CaUC09G177530 (gene) Watermelon (USVL246-FR2) 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.ATGGCGGACCTCAAAGCAATCTCAGATGCACTGGAACTTGTCGATTCCAAGAAACAGAATTTGAAGAAGGCATTCGACGACCTTAAAGGCCACTCCCACCTCCTCTCTTCCTTCTCTCTCTCCTGGTCCGACCTCGAATCCCACTTCACTTCAATCCACAACTCTCTCACGAAGAGATTCCACGCGCTCGAGTCTCTGGAGTCCAATGTGATTCAAAATCAACCCGAGCAGAAGGAGCCGTGTTCTTCATTGGGCCCGAAACCGGAGAATCGGAACGAACAGGATGGGATTGCCGATTGTGTGTCGCCTCGGCCCGAGTTGAAGCGTCTGTGTGAGAGCATGGACGGTAAGGGGCTGAGTAAATATGTTAGTGATTTGCCGAAGGATCGTGAACAGGTCAGGAATGAGCTTCCGGCTGCACTTAAGTGCGCGCCGGACCAAGAAGCTCTGGTTCTTGATGCAATGGAGGGATTCTTCAATGGAAATTCTAATTCGAAGCAAAATAACTTGAAATTGTCCAATATGAGGAGAGGCTGTATACTACTGTTGGACACTCTGATGGACAATTGCCCAACTGTAAGCAACCATGTAACGGAAAGGGCAAAGAAATTGGCATTGGAATTGAAACAAAGCCTTAGTAAAGATGGGAAAGATTCATTGGATGCGTTAGGGTTTTTGCTTTTGGTTGCAGCTTATAAATTGACATCGGAATTCAACGTGGATGAGCTTGTTGATTATTTCACTGTAATTGCTCGGTATCGGCAAGCTACAAAGTTGTGCAAAGTCGTTGGCTTGGGTGATAAAGTAGCTGGTAGGTACATTTTTCTTGAACATTGTTTTAATGTGAGAAGCAGAGACAATGGGTATCTTAGTTTATCATTCCCTTAACAAGAATTCATGTGTAGTTTAGTTTATAAAGTCATAACACAGTTTGGAGATCCATGATGAGTCCTCGACATATAAGTTTTGGCCGTTTTTAAACCCTTATGTAGGCTGAACGAGAAGTTCAAGAACCAAACTTTGGTGGTTGAAATCATAGTTTCAAATATATTAGGATCTAATGATTATTTCTTGGGGTTACTAATGCGAAGTAAGATTAGTGTGTAAGTGTTGAAGGTTTAACATGGAGTATAGTTGACCAAGATTATTTCCATTAAGAGTATATATTGATCTCAACGCTCATGAAGTTTTATAAAAAAGAAACATGAAGTAGTTATGTAGATATTTAATATTGGCCGAGTATGATAAATTGAAGGAATCAATCTTTAAGCATGTGCTTGCAAGTTCTATGCGAAGGTAAATATGGGACAACTACGACATGAGAAGTAGAGGGGTTTCTTAGTAATTATATATTTGCAAGCTTGCCTATACCTGAGTCGTCGACATACTTTGATGTAGTGTATCTTAGTGTAATAAAGGCTCGCACTTGCACTATACTGAAATTGCCATATTCTTTGTGGTTTTTCACAGATCTTGTTCAGAAACTGCTAGACAAGGGAAAGCAACTTTTAGCTGTCAAATTTATCTTCGAGTTTGAGTTGACTGAAAAATTTCCACCTGTTCCCGTTTTAAAGGATTATGTGAAGGAGTCCAAGAAGGCAGCCAAAGCAGTTTGCAAGGAAGGAAAAAATTCTCTCCGGGCACTGGTATTTACATCCAACCCAACCTTATTTGCTATTTCATTTGCTTTCAGATTTGAGAGAAAATAATTGTTTCATTACTTCAATTACTGTAAATATTTTTGAGCAGAATGAGGCTACCGCTAAAGAAGTGGGTGCGTTAAAATCTGTGATCAGATTAATTGAAGAATACAAGCTTGATTCTGATTATCCACGAGTGAACCTTGAAAAGCGAATTGAGCAGCTAGAGAAACAACAGGCCAACAGGAAGCGGCCTGCAGGAGCTTCTCCTGTTATGGCCAGACAAAAACAGCCACAACAACCTCAACAAGCGAAACAACGGTTTAAGAAACAGAAATTGCAGCTGAAGAAACGGACACCACAGCAGGTTCCAATTAATCGCTCACGCATGGCTGCTCCAGTTGGCTCTGCAGCAGTTCCAAATATCGTTGGTGTTGGGAATCCAACTTATCCCCCATACCAACAAACACGCGTACCTTCTGCAGGTTTGGTAGCTGAACTTGCTGCTCCTTATCAACAATCTCTTCTACAGTCAGCAGGTTTGTTACCAAATTATCCTGTTTCATATGCACAATCTCATCTACAGCCAGCAGGTTTGCTGCCAGAACACCCTGCTCCTTTTGAGAGCTCATCAGCTATGGCCTATGGTATGGCAGTGGCAGGCTCCACTCCAGCTGTTGCCTCTTATCATGGCTCATCAGCTGAGTATTATGGTTTAGCAGGAGGCCCCATGGGTTTTCCTGGAAATGCAACCACTGTTAATTCTCACACATACCCGTCAGAACCATATGCACCACCTGGGTATGGTGTGGGTGCGCCACCCCTTTTCCATCCATCTTACTATCCCCAATAGTTTTTAAAATTGTCTATGATAGTATACTTTTTGGATCAGCTGCTGGCTATGGTGGGATATAACATGAACATGGCATCCACCATCTTCCTATCTTTTGTCGTGGTATCCATAAATTTGGTTTTTGTTTCTTAATAGTACAGTTGGGATATTAACTTTTTTTCTGACTTGGCACAGAGTGCCACTACCATTAGAAGGCAAATTTGCTCTTCTTGGCATGGTTTCTGTAGGACTTGAAATGATCTCTTGATCCTTTGTATAGTCTAGTTCTTATTTTTCCAAACTGTCATTTTTCTTCCGAAAATTTACATTAGGAAAAGTGTGTGGGGGGGAAGGGTTTACTTTCCAATATAGTTTTTGCTTGAAAAGTACTTCAATTATGGACAGTTTAAACAAAAAGTGGTCTATGAAAAATTACTTTTCTGTTTGGTGTTAGACCTCTTTATCTTTTAAGAAGACATCCTTGAGAATCACTTGGGTCAAAAACACTCTGAAAGTGCTGTTTTTAGAAGCATATAGATACATATACATATATATACATATATACTTGTATGTATATAATTTGAGTTTGTTATATCTTAATTCTAAATGATTTTGTGGAAATGCTTTTGGTTATGCCGAAAGAAAGCTTAAGAAAAGTACTCCCAAACATAGCTAAGAGTTTTGGGTTGTACACAAACATGACCCATGTTATTCTCATAAAGGAAGGAAAAAAGAAAAAATAATGCAGCTTATTTGTTAACCAAAATATTGTTACTGATTTTATTTTGGGTGGAAACTGTATTCTCCAATAGCCAAGAAGATACCTCTGATCAGCCTACCTTAACTGAGTACATGTCAATTATCATTTATGTATGAGATGATAATTAGTGCATTTATCTATTGAGCTATGCTCATATTAGCAATAGAGTATGTATTTTTAATCTTATATATTTGTATAAATCAGGTTATGATGCTCAAAATCGAGTGATTCAATACCATTTGATACTAATAAATGTCATTACTCTGTACAAATTGGTAAGCAGTTATGTTTTTTCTTGGATTCTGTTTTGGTGATTGCTAATTAACAATTCAATTAGTTTGATACTAATATGGTCCTAGCTATCTCATTCATGCTTGGCAATGACTTCAACAATTCAGTTACTTTTTCTTTTTTCTTTGTTATATTTAAATTCTAAAAAAGAGATGTGTGAATGGAATTTATTTATAAAACTTGTGAGTTTCTAGGCTAGTTTGTATGCACATTAATTATTCTCATTAGGACAATCATTATAGTTTAAATCAAAGTTGGTTGATTTTTTCCTTGCAGAAGTTATGTTCCATCGTTAAGATGTGTGCAAATCTAATAAACAATGCTAGTTGACTTGTGTTTGTTTATAACTTTCAATTTCAATTTTGTGTGTTTGATAGGTTAGCTGTTATTAATGTTGTTTTGTCAACGTTTTGGCCATTAGATGTTTGAATCTTAAATTAACCTTTATCAAACCATCATTATCATGCATTGTAGGTGTTACATGGAAGAAATTAGATCTAAGGAATTATTGGATTTTTTTAAAAATAGACAGATTTAAGTTTTAATTAGACATAAGGAAAAAGAAAAAAACTACCATTTTGGGTTCTTATACTTTGAGTCTTAATCAATTCTACTGCGCAATTTTAAATATCTAATTTTAGGTATGTTTTTTTTTCCTTTTCAAAAAGAACATTTTATTATCTATTAACATTTTCAATAAATTATAGAAACATATTCACATATGGTATTTTATTATATGAAAATTATTGTTATTGTTTAATTAATTTCGATAAAAATTAATTTTGAATACTAGATTTAAGATTTATAGAGAAAATTATTGTTGTTGTTTAATTAATTTAGATAAAAATTAATTTTGAATACTAGATTTAAGATTTATAGGGAGTACCACAGCCCTCAAAATAGACAAATTTCACAAAAATTGTATAATTTTTTTTTTTAGAGATTTTATTTTTAATTGAGTCTTAATTGTGGACCATGTCCCTGCAGGTGTCGTTATCAATAATTTCGTACCACCAAGTCCAAATCCTTTCAGAATGCCGTTTTTATTTTGCCACGTCGTCCTTCTTCAGTTTCGTTTCGCGCCAACCGCAATTTCTCGCAAAAGGACACGTCACCCCCAAAACGATGTCGTTCTTCGCACCTTATTCGTTCAGAAAAGAAGGAAAAAAAAAGAAAAACGAAAATTACTAAATATCTCAGGAAATCGAGAGATTCTCTGTCTCTCTGTTTAGGGTTTATCGGTATATTCTCTCTCTCTCTTATCCATTTTTGTAGCTTCAAAAATGGCTTCTCTCTCCCTCTTCTCTTTCTCTCCCACAATTCACTCTGATTTTCCCTCTTCTTGGGATTTGTATTTGTCGACCCAATCCCCGTTCAGTTCTTCGACCTCAGCCTGTAATTTTCATGGAGTCGGGATTGGTAGTCGGAGTAGGAGGAGGAATGTGCGTCGGTTTGTGGTCCGGTCGACTCACTCCAATGCCAGGATTCTCAAGCCCAAACGGAGGTCGAGGTTTGGTCAGACTTTGTCTCCTTTTGATAGCGATGAAGATGGGGAGGATGTGGATGAGTTTAGCAGTGATGGGGATGATGATGATGCTTGGTTGGACAATGTGAGCTCTGATTTCTGGTTTTTGTGGTTTTCTTTATGTTTGTTTGCTTGCTGGTTGATTGAATGTGGGGCTGTGATTTTGTTTAATTTTTCATTATTGGGAAGTGGTTGGATTGATTATTGTTGTGATGAGAAACTTGACTGTTTAGTGATAAGTGAAGAGTAGAAAAAAGGAGTATTTGAAACTGTGGTTATACTGAATACAGATAACGTAGTTCTGGCCATGGATAATCAATTGAGCTTCAAGAATTTTTATATCTGGTTTTACTTCAGTAATGAAAAGAGTGCACTAGGGAAGTTAGTGGAAATTTTAGCTTCATTTTCATGTTATTGCTTCCATTTCTGTTGGGCTCTTTTAGAGTGGATATGTTGGCTTGTTTGTTTTTAGTTCTTTATGCATTATACAGTTGGTCATTGAGAATCTCACCTTTTACTGTCTGTGTACTGTGGGATTTTCATTTTCTAGGGCGATTTCTCTGATGTTGAATATGATGCCAAAAGAAAGAGAGCCAAGTTGCAAAGCAGAACCAAAAGTAACAACTCACTGCGAGGTTATCTTTTCTTATTTATTTTGTCCTCCTAAAGGAGTGAGCAATTTACTCATCATACTCGTCTTGTGCAGATAACTTGAGACATCCCAGAGAGAGCAGGGGTGTAAAATCATCCAACGATGGGAATAGTTTTAAAGTTAATGCCAACCGCCTTGATTTTCAAAATATCTCAAATGATACTGTAAAACAAGACTCCACGATTGAGGAGGAAGTTTGTTCTGCCAACATAGGCAGGAAAGGAAAGGTGGGTCAATAAGTTTGCAACTTTATTAACACTTTCAGATTGCTAAAATAAATGTTAAATGTTCGTTTGTTTCCATTGATTCAGTTGATGACCAAGAAATCTATGGAAATTAGATTTCCTCGTCTGGCAGAAGAAATAGAATTGGATGAGAAATGGTTTCCTCTACTTGATTATCTTACAACATTTGGGCTCAAGGAATCACATTTTCTCCAAATGTATGAGAGACACATGCCTTCTCTTCAAATAAATGTTTATTCTGCTCAAGAAAGACTAGAATACTTGTTAAGTGTTGGTGTCAAACAGAGGGATGTCCGAAGAATACTCTTGAGACAGCCCCAAATTCTGGGGTACACGGTAGAGAACAATTTGAAATCCCATGTTGCTTTCTTACTTAGTTTGGGAATCCCAAATTCCAGAGTGGGCCAGATCATTGCCGCTGCTCCATCTCTATTTTCTTATAGTGTTGAGAATTCATTAAAACCCACTGTCCGATACTTGGTCGAGGAAGTTGGCATCAAGGAAAAGGATTTGGGTAAAGTTGTGCAACTGAGTCCTCAAATCCTAGTTCAACGGATTGATATATCATGGAACACCAGATATATGTTTCTTTCAAAGGAAATTGGAGCTCCTCGTGATAATGTAGTGAAGATGGTAACTAAACATCCTCAACTCCTCCATTATAGCATTGATGACGGGTTACTACCCAGGATCAATTTCCTTAGAAGTATTGGAATGCGAAATTCAGAGATCTTGAAAGTCTTAACTAGCCTTACGCAGGTATTTTGCTTTCATTTTCTATTTTTCTCAGCATGTTTTGAGGAACATATATAACCTTTTTATCTTTAAGCCTTCAATACCGGATTCTTTATTCTTCTCATGGTGATGGTTATATTCTTCTTGACTAGAAAGTTTTCTCTTGCTGTAAGAAGTGGTATTCTTAACATTTATTTGTTGCCTCATCTTGGTTGCAAGCTTGATTCAAATGCTTTTAGTATTTTCTTCATTAATTCTTGTTTTAGGTCCCTTAACCGGATTTGTTGATACTACAGGTCTTTTCTCTATCTCTGGAGGATAATTTGAAGCCCAAATACATGTATCTGATCAACGAACTCCGGAACGAAGTGAAATCACTGACCAAATATCCCATGTATCTAAGCTTGTCCTTGGATCAGAGAATTCGGCCTCGACACCGGTTCCTAGTTTCTCTTAAGAAAGCACCCAAGGGACCATTCCCTTTAAGTTCCTTTGTTCCAACTGATGAATGCTTTTGTGAGCAGTGGGCTGAAACCAGCCTAGATAAGTATCTTGAATTTCGAAAGAGATTACTATTGAAGGAGTTTGCGCAGAAATATGAAAGGAGATGA ATGGCGGACCTCAAAGCAATCTCAGATGCACTGGAACTTGTCGATTCCAAGAAACAGAATTTGAAGAAGGCATTCGACGACCTTAAAGGCCACTCCCACCTCCTCTCTTCCTTCTCTCTCTCCTGGTCCGACCTCGAATCCCACTTCACTTCAATCCACAACTCTCTCACGAAGAGATTCCACGCGCTCGAGTCTCTGGAGTCCAATGTGATTCAAAATCAACCCGAGCAGAAGGAGCCGTGTTCTTCATTGGGCCCGAAACCGGAGAATCGGAACGAACAGGATGGGATTGCCGATTGTGTGTCGCCTCGGCCCGAGTTGAAGCGTCTGTGTGAGAGCATGGACGGTAAGGGGCTGAGTAAATATGTTAGTGATTTGCCGAAGGATCGTGAACAGGTCAGGAATGAGCTTCCGGCTGCACTTAAGTGCGCGCCGGACCAAGAAGCTCTGGTTCTTGATGCAATGGAGGGATTCTTCAATGGAAATTCTAATTCGAAGCAAAATAACTTGAAATTGTCCAATATGAGGAGAGGCTGTATACTACTGTTGGACACTCTGATGGACAATTGCCCAACTGTAAGCAACCATGTAACGGAAAGGGCAAAGAAATTGGCATTGGAATTGAAACAAAGCCTTAGTAAAGATGGGAAAGATTCATTGGATGCGTTAGGGTTTTTGCTTTTGGTTGCAGCTTATAAATTGACATCGGAATTCAACGTGGATGAGCTTGTTGATTATTTCACTGTAATTGCTCGGTATCGGCAAGCTACAAAGTTGTGCAAAGTCGTTGGCTTGGGTGATAAAGTAGCTGATCTTGTTCAGAAACTGCTAGACAAGGGAAAGCAACTTTTAGCTGTCAAATTTATCTTCGAGTTTGAGTTGACTGAAAAATTTCCACCTGTTCCCGTTTTAAAGGATTATGTGAAGGAGTCCAAGAAGGCAGCCAAAGCAGTTTGCAAGGAAGGAAAAAATTCTCTCCGGGCACTGAATGAGGCTACCGCTAAAGAAGTGGGTGCGTTAAAATCTGTGATCAGATTAATTGAAGAATACAAGCTTGATTCTGATTATCCACGAGTGAACCTTGAAAAGCGAATTGAGCAGCTAGAGAAACAACAGGCCAACAGGAAGCGGCCTGCAGGAGCTTCTCCTGTTATGGCCAGACAAAAACAGCCACAACAACCTCAACAAGCGAAACAACGGTTTAAGAAACAGAAATTGCAGCTGAAGAAACGGACACCACAGCAGCAGTTCCAAATATCGTTGGTGTTGGGAATCCAACTTATCCCCCATACCAACAAACACGCGTACCTTCTGCAGCCAGCAGGTTTGCTGCCAGAACACCCTGCTCCTTTTGAGAGCTCATCAGCTATGGCCTATGGTATGGCAGTGGCAGGCTCCACTCCAGCTGTTGCCTCTTATCATGGCTCATCAGCTGAGTATTATGGTTTAGCAGGAGGCCCCATGGGTTTTCCTGGAAATGCAACCACTGTTAATTCTCACACATACCCGTCAGAACCATATGCACCACCTGGGTATGGTTATGATGCTCAAAATCGAGTGATTCAATACCATTTGATACTAATAAATGTCATTACTCTGTACAAATTGGTGTCGTTATCAATAATTTCGTACCACCAAGTCCAAATCCTTTCAGAATGCCGTTTTTATTTTGCCACGTCGTCCTTCTTCAGTTTCGTTTCGCGCCAACCGCAATTTCTCGCAAAAGGACACGAAATCGAGAGATTCTCTGTCTCTCTGTTTAGGGTTTATCGTTCTTCGACCTCAGCCTGTAATTTTCATGGAGTCGGGATTGGTAGTCGGAGTAGGAGGAGGAATGTGCGTCGGTTTGTGGTCCGGTCGACTCACTCCAATGCCAGGATTCTCAAGCCCAAACGGAGGTCGAGGTTTGGTCAGACTTTGTCTCCTTTTGATAGCGATGAAGATGGGGAGGATGTGGATGAGTTTAGCAGTGATGGGGATGATGATGATGCTTGGTTGGACAATGGCGATTTCTCTGATGTTGAATATGATGCCAAAAGAAAGAGAGCCAAGTTGCAAAGCAGAACCAAAAATAACTTGAGACATCCCAGAGAGAGCAGGGGTGTAAAATCATCCAACGATGGGAATAGTTTTAAAGTTAATGCCAACCGCCTTGATTTTCAAAATATCTCAAATGATACTGTAAAACAAGACTCCACGATTGAGGAGGAAGTTTGTTCTGCCAACATAGGCAGGAAAGGAAAGTTGATGACCAAGAAATCTATGGAAATTAGATTTCCTCGTCTGGCAGAAGAAATAGAATTGGATGAGAAATGGTTTCCTCTACTTGATTATCTTACAACATTTGGGCTCAAGGAATCACATTTTCTCCAAATGTATGAGAGACACATGCCTTCTCTTCAAATAAATGTTTATTCTGCTCAAGAAAGACTAGAATACTTGTTAAGTGTTGGTGTCAAACAGAGGGATGTCCGAAGAATACTCTTGAGACAGCCCCAAATTCTGGGGTACACGGTAGAGAACAATTTGAAATCCCATGTTGCTTTCTTACTTAGTTTGGGAATCCCAAATTCCAGAGTGGGCCAGATCATTGCCGCTGCTCCATCTCTATTTTCTTATAGTGTTGAGAATTCATTAAAACCCACTGTCCGATACTTGGTCGAGGAAGTTGGCATCAAGGAAAAGGATTTGGGTAAAGTTGTGCAACTGAGTCCTCAAATCCTAGTTCAACGGATTGATATATCATGGAACACCAGATATATGTTTCTTTCAAAGGAAATTGGAGCTCCTCGTGATAATGTAGTGAAGATGGTAACTAAACATCCTCAACTCCTCCATTATAGCATTGATGACGGGTTACTACCCAGGATCAATTTCCTTAGAAGTATTGGAATGCGAAATTCAGAGATCTTGAAAGTCTTAACTAGCCTTACGCAGGTCTTTTCTCTATCTCTGGAGGATAATTTGAAGCCCAAATACATGTATCTGATCAACGAACTCCGGAACGAAGTGAAATCACTGACCAAATATCCCATGTATCTAAGCTTGTCCTTGGATCAGAGAATTCGGCCTCGACACCGGTTCCTAGTTTCTCTTAAGAAAGCACCCAAGGGACCATTCCCTTTAAGTTCCTTTGTTCCAACTGATGAATGCTTTTGTGAGCAGTGGGCTGAAACCAGCCTAGATAAGTATCTTGAATTTCGAAAGAGATTACTATTGAAGGAGTTTGCGCAGAAATATGAAAGGAGATGA ATGGCGGACCTCAAAGCAATCTCAGATGCACTGGAACTTGTCGATTCCAAGAAACAGAATTTGAAGAAGGCATTCGACGACCTTAAAGGCCACTCCCACCTCCTCTCTTCCTTCTCTCTCTCCTGGTCCGACCTCGAATCCCACTTCACTTCAATCCACAACTCTCTCACGAAGAGATTCCACGCGCTCGAGTCTCTGGAGTCCAATGTGATTCAAAATCAACCCGAGCAGAAGGAGCCGTGTTCTTCATTGGGCCCGAAACCGGAGAATCGGAACGAACAGGATGGGATTGCCGATTGTGTGTCGCCTCGGCCCGAGTTGAAGCGTCTGTGTGAGAGCATGGACGGTAAGGGGCTGAGTAAATATGTTAGTGATTTGCCGAAGGATCGTGAACAGGTCAGGAATGAGCTTCCGGCTGCACTTAAGTGCGCGCCGGACCAAGAAGCTCTGGTTCTTGATGCAATGGAGGGATTCTTCAATGGAAATTCTAATTCGAAGCAAAATAACTTGAAATTGTCCAATATGAGGAGAGGCTGTATACTACTGTTGGACACTCTGATGGACAATTGCCCAACTGTAAGCAACCATGTAACGGAAAGGGCAAAGAAATTGGCATTGGAATTGAAACAAAGCCTTAGTAAAGATGGGAAAGATTCATTGGATGCGTTAGGGTTTTTGCTTTTGGTTGCAGCTTATAAATTGACATCGGAATTCAACGTGGATGAGCTTGTTGATTATTTCACTGTAATTGCTCGGTATCGGCAAGCTACAAAGTTGTGCAAAGTCGTTGGCTTGGGTGATAAAGTAGCTGATCTTGTTCAGAAACTGCTAGACAAGGGAAAGCAACTTTTAGCTGTCAAATTTATCTTCGAGTTTGAGTTGACTGAAAAATTTCCACCTGTTCCCGTTTTAAAGGATTATGTGAAGGAGTCCAAGAAGGCAGCCAAAGCAGTTTGCAAGGAAGGAAAAAATTCTCTCCGGGCACTGAATGAGGCTACCGCTAAAGAAGTGGGTGCGTTAAAATCTGTGATCAGATTAATTGAAGAATACAAGCTTGATTCTGATTATCCACGAGTGAACCTTGAAAAGCGAATTGAGCAGCTAGAGAAACAACAGGCCAACAGGAAGCGGCCTGCAGGAGCTTCTCCTGTTATGGCCAGACAAAAACAGCCACAACAACCTCAACAAGCGAAACAACGGTTTAAGAAACAGAAATTGCAGCTGAAGAAACGGACACCACAGCAGCAGTTCCAAATATCGTTGGTGTTGGGAATCCAACTTATCCCCCATACCAACAAACACGCGTACCTTCTGCAGCCAGCAGGTTTGCTGCCAGAACACCCTGCTCCTTTTGAGAGCTCATCAGCTATGGCCTATGGTATGGCAGTGGCAGGCTCCACTCCAGCTGTTGCCTCTTATCATGGCTCATCAGCTGAGTATTATGGTTTAGCAGGAGGCCCCATGGGTTTTCCTGGAAATGCAACCACTGTTAATTCTCACACATACCCGTCAGAACCATATGCACCACCTGGGTATGGTTATGATGCTCAAAATCGAGTGATTCAATACCATTTGATACTAATAAATGTCATTACTCTGTACAAATTGGTGTCGTTATCAATAATTTCGTACCACCAAGTCCAAATCCTTTCAGAATGCCGTTTTTATTTTGCCACGTCGTCCTTCTTCAGTTTCGTTTCGCGCCAACCGCAATTTCTCGCAAAAGGACACGAAATCGAGAGATTCTCTGTCTCTCTGTTTAGGGTTTATCGTTCTTCGACCTCAGCCTGTAATTTTCATGGAGTCGGGATTGGTAGTCGGAGTAGGAGGAGGAATGTGCGTCGGTTTGTGGTCCGGTCGACTCACTCCAATGCCAGGATTCTCAAGCCCAAACGGAGGTCGAGGTTTGGTCAGACTTTGTCTCCTTTTGATAGCGATGAAGATGGGGAGGATGTGGATGAGTTTAGCAGTGATGGGGATGATGATGATGCTTGGTTGGACAATGGCGATTTCTCTGATGTTGAATATGATGCCAAAAGAAAGAGAGCCAAGTTGCAAAGCAGAACCAAAAATAACTTGAGACATCCCAGAGAGAGCAGGGGTGTAAAATCATCCAACGATGGGAATAGTTTTAAAGTTAATGCCAACCGCCTTGATTTTCAAAATATCTCAAATGATACTGTAAAACAAGACTCCACGATTGAGGAGGAAGTTTGTTCTGCCAACATAGGCAGGAAAGGAAAGTTGATGACCAAGAAATCTATGGAAATTAGATTTCCTCGTCTGGCAGAAGAAATAGAATTGGATGAGAAATGGTTTCCTCTACTTGATTATCTTACAACATTTGGGCTCAAGGAATCACATTTTCTCCAAATGTATGAGAGACACATGCCTTCTCTTCAAATAAATGTTTATTCTGCTCAAGAAAGACTAGAATACTTGTTAAGTGTTGGTGTCAAACAGAGGGATGTCCGAAGAATACTCTTGAGACAGCCCCAAATTCTGGGGTACACGGTAGAGAACAATTTGAAATCCCATGTTGCTTTCTTACTTAGTTTGGGAATCCCAAATTCCAGAGTGGGCCAGATCATTGCCGCTGCTCCATCTCTATTTTCTTATAGTGTTGAGAATTCATTAAAACCCACTGTCCGATACTTGGTCGAGGAAGTTGGCATCAAGGAAAAGGATTTGGGTAAAGTTGTGCAACTGAGTCCTCAAATCCTAGTTCAACGGATTGATATATCATGGAACACCAGATATATGTTTCTTTCAAAGGAAATTGGAGCTCCTCGTGATAATGTAGTGAAGATGGTAACTAAACATCCTCAACTCCTCCATTATAGCATTGATGACGGGTTACTACCCAGGATCAATTTCCTTAGAAGTATTGGAATGCGAAATTCAGAGATCTTGAAAGTCTTAACTAGCCTTACGCAGGTCTTTTCTCTATCTCTGGAGGATAATTTGAAGCCCAAATACATGTATCTGATCAACGAACTCCGGAACGAAGTGAAATCACTGACCAAATATCCCATGTATCTAAGCTTGTCCTTGGATCAGAGAATTCGGCCTCGACACCGGTTCCTAGTTTCTCTTAAGAAAGCACCCAAGGGACCATTCCCTTTAAGTTCCTTTGTTCCAACTGATGAATGCTTTTGTGAGCAGTGGGCTGAAACCAGCCTAGATAAGTATCTTGAATTTCGAAAGAGATTACTATTGAAGGAGTTTGCGCAGAAATATGAAAGGAGATGA MADLKAISDALELVDSKKQNLKKAFDDLKGHSHLLSSFSLSWSDLESHFTSIHNSLTKRFHALESLESNVIQNQPEQKEPCSSLGPKPENRNEQDGIADCVSPRPELKRLCESMDGKGLSKYVSDLPKDREQVRNELPAALKCAPDQEALVLDAMEGFFNGNSNSKQNNLKLSNMRRGCILLLDTLMDNCPTVSNHVTERAKKLALELKQSLSKDGKDSLDALGFLLLVAAYKLTSEFNVDELVDYFTVIARYRQATKLCKVVGLGDKVADLVQKLLDKGKQLLAVKFIFEFELTEKFPPVPVLKDYVKESKKAAKAVCKEGKNSLRALNEATAKEVGALKSVIRLIEEYKLDSDYPRVNLEKRIEQLEKQQANRKRPAGASPVMARQKQPQQPQQAKQRFKKQKLQLKKRTPQQQFQISLVLGIQLIPHTNKHAYLLQPAGLLPEHPAPFESSSAMAYGMAVAGSTPAVASYHGSSAEYYGLAGGPMGFPGNATTVNSHTYPSEPYAPPGYGYDAQNRVIQYHLILINVITLYKLVSLSIISYHQVQILSECRFYFATSSFFSFVSRQPQFLAKGHEIERFSVSLFRVYRSSTSACNFHGVGIGSRSRRRNVRRFVVRSTHSNARILKPKRRSRFGQTLSPFDSDEDGEDVDEFSSDGDDDDAWLDNGDFSDVEYDAKRKRAKLQSRTKNNLRHPRESRGVKSSNDGNSFKVNANRLDFQNISNDTVKQDSTIEEEVCSANIGRKGKLMTKKSMEIRFPRLAEEIELDEKWFPLLDYLTTFGLKESHFLQMYERHMPSLQINVYSAQERLEYLLSVGVKQRDVRRILLRQPQILGYTVENNLKSHVAFLLSLGIPNSRVGQIIAAAPSLFSYSVENSLKPTVRYLVEEVGIKEKDLGKVVQLSPQILVQRIDISWNTRYMFLSKEIGAPRDNVVKMVTKHPQLLHYSIDDGLLPRINFLRSIGMRNSEILKVLTSLTQVFSLSLEDNLKPKYMYLINELRNEVKSLTKYPMYLSLSLDQRIRPRHRFLVSLKKAPKGPFPLSSFVPTDECFCEQWAETSLDKYLEFRKRLLLKEFAQKYERR Homology
BLAST of CaUC09G177530 vs. NCBI nr
Match: XP_038897632.1 (transcription termination factor MTERF9, chloroplastic isoform X2 [Benincasa hispida]) HSP 1 Score: 921.0 bits (2379), Expect = 9.5e-264 Identity = 473/492 (96.14%), Postives = 484/492 (98.37%), Query Frame = 0
BLAST of CaUC09G177530 vs. NCBI nr
Match: XP_038897631.1 (transcription termination factor MTERF9, chloroplastic isoform X1 [Benincasa hispida]) HSP 1 Score: 912.5 bits (2357), Expect = 3.4e-261 Identity = 472/498 (94.78%), Postives = 484/498 (97.19%), Query Frame = 0
BLAST of CaUC09G177530 vs. NCBI nr
Match: XP_008462974.1 (PREDICTED: transcription termination factor MTERF9, chloroplastic [Cucumis melo]) HSP 1 Score: 865.5 bits (2235), Expect = 4.7e-247 Identity = 461/533 (86.49%), Postives = 483/533 (90.62%), Query Frame = 0
BLAST of CaUC09G177530 vs. NCBI nr
Match: XP_004151387.1 (transcription termination factor MTERF9, chloroplastic [Cucumis sativus] >KGN44058.1 hypothetical protein Csa_015466 [Cucumis sativus]) HSP 1 Score: 862.4 bits (2227), Expect = 4.0e-246 Identity = 448/485 (92.37%), Postives = 464/485 (95.67%), Query Frame = 0
BLAST of CaUC09G177530 vs. NCBI nr
Match: XP_038897630.1 (FRIGIDA-like protein 1 [Benincasa hispida]) HSP 1 Score: 854.4 bits (2206), Expect = 1.1e-243 Identity = 462/560 (82.50%), Postives = 484/560 (86.43%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy Swiss-Prot
Match: Q9FM80 (Transcription termination factor MTERF9, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MTERF9 PE=2 SV=1) HSP 1 Score: 609.4 bits (1570), Expect = 8.0e-173 Identity = 320/479 (66.81%), Postives = 387/479 (80.79%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy Swiss-Prot
Match: A0SWL0 (FRIGIDA-like protein 2 OS=Arabidopsis thaliana OX=3702 GN=FRL2 PE=3 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 1.1e-65 Identity = 177/514 (34.44%), Postives = 289/514 (56.23%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy Swiss-Prot
Match: Q9C6S2 (Inactive FRIGIDA-like protein 2 OS=Arabidopsis thaliana OX=3702 GN=FRL2 PE=2 SV=1) HSP 1 Score: 251.5 bits (641), Expect = 4.3e-65 Identity = 176/514 (34.24%), Postives = 288/514 (56.03%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy Swiss-Prot
Match: Q9FFF1 (FRIGIDA-like protein 1 OS=Arabidopsis thaliana OX=3702 GN=FRL1 PE=1 SV=1) HSP 1 Score: 250.8 bits (639), Expect = 7.3e-65 Identity = 170/446 (38.12%), Postives = 269/446 (60.31%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy Swiss-Prot
Match: P0DKC9 (Truncated FRIGIDA-like protein 1 OS=Arabidopsis thaliana OX=3702 GN=FRL1 PE=3 SV=1) HSP 1 Score: 176.0 bits (445), Expect = 2.3e-42 Identity = 112/292 (38.36%), Postives = 174/292 (59.59%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy TrEMBL
Match: A0A1S3CI38 (transcription termination factor MTERF9, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103501230 PE=3 SV=1) HSP 1 Score: 865.5 bits (2235), Expect = 2.3e-247 Identity = 461/533 (86.49%), Postives = 483/533 (90.62%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy TrEMBL
Match: A0A0A0K3I9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G154490 PE=3 SV=1) HSP 1 Score: 862.4 bits (2227), Expect = 1.9e-246 Identity = 448/485 (92.37%), Postives = 464/485 (95.67%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy TrEMBL
Match: A0A6J1IJ03 (transcription termination factor MTERF9, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111476719 PE=3 SV=1) HSP 1 Score: 827.4 bits (2136), Expect = 6.9e-236 Identity = 437/505 (86.53%), Postives = 460/505 (91.09%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy TrEMBL
Match: A0A6J1FDR7 (transcription termination factor MTERF9, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111443171 PE=3 SV=1) HSP 1 Score: 826.6 bits (2134), Expect = 1.2e-235 Identity = 437/508 (86.02%), Postives = 460/508 (90.55%), Query Frame = 0
BLAST of CaUC09G177530 vs. ExPASy TrEMBL
Match: A0A5D3C9A9 (FRIGIDA-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold265G00320 PE=3 SV=1) HSP 1 Score: 823.5 bits (2126), Expect = 1.0e-234 Identity = 454/565 (80.35%), Postives = 473/565 (83.72%), Query Frame = 0
BLAST of CaUC09G177530 vs. TAIR 10
Match: AT5G55580.1 (Mitochondrial transcription termination factor family protein ) HSP 1 Score: 609.4 bits (1570), Expect = 5.7e-174 Identity = 320/479 (66.81%), Postives = 387/479 (80.79%), Query Frame = 0
BLAST of CaUC09G177530 vs. TAIR 10
Match: AT1G31814.1 (FRIGIDA like 2 ) HSP 1 Score: 251.5 bits (641), Expect = 3.0e-66 Identity = 176/514 (34.24%), Postives = 288/514 (56.03%), Query Frame = 0
BLAST of CaUC09G177530 vs. TAIR 10
Match: AT5G16320.1 (FRIGIDA like 1 ) HSP 1 Score: 250.8 bits (639), Expect = 5.2e-66 Identity = 170/446 (38.12%), Postives = 269/446 (60.31%), Query Frame = 0
BLAST of CaUC09G177530 vs. TAIR 10
Match: AT5G48385.1 (FRIGIDA-like protein ) HSP 1 Score: 166.4 bits (420), Expect = 1.3e-40 Identity = 116/316 (36.71%), Postives = 185/316 (58.54%), Query Frame = 0
BLAST of CaUC09G177530 vs. TAIR 10
Match: AT3G22440.1 (FRIGIDA-like protein ) HSP 1 Score: 152.1 bits (383), Expect = 2.5e-36 Identity = 126/426 (29.58%), Postives = 219/426 (51.41%), 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 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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