MELO3C003262T1 (mRNA) 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.TAAGGGTCCTTAAGCCCAAGGAAATCAATTTCACTTATGGCTGCTACTGTCGATTCCTTCAAGGACGAAGAGCATTCAGAGGCTGTTTCACGATTGGTGGAAGGCCCATGCCAATTACGAGAACTCGGTTCAGAATCAAACCCTCAACAACCTCCTTTTAAGCTTCTGAAAAATTCATATTTTGATGAACTTGGCAGCCTATCGACTGCAATACATGCATTCCAATGTCGCTTTAATGAATTGCAAGACCATCTATGTTTCATTCACAACGCCATAGATGCACGTTCGAAACAACATATGTCCTCATCCAACTCTCTGCTAGATAATCATTCACAACTGCTATCTTCCTTATCCTTCAAGTCTTCTACTCTCGTCCCAACCGCAGAAAGTGGACGAAATCCTGTTTATTCGAGCACCCATCCGTCGCGTAGTCCTAGAAGCAATCTCCCTGAAACTCGTACCTATTCTGGCAAAGTTGATGGTAAAGAAGGCGTTGATAAGCAAACAGAATCCTCCTCTCTCTCCGAGCTTGAGCATCTCTGCCAAACCATGTGTAGCCGTGGCCTACGCAAGTACATAGTTTCTCATCTATCGGACCTCGCTAACCTCCGTCATGAAATTCCGCTCGCTCTAAAATGTGCTCCTAACCCGGCCAAACTCGTGTTCGATTGCATTGGCCGCTTTTATCTTCAGGGCAGCAAAGCCTACACCAAGGACTCTCCTATGATTCCTGCTAGACAAGCCTCCATCCTCATCCTAGAACTTTTTCTGATCTCAGGTGCAGCTGAGACCAAAAATGACAAAAGAACAGAAATTGAGTCCTCCTTGAAGGTGGAAGCTGACCTTGCTGCCATTGCCTGGAGGAAAAGACTTATTACTGAAAGTGGTTCTTGTCAGGCTAGCGATATAGATGCCAGGGGTTTGCTTCTTTTTCTTGCGTCTTTTGGAATTCCTACTGTATTTACAAACGATGATTTAAGGGATCTCTTACGATCAAGTAACTCAAAGGGGCTATCGAATGCCCTTTGCCATTCACATTGTCTTCGTACACGCATTCCAGGTATGTCATTTCAACACTCATGACTTATCAAAAGAATACATGCTTTTCCCTTGTTGTTCATCTCTTAATTGATTCGTTTACCTGATTTATTGCCTTGCTTAAAAACTGAATTTTGCTTCCTTTCTTTTTAACTGTTTTACTTTGCGGTCTTGTTTATATCTGATTTTAGTTTTGTTAAATTTTGCTGCTATTTTGTCTGATATGTTAGTAAGTTTAGACTACTTCCTTACTCCTTACGTAAAATGTCTTCGATGAGTGTTCTCAGCCATTGTGTCTGATATGTTAGCAGCAGTTGTCACCAAAGTTGGCTAGCGATGGTCACTAAAACACGGTCGCTGACAGTTGGGCGAAAACGGATGTCGGGAATATGATCACCTGAAGTTGGTTGTCGATGGTCGCCTATAAACAATCGTTGAAGATAGTGGATGGAGGTGGTCAGTGAGAAACAATGGTCGGACACTACCGACAATGATTGCCAAAAAATAGTCATTGGAAGTTGGCTGAGGACGATTGTCAAAAAACGATCACTAGAGGTTGGCTGGAAAAAGCTACTGGGAAGATAGTCACTAAAAGTTGATCGTCGATCATTGTCGGGAAACAGTCGACAGAGACGTGGGAAAAAGTTGTTTGATGACTGTTGCCAAAAAATGATTTTAAAAAATTGGTCAATGGTGGCTATAAAAAAATGCTTGTCGGCAATTGGGTGGCAACAATTGTTGAGAAAATGGTCAGTTGAAGGTTGCTGTTGTTAGGTCTCTGAAAATAGTTGTTGAAGATTGTAGTTAGAGGTGGCCCATGACTATGAACAAAGGGACGAAGGAGCAAACTTAGTGCCGTTTGGCCCATGATTATGAACAAAGGCAATGCACCCGAACACATCGAGAGGAACATCAAGAATAAGTCGTGTGACAGGTTAGAACTCCTTAAGACATTCAAGAGGTGTTTGGAGGTAGAGGCCCCAAGATGACATTCTATTGATAAGATATGCTGTAGTGAGGATTGCATCCCCCCATAAGTAGGAAGGAAGAGAAGTAGACAAAATGAGGGAGCGAGCAACCTCGAGGAGGTGTCGTTTTTTTTGTTCAACCACATCGTTCTGTTGCAGGGTATAGGCATAAGAACTCTGGTAGACAATCCATTCAAAGGATAGAAAGTCTCAAAGAGTATTATTCAAGAACTCACGACCATTATCGCTCTGTAAAATAGCAATTTTGGCGATGAATCGTGTCTCAATGGTTGTGTGAAATTGTTGAAATATTGATGAGATCTCAAATTTATCAATGAAGAGTTGGGTGAGGCGGATATGATAATCAATAAAGTTTATAAACCAACATTTCCCGAAGTGGTAGTGACTTGTGAGGGCCCCAAAACATCACTACAAATAAGTGTAAATGGTTGGGTAGGTTTTGTAGGGTTGAGACGGAAAGGGTACTCTGTGCTGTTTTGCATGAATACACGTCACATGACAAAGAAGAGATATCCACTTTAGAAAATAAATGAAAAATATAGATATTTCATGTATTGAAAGTTTGGGTGGCCAAGACAGAAGTGCCACAACATATAATCTCTTTAAGAAGTAGAAAAATAAGATGAGAATAGACTAGTCCTATAACAATCCCTAGAGGAAGCTTCATCATCGAGGAGATAGATGATGAAATAGAGTCCCCTACTATGTTGGACAATGCCAATCATCTTCTCTAGATCAAGTCCTGAAAAGAAACAGTATTAGGTAAGAAGACAACTTGACGATGTAGATCCATGGTTATCTTACTAATATACAATAAATTGTAAGACATCGTAGGCACATGTGACACATTCTATAAAATTAGACCATCCAAAGGGGAAGGGAAATATGACCCTTGCCCACCCTAGGAGCAAAGGACCCATATGCAATCCTAATTCTTTCATTGCCAACACATAGAAGATATGATATAAAATGTTCAGAGGATCCAGTTAAATGGTCTGTAGCACCTGAATCAAGTATCTAGGATTTCTTCCCATTGATGTTGATAAGACTTAAAGATTGAGGTGTACCTAATTGTGCAATAGCTCCAAGAGAAAAAGTACCAGAATTATGCTTGTCATTTGGCAGATGTTTCTTACCATTTGGTGGTTGACGATATAACTTCCAACAACTATCTTTTGTTGTTAAGGGGCTATCAAAAAGCAAGCAAGATAACCAATCTACACCAATTGATGGTTAACTTAAGGGACAAAAGTGCTCCAATTTAGGTTAAAATCTGAGATGTTGTAGATGTCAAAATCTCTATGAGGATGCACTACGATGATGCATTTTTGTGAGTAAATTCATAATGATCTAGCCATCTAGCGGTTTGTCGAGAAAAACCCTTTGATTCCTTTCAAACCATAATTTTGCCAAAATTGTTTTTATTGCATTAAATCATATCGTGAGGTCTTATCAAAACAAGGACCTCCTAGAAGTTGCCTTACCAAATCTCTACGATCTTCTTTAAACACACAGGACGTATTGAAAATAGAGAAGAGAGTTTCCCAACACTTAGCAGAGTACTGGCACAAGAAAAAGAGATGAATCGGATCTTCTCCATGTTGAAGACAAAATGGACAAATTGAGGGAGAAAAGCAGCTGGACGGCAATTTGCGCTGCAAAACTGAAAATGTATTCATGTGCGCAATCAGCAAAATCCGAACAAGAATTTTAGCTGCAAAACTGAAATTTTTTTTTTTTAAAAGGAGACAAGCTTCTTTATTAATATAAAACTCAAAGTACATAATTAATAGAAAAGCTTAAAAATATAGGATCATGTGCTGCATCCGGACATCTCAACTAGGTTGACACCTCTTAACGCCATCATCATATCTCATAGAAACAACAAGAGAACATATAGGTCCCAAATAAACCAGAAAACAAGCAGCCACAGGAAAACAAAGAAACAAGACAGAGAGTAAAGAAAATTCATTTGGAAGGCTGATGGAATAGCAGAATTTGTGTCGGTGGAAGATGTATTCAAGCGATCAAATTCATTTATCAGAAAAACTACTAAACAAAACTGATGTAATCAAGTGACCAGATTCTTTTATTGGAAGCCTCTGAGATTCTTCTTGCTGAAATTTTATCAATTGGATTCTGAAATTTTATCAATTGGATTCTGAAATTCTGCTATCTCCTCTTCCTTTAGAAGTTGACAGAAATAAATAGCCAAAGAGTTTAACTCGGAATCCCAATGCTCTGCAATTCAACCTTTTGGAAGTAAGACAACTCAAAACAGTCTTGGAAACTGAGTATTAAAAGGAATTTCATCCTCCCAAGTGTCTAATCAAAGTGCAATCGGACTCCCTTTTCTCAAATTGAATTTGGCCAAAGCTTCCACTTTCAACCAAGTTCAGGAAGTACTGACCCAAGGGTTTCGTAAACTCCTTCCATCTTTTCCAACGGTGTGCCAATTATATGTATCCGATCCATGAATGCTTTTGACCACCTTGTGCCACAATGAATCCTCTTCCTCTAAAAACGGCCACCCCCATTTAGCAAGAATGGTTAGCTTTTTTGCTTTAAAACCACCTAACCCAAGCCCACAATCCGTAGTAGATTTATCAACTATTTCCACTTTAACTACGTGGGGAATCTTACTGCCATTATGTGACCTTCACGAAACTTGTACGGTCTTCCTCTAATCGAACCTCAAAGCATACCTCCATCGATGAAGGAATAGGCCTCTGACTCAATATACGACCACAAACTAAGTCAAACTCGAAATGCAAGTCATATACACGATCAACTTCCTCAATTTTGAAGTACTGAACACCTCCATAAGAGCAGTTCTAGACAATCTCTCGACACAAGTCCATCTCTTACCAAATCAGGGACAACTTGTTAAAATATGAAGTGACATCCGTTGTCCCTTGCTTACATAGAGTATAAACGCGAGATGCATTCTTCCTCTTTGAGTATAACTTATGAACTGTATCCCATGTGTCCCAAGCTGTAGCAACATACAACAAAGGTTTCCTAATTTGAGGTTCTATACTGTTAATTGACACATATCGAAGAAGAGAGTCCTCCTCTTTCCAAATTCTCTCTTGAGGGTCTCTCGGTCTAGGTGGTACCCTCCTGTGAGGATCCCAAATTTGTGATGCCCCTCGAATGTCATCTTAATGAATTGAGACCATGAGAAATACTTCTAGCCATTCAATTTCTCCCCTCCAATCACACTTGTAGAATTTCCCATGGAGCTAGATAAATAATTTGTTGTGGTTATGGAAGGAAAGAAAGTTACTAGGTTCTTTAAATACATCGGTAAGGTTGATGGAATAGTAGAATTTGTGGACATGGAAGCACTTAGAGCCGCCTTGAGAGCAACTATTTGTTGCTGAAAATTCATTGGGAGATTTGTCAGTTGTTGAACCATCACCGAGGAAATATCACTCTAACCATCCCAAGGAGATTTACCTTTATGGTGGACAGAAGACTCACCACTTTCAACCTCTTGAAAAGTGTCGGTAGCCGGATTGAAGAAGTTTGCTGGTCCGATAGGGATGGAGGTGTGGTTGGCGATGGCTATGAAAAGTGTGGTTGGTGGGATTGCCAGCGGTTGGAAGGCAGTCATGCCATGGGGGCCTGTTGGTGGAAAGGGGAGGTCGATCAGCTGTTCCTAGACAGACAGTGGTGCTGTTCAGATCTAATAGCAACTGTGTGAATGGTGGTAAGAGGCGCTGGAGATACTGTTCGATGGCGGCCTAAATGGCCGTGGCGGCTCCAATAGGAAAAATGGAAACAACGGCAGTGAGGTTATTGCTGGTAGTCAAGGGTTCAGTGATAGGGTTTTCCATTGGTTGATTTTCATCAATGAGACGGCTAGGGTTTCATTGTTCTCCTCTTTGATACCATAGTGAAAAAGAAGTAAGAAGAGAAAGCGCAAGGTATACGTGGAAAACCCTAGTACAGAGAGAAAAAATCATGATAGGAGATTTATTATTTTCTAGTAATTAAAAGAGTATCAGAGGGAAGAATACATACAGGTCATAATAAGCCCTAACAAAAAAAGTAAATAAAACTACAGTACAGTAAATTACGCAAATACCCTTGAGGCTATAAACACTCTATTAGCCCCTAATTTCTCAAAAATGCATGTTAAAAAATTTTCTAAAAGGAGCCAGTGACCACGATCTTCTCTTCGATTTATCTCGTGCCCCCCTTGTATTGCACGAAAGAACTTCCATTGCACTACCAGATACAAGACTACTTTTAACTGCTGGAAATAAAGTTTATAGAGCTCAAAAGAAAGATAAACCACAAGCTTCAATGATGCCGTTCAAATGCTGTGGGATTTCTTCTCTAATTTTCTGGATAGGAGGTTGTTCTTTTTTATACACATTCCTCCACAAACAACTCACTGGTATTGCTGATAATGTTCTCCAAATTCTCAGAATCTTCAGCCTCTTCCCCTGCTTCAACCTCTTCTAATTCCTCACTACTTTCACTTACAACTGACTCAACGTCTGAGTCTTGAATTCCTTGAACATCAGGGCTGCCAGCTTCCTCTGGAGTACCATTTCCAATTTTCTTTAGAAATTCGAAATCAAGTTTATGCATGCCTTAGAAATGATAGACTTTTCCCTCAAAATTTATTAATCTTGTTTCACATTGCCCTTTCGCCCATCCATCAGGACATTAATGTGGTTCATTTGGAAAGGAAGAAGCCATCAAATGCTCAATGAAAAGAACAAAACTTTTGATAGTTCAAATCTTTGCCTTTTTGTCCTCACCTAGTATGTATACTTTCTTCAATTTCAGAGTTACAGCGCTTTCTCATTTGTCCAGTTGGAAGTGTTCTTTGTAAATCTGCCTTGGATTGGGGATTGACTTTTCTCCTCCTTAACATTTTGTAATTCCACCTCATCAGTTTTTGTTTCCTATAAAAAGATTAAATAATAAAAGCGAGGCAACTTTAGAACTCAATGACACAATTGTACAACCTATAGAACAAATCCTGTTCATGTAAGGTTGTTAGAAGCGAGTCAACTTTAAATTTTATTTTCTTCACAATTAAGAATTCCACCTTCAGGTATTTTAATGCTGATAAATGCATAAACGGTAACAAATATTTCAATTTCCTTAATAGCTGTAAGTTGCTTGGTCAACCTTGGAGTCTGATTGCTTTGATTGCCTATGCTGGTTTAGATCAATTGTCATTCTCATTTTGCTGCTTGACTTATAATAGACATTATAAAGGGGATGACGAAGAGCAGTAAGAATATTGAAGCTGTTGATATTATTTATGCTTTTGGTATGGAGGATGTATTTCCACCACAGGAAATTCTGTTGTCATTTCTCCAAGAGTGTGATGAAACGTGGAAAAAAAGAATAAATGAAGTACGAGGTTCAACCATGCAACTGGTATAGTTTATCTCGACCTATGGGCATTAATTTAGTCTTTATAAATTACAATGCATGTTTTCATTCTTTTATTTTGCTTTAACATAACATTTCATTCATTTGTGAAATATTTGGAAAGAGTATACCAAGAAGCTCTTTCCTTTGTAAGTTGGGATTGGATTCTTTGAAGGGGCATTTGGAGAAGGAGTTGGTTACTATAGTCTTAGGTTGTTATAGTTGGGTTATAATAGTTTTTGGTTGACCTAGTGATAAAAAAGATAACCAAGGGTCTATTTGGTAGAGAATCTGGATTGTGTTTTATGTTTTCAGATTCACTGAGTTCAACAGACATACATTTGACAGGCAATTCGGATTCTGTTTTCGAAAACTGTTTTCAGACTTTGTGATCCAAATAGTGCAAATTCTGAAACCAACAATTTAATATCTTCATTATATCCAAAATTTGAATTTTACATTTTAAAAAGCAGAATTATATTGACATATAAGCATATTTAAAAATACGATATGACATGTTATAAACTCATATTTTTTAATATAATATGTATTATGTAATGTATTATAAATTATATAATATTACAAAATAATAACTACATAAATTTTTAGGTTAAATTACAAATTAAGGTTTTCAAATCACAAAGACTATGTATGAGATTTTGTCAAACTATAGAGTCATAGAATAAACTCCAACTTTCTCCAAGCCATTGTGACTAATTTTGCAATTTAATCAAAATTTTGAACATAAACTATATTCATAAATAAATTAATAATAGCTTATTGTCAACTAAATATTAGTGGATAAAGTAAGATTAGTTTTATTATTTATAAGTATATAATACGAAACACATTTGAACATTTTTCAAAATTAGAATTCAATTTTTTATCTGTCACAACTTTGTTTTAATTAAATTCATTGCTTTCAAATTTATGTTTTTAGATTCTTTGTTAAATGCCCAAGAGGTCAAGGGTTCAATTCATGGTGGTCACCTACCTAGGAATTTTCTACAAGTTCCTTGACATCCCAGTGTTGTAGGGTCAGGTGGGTTATAAAAAAAACAAGTTTACATTTGAGGGGTAGATTATTTTAGTTTGAGTTATAATATTGTTTGAGCGAGAAGGAAATGATAAACAATGTATTATAGAATAAAAAATGATGAATGTAAAATAGTACCAGTCGTAGCAAATGGAGGTCTAGAAATAGTGTTAAATGTTAATCGTAGCTAATTGGAGAGTATAAAATAATATTCCCCGTAGCAATTAGTGGTTATTATAGTCTTAAAGATAGTCCTTGCTCCAAATTCTCCCTTAGATGTTGCCATTCATTTAATTTGCTATTCATTTAATTTGTAATGTTCTCTCCTTTTAAAGTTCTATGTTTCCCATCCAGACAAATGAAAAAACAAAAATAAAACAGTAATACTATTACTTATATAGGATTTTTTGAGGTTAAATTATATATTTCTTAGGCTGTTTTGGCTAGTGTTTATCGTAAGCCTAAGGAGTATGTGGGTTGAGTTGTACTTATGTGGGTTGAGTTGTATTTGATGCTTTATTGGTTCTGAATTTTTTGTTTTGGTTGATTTTATTTAGTTATTTTCTTCTTTTGTCAGATGTCACTCATTGTAATCTTCACAATCTTTTTCTTTTGGTTGGTGGGTGGGGGTGGGGATAAAGTAATTTTCACAATTTCTAATTATATCCTCAAAAGTAGTTTTAGTCAGTGTTTTCAAGGCGCATGGCGCACTCTAAGATGACAAATTTTTTTAGTCGCATGAAGGCAAGAGGCGACAAAAAGGCGTCATCTGATTGAAGCGATGCACACTAATGAAAATAATAAAAAATATTATTAGAAATAAAAAATACTCAAGATTAGAGAGAACAAAGAAATTAACTCATAATCTTGAGGAAAACGTTTTTGAAAAAGATATATAAATAAAAATGCTTTTTAAATAGGAAAGAAGATAGTGGTATGAGTAGTCTTTATTAGATTAGAAATATTGTCATTTGACAATTTGGCTAGCATGCACTAGCAATTTTTTATTTGGTAGCCCTATGTTCAATTTTTCCCCAACTGCTGATGAATGAATGAAGAAAAAAGAGGAAGGAGAGACAACATCTCCTATTTTGTTTTTACTTCTTTTGACTCTTTCTTGCTTCAATTCTTCTCCCTTTCTTTGATTTTTCTTTAATTTTATCTTTACAAACTTGGATATTTCCTCTAGTCTTAATCAAAGTATTGGAGATGAATTTCTTTCTTCTAAAAAATAAAAAGTTGAACAATTGGACAAGCCAAGTGCCTAGGTCGCTTTTGAACGAATGTTCAAGGCGATTGAAAAGCATAAAAGAGGAGCGCCTTGCGAAAGGTGCTCGCCTTGGGTACTTACAAGGTGTTAAGGCCTCACCTTGCCTTGCCTCTCACCTCAGGCAAGCACCTGTCTGCGCCTCAACAACCCTGGTTTTAGTCTGGATTTTTTTTAATCAAATAAACAATAATGAAAGCAAATAATATCCGTAGTTTTCTTTTTAAACAGAAACTTCTCTTTTCATTGAAGTAATGAACTCACGACCAACCAGACCAATTGAAAACATTAGCTATTGTGTATAACAAATACAAGTCTGCCCGTCTACGTGGAAAGAGGCACCTTCGTGCTTTTTAATCCCACGTCATTTACATTTTTTCCCTAGTTCACTTGCCCAATCAAGGGGGAAAACCTCATTTTATCAGAAAAAATTCAATGAAGAGACTTGTTTTCATTTTAAAAAACATATTAGCCAATGTTTGAAGATAATCTTCCGTACCATATCCACATTTGATTTATTTTGAGCTGGGAGTCTAATGAAAAGTTCAATTGAAAATTTCAAAAGTTTATGGACGAGATGGAATAAATGCATAGTTAATTGGGTGAAATTTGGAATTTGGAGAGGGTTTTTCAAACCCTTGAAGTGGTCAGAAAATCAAGATTAGAGTAATGCATATTCTATTTCATTTACTTTTGATTCTCTCAATGTGAGGTTATGTTTAGTTTTTGTTGTCAAGCCCTCGTTTTGCTTGGTGAATTTACTTATGTTCCCTGAGGTTTCTCTCAGCAAGTTCTGCTCCAACATCTTTAACTTGTTCTTCTCCCTATTATTGTAATTACTTACCTTCTAGATATGTTGTTTTTGACAGAGACGGGTGAGTGAAGAGAAATTAGCTTCTCTGAAATGTGTTCTCAAATGTTTGGAAGATCACAAGTTGGATCCTGTGAAGTCTCTTCCTGGATGGAAAATTCACGAAATGATAAAAAACTTGGAGAAGGATATTGTGGAACTTAGGAAAAGAATGGAAGATAATGCGAGTCTGAAGAGAAAAACAGACGAAGCTTCCACACAGAAGTATCTGAGTCAGGAAATAAAGCGGTCGCGATTGGCAAGTAAGGGAGGATTCCCTGTTATGTCTTATCCAGTCAATGGTTTGTTGGAACAAAATGCAGCTACGTTTTTGGAGGACAAGAGCTGTTTCAGTACTAGTAGTAGTTCAATGCCACAAAAGTTATTGGATGGTGGACGTGCTTCTCAGTTAGGTAATTACCAAATTGCTTCGTCTTTGCGTGGACCTGGTTTGCTTGAAACTACAGTTTTGCCTGCGGATATTGGTAGTGGTATCACCAATGCTGCTGCCTCATTCCCCAGAGGAATGGGAAGGGGAAGGGACAGCAACGAGGCTTCCATTTACAAAATGGGGCCAACTCGTGAGTTAGCTTATAAAGATATATCAGTTGGGCAAAGCTTTATTCAACAAGCTATGCCTACACTTGCAACAACCCCTACGCCACCGCCAACAACCGTGGAGCCTTATTCAGCTGTAGATGGGTTCATGGGACACTCAACGAGCAATAATTTTGATCTCTATCATTTTGCTGATGCAGCTGTGTTCGAAAATGATCTGCCCAAGAACAGCACCAGTCAAACTGGCACTTTGTCTCGCCTTCGGCTGCCCCATAATCACCATCCTCCCTACTTTTACAATTGATCCTAAATGTTTTCATTTCATTATATAATGAAAACAGCTGGGTTGACTTCGTTTTTTGGATAGGATTACTGAAACACATTTTCTTGTCTCAGCTGCAAAGCGTTGGGTGTATTATTAGTCATTAGATTTGCTAGGCAGGCTGGCTGGCAGAACGTTCTTTGCTCAACTTATGCACGTGAACAATGCTCTTCATCTATTCCTGTTCAAAACAACTCTTTATTTATGGTTTGTTACAATCACATCCTTGTATTTATAATTTGATCATCAACCCCTCGAGATTCTAAATGGATGTTATTAAACTCTTAAATATCGCAAAATAGTGTACCAAGAGAAAACCCTTTGTTAAGGTGTCAAGAGTGAGCTAGTTAAAACAGCTGGTTGTTATTCTAAGAGCTTGTAACCATTGCACTATAAATAAACTCCATCTCCTCTTAATTGAGGAAGAAAATGGTTGATTCAAATTAGTAGAGGTGAGGTTATG TAAGGGTCCTTAAGCCCAAGGAAATCAATTTCACTTATGGCTGCTACTGTCGATTCCTTCAAGGACGAAGAGCATTCAGAGGCTGTTTCACGATTGGTGGAAGGCCCATGCCAATTACGAGAACTCGGTTCAGAATCAAACCCTCAACAACCTCCTTTTAAGCTTCTGAAAAATTCATATTTTGATGAACTTGGCAGCCTATCGACTGCAATACATGCATTCCAATGTCGCTTTAATGAATTGCAAGACCATCTATGTTTCATTCACAACGCCATAGATGCACGTTCGAAACAACATATGTCCTCATCCAACTCTCTGCTAGATAATCATTCACAACTGCTATCTTCCTTATCCTTCAAGTCTTCTACTCTCGTCCCAACCGCAGAAAGTGGACGAAATCCTGTTTATTCGAGCACCCATCCGTCGCGTAGTCCTAGAAGCAATCTCCCTGAAACTCGTACCTATTCTGGCAAAGTTGATGGTAAAGAAGGCGTTGATAAGCAAACAGAATCCTCCTCTCTCTCCGAGCTTGAGCATCTCTGCCAAACCATGTGTAGCCGTGGCCTACGCAAGTACATAGTTTCTCATCTATCGGACCTCGCTAACCTCCGTCATGAAATTCCGCTCGCTCTAAAATGTGCTCCTAACCCGGCCAAACTCGTGTTCGATTGCATTGGCCGCTTTTATCTTCAGGGCAGCAAAGCCTACACCAAGGACTCTCCTATGATTCCTGCTAGACAAGCCTCCATCCTCATCCTAGAACTTTTTCTGATCTCAGGTGCAGCTGAGACCAAAAATGACAAAAGAACAGAAATTGAGTCCTCCTTGAAGGTGGAAGCTGACCTTGCTGCCATTGCCTGGAGGAAAAGACTTATTACTGAAAGTGGTTCTTGTCAGGCTAGCGATATAGATGCCAGGGGTTTGCTTCTTTTTCTTGCGTCTTTTGGAATTCCTACTGTATTTACAAACGATGATTTAAGGGATCTCTTACGATCAAGTAACTCAAAGGGGCTATCGAATGCCCTTTGCCATTCACATTGTCTTCGTACACGCATTCCAGACATTATAAAGGGGATGACGAAGAGCAGTAAGAATATTGAAGCTGTTGATATTATTTATGCTTTTGGTATGGAGGATGTATTTCCACCACAGGAAATTCTGTTGTCATTTCTCCAAGAGTGTGATGAAACGTGGAAAAAAAGAATAAATGAAGTACGAGGTTCAACCATGCAACTGAGACGGGTGAGTGAAGAGAAATTAGCTTCTCTGAAATGTGTTCTCAAATGTTTGGAAGATCACAAGTTGGATCCTGTGAAGTCTCTTCCTGGATGGAAAATTCACGAAATGATAAAAAACTTGGAGAAGGATATTGTGGAACTTAGGAAAAGAATGGAAGATAATGCGAGTCTGAAGAGAAAAACAGACGAAGCTTCCACACAGAAGTATCTGAGTCAGGAAATAAAGCGGTCGCGATTGGCAAGTAAGGGAGGATTCCCTGTTATGTCTTATCCAGTCAATGGTTTGTTGGAACAAAATGCAGCTACGTTTTTGGAGGACAAGAGCTGTTTCAGTACTAGTAGTAGTTCAATGCCACAAAAGTTATTGGATGGTGGACGTGCTTCTCAGTTAGGTAATTACCAAATTGCTTCGTCTTTGCGTGGACCTGGTTTGCTTGAAACTACAGTTTTGCCTGCGGATATTGGTAGTGGTATCACCAATGCTGCTGCCTCATTCCCCAGAGGAATGGGAAGGGGAAGGGACAGCAACGAGGCTTCCATTTACAAAATGGGGCCAACTCGTGAGTTAGCTTATAAAGATATATCAGTTGGGCAAAGCTTTATTCAACAAGCTATGCCTACACTTGCAACAACCCCTACGCCACCGCCAACAACCGTGGAGCCTTATTCAGCTGTAGATGGGTTCATGGGACACTCAACGAGCAATAATTTTGATCTCTATCATTTTGCTGATGCAGCTGTGTTCGAAAATGATCTGCCCAAGAACAGCACCAGTCAAACTGGCACTTTGTCTCGCCTTCGGCTGCCCCATAATCACCATCCTCCCTACTTTTACAATTGATCCTAAATGTTTTCATTTCATTATATAATGAAAACAGCTGGGTTGACTTCGTTTTTTGGATAGGATTACTGAAACACATTTTCTTGTCTCAGCTGCAAAGCGTTGGGTGTATTATTAGTCATTAGATTTGCTAGGCAGGCTGGCTGGCAGAACGTTCTTTGCTCAACTTATGCACGTGAACAATGCTCTTCATCTATTCCTGTTCAAAACAACTCTTTATTTATGGTTTGTTACAATCACATCCTTGTATTTATAATTTGATCATCAACCCCTCGAGATTCTAAATGGATGTTATTAAACTCTTAAATATCGCAAAATAGTGTACCAAGAGAAAACCCTTTGTTAAGGTGTCAAGAGTGAGCTAGTTAAAACAGCTGGTTGTTATTCTAAGAGCTTGTAACCATTGCACTATAAATAAACTCCATCTCCTCTTAATTGAGGAAGAAAATGGTTGATTCAAATTAGTAGAGGTGAGGTTATG ATGGCTGCTACTGTCGATTCCTTCAAGGACGAAGAGCATTCAGAGGCTGTTTCACGATTGGTGGAAGGCCCATGCCAATTACGAGAACTCGGTTCAGAATCAAACCCTCAACAACCTCCTTTTAAGCTTCTGAAAAATTCATATTTTGATGAACTTGGCAGCCTATCGACTGCAATACATGCATTCCAATGTCGCTTTAATGAATTGCAAGACCATCTATGTTTCATTCACAACGCCATAGATGCACGTTCGAAACAACATATGTCCTCATCCAACTCTCTGCTAGATAATCATTCACAACTGCTATCTTCCTTATCCTTCAAGTCTTCTACTCTCGTCCCAACCGCAGAAAGTGGACGAAATCCTGTTTATTCGAGCACCCATCCGTCGCGTAGTCCTAGAAGCAATCTCCCTGAAACTCGTACCTATTCTGGCAAAGTTGATGGTAAAGAAGGCGTTGATAAGCAAACAGAATCCTCCTCTCTCTCCGAGCTTGAGCATCTCTGCCAAACCATGTGTAGCCGTGGCCTACGCAAGTACATAGTTTCTCATCTATCGGACCTCGCTAACCTCCGTCATGAAATTCCGCTCGCTCTAAAATGTGCTCCTAACCCGGCCAAACTCGTGTTCGATTGCATTGGCCGCTTTTATCTTCAGGGCAGCAAAGCCTACACCAAGGACTCTCCTATGATTCCTGCTAGACAAGCCTCCATCCTCATCCTAGAACTTTTTCTGATCTCAGGTGCAGCTGAGACCAAAAATGACAAAAGAACAGAAATTGAGTCCTCCTTGAAGGTGGAAGCTGACCTTGCTGCCATTGCCTGGAGGAAAAGACTTATTACTGAAAGTGGTTCTTGTCAGGCTAGCGATATAGATGCCAGGGGTTTGCTTCTTTTTCTTGCGTCTTTTGGAATTCCTACTGTATTTACAAACGATGATTTAAGGGATCTCTTACGATCAAGTAACTCAAAGGGGCTATCGAATGCCCTTTGCCATTCACATTGTCTTCGTACACGCATTCCAGACATTATAAAGGGGATGACGAAGAGCAGTAAGAATATTGAAGCTGTTGATATTATTTATGCTTTTGGTATGGAGGATGTATTTCCACCACAGGAAATTCTGTTGTCATTTCTCCAAGAGTGTGATGAAACGTGGAAAAAAAGAATAAATGAAGTACGAGGTTCAACCATGCAACTGAGACGGGTGAGTGAAGAGAAATTAGCTTCTCTGAAATGTGTTCTCAAATGTTTGGAAGATCACAAGTTGGATCCTGTGAAGTCTCTTCCTGGATGGAAAATTCACGAAATGATAAAAAACTTGGAGAAGGATATTGTGGAACTTAGGAAAAGAATGGAAGATAATGCGAGTCTGAAGAGAAAAACAGACGAAGCTTCCACACAGAAGTATCTGAGTCAGGAAATAAAGCGGTCGCGATTGGCAAGTAAGGGAGGATTCCCTGTTATGTCTTATCCAGTCAATGGTTTGTTGGAACAAAATGCAGCTACGTTTTTGGAGGACAAGAGCTGTTTCAGTACTAGTAGTAGTTCAATGCCACAAAAGTTATTGGATGGTGGACGTGCTTCTCAGTTAGGTAATTACCAAATTGCTTCGTCTTTGCGTGGACCTGGTTTGCTTGAAACTACAGTTTTGCCTGCGGATATTGGTAGTGGTATCACCAATGCTGCTGCCTCATTCCCCAGAGGAATGGGAAGGGGAAGGGACAGCAACGAGGCTTCCATTTACAAAATGGGGCCAACTCGTGAGTTAGCTTATAAAGATATATCAGTTGGGCAAAGCTTTATTCAACAAGCTATGCCTACACTTGCAACAACCCCTACGCCACCGCCAACAACCGTGGAGCCTTATTCAGCTGTAGATGGGTTCATGGGACACTCAACGAGCAATAATTTTGATCTCTATCATTTTGCTGATGCAGCTGTGTTCGAAAATGATCTGCCCAAGAACAGCACCAGTCAAACTGGCACTTTGTCTCGCCTTCGGCTGCCCCATAATCACCATCCTCCCTACTTTTACAATTGA MAATVDSFKDEEHSEAVSRLVEGPCQLRELGSESNPQQPPFKLLKNSYFDELGSLSTAIHAFQCRFNELQDHLCFIHNAIDARSKQHMSSSNSLLDNHSQLLSSLSFKSSTLVPTAESGRNPVYSSTHPSRSPRSNLPETRTYSGKVDGKEGVDKQTESSSLSELEHLCQTMCSRGLRKYIVSHLSDLANLRHEIPLALKCAPNPAKLVFDCIGRFYLQGSKAYTKDSPMIPARQASILILELFLISGAAETKNDKRTEIESSLKVEADLAAIAWRKRLITESGSCQASDIDARGLLLFLASFGIPTVFTNDDLRDLLRSSNSKGLSNALCHSHCLRTRIPDIIKGMTKSSKNIEAVDIIYAFGMEDVFPPQEILLSFLQECDETWKKRINEVRGSTMQLRRVSEEKLASLKCVLKCLEDHKLDPVKSLPGWKIHEMIKNLEKDIVELRKRMEDNASLKRKTDEASTQKYLSQEIKRSRLASKGGFPVMSYPVNGLLEQNAATFLEDKSCFSTSSSSMPQKLLDGGRASQLGNYQIASSLRGPGLLETTVLPADIGSGITNAAASFPRGMGRGRDSNEASIYKMGPTRELAYKDISVGQSFIQQAMPTLATTPTPPPTTVEPYSAVDGFMGHSTSNNFDLYHFADAAVFENDLPKNSTSQTGTLSRLRLPHNHHPPYFYN*
BLAST of MELO3C003262T1 vs. Swiss-Prot
Match: FRIGI_ARATH (Protein FRIGIDA OS=Arabidopsis thaliana GN=FRI PE=1 SV=1) HSP 1 Score: 296.6 bits (758), Expect = 7.0e-79 Identity = 183/455 (40.22%), Postives = 265/455 (58.24%), Query Frame = 1
BLAST of MELO3C003262T1 vs. Swiss-Prot
Match: FRIG0_ARATH (Inactive protein FRIGIDA OS=Arabidopsis thaliana GN=FRI PE=2 SV=1) HSP 1 Score: 198.0 bits (502), Expect = 3.4e-49 Identity = 125/297 (42.09%), Postives = 172/297 (57.91%), Query Frame = 1
BLAST of MELO3C003262T1 vs. Swiss-Prot
Match: FRL3_ARATH (FRIGIDA-like protein 3 OS=Arabidopsis thaliana GN=FRL3 PE=1 SV=1) HSP 1 Score: 127.1 bits (318), Expect = 7.4e-28 Identity = 85/299 (28.43%), Postives = 146/299 (48.83%), Query Frame = 1
BLAST of MELO3C003262T1 vs. Swiss-Prot
Match: FRL4A_ARATH (FRIGIDA-like protein 4a OS=Arabidopsis thaliana GN=FRL4A PE=2 SV=1) HSP 1 Score: 108.6 bits (270), Expect = 2.7e-22 Identity = 101/406 (24.88%), Postives = 174/406 (42.86%), Query Frame = 1
BLAST of MELO3C003262T1 vs. Swiss-Prot
Match: FRL4B_ARATH (FRIGIDA-like protein 4b OS=Arabidopsis thaliana GN=FRL4B PE=1 SV=1) HSP 1 Score: 102.1 bits (253), Expect = 2.5e-20 Identity = 105/432 (24.31%), Postives = 188/432 (43.52%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TrEMBL
Match: A0A0A0KYX9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G437530 PE=4 SV=1) HSP 1 Score: 1070.1 bits (2766), Expect = 1.1e-309 Identity = 551/605 (91.07%), Postives = 568/605 (93.88%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TrEMBL
Match: A0A0A0KYX9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G437530 PE=4 SV=1) HSP 1 Score: 53.5 bits (127), Expect = 1.2e-03 Identity = 28/49 (57.14%), Postives = 33/49 (67.35%), Query Frame = 1
HSP 2 Score: 380.2 bits (975), Expect = 5.4e-102 Identity = 232/537 (43.20%), Postives = 314/537 (58.47%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TrEMBL
Match: V7B009_PHAVU (Uncharacterized protein OS=Phaseolus vulgaris GN=PHAVU_009G159400g PE=4 SV=1) HSP 1 Score: 377.5 bits (968), Expect = 3.5e-101 Identity = 243/620 (39.19%), Postives = 350/620 (56.45%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TrEMBL
Match: K7KVE1_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_06G162100 PE=4 SV=1) HSP 1 Score: 377.1 bits (967), Expect = 4.5e-101 Identity = 239/602 (39.70%), Postives = 344/602 (57.14%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TrEMBL
Match: A0A0S3REL7_PHAAN (Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.02G186300 PE=4 SV=1) HSP 1 Score: 372.9 bits (956), Expect = 8.6e-100 Identity = 241/621 (38.81%), Postives = 351/621 (56.52%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TAIR10
Match: AT4G00650.1 (AT4G00650.1 FRIGIDA-like protein) HSP 1 Score: 198.0 bits (502), Expect = 1.9e-50 Identity = 125/297 (42.09%), Postives = 172/297 (57.91%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TAIR10
Match: AT5G48385.1 (AT5G48385.1 FRIGIDA-like protein) HSP 1 Score: 127.1 bits (318), Expect = 4.1e-29 Identity = 85/299 (28.43%), Postives = 146/299 (48.83%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TAIR10
Match: AT3G22440.1 (AT3G22440.1 FRIGIDA-like protein) HSP 1 Score: 108.6 bits (270), Expect = 1.5e-23 Identity = 101/406 (24.88%), Postives = 174/406 (42.86%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TAIR10
Match: AT4G14900.1 (AT4G14900.1 FRIGIDA-like protein) HSP 1 Score: 102.1 bits (253), Expect = 1.4e-21 Identity = 105/432 (24.31%), Postives = 188/432 (43.52%), Query Frame = 1
BLAST of MELO3C003262T1 vs. TAIR10
Match: AT5G16320.1 (AT5G16320.1 FRIGIDA like 1) HSP 1 Score: 87.4 bits (215), Expect = 3.6e-17 Identity = 101/440 (22.95%), Postives = 181/440 (41.14%), Query Frame = 1
BLAST of MELO3C003262T1 vs. NCBI nr
Match: gi|659069372|ref|XP_008449489.1| (PREDICTED: protein FRIGIDA [Cucumis melo]) HSP 1 Score: 1353.6 bits (3502), Expect = 0.0e+00 Identity = 680/680 (100.00%), Postives = 680/680 (100.00%), Query Frame = 1
BLAST of MELO3C003262T1 vs. NCBI nr
Match: gi|449453187|ref|XP_004144340.1| (PREDICTED: protein FRIGIDA [Cucumis sativus]) HSP 1 Score: 1070.1 bits (2766), Expect = 1.6e-309 Identity = 551/605 (91.07%), Postives = 568/605 (93.88%), Query Frame = 1
BLAST of MELO3C003262T1 vs. NCBI nr
Match: gi|449453187|ref|XP_004144340.1| (PREDICTED: protein FRIGIDA [Cucumis sativus]) HSP 1 Score: 53.5 bits (127), Expect = 1.7e-03 Identity = 28/49 (57.14%), Postives = 33/49 (67.35%), Query Frame = 1
HSP 2 Score: 380.6 bits (976), Expect = 5.9e-102 Identity = 247/621 (39.77%), Postives = 353/621 (56.84%), Query Frame = 1
BLAST of MELO3C003262T1 vs. NCBI nr
Match: gi|802770094|ref|XP_012090538.1| (PREDICTED: protein FRIGIDA [Jatropha curcas]) HSP 1 Score: 380.2 bits (975), Expect = 7.7e-102 Identity = 232/537 (43.20%), Postives = 314/537 (58.47%), Query Frame = 1
BLAST of MELO3C003262T1 vs. NCBI nr
Match: gi|225461850|ref|XP_002283789.1| (PREDICTED: protein FRIGIDA [Vitis vinifera]) HSP 1 Score: 377.9 bits (969), Expect = 3.8e-101 Identity = 253/627 (40.35%), Postives = 345/627 (55.02%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
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