MELO3C019183 (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.AAACACAGTGAGAGAGGGAAAAAACTACACGCAACCGTGGGAACAAACCGAAGCGCCGGAATTTGGAGCTAAAAACGCACGGCGTCGGTCTTCTGTGTAGAGTGCGGAACTCAGGCGGTGTGTCTCAGTTTTGGAGGTTATAGCGGCGGGGTCTTTTGCTCTGTTCCGCGGCAGCGTAGAAGTCGAGTTTGTTATTCTCTTTCAAGAGAGTTTTACACTTACAAGGCGGTGCCATGGTAAAGAACGACGGAGAAGAAGGGGGCGAACTTGCACAACCTCATGCTCGACATATAAAGAAGAGAGCTCTCAAGAACAAAGCACTTTCTGTCTCTTTCAATGAAAAAGACTTGAGGTTTTTCTTCATTAATGGGCTAATTTAGACTTCTGTTTGATTTCTATTACTATCGATTTTCCTTCAGTGGTTAATTCTTGTTTTCTTAGGGACTATGTAACTGGATTTCACAAGAGGAAGAAGAAAAGGAGGAAGGAAGCAGAGAAGCAAAAAGAGGAAGCTATGCGGCGGATGCGCATCGAAGCACGAAAAAAGGTTTGGAAAACTATTCTAATTTTGGGAACCAACTGCTGAAAAATAGATAGCTCTTTTATCTTTTGGAAGACTACTTTTTAGAGTTTATATACGAAGAGGAATCTACACACGAGAGTTGTTTTCTTTGAATAATACGACTAGCATTCGATGAACTTAGGAAAGAGCATGAGGATTCCCTTCTGTAGGCTGTTGATTTCCCAACAGAACTGCTGAACCAATTGGATTCTCAGGGGTATAAGGAGAAGAGAGAACCAAGCACATAATTAATTTTTCGAAAAGTTAATTTTCTTCGGACTATGGATGTCTGTAAATTAAAGGTGCGGGAATTTTTCTAGTACTTTGGAAGTACCGTACTCCCCTTGTTCACACACACTATAAATTTAACTTTATAAATACTATGATTGAACCTGGGTATATTGAATATAAAAGATAATAGAAATACACGATAAACCAAGTGATTCGAGGTACTTGGGCTCTTCTTTCTTGAGATCACACTTAAGCCTATATTGAGATAACTCTTAAGCCCTAGTTCATATGCCAAATATTGCTTATCTTCTCCATTCCCGTCTCCCTCTATTTTTTTTTATAAGAAACAAATTTCATTAATGTATAAATTTTGTAAAAATGGTCGAGGCCGAAGCCAATGGAGTTACATAATAGCTCTACAATTTGTCAATAGGGAAGAAAGGGTGTATGATTTAAAGAAAGATGCGCTTTTACACCAACTTACAGGATGATAGATAATGACGTCAAATTAACTATCAAAAGAGCTTCCCTTATCGTTGAAGAGGGGGTTGTTTCTCTCCTTCCAAGTGGTCCATAAGAAAGCACGAATTATATGCATCCACATGTGTTGCTTTTGTTTAGTGAAGGTGTGTCCGGTGAGAGCATATGAGAGAGCAGCAATGGTGTCATTTGGGAGGGTTGTGTACCATCCGAAGGAAAGGGAGATTTCCTTCCAAAACCTCACATTTTATTTGGAAGACTTGCACTTATATGAATTATTCAATTCTTAGTTGCAGAGGTCACATTGTATTTGGAAGATTTGTTCTAATCTCTCTGACAATTACAAAAGGCCTTAGCCATTGAGGCTCATTACTAAGCATTGGACCAAATAACTTGCCACAACTCTCCCTTATATCTCTCAACACCTCCATGTCGTCTACCATCTTACTCAAGCCACGTCGCGTATTCTTTCATTTTCTTTCTGAATGTAAAATTTTGTTTTCATTAGAAAAAATCATGTATCCTTCAAATAAAATGCTACAAATTAGTCATTATGTATGCGTTGTATTTTATGAAGACTTTTATAGCATAAACTGTGTGAAATATTATTGATTAGAGGAAACGAGGAAGGGAACAACCTTTGGTGCAGCTATCTTTTTCTTCTATAACATCTGGGGCACATTCTCTGAAAGTTTCAAATTATCTTGCAGAGAAAATTAGAAAAGGATCTCGTGCTATATGGTGGTGTTCTACCAGCTGACCGGGCAGTTGATGATCAGAATGATGATCAAGAGGATGAGGAAGAGGAGCCATTAGCACCATTTTCTGGTAATTTTACTAATGATTGCATTGCACTCTAAAATATTAAGCGCATGTGATACGCCATCTGTGCTAGCTTTGCTTAAAACACAAGTATGTTCAATTAATAAAAATTGCATATAATAGTTACAAGTTTTTCTCTTGCACAAGGAAAAACGAAGTATTCATCTTTAAGAACCAGATCATAAATTATTTTTGCTCACAGAGAAGCTAAAAGTCAGTTATATATGAAAAATAAGTAGGCAAGTTGATTACATTGACAATGATATGCATTCTTTTAGAAAAATAATAGTGTTCATTTGTATTAGCTCGAAATATGTTTCAATAGTTAACCTCAAAATGCTAAGAAACATGGATACGGATATGAGTCATGAATACGACACGATATGGATACAGTGACATGCTAAGAAGCAAGGACACTTTAGTTTGGCTAACATGTGTGTGTTGTACTCGTGTCAGACATTTGGATGTTCCAGCACTTGGTGGACACCTATCGAACACTTGTTAGTGCTACAAATGCATTTGATATGCATAGAACACTCGTTGAGTAGACTATAAAGAAACTTATATGACAATAATAACAACTTTTGATTGTGGAATACATCAAGCTAAGTTTTTTAAGCATATAAATGTATCAATTCATTTACTAAGAATTTTCTTCTACTATAAAAATGATATATATTTTTAAAAATGAATATTTTAATAAACTTGTCATTTCCATGTTATGTCGTATATTTTTTAAAAATGGTGTGTTGCTGTGTCCATGTCGTATTGTATCTGTGTTTGTGGTTCTTAGGTGACTTATAGACCACCAATTTTACATCATTATGTTCGTAGAGGAAAAAAAGGGAAAGGCATTGGTTACTAATGAGTAGGGTGAGTCATCCAATGGCTAGGATGATCATCTAGGGTAGTTTCTGGTGGTTAGATGTTGGTTATACAAGGAGTTATAATACAGTTAACTGTTATTAAATTATGTGTTTAAATAAGAAGTTGTTCAGTATAGAAGGGTACGTAATCTTTGAGTTAGAAGTGTGTGGGTTTCTCTCACGGAGAGGAAAAGTTTATGTACTAGTCAAATACCATATAATAAAGGAAGGTTGTTTCCTTATCATATTGGTATCAGAGCCCTCAAATTGGGGAAAATCTAGAAGATGGCACAAAAGAAGTTTGATGGACAATTGGAAGCAACCTATCAGAAATTGTGAGCGTGGAAATTGCTCACATGATCATGATCATGATCGTAACAATTGGAAGCAACCTATCAGAAATTTCTCTCATGATCATGATCGTAACAAAGGAAATTGCTCACGTTCGTTTTGACGATCAGAAATTGCCACGAATCGAGGAAACATTATTGTCTCTTGTCAGAAGTGTTGACAAGTTAATGGTGCAGTCCAAACAAGGAAAAAATGAAAATGATATACGTACATTGGCTTCTTTGGTTTTAGGTGTTGCGGCTAGAGATCAGCCCTATACGTTGGTGGCTCATGATTCAGGCGTGGTGAGTGTAGATGGTGATCATGATCGTAACAAATTTAAAACAGTTGAAATGCCAATTTTTAATGGAGTGGATCTAGATTCTTGGTTATTTCAAGCAGATCGATACTTTCAAATCCATAAGCTTACACATTCAGAGCAATTGACTGTGGCAGTCATAGTTTTGAAGCAGCAACACTTGATTGGTATCGAGTAACAGATGAACGTGAACTGTTTTTGAATTGGAATGATTTGAAATGCTGGTTGTTGGGACGTATTTGTTCTTCACGTCAAGGTTCAGTTTGTAGTCAATTCTTGGAAATCAAACAGCAAACAACAATGGAAGAATTCTGTAACCATTTTGATTGAATGATAGCTCCTTTGTCCTAATTACCGGTGGAAGTTCTAGAGAATACTTTTTTAAATAGGCTTATTTACATGGATTTGAGCTGAAGTTGATTGTGGGGAGCCCATGGGCCTGTCTAATACCATGAAAGTTAACTTGAGTTGAGTCTGTGTTCGAGCTTCCTTCTCGATAAGTCACAGATGCATGACAATTCAACATTCCATGCGGCATCATGGAGTGACGACAAATAACAAGCTTCCTTCTTGTTAAAGGATATGCTGGAGAAAAACACCCATACTCTCTCTCTCAATGTTGGTGGAAAATACCCATGCTAGAGTAACCGAAGTAGACTGGAAGGGCTTATCAATGACATTCCTACATCACGGCAAGAAACTAAATATCAAGGTTGATCCAAGCCTCACTAAATGTCGAGTGAGCCTAAAAAACATGATCAAGACATAGGGAGAATCTGATCAAGGATTCTAAGTTGTGTGTAGAGCAATAGAGTTTGGAGGAATGACAATGGCCGAATTCTATGGAGTTGATGAAGTTTACACTATAGAAGAATCTATCCTCGTCGTACTAGATAAGTTTGCGGATGTTTTTAACTGGCCTGAGAAGCTACCCGCAAGAAGAAGCATTGAGCATCACATTCACTTAAAAAAGGATACTAATCCTATTAACGTGAGGCCATCTCGATATGCTTACCAACAGAAAGAAGAAATGGATAAACGAGTAGGAGAGATGCTATCTTCTGGAGTAATAAGGCCAAGCATCAGTCCTTATTCAAGCCTAGTGTTATTGGTCAAAAAGAAAGATGGGAGCTGGTGCTTTGTATGGATTACAGAGCACTAAATAATGTGACTATACTAGACAAATTTTCCATATCTTTCATTCAAGAGTTATTCGACGAATTGAATGGAGCATACAAATTGAGATTTAAAAGCCAGTTATCACCAAATACGCATGAGTGAGAATGATATAGAGAAAACAGCATTCCGAACACATGAAGGGCACTATGAGTTCTTAGTTATGCTGTTTGGGCTAACTAATGCACCAGCCACGTTTTAGTCCTTAATGAACGCGATATTCCGGCCACTTGAGGAAGCTTGTGTTAGTCTTTTTTGATGACATACTGATCTATAGTAAGAGCCTAAAAGAACACTTGAAGCATCCGAAAATAGTGTTAACAATGTTGAGGGAGCATGAGCTCTATGAGAATAAGAAGAAATGTAGTTTTGCAAAGTCAAGAGTAGAGTACTTGGGGCACGTAATCTCAAGGAAAGGAGTTGAAGTGGACCCCGAGAAGATCAGATCTATTGTTGAATGGCCAAGTCCTACTAATGTTAAAGAGGTGCGTGGATTTTTGGGATTGACTGGCTACTATAGAAGGTTTGTGCATCAGTATGGCTCTATGGCTGCACCATTAACACAACTGCTGAAAAATGGGGCATTCAAATGGACAATAGAAACTGAAGAAGCATTTGTGAAACTAAAGAATGCCATGATGACTCTTCCGATGTTAGCTTTACCTGACTTCAGCTTGCCTTTCGAGATTGAAACTGATGCTTCAGGCTATGGCATAGGGGCAGTGCTAATTCAAGCTAAACATCCAATTGCCTATTACAACCATACATTGGCATTGAGAGATAGAGCACGAAAGGGAATTAATGGCTGTTATGTTTGCAGTACAGAGATGGAGATCTTACGTGTTGGGAGCTAAGTTCATAGTGAAGACAGATCAAAAGTCTTTAAAATTCCTACTAGACCAGAGAGTAATTCAGCCCTAATATCAGAAATGGATAGCCAAATTGCTGGGATATTCATTTGAAGTAGTGTATAAGCTAGGGTTGGAACATAAGGTTGCAGATGCTCTTTTGAGAATGCCACCAACCGTGCACTTGTATAATTTATTTGCACCAACTATAATCGACTTGAAGGTGATCAAAGAAGAGGTAGAGAGAGATAGCAAGCTGCAGAATGCGATAGCTGAACTGAATGATCAAGAAGAACCCGTGGAAGGAAAATTTTCACTATAGCAAGGGATGTTGAGGTACAAGAATAGGTTGGTAATTTCTAAATCCTCAACTTTAATCCCTACCATACTTCATACTTATCATGACTCATTATTTGGAGGCCATTCAGAGTTCTTAAGAACCTATAAGAGGTTGACGGGAGAACTTTACTGGGAAGGGATGAAGCAGGATGTGAAAAAAATACTGTAAGGAGTGCTTAGTTTGCCAACGTAACAAATCCTTAGCCTTATCCCCTGCTGAATTATTGCTTCCTCTTGAAATTCTTAATTAAGGGTGAAGTCACATTTCCATGGATTTTGTGGAAGGATTACCAGAGGCCAATGGGTTTGAAGTCATCTTTGTAGTGATGGATTGCCTCAGTAAGTATGGGCATTTCATAGCACTGAAACACCCTTACACTGCCAAAACAATAGCAAATCTATTTGTTAAGAAGATCGTGAGACTACATGGCTTTCCTATAGTCTCTGTCAGGGACAAGGTTTTCCTCAGCAACTTCTGAAGAGAATTATACAAGCTGGCAGGAACTAAATTGAATCGAAGTTCAACTTACCATCCACAGTCAGATGGACAAACTGAGGTTGTGAACCGTGGGGTGGAATATTACTTATGTTGCTTCAGTAGTGAAAGGCCAAAGGAGTGGGTGAGATGGTTACCTTGGGCAGAGTATTGGTACTATACCACGTACCAGAGAGCTCAGTGTTGGATGAGCTACTTAAGGAGAGAGATGTGGCCTTACGAGCTTTGAGAGAACATTTGCGAATCGCACAAGAAAAGATGAAGAAATACGTTGACATGAAAAGAATAGATGTAGAGTTTCAAATTGTGGATATGGTATTTTTCAAGATAAGGCCTTATAGGCAAGTATGCTCGAGGAAGAAGGGGAATGAGAAGCTTTCCCCTTAGTTCTTTGGTCCTTACAAAATTATTGAGAAAATAGGACCAGTGGTCTACAAACTGGAATTACCTAGCACCACATCTATTCACCCAGTTTTTCATGTATCACAGTTGAAGAAGATGTTGGGAGAACATGTTGATGTCCAACCTACTACTCAGTACTTAACAGAAAACCATGAGTGGAAGGCAGTTCCTAATGAAGTATACGACTATCAATAGAATAAGGTAGGGAACTGGGAAGTGTTGTTGAGTTGGGAAGGTCTACCGAGGCATGAAGCTACATGGGAAAGCTATGAGGAAATTCAGCTGTTGTATCCAAATTTTCACCTTGAGGACAAGGTGAATTTGGAGAGGAAGAGTAATGATAGACCTCCAATCATGCTACAATATAGTAGAAAAGGGAAGAAGAGCACTGCACGTGTGAAAGGAGATGAGAAGACTGAAGTTGTTATTAGTTAGTTAATAATAAGCTTAGTAGACATAAGTATAAATAGCAGTTAGCATTTTAGAAAGTTTGTTAGGCTCTGTTCATCCTTGCAAGATAGGATAACAAGAGAAAGTAGCCCTAATACATTGAATTGAGTTTCTCTCAATTAATTACTTTGTAATTCATCAATAAAATTCTACTTCAATTCATCATTATCGGATCCCATCAGAACGATGATCCTAGTAAATATTGCCTCTAGGCCTTCAGACAATGAATCACAAAAAGCATTTCTTTCTCGGAGACAATATACCACCTCTCAACACTATTAAGCTTATGACTCCTGTAATCTATTGGGTGACCCTCTTGGGTAAGGATGCCCCCAAGGGAAAAGTCTAACACGTCGATCTCAACTACAAACGACTTAGAACACGTTAACCAATTTGAGGACAGGACCCCTCATCATTGTTACCTTTAATTCGTCAAAAGCAGTTTGACATTCGAATGGCCATCTCCAAGTTGTACCTTTCTTCAACAACTCTGTCAATTGGGCAACCCTTCTTGAGAATCCTTCAATGAACCGACATTTAGTAATTAGCCAATCCAAGGAAGGAACGTAACTCTGTCACGGAAGTGGAGGCTCTCCACTCCTTAATAACTCGCAACTTATCTTCGTCCATTCATGTCACACCCTGTCCTGCATGCGACCCAACTCGCCATGTGAGATGCGGTGTGACTTTGAGATTCTCTGACGCGTTAAACGTCAAATAAACTCAGCTTGAGGTCCTTAAGCTTTTCTTAATCGCCTAATAGTTTTTCCTTGACTTAACTTGTAACTTAAAAATAAACCTTAGGCGATATATAATCTTAACACAATCATAAGTAACCATACTCAACTTTTATACTTAAGTCATTTGTTTACAACACTTTACAACAATACATAAAACAACACTTAAACTTTAAAACAAAACGTCTGGTAGCTCTTCTCGCCTAGTTAGCTTTTCACCCTTTCCTTACTTTAGCCTTAATGCCGGTAACCTGGGAAGTAAAACTTAAAAACATAAGTCAAAAGACTTAGTGAGGTTTTGAGAAATCCTTTTCGCAGATTGCCTTTCATAAACATCATTATTCCAATCAAACCGCTTAAACATATCTTTTCACATAGACAAATCAATTTGCACAAACATACATTTCACAAAAACACACATTAGTCAACGATCATTCCTTTCGCCAAGAACCTGAATCATTCATTATGCAAAGATTCATCATCTCGTGTTTAGACTACTAAGGTGGCTTTTTCATCAATAGGATTCGAGAATATCCTGATTCATTCCTTGTTGTTCAGGCCGAAGCGCAATACACATCTTTTATGTATTGTCTCGCCAAATTTCACCATGCATGCCTTTATACATGGTTGCCTTTACTCTTTATGTGCACGTAACAGTTAGCTCATTAATAGGAAGAAAACTAATGGTTTGAACACCATTTCATAGTCATTGGAAATACATAAATCATTCTTTGATCATAGTATAAACTTTGATTTGAAATACCATTTGGAAACATTCATAGATCAAACATTATTTCAAATCAGTAAAAGCTTGAAAAGAAATCTTATACTATCCGAACATGGTAATAGCCTGACCGGAGGTTGAGCTTCGTAAAGTACTGAGCTCCATTCAATTGGTCAAACAAATCATTTATGATCGGGAGGGGATATTTGTTTCGAACTGTGACCTTGTTTAAAGCTCTGTAGTCTACACAGTTGGAGTGTTCTGTCTTTCTTCTTCTGAAACGACATAGGGGTGCCATAGGCGCTTTCGCAGGTCTGATAAATTCGGAGCCAACAGTTTGTCTAATTGTTTCCAGAATTCAGCTAACTCAGGTGGAACCATTTGGTAAGCATTCTTTGTTGGAGGCTTGGTTCCTGGGACAAGCTCAATCTTGTGATCAATCCCCCGTCGAGGAGGCAGTGACTTTGGCAGTTCAGGTGGCATTATATCAACATATTCATTCAAAACTTTCTGGACTGGGACAGTCCCAGGTCCATTTGTTCATCCACCAAAGGGATGGCCATAGAGGTCGGCTCTTCTCTATTGAGCCCCTTTTTCAACTGCAGGGTTGAAATCCACCTCACTCGGTTGCTTGATTTTTGCTTGGACTATTGTCGAATTACTGCTCGTTACTACCATACACTGAAATTATAAGTTGCACTTGAGTCTACCATGGTGCTTTTTGCGGGTTTGGAGTTTATGACCGCATCGACAAACATGAGTCCCTTTTCGAAAGCATCCTTTTGGTAAGATGCCTTCTTTTGAATTGCTGATAAGATTTTTAACACACCCATTTGAGGGGCATCTTCCCTTTCCATTTCTGTTTCTACCTCCAAATTGTTATAACACTGTAAGGAGGCTTGCAAAGCTGTCAACGAGCCTCGGTGTGGGCATTCGGCTATACGATGGGGGACCTTCACACAAGAAGCAAGAAATAGGTCTTGTCTGATTCGAATTTAACTGATATGCTCCTTGAGGAGTACTAAAGCTTGAGGTATGTTGTTTCTTATCGTTCGTGAAGTTCCTTGGTGAATTAGGCTTGGAGATCCTATTCTTGGGTCAGTGTGGTCACTCTTCTTGTGGGACCCTCGGTCGCCATCGTAGTCAAACAATCTCTTTGTAGCAGCAAGAGTAGAGACAAGGTCTTGAACTTTCTGTTCATATAACTTAGTCTTGGCCCACAGCCCACTGCTTGAGCCATTCTATAAAGTAGAATACTTTATCTTTTTCCGACATGTCTCGAATGTCCAACATAACATCGGAGAACTGTTTGGCATACTCTATGATGGTCCTCGTGTGTTTAAGTTCCTGTAGTTTTCTTCTAGCAATAAATTCTACATTTTCAAGGAAGAATCGTGCCCTTAGTTCTTTCTTAAGGTCTTCCCACGTCTCAATGATACATCGACCATTTTGGACGTCGGTCATTTTCGACCTCTACCAGAGTTTTGCATCATCAAACACATGGGGGCTAATATCATCTTAGTTTCTTCAGAGTTGGTTCCACTGGCCTTAAAGTACTCTTTCATATCAAAGATGAAAATTTCAAGCTCTTTAGCATTGCGGTTCCCATTGAAGGGTTTGAGTTCTGGGATCTTAAACTTGCTCGAAACACTATATGCTTGATTCAGGGTTTGGTTCCCCACTCTTGTCGTTAAATTTACTTTCTCTTTCATCTCGACCTTGATTGTCTCTATTGTTGTTCTAAAGTCGTTTGACAGATCGATGAACAACTTTAGCATGGTCTTCTAGGAACAGTTAAGCTCCTCGATACGCTCTTCCATGTGTGCTAAGAACTTGAAGAGCTACTCCCACATTCGAAACTACCTGCTCAGGCAGTTTTATATTCTAACGAATTAACCCTCAGCGTCAATTCATTTATGAGTAGTTTGTCTACTCGGACGTTCAATGCGTCTATTTCTCCGACCTTTTTTCCAACCCCTCTAGCCGGGCATGGAGAAATCTTACTTTGTTTGGCAATTCTCTCAATACAAGAATTGCTCTTCAATCTTAGTCAATTGCTCAAACTACGACTTCGACAGTTGTTTCATTGCCGATGTAATTGCGTCTAGCTTAGCCTATTTCATTGCTAACAAAGCTTTGGTACCACTTGTCACAATCGCAACTTTTCAAACGCGGGACGGGGGATGTGCAGCACTTGTTTTAACTCGGTGAACAAGTTAGTCGTATGAAATCCGAAACTCATTGTACGATGTAGCCTTCCTTCACGTTTTGAGAGAAATTGGTTTTATAAAACGTGAGAGAAAGAAAAGCATTGAAAACATCGTTAAAGAAAGCATTGAAAACTGTCAATTGCAAAGAAAGCTTAGATTGCAAAAAGTACAATAAAGCTTGGTTAGGATTTAACTACTATATTTTCCATATAGTACATTCTAAACATTTTTAGCTTTGATAGACTTGCATATGAAAATGTCGAAACGTCACTTTCTAGGTCGGTGACAACAAAAGGAAAGCAATAGATTAAACTAAGTACAAAACATAAAGATAAGGTGGTTTGTGGATGTTCGGGCATGCGGCTATAAGCAAACAACGCCTTGAACAAGCATGCTCGTGACATTTAGCACCCCATGTTTTAAATCGGCCATTTTAGTTAATGGGTTCCAAGATAGGTTTATAAGGTTACTCTATTAAAAGGTAACTATAGATTTGAACAAAAAATTGATTAGATGCTGAATTTGCAAGATAAGTCGGAAAAAAGCTTATTTTTTATTTTTTCTCTCTCCATTTTCGTCCTCCCACTTTCTTCCTCCCTAATCCTCATCTCTTTTATTCTCTCCCTACCCCTCATAGCGTATCTCCCAGAACAAAACTGAGGAAAAAAACAACATTTTTTTCTTTCTTCTCTCATAACCTATCCTCTCTCACCGTGGCTGAATGTAAGCCCACACCTCCGTCTAAGGAATATTTTTTTTGGCGATCAATACCGTTTCATATCTTCGCATGTTCATGAAATCCAGATGGAACTATAAAAAGAATACACATTCCAAATCTTCAATTTTGAATATTTCCTACAGGTTCCTGCAGGTGGGCATTTCGTGCTTCTTTTTCCACACACATCCATCTAATTTTGAAATATTCTCCTTGGAGTCACTTGACCAAGATAATTCATTTTCAAAGAAGGGGGCATATGACTATGATTTTCACATATTCCCACTCTAAATTACCATCTACAGAATCTAAACCATCTGTTTTTCATCTCTGTAGGAGATAATTGGTATAAGTTGGGGCTATATTATTCGAAAAAGTTTCTGTAAGGCCTTGGCCACAATTATATTTATCAACTGTTGGAGAAGGATTTGATGGCTCCCCAATCTCTCCACACTTATCTAATAAGAATTCTATACCAAAATCATTAAGGAAAAAGATACCCTTGCCCTACCTTACTCGATTTAAAAAATCGACAAATACTAAAGGAAATAACAGTATACTTGGCCCACTCTAACAAACACATTCCTAAGGCCCACACTATTGAAAACTACCAACTAACTCTCAATCATTCTTTCTTCTTTCCTATCTTGTCTCTGTATACACCTTTACTATAGGGGTCTATCAGTTTCTCTCATTGGACACTAGATTAAATTCGAATCGAGTTTGATTGTTGTTGTAGGAGAGTTGTTGTAAGAACTCAAACCCACCGTCTTGGCCAGTTCCTACTGTTCTAGAAGACGTCTTCCCTGAGCAAGATTGATAACTGGTTAGCATTGTTGGGATGCATTGTGAGAGAAAGCTCCAAATTGAGAAGAATTTCAGTATGTCCAGGATTTTGAGACCAGGTGGATTTAGTTTTTTGATTGATTCAAATTTTCATTCTATGAAGGAGGGAGGAGAGAATGAGAGATAAGGATTAGGGAGGGAGAATGAGAGAGAGGGAGGAGAGAATGAGAGATAAGGATTAGGGAGAGATAAGGATTAGGGAGGGAGAAGGAGGGAGGATGGACAAGGGGAGAGAGAATAATCTTCTAAAACCTATCATGAGAACTTAGAGACTAAAATTGATAAATGGCTAAGAGGTTAGGAATCAATACATGATGGTCACCTAGGGAACTAATTTCTTACAGATTTTCTTGGCACCCAAATGTTGTAAGGTCAGATAGGTTATTTCATGAGATTAGTCGAGGTACACGCAAGTTGGTCTGGATGCTCACAGTTATAAAAAAAAATTGTCAACTTAACCTGAGGGACTAATGCACCTATTCTTCAGAAGGTAGGGACCAAAACCTGTATTTTTCTCTAAATTTGATTATTTCTATTTATTGTACTTTAACAAGTGTTTGATGTGTGTCTACCAAGTTGGTCTTATTTCTTTACTTTGTGCAACTAGTGTCTAAAAACATATTTATTGTACCAACAAGTGTCCAATACATATCTCACGAATGGCAGTGTCCAAGTGTCTTGACATGCTAGCCAAGTTAAAGTGTCTGTACTTCTTAGACTTAAAGTATGAGTGTCATCTTCGATCTGAACATGCCTTTGATTCTTTGTAGAGGCAAGAACGTATGACAACGGAAATGTCAAAGTAACTGTGACAACAAGTGAGGTATCTCGGGAGGGCGAAATTGATCCAATTGACAAGCCACAGACAGCAATAGCTCAGTTGCTTGGAAAGGATAAGAAGCATAACCTGCCAATTACCAAAAAGAAGCTATTCAAGAAAGTAGCAAAACAGAGGTCAAGGCCAAAGCTTCGAAGTAAAAGAGACAAAAAGAAAGGAAGGAAAAAGAAATAGATAATTATACTAAGCTTCTTACTTACTATTTGCTAAATGTTCAATGCGATACGATTTATTTGTTTTCTAATGAGAATACGGAGTGATCTTGAGCATTGGGTGTCTTTGAGGGTTTTGTATTATTACATTATAAAAGCTTACCCGTTTTGCAAACTGAAAGTGCAATTTTTCTTTTTATGTGCAGCTCAATTTGTTTTCATTCAGCATTCCTAGAAGAAAAAACAACAGATCATCTATGTATAGAAAAATTATCGTATTGCTTTACAAGAATGTACACGTTTGATGATTTATATATGTTTGGAATAACTAATTAGTTTTC AAACACAGTGAGAGAGGGAAAAAACTACACGCAACCGTGGGAACAAACCGAAGCGCCGGAATTTGGAGCTAAAAACGCACGGCGTCGGTCTTCTGTGTAGAGTGCGGAACTCAGGCGGTGTGTCTCAGTTTTGGAGGTTATAGCGGCGGGGTCTTTTGCTCTGTTCCGCGGCAGCGTAGAAGTCGAGTTTGTTATTCTCTTTCAAGAGAGTTTTACACTTACAAGGCGGTGCCATGGTAAAGAACGACGGAGAAGAAGGGGGCGAACTTGCACAACCTCATGCTCGACATATAAAGAAGAGAGCTCTCAAGAACAAAGCACTTTCTGTCTCTTTCAATGAAAAAGACTTGAGGGACTATGTAACTGGATTTCACAAGAGGAAGAAGAAAAGGAGGAAGGAAGCAGAGAAGCAAAAAGAGGAAGCTATGCGGCGGATGCGCATCGAAGCACGAAAAAAGAGAAAATTAGAAAAGGATCTCGTGCTATATGGTGGTGTTCTACCAGCTGACCGGGCAGTTGATGATCAGAATGATGATCAAGAGGATGAGGAAGAGGAGCCATTAGCACCATTTTCTGAGGCAAGAACGTATGACAACGGAAATGTCAAAGTAACTGTGACAACAAGTGAGGTATCTCGGGAGGGCGAAATTGATCCAATTGACAAGCCACAGACAGCAATAGCTCAGTTGCTTGGAAAGGATAAGAAGCATAACCTGCCAATTACCAAAAAGAAGCTATTCAAGAAAGTAGCAAAACAGAGGTCAAGGCCAAAGCTTCGAAGTAAAAGAGACAAAAAGAAAGGAAGGAAAAAGAAATAGATAATTATACTAAGCTTCTTACTTACTATTTGCTAAATGTTCAATGCGATACGATTTATTTGTTTTCTAATGAGAATACGGAGTGATCTTGAGCATTGGGTGTCTTTGAGGGTTTTGTATTATTACATTATAAAAGCTTACCCGTTTTGCAAACTGAAAGTGCAATTTTTCTTTTTATGTGCAGCTCAATTTGTTTTCATTCAGCATTCCTAGAAGAAAAAACAACAGATCATCTATGTATAGAAAAATTATCGTATTGCTTTACAAGAATGTACACGTTTGATGATTTATATATGTTTGGAATAACTAATTAGTTTTC ATGGTAAAGAACGACGGAGAAGAAGGGGGCGAACTTGCACAACCTCATGCTCGACATATAAAGAAGAGAGCTCTCAAGAACAAAGCACTTTCTGTCTCTTTCAATGAAAAAGACTTGAGGGACTATGTAACTGGATTTCACAAGAGGAAGAAGAAAAGGAGGAAGGAAGCAGAGAAGCAAAAAGAGGAAGCTATGCGGCGGATGCGCATCGAAGCACGAAAAAAGAGAAAATTAGAAAAGGATCTCGTGCTATATGGTGGTGTTCTACCAGCTGACCGGGCAGTTGATGATCAGAATGATGATCAAGAGGATGAGGAAGAGGAGCCATTAGCACCATTTTCTGAGGCAAGAACGTATGACAACGGAAATGTCAAAGTAACTGTGACAACAAGTGAGGTATCTCGGGAGGGCGAAATTGATCCAATTGACAAGCCACAGACAGCAATAGCTCAGTTGCTTGGAAAGGATAAGAAGCATAACCTGCCAATTACCAAAAAGAAGCTATTCAAGAAAGTAGCAAAACAGAGGTCAAGGCCAAAGCTTCGAAGTAAAAGAGACAAAAAGAAAGGAAGGAAAAAGAAATAG MVKNDGEEGGELAQPHARHIKKRALKNKALSVSFNEKDLRDYVTGFHKRKKKRRKEAEKQKEEAMRRMRIEARKKRKLEKDLVLYGGVLPADRAVDDQNDDQEDEEEEPLAPFSEARTYDNGNVKVTVTTSEVSREGEIDPIDKPQTAIAQLLGKDKKHNLPITKKKLFKKVAKQRSRPKLRSKRDKKKGRKKK*
BLAST of MELO3C019183 vs. Swiss-Prot
Match: RRP17_SCHPO (Ribosomal RNA-processing protein 17 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=rrp17 PE=3 SV=1) HSP 1 Score: 65.5 bits (158), Expect = 7.5e-10 Identity = 59/205 (28.78%), Postives = 92/205 (44.88%), Query Frame = 1
BLAST of MELO3C019183 vs. Swiss-Prot
Match: NOL12_XENLA (Nucleolar protein 12 OS=Xenopus laevis GN=nol12 PE=2 SV=1) HSP 1 Score: 62.0 bits (149), Expect = 8.3e-09 Identity = 58/199 (29.15%), Postives = 93/199 (46.73%), Query Frame = 1
BLAST of MELO3C019183 vs. Swiss-Prot
Match: NOL12_DANRE (Nucleolar protein 12 OS=Danio rerio GN=nol12 PE=2 SV=1) HSP 1 Score: 60.8 bits (146), Expect = 1.9e-08 Identity = 49/169 (28.99%), Postives = 83/169 (49.11%), Query Frame = 1
BLAST of MELO3C019183 vs. Swiss-Prot
Match: NOL12_XENTR (Nucleolar protein 12 OS=Xenopus tropicalis GN=nol12 PE=2 SV=1) HSP 1 Score: 55.1 bits (131), Expect = 1.0e-06 Identity = 55/190 (28.95%), Postives = 88/190 (46.32%), Query Frame = 1
BLAST of MELO3C019183 vs. Swiss-Prot
Match: NOL12_BOVIN (Nucleolar protein 12 OS=Bos taurus GN=NOL12 PE=2 SV=1) HSP 1 Score: 53.5 bits (127), Expect = 3.0e-06 Identity = 46/182 (25.27%), Postives = 86/182 (47.25%), Query Frame = 1
BLAST of MELO3C019183 vs. TrEMBL
Match: A0A0A0KYB4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G414400 PE=4 SV=1) HSP 1 Score: 361.7 bits (927), Expect = 5.7e-97 Identity = 185/196 (94.39%), Postives = 188/196 (95.92%), Query Frame = 1
BLAST of MELO3C019183 vs. TrEMBL
Match: M5X2I3_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa011686mg PE=4 SV=1) HSP 1 Score: 223.4 bits (568), Expect = 2.4e-55 Identity = 112/181 (61.88%), Postives = 140/181 (77.35%), Query Frame = 1
BLAST of MELO3C019183 vs. TrEMBL
Match: A0A067GK09_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g029079mg PE=4 SV=1) HSP 1 Score: 223.0 bits (567), Expect = 3.1e-55 Identity = 116/189 (61.38%), Postives = 146/189 (77.25%), Query Frame = 1
BLAST of MELO3C019183 vs. TrEMBL
Match: V4TPL5_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10016776mg PE=4 SV=1) HSP 1 Score: 219.5 bits (558), Expect = 3.5e-54 Identity = 113/189 (59.79%), Postives = 145/189 (76.72%), Query Frame = 1
BLAST of MELO3C019183 vs. TrEMBL
Match: F6H7U1_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_00s0181g00240 PE=4 SV=1) HSP 1 Score: 213.8 bits (543), Expect = 1.9e-52 Identity = 113/191 (59.16%), Postives = 140/191 (73.30%), Query Frame = 1
BLAST of MELO3C019183 vs. TAIR10
Match: AT1G11240.1 (AT1G11240.1 Nucleolar protein 12 (InterPro:IPR019186)) HSP 1 Score: 170.6 bits (431), Expect = 9.4e-43 Identity = 104/187 (55.61%), Postives = 124/187 (66.31%), Query Frame = 1
BLAST of MELO3C019183 vs. NCBI nr
Match: gi|659111551|ref|XP_008455785.1| (PREDICTED: ribosomal RNA-processing protein 17 [Cucumis melo]) HSP 1 Score: 385.2 bits (988), Expect = 6.9e-104 Identity = 194/194 (100.00%), Postives = 194/194 (100.00%), Query Frame = 1
BLAST of MELO3C019183 vs. NCBI nr
Match: gi|778694579|ref|XP_011653832.1| (PREDICTED: ribosomal RNA-processing protein 17 [Cucumis sativus]) HSP 1 Score: 361.7 bits (927), Expect = 8.1e-97 Identity = 185/196 (94.39%), Postives = 188/196 (95.92%), Query Frame = 1
BLAST of MELO3C019183 vs. NCBI nr
Match: gi|595874053|ref|XP_007212076.1| (hypothetical protein PRUPE_ppa011686mg [Prunus persica]) HSP 1 Score: 223.4 bits (568), Expect = 3.4e-55 Identity = 112/181 (61.88%), Postives = 140/181 (77.35%), Query Frame = 1
BLAST of MELO3C019183 vs. NCBI nr
Match: gi|641856971|gb|KDO75737.1| (hypothetical protein CISIN_1g029079mg [Citrus sinensis]) HSP 1 Score: 223.0 bits (567), Expect = 4.5e-55 Identity = 116/189 (61.38%), Postives = 146/189 (77.25%), Query Frame = 1
BLAST of MELO3C019183 vs. NCBI nr
Match: gi|645236869|ref|XP_008224943.1| (PREDICTED: ribosomal RNA-processing protein 17 [Prunus mume]) HSP 1 Score: 220.7 bits (561), Expect = 2.2e-54 Identity = 111/181 (61.33%), Postives = 139/181 (76.80%), 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.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with 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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