MELO3C022895 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.CATGGAAAAGCAAATAAGTGCTGACAACCTTACTTCTAATGGGAATTACGTTATTAAGCAGTCGTTATTCCAAAGTGGGGTGCTCAGGACCAATTGCATAGACTGCCTCGACCGTACAAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCATGGAAATTTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAGTTGATGGCATTTTATGAGAGAATGGGTGACACACTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGGTACGTCCAATATCTTCCAAAGTGCTTCCATTGTGGGAAATGTAATTCAATCTTTAGTTAATATTATCATTATTATTTTAATTTCATATCAACATGATAATTCAATCATTGATGTTATAGATAAAATCCTATTGACTAAACAAGAATAATGGAGTAGATATTGAAAAACAAACTCATACACAATTTGTTTGAGGCGAGAGTATCTTACTCTCTTTAGGAAGATTCAAGCTCTCTGCAGCGTCTATTATATTTATTTATATAAACTGCCGATGTAGCATATATCCTCAGAAATGTCTCCCCCATGATATAATAACTCAATTGAAATGTAGTGTAGCTCAACAAACCACCTAGTATTGAAAGATTGAGCTCAAAACACTCATTTTATGGTCTATTTCTTATAAAAGAGCAAAAGAGAGAAATATGAGAAAGTAGAAAGAATAGAAGATTGAAGTTATTGGGTTCTCTTGTTGTTTAGAAAGTATTTTAAAAAGATTTATTTATAGGAATTTTGCCAACCAAAGAAGAAAGCAAAAGGTAAGTTCTCTCTTCTCTTTCCTCTCTCCTCTCCCCCCCTCTTCATCTTTCCCCTTCCTCTGCCTCCCTTCTCAGCTCTTCCTCTCTTTCTTGTCTCCGCAACAACTGCAATTTTGCTCCGATCAGACTTCAAATTGGACTTTTCTGCATTAGAAACTGTTGGAAATTAGGGGCTAGTGGAGTGTTTACAGCTACATACTTGATCGATTGAATGCCAACTAAGGTTTTGAATTTTAGAACTCCTTTGAATCATTTAAAACATTCTTTTCCTACTGTTTGGTTGTTCTCTGACTTACCTATTAAATTATTTGGTTGTGTTGCTTTTGTTCAGAATCCCAACCTTACACACGCTAAACTTGACCCTCGAGCTCTTACATGCATTTTTGTTAGCTCTGTCTGCCATAAAAAGACCTACAAATGTCATGACTGTTTGACCAAATAGTATTTTGAGTATGGATGTGTCTTTTGGAAAATCAACCATCTTTTTCCTAAAATTCTCTTTGAGGGAAGCCACTTAACCTTGAAGTTAATTTTTGGGACGCTTCACCTATCCCAAACATCATTTATACTAGAAGAGACTTGCCTCAAAGGAATAAAAAACAAACAGTTGATTCCAAAGATCTAGGTAACATACATTCTCCTTTTACTTGCTCTAATTCTCTCGGTTCTTCTTCTTATAAGTCCTTGGCTGATATCGCCGATCGTCGAGATACACCGCGCATGAGCTTCACACACCGTCAGAATATCTCTGCAGAGTATCCACGTACCAGCGTGGAAGCGCGTGAAGCCTCTGATTTGACCTTCGTCTTATAGGCTTGTCTTGAATCTTTTTCTCTGGTTGGTCTATACAGTTGGGTCCATCGAAGAGTATTTAGGTTTGACGAAAACTGGAGGCTATGCCATCGTTCTAGAGTTTTGTTCCAATTTTGCAGCTATTTGAATTGATTTTTTTTTTTTGTTTGTGTGGACTAAAATCAGTGTGTGCCTCCAGTATGGCCGACATAAAAAATTTAGTGGTTTCTAACGTTATTTCCTTATCCTCTAAGATCACAGAACATAAGTTGGATCTAATTATTATGATTGGCATCGAACAATCTTGTTCTATTTGAGAAGTACTGATATGGATGATCATATGACCGAAGTTCCCCAAAAGATGCAAAGAAGGATTGGCTTCGTGATGATGCTCGTCTATATTTTCAGATAAAAAACTCCATTGAGAGTGAGATAATTGGATTGGTTGATCACTGTGAGTCTGTTAGAGAACTTCTGGAATTTTTAGATTTTCTATATTCAAGTAAAGAGAAAGTACATAGAATGTTTAACGTTTGTATGCAGTTTTTTTGTGCTGAACAAAAAGCAAAGTCTGTTACTAGCTACTTTATGCACCTTAAGAAGATAACTGCCGAGCTTGCTTTGTTGTTACCCTTTAGTCCTAATGTTAAAGTTCAACAAGCTAAACGACGGAAGATGGTTGTTATGATCTTTTTTAATGGGCTCTTTCTTGAATTTGGAATGACGAAGGCATAGATTCTCTTTGACTCTAAGATTCCATCATTAGACGATGCTTTCACTCGTGTCCTTCGCATTGAAAGCTCTACGACTGTTGTGTCTATTCCTCAATCCAGTAGTGCTCTCATTAGCAAGAACAATAACCCTCGGGCACCTCGAGCGGTGGATAGCAATGTTCAGAGGAATAGTTATGATTATCGAAAACCAGATTCTGTAGAGATTGTTTGTAACTATTGTTAGCCAGGCCATATGAAACATGATTGTTGGAAGTTGTTATATAAGAATAGTCAACGATCTCAACATGCTCAGATAGCTTCCACATGTGATATACCAGAGGCATCAGTTACTATTTCTGCAGATGAGTTGCTAAGTTTCAGAACTACCAAGATTCATTATAAGCGTCATCTTCCCCTACTCCTTTTGCATCCACTGTTGCCCTAGGTAATACAAAGTGTCTTCTTACATCATCTACCAAATGGGTCATAGACTCTGGTGCACAACCCATATGACAGGTTATTCTCGCCTATTTTCTAGACTATTGTACCCTGCCCCTTTTCCATCTGTCACATTGGCAGATGGCTCCACATCTTCTGTTCTTGGCTTTGGCATTATTCACCTTACCCCATCCTTTTCTTCGACTTCTGTGTTACATTTGCCTAACTTATTCTTTAATTTAATTTCTATTAGTCCACTTACTCATGACCTAAATTGTGTTGTCATGTTCTTTTCTAGTTATTGCTTGGTTCAGGATCGTGTGACGAAGAAGATTATTGGTAGAGGATATGAGTCGGAAGGTTTTTATCTCTTTGATCATCAAGTACTACAAGCTGTGGCGTGTTCTATCGTTCTTTCTCCCTTTGAAGTCCATTGTTGTTTAGGTCATCTATATTTGTTCGTGTTGAAGAAACTTTATCTCGAATTTAGGTTTTTGTCCTCTTTAAATTGTGATTCGTGTCAAATTTCTAAATTTCATCGTCCAGTCAATAAATGAGCAGGTGTTCAATTTGAGTTAGTTCGTTCTGATATTTGGGGTCTGTGTCCAGTTGTATCTCAAACAGGTTTTCATTATTTTGTTACTTTTTTTTACGATCATTCTCATATAATTTGGTTATATTTAATGAAAAATCGTTTTGAGTTATTATCTCACTTTTGTGCCTTTCATACTGAAATAAAAAATCAGTTTAATGTCTCTTTTTCACAACTTTGCCCACTGATAATGCGGGTGAATATTTTTCTCATACTCCGGGGTTTTATTGTGCGAATATGACACTATTCATCAGTTTTGTGTGCTAACACTCCATCTCAAAATGGTGTTGCCGAACGGAAAAATAGTCATTTACTTGAAACTTCCCGTTCTTCATCATTTCAAATGCATGTTCCGAAATGTTTTTGGGCAGATGTTGTTTCCATGGCTTGTTTTTTGATTAATAGAATGCTTTCCTTTGTTTTTAATAGTGAGATTCCTTATCGTGTTCTTTTTTCTACCAAGTCTTTGCTTCTTATTGCTCCTAAGATATTTGGTCATGTCTATTTTGTTCAAGACATTTGTCCTCATCATACTAAGATCCCAAATCCTTGAAATGTATCTTCTTGGGTTATTCGCATGTTCAAAAGGGATTCGTTGTTATGGTCATACCCTTGAAAGGTATTTTGTTTTGCCTGATGTTGCATTTTTTTAGGATACACCCTTTACTTCATCACCATCGAGTTCGTGTCATGGGGAGGATGACAATTTTTTTTATATATGAGGTTACCTCTCCCACACAATCCTCTTCCACTGATGCACCTCCTTTCCACCCGTTGCTTTCTCGAGTCTACTCTCGACGACCTCTACACAACCTTCAGACTTATGTCCTCCATCAATATGCCTCCTTCATGCAATCTGAGGCCAAGTGATGATCTTCCCATTACCTGTCCCACACCATCCTCTTCCACTGATACGCCTCCTTCTCACCCCGGGTAAACGCAAGTGTACTTACCCTGTTTCTTCCTTTATTTCCCATCACCAGTTGCCTCCCCCCACATATGCTTTTATTACGTCTCTCAACTCCACATCTATTCCTAACACTTTTCATGAAGCTTTATCTCATACTGGCTGGCGAAATGCAATGATTGAGGAGATGACTGCTTTAGATGATAATGGTATTTGGGATTTGGTATCTCGTCTTGCAAACAAGGCAATTGGTTGTAAATGGGTGTTTGCTATTGCTAGGCCTCCAATCACCCAAGTTTATTAAAAAAAGAGGAAGAAGGGTAAGAAAGGCATTTCAGCATAGACAAAATGGTAGTTAGAATGGCCAGTGGTCCCAAGGGTACGTGGCAGCAGTAAAAGGGGTCTATATATATGGGAGCTTTTAGCTAGGGTTAGGCATGGGAATATTTTGGAATGTTTTGAATGGACAACCTTGTTCATTAGGGAAAGAACAACCCTCTCATCTGGCTGGAATCATTTTGTGAGAACCTTTGTAATGATCGACCATTCCTATATAAATATATAAGTTCCAGATTGCCTCCTATTATTACAGTGTATGGTGTGATAGGCTTGTTCTTGTTCTGTGTTATCTGTTAGTTTTTCTGTGTGTGTGTTCTGGTATTATTGTAACAGGTTATTCGGGACGTAATATTGGTATTAGAGCGAGTCGACAATCTGGGGAGGTGGAAGAAGATGACGTAGAAGATGATAGAGGATCGTTTAACCGCTTCAGAAGCAGAGATCGAGGCGATTAAGCAAGAGGTCCAAAGGCTGTCGTTATTGGAGAAAAATTTAGAGAAGGTGCACGTCATGTTGTCGGCGATTTACGAGGACCGCCAGAGACAACTGAGAGGTTTGGAAATGACTGGGATAAGCACCGGAAAGAGGAAGTTCAGGAATGAAGACACGACCAAAGAGGAGGTGGAAGAAGGGGAAACGTCCTTGAGCATGGAAACAGGGGCTGGACAGGATAGGATCAAGTTTAAAAAGTTAGAGATGCTGGTTTTTAACGGGGAGGATCCGGATGGATGGTTCTATAGGGCGGAACATTACTTTCAAATGCATCTCGGGTATTTCGTCTATAAAAAACTTTCCTTCAGGGTCAACTTCATATGAAAGATTTTGGCCAATTGAAATATTTTTTGGGCATTGAAGTGATGAGAAGCAAGAAAGGTATTTATTTGTGTCAACGAAAATGTGTACTTGATTTGTTGTCTGAGATAGGAAAATTAGGAGCCAAACCAAGTGGTACTCCAATAATGCCAACTCAGCAACTTGTTAAATAAAGAAAATTATGTAAAGATCCTGAGAGATATAGGAGATTAGTTGGAAAGTTGAACTACTTAACAGTGACTCGATCAGACATTGCTTATTTTGTAAGTGTTGTAAGTCAGTTCATCTCTTCCCCTATTGTGGATCATCGGGCTGTAGTAGAGCATATTCTGTGTTATCTGAAAGCTGCTCCTAGACTTGCGATCTTATACAAAGATCATGGACATACGAGAGTCGAATGTTTTTCTGATGTTGATTGGGCAGGATCTCAAGAGGATAGGAGATCGACTTCTGGATATTGTGTCTTTGTAGGTGGAAACTTGGTATCATGGAAGAGTAAGAAACAAAATATGGTTTCTCGTTCGAGTGCTGAGTCAGAATATAGAATTATGACACAATCTGTGTGCAAAATAGTATTGATTCACCAACTATTATCTGAGATAGGTTTCAGTATTAAAGTGTCAGCTAAATTATGGTGTGATAATCAAGTTGCACTTCACATTGCATCTAATATAGTATTTCATGAACGAACTAAACATATTGAGGTGGATTGTCACTTCATTCGTGAGAAAATCCACGATGGGTTGGTGTCCATAAGATATTTGAAGACTAGAGAACAATTGGGAGATATTTTGATCAAAGCTGTAAATGGAGCAAAGATAAGATATCTGTGCAACAAGCTGGACATGATCAACATATTTGCTTCAACTCAAGGGAGAGTGTCATGACATATATTTATAATATACGTCCTTTATCGTAATTGTACATACAGTCTAAAGTTTCTTTGTTCTCTATGTTTATGTAACTTTGTTTTTACTTTAAATGAATAAGAAATATACTTTTCTCTGAATTCTTGATTACACAAACTATCTTTCTTATGAAAAATTGTCTTACAGTCATAAAGCCTTCACATAAAAAATAACCAACCTGTTTGTTCTAAGGAATTTATTGGAGGCCTTGAATAAATTAAATTGGAAATTAGCAGTGTTGGAACAGATGAAGGCACTGAAACACAATTGCACATGGTACATAGTTGAACTACCAAAAGAAAAGAAAACAGTGAGATGCAAGTGGATGTTCACATGGTACATAGTTGAACTACCAAAAGAAAAGAAAACAGTGAGATGCAAGTGGATGTTCACGGTAAAATGTAAAACCGATGGTAGTGTTGAAAGGTACAAGGCCAGATTGGTTGCTAAGGGGCTTACTCAGATCTATGGAGTTGATTATCAAGAAACATTTGCTCCATTTGCTAAAATCAATTCTATTAGAATTTCACTGTCTATTGCAGTTAACTTCGATACGCCTCTTTATCAATTTGATGTTAAGAATGTCTTTCTCAATGGGGAATTAGAAGAAGAGGTATTTATGGACTTGCCACCTGGTTTTAATGTAGGTCTCGGGATTGACAAAGTGTGCAAGTTAAAGAGATCATTATATGGTCTTAAACAACCTCCTAGATCTTGGTTTGAACGCTTCAAAAAAGCAGTCACGAGCTATGGATTCAGTCAAAGTCAAGACAATCATACAATATTCTACAAATATACAAGAAATGACAAGGTTGTGGTTTTGATTGTTTATGTTGATGATATCATTCTTGTAGGCAGTGATGAGACGGGACTGGTTTTCGTGAAGAAAAAATTAGCATACGATTTTCAAATCAAAGATTTGGAAACTTTAAAGTACTTCCTAGGCATGAGTTTGCCAGATCCAAAAATGTCATTCTTGTCAACCAAAGGAAGTATATTCTTGATCTGCTAAAATAGATAGGTTTACTTGGTTTCAAGGTAGCAAAATGTCACGTCCCATGAAACGACCCCAAAATCACCCTCAAATTTGCGTCAAAATGTGCCCACGGCTCCTTTAGCAAGGCCAAGGAGAGCCCTAACGTGGCCACAAGACAGCCCACGGGTGGCCACAACACGCCCATGACATTGGTGTGTGCCTTTCGAGGACAGCTCACGGGTCCCTTATGCGTGCCACGTCTAATGCTCACGATAGCCCATGTGCATGCCCACACGTGGGCATCGGTCATAGGTGTTAGTTGTCACGAGTATACTTGTACAAGGCATTGTTTGCCTATGGCCGCATGTCCAAACATCCTCAAACCACCTTATTTTTATGTTTTGTACTTAATTTAGCTTATTGCTTTCATTTAGTTGTCATCAAGCTAGAGTATGATGTTTCGGCAGTTTCATATGCAAGCTTATCAACGGTAAAATTGTTAAAATGTGCTATATGGGAGACATAGTAGTTGAATTTCCAACCAATCTAAGCTTTCCTTGCAATTGACAGTATTTCTTTAACGATGTTTTCAATGAATTTCTCTCACGTTTTATAAAACCATTTTCTCTCAAAACGTGAAGGGAGGCTATATCGTACCGCGAGTTTGTACACGACTTTCGGATTTTAGACGGCTAACTTGTTCTTCGAGTTATAACAAGTGCCGCACAATCGTCTGTCCTGTGCTTGAAGAGTTGCGACTGTGACAAGTGGTATCAGAGCTTTGTTAGCTCCTTGGCTGAGCGAAACGCAAATATGTCGACTATTAAGCAACTGTCGAAGTTGCAATCTGAGCGATTGACGGAGATTGAGGAGCAATTCTTGTATATGAGAGAATTGTCGGATGTCATACTTGTCTGGCTTTTCATTGTCGGCCATATCGATCTGGCGAAGTAAGATTTCTCCTGACCCGGCTAGAGGGGTTGGAAGAAAAAGTTGGAGAAGTAGACGCCTTGAATGCCCAAGTAGATGGGCTACCCATAAGTGAACTGACACTGAGGGTTGATTCGTTGAAACGCAAAACCATCCAAGCAGGCAGTTATGAATGTGGGAGTAGCTCTTCGAGCTCCATTGCGCACATGGAAAAGTGTATCGAAGAGCTTGACTGTTCCTAAAAGACAATGCTAAAGTTGTTTAGTGACCTGTCAGACGACTTTAGAGCAACGATCGAGACAATCAAGGCCGAGATGGTCGAGATGAAAATGCAAGTAAATTTGACGCTGCGAGCAGTAGGGAACCAGACCTCGAATCAAGTATGTAATGTTTCGAGTAGGCTCAAGATCCCAGAACCCAAGGCTTTTGAGGTTAGTGGAACCAATTTTGAAGAAACCAAGGTGATGTTAGCCTCCATGCATCTGTCTGATGATGCAAAACTCTGGTGGAGGTCGAAAGTGAATGATGTCCATAATGATCGATGTACCATTGGCACGTGGGAAGATCTAAAGAAAGAGCCCGTACCATTGACACGAGGGAAGATCTAAAGAAAACTGCGGGAACTCGAGCACACTGGAAGCATCTGAGAGTATGTGAACAGTTCTTCGCTGTTATGTTAGACATTCGAGACATGTCGGAAAAAGACAAGGTATTCTGCTTTGTAGAGGAGCTCAAGCCATGGGCCAGGACTAAGTTATATGAACAGAAAGTTCAAAATCTTGCATCTACTCTTGTTGTTGCAGAGAGACTGTTTGACTATAGTGGCGACTAAGGGTCCCAAAAGAAGAATGCAACTACATTAAACACCGGGAATAGGATCTCAAAGGCTAATCCCCAAAGAAACTTTACAAACGATAAGAAACTAGAGACCTCAAGCTTTAGCACTCCTCGACAAGCACACCCATCAAATTCGAATCAGACAAAACCCATTTCTTGCTTCTTGTGTAAAGGCCCCCATTAGGTAGTCAAATTCCCACATCAAGGCTCGCTGACAGCTTTACAAGCCTCCTTACAGTGCTCTAACGATTCAGAGGCAGAAACAGAAGCGGAAAGGGAAGATGAAGGGGACACACCTTGAATGTGTGCGTTAAAATTCTTATCGACAATCCAAAAGAAAGCATCTCACCAAAAGGATGCTTTTGAAAAAAGGACTCATGTTTGTTGACGCAGTCATAAACTCCAAAACAACAAAGCGCACCATGGTAAACTCAGGTGCAACTCCCAACTTCATTTTTGAATAAGAAGCACATCGATTAGAATTGAAAATTGAGGACACAAGCAAGATGAAAGTTGTGAACTTCGAAGCCTTGCCAATTGTTGGGCTATAAAAAAGAGTATCCCTAAAATTAGGCGAATGGAGAGGAGACGTTTACTTAGTCGTGGTTCGTACGAGTAACTTTGACGTAGTGCTCGGTATGGAATTTCTCTTACAACACAAAGTCATCCCCATGCTTTTAGCTCAGTGTATGGTAGTAACGAGCAGTAACCTGATAGTGATCTAAGCGAAAATCAAACAACCAAGTGGGGTGAGAAATTACCTATCCATGGTGATGTCTAATTTGGTTCGATTGCGAGCTTTATCTATCCATGGTTTGTCTAATAAACTCAAAATTACCAAAACTCGTCGAAAGCATCTCTTTCATCATTAGCATGTGCCCCTATTACAACCACTGCTAATTCAGGTAACCGGAAGATACTCATTATTTTTGGTAGCTTATGTGGATATGAGCACTAAGGGGGCGTCAACCTAGTTGAGATGCCCAGTGTGCCTCCTGATCCCTTTGGCTCTTTACTCTCTGCTTGTTATAACCCTTTTGTACTTTGAGCAATAGTCTCATTATTATTAGTGAAGAGACTTGTTTCCTTTAAAAGAAAAAAAAGTATTTCACTTCCTTTGGTTGGTCAGTTTCGAATGTGCTCAGCTCTTTTGAAGCACCTTCTCGCTGCATCCTCTTCATGCTGTCCAAAGATGAATCTTTTCAATACTTCTGATCGTGTTGGAGCGCTTTTATTTTTCTAGCATAGAATTCGTTATTGTATTGATTTTTATTGAAAGTAGAGACAAAAAACACACAAATTTACGTGGAAACCCGAATACTGGGAGAAGAACCATGATATCTTTCTTTTTATTATTTTCTGATAATAATACAATAGGTACAAGAGTGAATAAATAGAAAAGTACAAAGAGATAAAAAAAAATAATAATAATATTTAGGGCAAATCTCCCAATGGGCTAATCCCACTAATTCTAACACTCCCCCTCAAGTTGGGACGTAACTATCAATGAGGCTCAACTTGCTAACACAAATGTCAAAGTTTGGTCTGAGAAGCCCCTTGGTGAGGACATCAGCAACCTATCGAGTCGAACGGATGTAAGGAATGCATATGTTCCCACTGTCAAGTCTTTCTTTGGTGAAATGCAGATCAATCTCAACATGTTTAGTCCTATCATGTTGAACTGGGTTGTTAGCAATACTAATAGCGGCTTTATTATCACAAAAGAGTTTCAATGGAGTCTCACATTCCTGATGAAGATCATACATGACTATCTAGAGCCAAATTTCCTCACGTATTCCCAAACTCATAGCTCTATGTTTGGCCTTAACACTGCTCCTGGCTCCAACACTTTGCTTCTTACTCCTCCAAGTTACAAGATTGCCCCAAACAACGGTACAATAACTGGAGGTAGACTTTCTATCAACAACAGATCTTGCCTCAATGGTTTTCTTATCTGTCTTTATAAACATCAACCGAGACTAGGTGTCGTTTTTAAGTATATCAGGATTCTTTTGATAGCTTCCATGTGTTCCTCTTAAGGAGCCTGCATAAACTAGATGACAACACTCACAACAAAGGAAATATTAGTACGAGTATGAGATAAGTAAATCAATTTACCCACAAGGCGCTGATATTGTTCTTTATCAACTGGAACTTGATCATCAGAGTTTCCTTGTTTACAATTGAATTCAATAGGAGAGTTAGCAGGACGACATCCCAACATACCTGTCTCGGTTAGCAAATCAAGAGTGTATTTTCTTTGAGACAAGGAGATGTCTTCTTTAGATCTGATCACCTCTATTCCGAAGAAATATTTCAGATTTTCCAAGTCCTTGATTTCAATTTCATTACCCATTTTCTACTTAAGTTGACTGATTTTTGCCTGATCTTCTCCAAACAAAACGATGTCATCTACATAAACTATCAGAACTGCAATTTTCCTGTCTTGGAAACTTTTATAAATAAAGTATGATCAGAGTGTCTCTGACTGTACCCTTGGGACTTGACAAAGTAGTGAATCTGTCAAACCATGCTTTGAGTGACTTTTTCAGACCATATAAGGGTTTCTGGAGTTTATAAACCTGCTAACCAAACTGGGCTTCAAAACCAGACGGAGGCTCATGTAAACCTCCTCTATTAGATCTCTATTCAAAAAAGCATTCTTAACATCTAACTGATATAGAGGCCAATCTTTGTTTACAACAACAGAAAGAAGGACTCTATCAGTATTCAACTTAGCAAGGGGAGAAAAAGTTTATGAATAATCTACACCGTAGGACTGAGTAAACTCTTTTGCAACTAACATTGTCTTGTGTCTGTTAAGTGTTCCATCTGCTTTATATATGAGAGTGGCATCCCACAGGCTTGTGTCCCATGGGTAGAGCACAAATCTCCAAGTTTTATTCTTTTCAAGAGCTTTCATTTCTTTCATGACAACATTCTTCCATTTAGGACACTCTAAAGCAATGTGACTATTTTTCAATATTGTGGTAGAGTCAAGGCTGGCAGTAAAAGCTCTGAATTGTGGTGAGAGATTCTCGTATGACACATAATTAGATATGGAGTACTTTGTACAGGACCTAGTACCTTTTCTCAGTGCAATAGGAAGATCAAGAGAAGGACCATACTTGCTAGTATTTTCAGAATGGTTTTTAACTTAGTTTCATTTTCAGTATGTTTAGCAACAACCTCGTTCTCATCAATCTTATCCTCTCTGTCGATAATGACCCCATCAATACTGCCCAGCTAACCTATATCTTCCAAAACAGTTGTTCCGGACCTGTCATTCTCATCTGCCTTACTGTTGGTATGTGAGTCAGTTGAATTCGTCTTAGACCTGTCATTTTTACTCATTCTGTTATTATTATGTGAGTTAATGGAATCAGTCATACCTTGATCTTTTATTGGTTCAGAATCCTGGACTGGAGCCGTCTGAACAACAGGAGACTCAACTCCCTTTCTGAGATTTCTCCTATAATAGGTTTTCCAAGGAATTTGATTTGTGGGTAAGAGTATACTGTAAGAGCTAGGATCAGGTAAGGTAACCACAATAGGACAAGTAGACTCTAAAAGAAGCATATAGTTAGACTCTTCACTCACACTCTCCTCCTGAAGTAGGCTAACGGGAAAAAAGGACGATCTTCAATAAAGGTCACATCCATGATAACAAAGTACTTACATGAAGATGGGTGGAAGCATTTATAGCCTCGTTGGTGTAAAGGATACCCAACAAACACGCAATCCTGAGTCCTAGAAGTGAATTTAGTTTGGTTAGGACCATGGTTATAAACATAGGCATTGCATCCGAACACCCGAAGGGGAACATTAGGGATGAGACGCGTTGAGGGATAGGATTCTTTGAGGCAATCTAACGGTGTCTGGAAGTGAAGGACACGTGAGGGCATGCAGTTAATGAGATGAGCGGCAGTGAGAATGGCATTACCCCTAGGAAGGGAGAGAAGTTGACAAGATAAGGGAACGAGCAACTTCCAAAAGGTGACGATTTTTTCGTTCAGCAACCTCATTTTGTTGAGGGGTGTAAGCATAGGAACTTTGGTGAACAATTCCTTTAGAGGATAAGAACTCATTAAGAGAATGGTTTTGAAACTCACGATCATTATCACTACGCAGGATTGCAATCTTTGTATTGAATTGCGTTTCTATGATGTGATAGAAGTCCTAAAATGTGGAGGTAACTTTGGATTTTTTGGAGATCATGAAAACCCAAGTAAGATGAGTATGGTCATCAATAAAGGTCGCTAACCATCGTTTCCCGGAGGAGGTAGTGACCTTGGATGGCCCCCAAATATCACTACGGATAAGAGTAAAAGGTTGGGTGAATTGGGCTTGAAAACACTTAAACTGCCAATTCACCCAAAAGCTTAAGCGGGTGGTTAAAGGCAAATTTAATTATATATCACCAACACTCCTCTTTACTTGTGGGCTTGGAATATTTGAAAGGCCCAACAAGTGGAAATCAATTTTAATTGGGGAAGAAACGACAATGTAGGGGCTTGAACATAGGACCTTCCTAGACCACTTGCTCGGATACCATATTGAAAGCAGAGACAAAGAACACACAAATTTACGTGGAAACCCGAGTACCGGGAGAAAAACCATGATATTTTTCTTTTTATTATTTTCTGATAATAATACAATAGGTACAAGAGGGAATAAATAGAAAAGTATAAAGAGATAAAAAAGGAAAGAATATTTAGGGAAAATCTCCTCATGTGCTAAACCCACTAATTCTAACAATTTTATTTGTTTTTTGCAAGATAATTTTAGATGAGGCAAACATTTCAAAGAAAATAAGTATAACTTAAAAAAAATTATTTTATAGGGAATATGTATTTCATAAAAAATGAAATATACTAATGGAATTTAATCGTTAAGAATAGATGAAACAAGCTATGAAAATTGTAAAAGCCCAAAAAATGCTTTGGAATGTGCAGTTAAAACAGTATCGTCCTACAGAAACGTGTGCTATTTCATTCTTGTTCACTGTTCAGGAAAATGTTCGATTTTTAAGTGAATTTGATAGCTATTGTGCAATGAGATGATTGATTTGATCTATTTCGTGAAGAGGTTTTTTATATATTTTTTTTCTAGTAAGATAGAAATTATATTTAACCAGTTTTATTGTTCCTTGTTGAATTCATGACTCACTATGCTTCTGAAGAATCAGGGGGTTTTCCTTTTTGACTCGAGGAATGGTTCTCGTTATCAAAACTGTAGAGGTATCATTTCTCATCTTTCTAAGTTTTCTGCTTCTTGGATGGCAAATAGATATTCTCCGAGAGAAGGGGACAGTGGAAAGCAGCAACACAGTCTCAGGAATTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAGAAACAAGATGCTATTAATTTGTAA CATGGAAAAGCAAATAAGTGCTGACAACCTTACTTCTAATGGGAATTACGTTATTAAGCAGTCGTTATTCCAAAGTGGGGTGCTCAGGACCAATTGCATAGACTGCCTCGACCGTACAAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCATGGAAATTTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAGTTGATGGCATTTTATGAGAGAATGGGTGACACACTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGATATTCTCCGAGAGAAGGGGACAGTGGAAAGCAGCAACACAGTCTCAGGAATTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAGAAACAAGATGCTATTAATTTGTAA ATGGAAAAGCAAATAAGTGCTGACAACCTTACTTCTAATGGGAATTACGTTATTAAGCAGTCGTTATTCCAAAGTGGGGTGCTCAGGACCAATTGCATAGACTGCCTCGACCGTACAAATGTTGCACAATATGCATATGGGCTTGCTGCTCTTGGACACCAGCTTCATGCCATGGAAATTTTAGATTCCCCCAAAATCGATCTTGATGCCCCTTTAGCTGATGAGTTGATGGCATTTTATGAGAGAATGGGTGACACACTCGCACACCAGTATGGTGGCTCAGCAGCCCACAATAAGATATTCTCCGAGAGAAGGGGACAGTGGAAAGCAGCAACACAGTCTCAGGAATTCTTCAGAACTCTTCAAAGATATTATAGCAATGCCTACATGGATTCAGAGAAACAAGATGCTATTAATTTGTAA MEKQISADNLTSNGNYVIKQSLFQSGVLRTNCIDCLDRTNVAQYAYGLAALGHQLHAMEILDSPKIDLDAPLADELMAFYERMGDTLAHQYGGSAAHNKIFSERRGQWKAATQSQEFFRTLQRYYSNAYMDSEKQDAINL*
BLAST of MELO3C022895 vs. Swiss-Prot
Match: SAC4_ARATH (Phosphoinositide phosphatase SAC4 OS=Arabidopsis thaliana GN=SAC4 PE=2 SV=1) HSP 1 Score: 214.5 bits (545), Expect = 7.3e-55 Identity = 102/140 (72.86%), Postives = 115/140 (82.14%), Query Frame = 1
BLAST of MELO3C022895 vs. Swiss-Prot
Match: SAC3_ARATH (Phosphoinositide phosphatase SAC3 OS=Arabidopsis thaliana GN=SAC3 PE=2 SV=1) HSP 1 Score: 207.2 bits (526), Expect = 1.2e-52 Identity = 101/140 (72.14%), Postives = 111/140 (79.29%), Query Frame = 1
BLAST of MELO3C022895 vs. Swiss-Prot
Match: SAC2_ARATH (Phosphoinositide phosphatase SAC2 OS=Arabidopsis thaliana GN=SAC2 PE=2 SV=1) HSP 1 Score: 200.3 bits (508), Expect = 1.4e-50 Identity = 95/120 (79.17%), Postives = 103/120 (85.83%), Query Frame = 1
BLAST of MELO3C022895 vs. Swiss-Prot
Match: SAC1_ARATH (Phosphoinositide phosphatase SAC1 OS=Arabidopsis thaliana GN=SAC1 PE=1 SV=1) HSP 1 Score: 182.2 bits (461), Expect = 4.0e-45 Identity = 85/118 (72.03%), Postives = 97/118 (82.20%), Query Frame = 1
BLAST of MELO3C022895 vs. Swiss-Prot
Match: SAC5_ARATH (Phosphoinositide phosphatase SAC5 OS=Arabidopsis thaliana GN=SAC5 PE=2 SV=1) HSP 1 Score: 153.3 bits (386), Expect = 2.0e-36 Identity = 71/119 (59.66%), Postives = 89/119 (74.79%), Query Frame = 1
BLAST of MELO3C022895 vs. TrEMBL
Match: B9RR38_RICCO (Phosphoinositide 5-phosphatase, putative OS=Ricinus communis GN=RCOM_0708920 PE=4 SV=1) HSP 1 Score: 252.7 bits (644), Expect = 2.7e-64 Identity = 119/140 (85.00%), Postives = 131/140 (93.57%), Query Frame = 1
BLAST of MELO3C022895 vs. TrEMBL
Match: A0A067G2D2_CITSI (Uncharacterized protein (Fragment) OS=Citrus sinensis GN=CISIN_1g038661mg PE=4 SV=1) HSP 1 Score: 242.3 bits (617), Expect = 3.6e-61 Identity = 113/140 (80.71%), Postives = 128/140 (91.43%), Query Frame = 1
BLAST of MELO3C022895 vs. TrEMBL
Match: W9SK95_9ROSA (Polyphosphoinositide phosphatase OS=Morus notabilis GN=L484_019556 PE=4 SV=1) HSP 1 Score: 242.3 bits (617), Expect = 3.6e-61 Identity = 112/140 (80.00%), Postives = 129/140 (92.14%), Query Frame = 1
BLAST of MELO3C022895 vs. TrEMBL
Match: B9INC1_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0018s07360g PE=4 SV=2) HSP 1 Score: 241.1 bits (614), Expect = 8.1e-61 Identity = 114/140 (81.43%), Postives = 128/140 (91.43%), Query Frame = 1
BLAST of MELO3C022895 vs. TrEMBL
Match: V4WHI1_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10007455mg PE=4 SV=1) HSP 1 Score: 240.0 bits (611), Expect = 1.8e-60 Identity = 112/140 (80.00%), Postives = 127/140 (90.71%), Query Frame = 1
BLAST of MELO3C022895 vs. TAIR10
Match: AT5G20840.1 (AT5G20840.1 Phosphoinositide phosphatase family protein) HSP 1 Score: 214.5 bits (545), Expect = 4.1e-56 Identity = 102/140 (72.86%), Postives = 115/140 (82.14%), Query Frame = 1
BLAST of MELO3C022895 vs. TAIR10
Match: AT3G43220.1 (AT3G43220.1 Phosphoinositide phosphatase family protein) HSP 1 Score: 207.2 bits (526), Expect = 6.5e-54 Identity = 101/140 (72.14%), Postives = 111/140 (79.29%), Query Frame = 1
BLAST of MELO3C022895 vs. TAIR10
Match: AT3G14205.1 (AT3G14205.1 Phosphoinositide phosphatase family protein) HSP 1 Score: 200.3 bits (508), Expect = 8.0e-52 Identity = 95/120 (79.17%), Postives = 103/120 (85.83%), Query Frame = 1
BLAST of MELO3C022895 vs. TAIR10
Match: AT1G22620.1 (AT1G22620.1 Phosphoinositide phosphatase family protein) HSP 1 Score: 182.2 bits (461), Expect = 2.2e-46 Identity = 85/118 (72.03%), Postives = 97/118 (82.20%), Query Frame = 1
BLAST of MELO3C022895 vs. TAIR10
Match: AT1G17340.1 (AT1G17340.1 Phosphoinositide phosphatase family protein) HSP 1 Score: 153.3 bits (386), Expect = 1.1e-37 Identity = 71/119 (59.66%), Postives = 89/119 (74.79%), Query Frame = 1
BLAST of MELO3C022895 vs. NCBI nr
Match: gi|659121243|ref|XP_008460561.1| (PREDICTED: LOW QUALITY PROTEIN: phosphoinositide phosphatase SAC3 [Cucumis melo]) HSP 1 Score: 284.6 bits (727), Expect = 9.1e-74 Identity = 140/140 (100.00%), Postives = 140/140 (100.00%), Query Frame = 1
BLAST of MELO3C022895 vs. NCBI nr
Match: gi|778703838|ref|XP_011655440.1| (PREDICTED: phosphoinositide phosphatase SAC3 [Cucumis sativus]) HSP 1 Score: 276.9 bits (707), Expect = 1.9e-71 Identity = 135/140 (96.43%), Postives = 137/140 (97.86%), Query Frame = 1
BLAST of MELO3C022895 vs. NCBI nr
Match: gi|255550313|ref|XP_002516207.1| (PREDICTED: phosphoinositide phosphatase SAC3 [Ricinus communis]) HSP 1 Score: 252.7 bits (644), Expect = 3.8e-64 Identity = 119/140 (85.00%), Postives = 131/140 (93.57%), Query Frame = 1
BLAST of MELO3C022895 vs. NCBI nr
Match: gi|645274339|ref|XP_008242296.1| (PREDICTED: phosphoinositide phosphatase SAC3 [Prunus mume]) HSP 1 Score: 243.0 bits (619), Expect = 3.0e-61 Identity = 115/140 (82.14%), Postives = 128/140 (91.43%), Query Frame = 1
BLAST of MELO3C022895 vs. NCBI nr
Match: gi|703139854|ref|XP_010107078.1| (Polyphosphoinositide phosphatase [Morus notabilis]) HSP 1 Score: 242.3 bits (617), Expect = 5.2e-61 Identity = 112/140 (80.00%), Postives = 129/140 (92.14%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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