTATGAAGATGAAGAATTTGCCTCGTGCTTCCTGAATTTATGATGTTCCACATGTATCTTGATCTTGAACTGCACTAAAGAAGCTGCCTCAAGTTTAGCAAAACATGGGTTGTTTGCCTCTTTCAAATACTTTAACTACTCTACTTTACAAGCAAGATAGCGTAATTGATGCATTATGGGCTTGTCATTTGTGTCTTTAAGCTCGTTTTACACACCATCGTTCATATGCCTTCTTTTTTGTTTTTTTGTTCTTTAATCTTTTCCTTTCCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAATAAGGAACAAACTTTTTAGTTTTTATTGATGATTGAAAAGTTACAAGTTTGTTCAAAGGTGCGTACTCCCATAAGGATTTAGAATGGAAAAATGAGAATGGGCCTTCTATAATTTAAATGAACAGTTTTGAGTTTGACCAAAATAACCTTTGTTTCCTTCCTTGGTTACACTTACAAGTTACAAATCTTATTGGGACACTGTTTCGTGCCTATTAGTAAGCGACACTTTCAATCATTCTTCTCTCTCTCAAGACATTGGTCTAGATTCATGTTTAAATTTTATTCCTTTGCGGCATTTGGCAAATTTGTCAGCAAACCAAGGATAGCATGACCTATGTGATGAATCCTGGTTCACAGCTTACTTCTTGGCTTGTCTGTGAACTTTTGTAGAGCCCAGCGCATGGGATCTGTTTTTATTTTTATTAATTTATATTTTTTTGGGTAAGAAACTGAGCTTTTGTTGAGAGAAGTGAAAGAATGTACAACTGCATACAAAATTCTCCATCTTATTTGTTGGCTGATGCAGTTCTCCTATTCTAGTTGTATTCAAACTTACGGTTTCTTAACAAAAAGGGTTACACATTTGCTTCTGTTTTCATTGCCTTTACGTGGATGATGGTATCAGCGTGGACAGTAGAGGTTGCTGAGCGAACTGCTTCCTTAATAGCAAGTTGGCAGGGAGTTGGGTTCACACATGGTGTACTCAACACTGACAATATGAGCATCTTGGGTCTAACCATTGATTATGGTCCCTTTGGATTTTTGGATGCTTTTGATCCTAGTTTTACGCCTAATACAACTGATCTTCCGGGCAGAAGATACTGTTTTGCAAATCAGCCAGATATAGGCTTATGGAATATAGCCCAGTTTGCCTCAACTCTTTCAGCTGCTGAATTAATAAATGACAAAGAAGCAAACTACGCCATGGAAAGGTAGTTTTACTTTATCGAAGTTTTGTCTTTTCTAGAATTGTTAGTCTTCCGTTGCACTCATATTATGACTTTTCCCCTCTGTTCTTACAGATACGGAGACAAATTTATGGATGACTATCAAGCCATTATGACCAAGAAAATCGGTCTGCCAAAGTACAACAAACAGTTAATCGGCAAGCTTCTCAACAACATGGCTGTTGACAAGGTTGATTATACAAATTTTTTTAGATCACTTTCCAATATCAAAGCTGATCCCAGCACCCCAGAGGAGGAGCTGTTGGTCCCTCTGAAGGCAGTTCTGTTAGATATTGGCAAGGAGCGTAAGGAAGCTTGGGTTAGCTGGGTAAAGACCTACATGGAGGAGGTATAGTGATATAAAATACCTGATGGTTCTTTGGAGTCAGATTATTACAATATATATATATATTGATGAAAAACAAGACAAAATATATTTGATCAAAAGAGAACACAACAAACTTGATCATCCTCTTCAGAAGATCTTTTGACCTCTTAGATAGAAATAAGGCAACCCCACTCTTCCATCTCTCTATCAAGAAGCTCTGTTCTAAAATTCAGATTCCACGCATCCCCTTTGGAAAACCAACAATTTCTCACCGAAAGGCTTTTATTTTAGAGTTAACAATAGCGTAAACTGAGGGAAACTCCTGACTAGATGGTGTGTTCGTTGCCCAACTATCTTTCAAAAAACGAATCTTATCCCCTGTTCCCAACTTATATACAAAAAACGAGTCACCATCGAGGAAAGCTACCTGTTTAGGTATATACATTCTTTACCAGTTTTCAATTTGGATGGGGAAAATGAAAAGTGCTAAACTGATATGATTGTCATTTACCAAAAACTCATCCTCTTTATCCTAATTCGAGGCAGTATCTGGCATTCAATCATAAAACCTCCAGGCTCCAACCAACCAACTTAATGCCCATCTAACGGTCCTGTTGGCAATGGCCAGAAATCATGCATAGATATTTGACTTAGTTCAAATTTCAGAAAACTCTTTAGTGCTACTAGATGCCTTTTCTGTTAGTAGTTGAATTTTCATAAAATACAGTCTTCATCTAAGAAATGTTGGGTTAGGAACTGAGGTAATATGGGCTACCTATGTCCCACATAAGTTAGAATGGGAGTTCTGCGGGGTGATTAAATACCTAACAATAAGATATCACTTAACAAGGAAATACTCAAGAACACACAAACAACTCAAGAACATTGAATTACACAAATATATTGAAATATGCTATAATATCGCAGAAAGGTAACAAGGTAGCCACTAGCCTTTGGAGAGAGACAGACTCTCCTAAATTTTTCGAAGGAAACCACTACAAAATTCCTCACACCCCTCCTCTTAACCCACTATCTCTATTTGTATATAAATGCCCTAACAAATTTCCTATCTAATTACTAATATGCTCCTTCTAATATTCACTAACAATCCTACTATTTCGATAACTATAGGAGTCTTACACGTTGTTGGCATGCTTTGAATATAAAGATAAATGACTTTTTCTTTCATCTCATCCATTATTCCATTGCTTTTGCAGCTGTCTGGAAGTGGCATTTCGGATGAGGAGCGGAAGGCCTCTATGGATGCAGTAAATCCTAAATATATTTTGAGGAACTACCTGTGCCAGACTGCCATAGATGCAGCCGAGCAGGGTGATTTTGGAGAGGTTCGTCGACTGCTGAAGATAATGGAAAGGCCATTCGATGAGCAGCCGGGAATGGAGAAATATGCACGGTTGCCTCCGGCGTGGGCTTACCGGCCGGGTGTTTGCATGCTTTCTTGTTCTTCATGAGTTAATAGCTTGCTCTACTTTACACCAAGGGAAATTATTTATTGATAGAATGTTTGGTATGTATATAATATTGTCAAGTCTGTGTTGTGATCTCTAACAATAATGTTAAGTTAATACTTTTCTTTATGGAATGACCTGAAATTTAGACACTTCTCATTTCCACTTCTACGTTAATGTATAT ATGTCATTGGTTTCACATCTCTTCCCCAAGCTCTCGCTGCTTCCCCACATTTCTCTCCTCTGCCATGGCCACCGCCTCGGCTTAGTTCGCCGCCATTCAACTCTCCTCATTCGCCACCGTCCTCCTGCCTCTCTCGTCTCTCCACCTTCAACACTCGCCGGCCACTCTCGCCACGGCCGCCGGAGAGTTTCCATGGACTCTGCTTCACCGGAGGTTTCGGCGTCGGTCGACTCCGTGGCGGAGGGTTTGAAGAATCAGAGCTTGAACAGTGAAGATCGTGGCGATGGAGGTAGTAGCGTCAAGCACCAGGCCAAAAAGAAGCTCGAAGATCTGAACTGGGACAATTCGTTTGTCAGAGAGCTGCCTGGCGATCCCCGTACCGATATCATTCCACGAGAGGTATTACATGCATGTTATTCAAATGTATTACCTTCAGTTGAAGTACAAAACCCTCAGCTTGTTGCTTGGTCAGAATCAGTTGCCGATTTACTAGATTTGGATCCTCAAGAGTTTGAAAGGCCAGATTTCCCCCTCTTGTTCTCTGGGGCATCTCCATTAGTTGGAGTGTCGCCTTATGCTCAATGTTATGGTGGCCATCAGTTTGGCATGTGGGCTGGACAGTTAGGTGATGGCCGAGCAATAACCCTTGGGGAGATACTTAATTCACGATCTGAAAGGTGGGAGTTGCAGCTAAAAGGTGCTGGGAAGACTCCATACAGTCGGTTTGCAGATGGCTTAGCTGTATTACGAAGTAGCATCAGGGAGTTCCTTTGTAGTGAAGCAATGCACAGTCTTGGAATACCAACAACTCGTGCACTTTGTCTTCTGACCACAGGAACATTTGTTACCCGAGATATGTTTTATGATGGGAATCCAAAAGACGAGCCTGGTGCAATTGTATGCAGAGTGGCTCAATCATTTCTGCGTTTTGGATCATACCAAATTCATGCCTCTAGAGGGAAAGATGATTATAAAATTGTTCGGGCTTTAGCAGACTACGTGATTCATCACCATTTTCCGCACCTAGAGAATATGAGCAGCAGTCAGAGTTTATCTTTCAGCACAGGCAATACAGATAGTTCAGTCGTTGATCTCACTTCAAACAAGTATGCAGCGTGGACAGTAGAGGTTGCTGAGCGAACTGCTTCCTTAATAGCAAGTTGGCAGGGAGTTGGGTTCACACATGGTGTACTCAACACTGACAATATGAGCATCTTGGGTCTAACCATTGATTATGGTCCCTTTGGATTTTTGGATGCTTTTGATCCTAGTTTTACGCCTAATACAACTGATCTTCCGGGCAGAAGATACTGTTTTGCAAATCAGCCAGATATAGGCTTATGGAATATAGCCCAGTTTGCCTCAACTCTTTCAGCTGCTGAATTAATAAATGACAAAGAAGCAAACTACGCCATGGAAAGATACGGAGACAAATTTATGGATGACTATCAAGCCATTATGACCAAGAAAATCGGTCTGCCAAAGTACAACAAACAGTTAATCGGCAAGCTTCTCAACAACATGGCTGTTGACAAGGTTGATTATACAAATTTTTTTAGATCACTTTCCAATATCAAAGCTGATCCCAGCACCCCAGAGGAGGAGCTGTTGGTCCCTCTGAAGGCAGTTCTGTTAGATATTGGCAAGGAGCGTAAGGAAGCTTGGGTTAGCTGGGTAAAGACCTACATGGAGGAGCTGTCTGGAAGTGGCATTTCGGATGAGGAGCGGAAGGCCTCTATGGATGCAGTAAATCCTAAATATATTTTGAGGAACTACCTGTGCCAGACTGCCATAGATGCAGCCGAGCAGGGTGATTTTGGAGAGGTTCGTCGACTGCTGAAGATAATGGAAAGGCCATTCGATGAGCAGCCGGGAATGGAGAAATATGCACGGTTGCCTCCGGCGTGGGCTTACCGGCCGGGTGTTTGCATGCTTTCTTGTTCTTCATGAGTTAATAGCTTGCTCTACTTTACACCAAGGGAAATTATTTATTGATAGAATGTTTGGTATGTATATAATATTGTCAAGTCTGTGTTGTGATCTCTAACAATAATGTTAAGTTAATACTTTTCTTTATGGAATGACCTGAAATTTAGACACTTCTCATTTCCACTTCTACGTTAATGTATAT ATGTCATTGGTTTCACATCTCTTCCCCAAGCTCTCGCTGCTTCCCCACATTTCTCTCCTCTGCCATGGCCACCGCCTCGGCTTAGTTCGCCGCCATTCAACTCTCCTCATTCGCCACCGTCCTCCTGCCTCTCTCGTCTCTCCACCTTCAACACTCGCCGGCCACTCTCGCCACGGCCGCCGGAGAGTTTCCATGGACTCTGCTTCACCGGAGGTTTCGGCGTCGGTCGACTCCGTGGCGGAGGGTTTGAAGAATCAGAGCTTGAACAGTGAAGATCGTGGCGATGGAGGTAGTAGCGTCAAGCACCAGGCCAAAAAGAAGCTCGAAGATCTGAACTGGGACAATTCGTTTGTCAGAGAGCTGCCTGGCGATCCCCGTACCGATATCATTCCACGAGAGGTATTACATGCATGTTATTCAAATGTATTACCTTCAGTTGAAGTACAAAACCCTCAGCTTGTTGCTTGGTCAGAATCAGTTGCCGATTTACTAGATTTGGATCCTCAAGAGTTTGAAAGGCCAGATTTCCCCCTCTTGTTCTCTGGGGCATCTCCATTAGTTGGAGTGTCGCCTTATGCTCAATGTTATGGTGGCCATCAGTTTGGCATGTGGGCTGGACAGTTAGGTGATGGCCGAGCAATAACCCTTGGGGAGATACTTAATTCACGATCTGAAAGGTGGGAGTTGCAGCTAAAAGGTGCTGGGAAGACTCCATACAGTCGGTTTGCAGATGGCTTAGCTGTATTACGAAGTAGCATCAGGGAGTTCCTTTGTAGTGAAGCAATGCACAGTCTTGGAATACCAACAACTCGTGCACTTTGTCTTCTGACCACAGGAACATTTGTTACCCGAGATATGTTTTATGATGGGAATCCAAAAGACGAGCCTGGTGCAATTGTATGCAGAGTGGCTCAATCATTTCTGCGTTTTGGATCATACCAAATTCATGCCTCTAGAGGGAAAGATGATTATAAAATTGTTCGGGCTTTAGCAGACTACGTGATTCATCACCATTTTCCGCACCTAGAGAATATGAGCAGCAGTCAGAGTTTATCTTTCAGCACAGGCAATACAGATAGTTCAGTCGTTGATCTCACTTCAAACAAGTATGCAGCGTGGACAGTAGAGGTTGCTGAGCGAACTGCTTCCTTAATAGCAAGTTGGCAGGGAGTTGGGTTCACACATGGTGTACTCAACACTGACAATATGAGCATCTTGGGTCTAACCATTGATTATGGTCCCTTTGGATTTTTGGATGCTTTTGATCCTAGTTTTACGCCTAATACAACTGATCTTCCGGGCAGAAGATACTGTTTTGCAAATCAGCCAGATATAGGCTTATGGAATATAGCCCAGTTTGCCTCAACTCTTTCAGCTGCTGAATTAATAAATGACAAAGAAGCAAACTACGCCATGGAAAGATACGGAGACAAATTTATGGATGACTATCAAGCCATTATGACCAAGAAAATCGGTCTGCCAAAGTACAACAAACAGTTAATCGGCAAGCTTCTCAACAACATGGCTGTTGACAAGGTTGATTATACAAATTTTTTTAGATCACTTTCCAATATCAAAGCTGATCCCAGCACCCCAGAGGAGGAGCTGTTGGTCCCTCTGAAGGCAGTTCTGTTAGATATTGGCAAGGAGCGTAAGGAAGCTTGGGTTAGCTGGGTAAAGACCTACATGGAGGAGCTGTCTGGAAGTGGCATTTCGGATGAGGAGCGGAAGGCCTCTATGGATGCAGTAAATCCTAAATATATTTTGAGGAACTACCTGTGCCAGACTGCCATAGATGCAGCCGAGCAGGGTGATTTTGGAGAGGTTCGTCGACTGCTGAAGATAATGGAAAGGCCATTCGATGAGCAGCCGGGAATGGAGAAATATGCACGGTTGCCTCCGGCGTGGGCTTACCGGCCGGGTGTTTGCATGCTTTCTTGTTCTTCATGA MSLVSHLFPKLSLLPHISLLCHGHRLGLVRRHSTLLIRHRPPASLVSPPSTLAGHSRHGRRRVSMDSASPEVSASVDSVAEGLKNQSLNSEDRGDGGSSVKHQAKKKLEDLNWDNSFVRELPGDPRTDIIPREVLHACYSNVLPSVEVQNPQLVAWSESVADLLDLDPQEFERPDFPLLFSGASPLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSERWELQLKGAGKTPYSRFADGLAVLRSSIREFLCSEAMHSLGIPTTRALCLLTTGTFVTRDMFYDGNPKDEPGAIVCRVAQSFLRFGSYQIHASRGKDDYKIVRALADYVIHHHFPHLENMSSSQSLSFSTGNTDSSVVDLTSNKYAAWTVEVAERTASLIASWQGVGFTHGVLNTDNMSILGLTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAELINDKEANYAMERYGDKFMDDYQAIMTKKIGLPKYNKQLIGKLLNNMAVDKVDYTNFFRSLSNIKADPSTPEEELLVPLKAVLLDIGKERKEAWVSWVKTYMEELSGSGISDEERKASMDAVNPKYILRNYLCQTAIDAAEQGDFGEVRRLLKIMERPFDEQPGMEKYARLPPAWAYRPGVCMLSCSS Homology
BLAST of CmUC03G063470 vs. NCBI nr
Match: XP_038878878.1 (protein adenylyltransferase SelO [Benincasa hispida]) HSP 1 Score: 1276.5 bits (3302), Expect = 0.0e+00 Identity = 626/649 (96.46%), Postives = 639/649 (98.46%), Query Frame = 0
BLAST of CmUC03G063470 vs. NCBI nr
Match: XP_004149028.1 (uncharacterized protein LOC101218327 [Cucumis sativus] >KGN66443.1 hypothetical protein Csa_007588 [Cucumis sativus]) HSP 1 Score: 1248.8 bits (3230), Expect = 0.0e+00 Identity = 614/649 (94.61%), Postives = 628/649 (96.76%), Query Frame = 0
BLAST of CmUC03G063470 vs. NCBI nr
Match: TYK26910.1 (UPF0061 protein [Cucumis melo var. makuwa]) HSP 1 Score: 1240.7 bits (3209), Expect = 0.0e+00 Identity = 611/649 (94.14%), Postives = 625/649 (96.30%), Query Frame = 0
BLAST of CmUC03G063470 vs. NCBI nr
Match: XP_008451128.1 (PREDICTED: UPF0061 protein azo1574 [Cucumis melo]) HSP 1 Score: 1239.6 bits (3206), Expect = 0.0e+00 Identity = 611/649 (94.14%), Postives = 626/649 (96.46%), Query Frame = 0
BLAST of CmUC03G063470 vs. NCBI nr
Match: KAG6590231.1 (hypothetical protein SDJN03_15654, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1238.0 bits (3202), Expect = 0.0e+00 Identity = 608/651 (93.39%), Postives = 627/651 (96.31%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy Swiss-Prot
Match: A1K5T6 (Protein adenylyltransferase SelO OS=Azoarcus sp. (strain BH72) OX=418699 GN=selO PE=3 SV=1) HSP 1 Score: 499.6 bits (1285), Expect = 5.4e-140 Identity = 276/553 (49.91%), Postives = 343/553 (62.03%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy Swiss-Prot
Match: Q5NYD9 (Protein adenylyltransferase SelO OS=Aromatoleum aromaticum (strain EbN1) OX=76114 GN=selO PE=3 SV=1) HSP 1 Score: 495.7 bits (1275), Expect = 7.8e-139 Identity = 266/556 (47.84%), Postives = 343/556 (61.69%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy Swiss-Prot
Match: Q1H0D2 (Protein adenylyltransferase SelO OS=Methylobacillus flagellatus (strain KT / ATCC 51484 / DSM 6875) OX=265072 GN=selO PE=3 SV=1) HSP 1 Score: 491.5 bits (1264), Expect = 1.5e-137 Identity = 256/546 (46.89%), Postives = 341/546 (62.45%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy Swiss-Prot
Match: C4LAV8 (Protein adenylyltransferase SelO OS=Tolumonas auensis (strain DSM 9187 / TA4) OX=595494 GN=selO PE=3 SV=1) HSP 1 Score: 478.0 bits (1229), Expect = 1.7e-133 Identity = 256/543 (47.15%), Postives = 340/543 (62.62%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy Swiss-Prot
Match: Q7UKT5 (Protein adenylyltransferase SelO OS=Rhodopirellula baltica (strain DSM 10527 / NCIMB 13988 / SH1) OX=243090 GN=selO PE=3 SV=1) HSP 1 Score: 476.9 bits (1226), Expect = 3.7e-133 Identity = 257/559 (45.97%), Postives = 351/559 (62.79%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy TrEMBL
Match: A0A0A0LXE5 (Selenoprotein O OS=Cucumis sativus OX=3659 GN=Csa_1G605720 PE=3 SV=1) HSP 1 Score: 1248.8 bits (3230), Expect = 0.0e+00 Identity = 614/649 (94.61%), Postives = 628/649 (96.76%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy TrEMBL
Match: A0A5D3DUC9 (Selenoprotein O OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold699G00140 PE=3 SV=1) HSP 1 Score: 1240.7 bits (3209), Expect = 0.0e+00 Identity = 611/649 (94.14%), Postives = 625/649 (96.30%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy TrEMBL
Match: A0A1S3BRJ3 (Selenoprotein O OS=Cucumis melo OX=3656 GN=LOC103492506 PE=3 SV=1) HSP 1 Score: 1239.6 bits (3206), Expect = 0.0e+00 Identity = 611/649 (94.14%), Postives = 626/649 (96.46%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy TrEMBL
Match: A0A6J1H9V3 (Selenoprotein O OS=Cucurbita moschata OX=3662 GN=LOC111461421 PE=3 SV=1) HSP 1 Score: 1233.0 bits (3189), Expect = 0.0e+00 Identity = 606/651 (93.09%), Postives = 625/651 (96.01%), Query Frame = 0
BLAST of CmUC03G063470 vs. ExPASy TrEMBL
Match: A0A6J1JKI6 (Selenoprotein O OS=Cucurbita maxima OX=3661 GN=LOC111485404 PE=3 SV=1) HSP 1 Score: 1230.7 bits (3183), Expect = 0.0e+00 Identity = 604/651 (92.78%), Postives = 627/651 (96.31%), Query Frame = 0
BLAST of CmUC03G063470 vs. TAIR 10
Match: AT5G13030.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 13 growth stages; CONTAINS InterPro DOMAIN/s: Uncharacterised protein family UPF0061 (InterPro:IPR003846); Has 5046 Blast hits to 4997 proteins in 1211 species: Archae - 8; Bacteria - 2327; Metazoa - 120; Fungi - 134; Plants - 48; Viruses - 0; Other Eukaryotes - 2409 (source: NCBI BLink). ) HSP 1 Score: 979.9 bits (2532), Expect = 9.6e-286 Identity = 467/601 (77.70%), Postives = 524/601 (87.19%), 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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