MELO3C019450.2 (gene) Melon (DHL92) v3.6.1
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TTAAAAAGAAAAAAATGTAAGAGTATGTCCAGATTCGTTCGTTTCTCCACAGCCGAAATTAGAATCAACTTGTCCTCGTCCATTCTACGCTCGCCTTCTCCCTCTCCGGGCCTCCATTTCTACACCAAATTTTTTTTTACTTTCACTAATTTTTTGTTGTTTCTCTGATCTTCTATGGAAGTTTCGTTAACTTCAATGCTACCAACATTCAACCTTCCCATTTCTACTCACTTCAATTGTCCCTGCCGCTCTTGTTGTTGTTCTTATTGCTCTTGTTGTTCCTGATTCGGAAATTCTGTTGTGCGGGGGTTTGATTCAGTTCAATTTTGTTTTGTTTTTGATTGTGTCTGTGTTATGGGTGGTGTGTCTTTTTGGGGTTTGGAATTCATTTGCTAGGGTTGTTTTTTGTTTTGTAAATGGATTTATCTAATTCTCAGTCCAATATTTCTCGTGGACGTGTTTCACCGCCCCACCGTACTCAGATTGCTGATGATTCTATACTTCTTCATCTTGATTCTTCTAGACGGGGACCCTCGTATTCGTCACCCCCAGTTCCTCTTCAGTTGATGGAACCGCAGACGGAGAATCATAGAGATGAGAATGGGGATGCGAAGAGAGATGGTGATGAATGCGACGATAGAGATGTAGAGGAGTTTCGTATTCTGGGTCATTCTATGTGCTTGAAGCGGCGAAGAGATGGTGACTCTTCGTCTTTATTGGGTTCTACGAAGAGAGTTTCGTGTGAATTTGATATGGAGACACGAAGGAGTTCTGTACGCTCGTGGGGTAATCAGACCCTTCGAGCTGCGGACCCCAAGTTGTATGGGATTATGGAGAAAGAGAAACAGAGGCAAATCAATGGCATTGAATTGATTGCTTCGGAAAATTATGTGTGTCGAGCTGTAATGGAAGCACTTGGAAGCCACTTGACTAATAAGTACTCAGAAGGTATGCCTGGCGCGAGGTATTACGGTGGAAATCAATATATAGATGAGATTGAAATCCTTTGTCGTGAGCGCGCTTTGGCAGCGTTTGATCTTAATCCTCATTCGTGGGGAGTTAACGTTCAACCTTATTCATGCACGTCTGCAAATTTTGCCGTCTATACTGGTTTGTTACTGCCAGGGGATCGAATCATGGCATTGGATTCTCCTTCTGGTGGCAATCCTAGTCATGGTTATTGTACCCGAAATGGGAAAAAGGTTGCTGGGGCCTCAATTTTTTTTGAGAGTTTTCCATATAAGGTGAATCCGCAAACTGGTTATATAGATTATGATAAGCTTGAGGAGAGGGCGCTTGACTTTCGCCCTAAACTACTTATTTGTGGAGGGAGTGCGTATCCTCGTGAATTGGATTATGCAAGGTTTAGGCAGATTGCAGATAAGTGTGGAGCAGTTCTGATGTGTGATATGGCTCAAATTAGTGGCCTTGTTGCTGCTAAGGTGTGAATTTTTCGTCATCTTTAGCGATGGACTAGCCCTTGAATGTCTGTGTATAAAGTTTTTTGGTTCGGGTCAAGTTTTTTGGTTCGGGTCCACAAAGTTCTTGGTTTTCTTATCATATGTTCTAATTACTATCACATTCTCATTCTCAGGGTTGCAATTTAGCTGGTTGTTAATATATTCATAATATTTGAATTGTTCTTCATGACACTCAGAAAAGGTTTCAGAGGTGGTTGTGTGGAAATTTATTGTAGTTTTTAGCATATAGGTTATGAATGGCTATAAGACTTAGAGATAGGAAAATGTAACTTATCAAGAGATTATGGTAGAGACTGATTTTAGGTCTTAACCCTAATTTTAGAAGTGCGTTGGGCCAAGATGTCAACCCCATGAATATTTCTTTTGGACCAAAACGATTTGGTATTTATTCTTTCATGGTGGATATGTATTTATCAGAAAAACACCAAGATCTATTATTTTTTCTCAGGAGTAGGATGTTATTTTTTTTCTTCCTTTTCTACTTGGTTCTAATATACAGTTCTGTTCAACTGTGTGCTTATGCAGTTCTCAGTATTATTCATTTACATCTGTAATTGTTTCTTCACTTACATTGTTTGGTCGAGGTCATCAGTACTTCATACATGTAGTCTTGTAATTTTGAATGAAGAATTGTCTCCATTCTGTTTATATTTTGATTGTGATTTGAACTTTTGTTACAGGAATGTGCGAGTCCTTTCGAGTACTGTGATGTTGTGACTTCAACTACTCATAAGAGCCTTCGAGGTCCAAGGGGAGGTATAATTTTTTATAAGAAGGGTTATAAGCCAAGGGGGAGAGCAATTGTTCTGTATCAGGGAAATGACGTCAAGGAATATGACTTTGAGGAGAGGATAAACTTTGCTGTTTTTCCATCCTTACAAGGTGGACCGCACAATAACCATATTGCAGCTCTTGCTGTGGCCCTAAGACAAGTGGCTACTCCAGAGTACAAGGCCTATATGCAGCAGGTGAAAAAGAATGCTCAAGCCTTGGCTTCTGCTTTACTTCGAAGGAACTACAAGCTTGTAACTGGGGGCACTGATAATCACATGGTACTCTGGGATCTAAGGTCATTGGGATTGTCAGGTGATAATTTTGATTTGAATTTTGCTAATTGATGTGCACATGATACAGTTTAGGTGCACATATAGCTTTTTGTTTGTCTTGGGGAACAAGACACACTAAGACATTGCTCATGCAAAGTAAGGGTAGATTAAGTTATGCATTGTGGGTTGTGATTACTGATTAGAGGAAATTGTATATTGTTATATAAAAAGAGTTGCATAATTTGGAATAAATATATCTTTTTTATCCACTGTATAACCATACAAAACAGGATACTACACTTGCTACCTACGCTTAAGAAGTACTTGCTTAGGCAGAAAAAATGCTATTCTGACAATCTCTGCTACTTTTTTTCCCATTAATGCATCTCGTTTCTTTTTTTTTTATGAAATCAACAACTTTCATCAAAAAAAAGAGAGAGAATGAAAGAATACAAGAACATACAAAAAAGTCTGCCTAACAAAACACACCAACTAAAAGAAAGGGGACCAACGAAGTAAAATGTTATCAATGGAATAATTACAGAAGTGCTTTGCCATAGTGACACATTAAATCTAACCAAAGACCATATCTTGCTATGCTCCCTCTCCCTACCCTGAAAGACCCAATCTTTCCTCTCATCCCAAATGTCCTAAATGATAGCACACACCTTGACAAGCCATGAAAGGGCGGATGGAGGAGGAATTCCTCGATTGTCAATCTAACTCTCTAAGAGCCAGCAAAACTAACTCCAAACTCCTAAAGGAAAGAACTTCACACAACCTGTGAATAAAGGCAATCCCAAAACAGGTGATCAAGATCTTCCTCCACCTTTTGACAAAGCATGCAACAAAAAGGCCCACCAATTAACATCCTCCTCCTAACAAACCTATCCACGGTATTAACCTGACCAAGAAAGAATTGCCACATAAAGAACGTAACTTCCTTCGGAACTTTAGTCCTCCAAACCATATAAATCATCGACTCCTTAGGGGAGAGAGGTCTAACAACAGATTAAACAAGGATTTACATATATAACCCCTACTAGGATTACGATCCAAACACGAACATCCTTTCTCCCCTTCCTAAAATGCATCTTGTTTTTCCACTTCTACAAGAGTAGTTATAAAAGATCATGAAATCGAAGCCCAAAAGGAGGTATAAAACTTTATTAGGGACCCACACTTCACTAAGGCCCCTCTCTACCCCTTTAAACACTATGCTTTCTCTCTCCCCATAAACCTCACAACGAATCGCACACCTAGCTTTTTGAAGAGAACCCTTCTCCCTTGATGGTAGATAGAGGAGGAACTCATCGATCGAGCCACTGGTACTCCTATAAGGAGCTAACAAGAAACCAAACTTCTAGAAAAGACAGCTCCAATTCGACCTCACCAACTCACAACTCCAAAGGAGATTATCTAAGTCTTTCTCTGCATTCCAACAAAGAATACAATAGAAGGGATCAAGTTCACATGACCAAGTAAATCTAACCAAGAATAGAATTAACTTTCATTGGAATCTTACTTCTCCACAAGGCATCAAAGATAGACTTACTAGCACGAGAGGGATTTAACAAATATTGAAAGAATGACTTACAAAAAAACCCTATAGTGGGTTGAGACTCTAAACACATCCCTTCTCCCAAGCCCAATACCAAACTCTCCAATCAAAGAAAGTAGAGTGATAACATTTGTCATTCCCTATTAGTCAGTGACTGATTAAAGCCAAACGAGAAAGTAATAGAGCTCCTCGACCAAACAAGAAAGTTAAATGTAAAACATTTCCTGAGGGAAGACAATTGATAAAGACGAGGAAACAAAGAATAGAGGGTCTATTCCACTAATCTTCTATAAAATACATTTCCTTACCCTCCCCCACCTCATAAGGAACAAGGTGGGAGAACGAAGGAAGCAAAGAAGAAATTAGGGGTGTACATAAGCCGGGTTGGAGGAAAATTATAAACCAATCCAATTCAATATGCAAGGGTCAACCCAACCTGGGTTGGCTAGTTGGTTTTTTTTTTCATCTTCATAATTTAGACAAATTTTCATATTGTTTTTCAACATACAAGGTGAACAAATTGTCATTCAAGGTGCAAGGTGCATATATACGTTATACATTCAAATTCCAAGTCTACAATGTCCATTCAAAAGGAGGTTTACTTTTAGTTTTAGGTTTTAGGTTTATATATATATTATACATAATCGGGTTGGGCCGGGTCAACCTAACCCCTTACTTGCACAACCTGACTACCCGGCTCAACTCTTTTTTCTCCAATTTTTTAACCCAACCCAACCCTTATGGTTTTGGTTGGGTAATTCGGGTTGGTCGGGTTACCCGTTTTTTTGAACACCCATAGAAGAAATGGTTTCTGTAAGTGCCTCTAACCCCACTCGAGGGCCATGCTCGCTAACAATAACCATATGCCATGAGGAATTGGACATGAAGAGGGAAACACCACCATCATTTAGCCAAAAAGGTTTTGTTGTGAATCCTTAAATTACAAATTTCAAGGCCCCATTACCTTCACTCATCTTTGACCAAATTTGAGTCTTTTCCTTCATTGACCCCTTCCTACAAAAATCACGCATGAGCTTCTCAGTAGTTTTACAAGTTGACAAGAAGACGGTGAATCAAAGTAAATACATTTGAGCAATCAGAAACTTGAAGCGTTCAATCTCCTATGAGAAGAAAACGATGTATTTTTTTTTTTGTTGAAAAACATTCTATCATAATTTCCTTGATAATGAGAAATTACAAAAGGGCAAACATGCCAAAGAGAAAGAGATTACATAATGCTATTCATTTGTGTAATAAGGGATGTAAGATTGTAATCACAAAAAATTTGGGTAGACTTACACCAAGACAGATAGGTGTACAATAGATGGTCAAAGAATTGTGTAAATTCAGTTTCACTGTCCTTGGTGATTTCACTCGTTTCGTATAAGCTATAAGAAGCCTTTGGTGATGAAGTCCCATAAGATCGCCTTTTCCTTCCTGAATGGACTACCAAGAAGAATCATATTCTATGAAGTTAGAGGGTCATTAGGGAAGGCCACATGGTAGTCGAAGGGCTTTAACATCCTCCACCTGGCTCCTCCAAAATGAGTAAAATCACAATGAACCAAAAAATGAATAATTGTTTCAGCATTTGCACGGCAAAGGACGCACCAACTTGGAGCTGAAACAATTGAAGGAACCTTTTTCATGAGGGTATTGACAGTGTTGATGCTGCTATGACTCACCTCCCACAAAAAATGGAATTTCTTGGGTATAGGAGCCTCTCGAGTGTTATCATAAAGGCTAGCATTTTCATCATTGTCATTGGAAACAAGTTGTTGAGTGAGAGATTTGGTGGTAAAATGGTCCGATTTGTCCGATTTGTCCGAATTCCACCTCATGACTTTGCTTAGAGAGGGTTCACTATCAGCTTGATCTCATAAAGTTCTTTGCTCTCCCAATCATTGTGGTTATTTTTCCCATGTCAGTTTCTTTTGTTTTTTGGTGTAACTCAAATGAGAGAATTTTATAAACATTTTTTAAGTTGTGAATAAAAGAAGACAAATACTCTTTTTATAGTAAAGGTAAACTAATCCTAATTCTAGTTAATAAGAGAAACTTAACAAAAGTAAACTAATCCTAATCCTAATTAATAAGAGAAACTTAACAAAAGTAAACTAATCCTAATCCTAATCCTAATTAATAAAAAAACTAATTCTAATCCTATTAAACCAAATAAACTATCCTAATTCTAAACCTAAATTTAGGATTTGACCGTAATACCCTATTCCTACTACATCATTTCTATCCCTCCAAAAAGAACTTGTCTCGAGTTTTAAAATGAAAATGAAGGTAAAAGTAAAAAAGTAAGCCCATTAAATGGAGGCATCTTGGAACATCCAACATGAATAATATCCATCTTCGTATTGCTACTTCTTTTTTCTTTATTGGTTCTCGCGAAAATTGCGATCCATCTGGGATTAGTGTAGCCCAAAATTCATCTTCATCTTCATAGAGAATTGTTTTTTCATTTCTGTGTGCAAAAACATCAATTTTGATTGGTTTGGTTTCCTCTTCATTGCTGCTGACTTCATCTTCTTCGTCCAAAGTAGGTAATTTGGTTGCTCACTGTTTTTTGTTGTCAATGATTTTCACTTCAACGCTTAGAGTTCCGATCATGTTTTCTTCCGTGTTTGAAATTTTGGGTGGGTTGTTCCCTGATTTTTCCTCAATTTTCGACGTCATTTTCTCTTTCAAATCAGGTTGCACAATCTCTAAATTGAAAATGTTTTCGTCGTTTTTATTCCCACAAGCAATTTCTTCTTCTTTGTGGTTTATATTGTAATATTCCCGTTCTTTCAGTTTGTTTCTTTCTTATCTTCTTTACTTGGCTCATTTTCTTCAAATGTTGACATTATTTTCTCCAAATTAGGTTGCACAATCTCTAAATTGAAAATGTTTTCATCGTTTCTATTCCCACAAGCAATTTGTTCTTCGTTGTGGTTTATACTCTAATATCCCTGCTTCTTCGAGTTTATTTCTTCATCTTCTTTACTCAGCTCATTTTCTTCAACATGCTGTTTTCATAGTATCTTCTTTGGTAAACTTGCCTTCTTGGTCGTTCTTGGATAACAAGTGGCAAATTTTGGATATGTTGTGGAGGAATTTGTTGTACGTTCAAATACTGTCTTTGTTGGGGGTAATTTGTGATTCTTGGTTGATTTTTTCCAATTCGTGGTTGCGGTGAACTCATATTGTTTTCTATTTGATCAAGTGCCAAGGACATGCGTTAAAGTGAACAAAAGATACCATTGATAGTGGTTTTTATTGACCACAAGCGTTGGATCATTGTCTTCGATGATAGGACGGTTGTTTGCTCTGCCACTTTGAAGGTTGTCATGAGGTCATTGCCAGTAGGCCTTCTTCCAGCCATTAGGTCCAAGTTTCTTGGTGCTTTGTTACCAACCAATTTGGTATAACTCAAATGAGAGAATTTTATTAATGCTTTTGAAGCTGTGAATACAAGAACACAACTACTCTATTTATATCAAAAGTAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTAATCCTAATTAATAAAAGAAACTGATTCTAATCCTAATAAATCAAAGAAACTAATCCCAATCCTAATCCTAATGAATTAAGGATTTGACCATAATATCCTATTCCTACCACATCATTTTTGGTCGGTTGGTTTGATAGTGGGTGCTTTTGATTTGACTTTTGTTTGTTTTTAGGTGCCTTGGTTTGATGTTCCTTGGATTGTTGTTTTGTTTGGTTTTACCCTTATATTGAGGGCATCTTACATTGTCAAGTCATCATACATCTTTCTCTTTTCACCCCCTTTCCCCTTGGCTTTGATATCTTTCTATATTGCCAGGGGTTCCCTTTGGTTCTTCATGTATCTCTTTACAAGGCTTATTTTTTGTATTCTTTGGATATTTCATTTATCAATGAAATGGTTTCTTATTTTAAACAATACTTTTGCAAAAACTAGGGGCTAAAAATGAGAGAAGTAATAAATAGGAATGCTACTCAACACCGAAGATAAGGCTTCTTTTTGGTGGGATCACTCTAAAATCAGGCAGATTAAGGTTTCTTATAGATCTTTTTCTTTGTCAATATCTTGTTCAGGATACACATCACAAGCTATTTGCAACAATTGGGAAGCTTCCATGTTGCTCAATCAGTTTAAGTTTCTTTTTTTTGAGGTTTTCTGCAACTTTGTTCTTTATTTAGCTTGTTTTAGTTTGTTTCTTGTCATCGTTGTTGCACTTATCTGCTTTTGTTTTTGTTTTTTTTTTAAATAAGAAACTCAACTTTCACTGTTACGAAGAGTACAAAAGGAAGGGGAGATGAGGTATTTCCATACAACAAATTAGAAAAAAGAAGCTCAACCAGAATAGATTTGGGCTAGGCTGTGATTACAAGAGAATTAAGAAGAAGAGGACCACGTAGAAGTTAAAGAGTAACCAAACTTTGAAAAAAATCACTATTAATTTCTTGATCATGAAAGTTTTTGGAGTTCCTTTCAAACCACAACCATTAAAGGAGGTCAAAAATCCCATTGGACCAAAGGATTTTCCCCAAAGTATTTAACTAAGAACCTTCCACAAATTGTTAAAGGGCATATGAGCATTTACCAAATATAATATTTGGCTTGTTGGTCACCGACACATATGAAATTATGTTGATAAATATCAAGCACTTGTTTATTTATTTTTTTTGGATAATAAATAATTTCATTGATAGCATGGAAATATTCAGGGTATACAAAAGGATCCTATGTTATATGGATACAAAAGATATTTCAAATTGTTAATAATAAAAGAGAAACTAAATTAACTGTGGTACTCTTGATATAGTTTTTCGTCGTTTGTTTCAGCTTACTCGTTCCTTGGATATTAAGGTTCCTGATCTCTGGATTCATGAATTTGAGGCTTGGGATTTGCAGCTTCATCGAAATCTCCATGATTTTGAAACTCTTGAGTAGGCTGTCTTGTCTCAATTATTATCTCCTATCCGTGTCAATCTTTTGCCTGACACTTGGATTTGGTGGGTACTGCTAATTCTCAAGTAAAGGATGTTTATTCTGCTATTTGAATGGATCATTTTTCTAAGAAAATAAACATTTTCTTGTGGGAGCTCAGCCTTGGTGCAATTAGTATTGCTGATTGGCTCCAACGACTGACTGTCCTATATTTCCATCTCTCCTTTTCAGTGACACATATGCCAAAATCACACAGAGTCTGCTGCTCATTTCTTCGTGCATTGTCCCTTTGCTTTTGTGTTTTTGGCATATCATGTTACAAGCTTTTGGTTGGTCGACTGTTTTTCCCACAATGTTTGACAATCTTGCTTCTTTGTTGGTCGGTCATCCTTTTCATGGCACTAAGAAGACTCTGGTTAGCTATTATTCGAACTTTCTTCTGGACTTTGTGGGGCAAGTGTAATAAGCGTCTTTTCAGAGATCTAATTTCTAGTTTTGATCGTTTTCTGGATTTTACTCTTTCTACCGTGTTGTATTGGTGCAAATCTAAGCAACTTTTCAATCATTTGACCCTTTCTTATCTAGTTTCCAATTGAAAACCTCATTTGAAATCACTTTTAGCAATCGATGGAGGCAGATTCGTCTTGATCTGGAGACTCATTGTCTAAGACAACGTCCCACTGACCTTTGACCTGTTTGTGGGTTTGTTTCCACCTCCACCGTACTCATCCCATCAGCCTAGTCACACGGCGTCTCCAAGATCCATGCAGGACAGGTCCCTTTGAACTCCAGCCTTCTAGATCTGTTGGTTTTTTGCACTATTTGGTCTCTGTTCTGTTTTCAAATCTGCTGTTCATGGGGTTTGTTATAGATCTCTCTACGAGGATCTTTGTTCCAGCGCAGATGTTCTTGTTTCATTTTTCGTAGGTTTTGTCATAGTTATGGAGATCTATGTTTCTGGCCTAGGTTCTGTTCTACGTGGGTTTCTGTTTCTAACCTAGAAGTTCTTTATGTGTTTGTTTCTTCCTTCTTTGTGGATTTATGATTTATCAGCTGGTTTGATTCGGAAGTTTTGTTACTCTACCACCTTGAGTTTAAGGCAGGGTGTTGAAAGGAAATTAGGGTTTATGACATTATTATCTTTTTACTATTCAATAATATAGAAAATTCACATGGTAGGAAGGGATGGCACTTAAGCAAAAATCTAGTCTTTGCAGAAAAGGGAAGGGCTATCGTTAAGCAAAAATGAACTTATCTAGCACAGTTTGATTTTTCTAGAAGGATCATTGTTAGAATAGACTACTTTCTGGATTTTGAACCATCTCTGCCATGAGCTGTAACAGGTAGAAGAGACGAGACAAAGGATTTCTCTCTGTGTAATATCAGACATGTTGCTGCCCCTTGTAACTAGGTTTCATGGAAATATTGTCTCCTTAGGACTTCCTTTCTCCAAATGGCTTCAGAAGCCTCTTGTTAAGAATGGTGGATCTTCCTAATGAAAAACAATGGTTTCGATATTCATTTTGGTGTTAGTTCATGGTTCATCTCTAGAACTACATCTTATATAGATAATAGTTGCAGGTCCTATCATGAAAGATCTGGCTTGTAGTAGATAACTTCATAATATAGTTCTGTTTGCATCGAGTTTTGTCTTTCAAGGTTGGTCTCCTCCACATCCTCCTGTATCAAGCCTGACACTGAGATATGAGTATAAATTTGACATTATGAAATAGTTTTTTTCTAGAAATGAACTCGTATGACTTTTCAACTGGATTCATGACATTGTTTCGCTGTGGAAAACAAAAATCTTACCATCATATGTGTAATGTTGTGAACTGTAAAAACATCCCTTTTCCTGGGGAAGTGCTTAATCTGTTAAAACTTGTTTTCTATATCCATATTTATATACGTCTCTTTCTTCTAAGTTCTAGTTTGGATGGTACATGTGGTTGCTTATTCTATTATCCCCCTTTATTATATATTGCATATTTTTTCTGAAGCCTTGGTACTTGTAGGTAAAAACTTGGAGCAACTTTGTGAGATGTGCCACATTACTCTAAACAAAATTATAATATTTGGTGATAACGGAGTTATTACTACTGGAGGAGTGAGGATCGGTGAGTTACCCTCTTATATTTCACGTTCTGGGGTATCCTAAGACTGTACCTCTTGGTATGCTTTGATTAAAAGTATGAATATGCTGTCTGTTATCCCTGCAGGCACCCCAGCCATGACATCAAGAGGCTGTCTGGAATCTGATTTTGAGTTAATTGTTGAATTTCTTCATACAGCCGCTCAAATTGCAATTTGTATTCAGCGAGAGTATGGGAAAATGCCAAATGCTTTTCTTACGGGCGTTCAAAGTAATAAAGAAGTTGTTGAGCTTGGGAACCGTGTTGAAAGTTTTTCAGCTAAGTTTGCCATGCCAGGCGTTGAAACTTGAATGGTAATTGAATTTGCAATTGAAAATGGATGACCATTCGTAGTCCCTAAAAAACCATATTTGCTGCTCATCATGCCTTCCATATTTAGAGTCTATGAAGCGTTTCCCTCACCTGGGGTTGCTGTCTTCAAAATTGTTTGATTCCTGTTTGGTCAGTTGCCAGCATTTACATATGTTCGTTTGGTTTTGAGGAGAGTCCTTGCAATATCAGATATCAGAAGAGCATTTGGTAGTACCAAGCTTTTCTTCTGTACGGTAGTAAAGATATTGGTATACAATGGATAGAGGCGTCATGAGCAGCTTTTTGAC TTAAAAAGAAAAAAATGTAAGAGTATGTCCAGATTCGTTCGTTTCTCCACAGCCGAAATTAGAATCAACTTGTCCTCGTCCATTCTACGCTCGCCTTCTCCCTCTCCGGGCCTCCATTTCTACACCAAATTTTTTTTTACTTTCACTAATTTTTTGTTGTTTCTCTGATCTTCTATGGAAGTTTCGTTAACTTCAATGCTACCAACATTCAACCTTCCCATTTCTACTCACTTCAATTGTCCCTGCCGCTCTTGTTGTTGTTCTTATTGCTCTTGTTGTTCCTGATTCGGAAATTCTGTTGTGCGGGGGTTTGATTCAGTTCAATTTTGTTTTGTTTTTGATTGTGTCTGTGTTATGGGTGGTGTGTCTTTTTGGGGTTTGGAATTCATTTGCTAGGGTTGTTTTTTGTTTTGTAAATGGATTTATCTAATTCTCAGTCCAATATTTCTCGTGGACGTGTTTCACCGCCCCACCGTACTCAGATTGCTGATGATTCTATACTTCTTCATCTTGATTCTTCTAGACGGGGACCCTCGTATTCGTCACCCCCAGTTCCTCTTCAGTTGATGGAACCGCAGACGGAGAATCATAGAGATGAGAATGGGGATGCGAAGAGAGATGGTGATGAATGCGACGATAGAGATGTAGAGGAGTTTCGTATTCTGGGTCATTCTATGTGCTTGAAGCGGCGAAGAGATGGTGACTCTTCGTCTTTATTGGGTTCTACGAAGAGAGTTTCGTGTGAATTTGATATGGAGACACGAAGGAGTTCTGTACGCTCGTGGGGTAATCAGACCCTTCGAGCTGCGGACCCCAAGTTGTATGGGATTATGGAGAAAGAGAAACAGAGGCAAATCAATGGCATTGAATTGATTGCTTCGGAAAATTATGTGTGTCGAGCTGTAATGGAAGCACTTGGAAGCCACTTGACTAATAAGTACTCAGAAGGTATGCCTGGCGCGAGGTATTACGGTGGAAATCAATATATAGATGAGATTGAAATCCTTTGTCGTGAGCGCGCTTTGGCAGCGTTTGATCTTAATCCTCATTCGTGGGGAGTTAACGTTCAACCTTATTCATGCACGTCTGCAAATTTTGCCGTCTATACTGGTTTGTTACTGCCAGGGGATCGAATCATGGCATTGGATTCTCCTTCTGGTGGCAATCCTAGTCATGGTTATTGTACCCGAAATGGGAAAAAGGTTGCTGGGGCCTCAATTTTTTTTGAGAGTTTTCCATATAAGGTGAATCCGCAAACTGGTTATATAGATTATGATAAGCTTGAGGAGAGGGCGCTTGACTTTCGCCCTAAACTACTTATTTGTGGAGGGAGTGCGTATCCTCGTGAATTGGATTATGCAAGGTTTAGGCAGATTGCAGATAAGTGTGGAGCAGTTCTGATGTGTGATATGGCTCAAATTAGTGGCCTTGTTGCTGCTAAGGAATGTGCGAGTCCTTTCGAGTACTGTGATGTTGTGACTTCAACTACTCATAAGAGCCTTCGAGGTCCAAGGGGAGGTATAATTTTTTATAAGAAGGGTTATAAGCCAAGGGGGAGAGCAATTGTTCTGTATCAGGGAAATGACGTCAAGGAATATGACTTTGAGGAGAGGATAAACTTTGCTGTTTTTCCATCCTTACAAGGTGGACCGCACAATAACCATATTGCAGCTCTTGCTGTGGCCCTAAGACAAGTGGCTACTCCAGAGTACAAGGCCTATATGCAGCAGGTGAAAAAGAATGCTCAAGCCTTGGCTTCTGCTTTACTTCGAAGGAACTACAAGCTTGTAACTGGGGGCACTGATAATCACATGGTACTCTGGGATCTAAGGTCATTGGGATTGTCAGGTAAAAACTTGGAGCAACTTTGTGAGATGTGCCACATTACTCTAAACAAAATTATAATATTTGGTGATAACGGAGTTATTACTACTGGAGGAGTGAGGATCGGCACCCCAGCCATGACATCAAGAGGCTGTCTGGAATCTGATTTTGAGTTAATTGTTGAATTTCTTCATACAGCCGCTCAAATTGCAATTTGTATTCAGCGAGAGTATGGGAAAATGCCAAATGCTTTTCTTACGGGCGTTCAAAGTAATAAAGAAGTTGTTGAGCTTGGGAACCGTGTTGAAAGTTTTTCAGCTAAGTTTGCCATGCCAGGCGTTGAAACTTGAATGGTAATTGAATTTGCAATTGAAAATGGATGACCATTCGTAGTCCCTAAAAAACCATATTTGCTGCTCATCATGCCTTCCATATTTAGAGTCTATGAAGCGTTTCCCTCACCTGGGGTTGCTGTCTTCAAAATTGTTTGATTCCTGTTTGGTCAGTTGCCAGCATTTACATATGTTCGTTTGGTTTTGAGGAGAGTCCTTGCAATATCAGATATCAGAAGAGCATTTGGTAGTACCAAGCTTTTCTTCTGTACGGTAGTAAAGATATTGGTATACAATGGATAGAGGCGTCATGAGCAGCTTTTTGAC ATGGATTTATCTAATTCTCAGTCCAATATTTCTCGTGGACGTGTTTCACCGCCCCACCGTACTCAGATTGCTGATGATTCTATACTTCTTCATCTTGATTCTTCTAGACGGGGACCCTCGTATTCGTCACCCCCAGTTCCTCTTCAGTTGATGGAACCGCAGACGGAGAATCATAGAGATGAGAATGGGGATGCGAAGAGAGATGGTGATGAATGCGACGATAGAGATGTAGAGGAGTTTCGTATTCTGGGTCATTCTATGTGCTTGAAGCGGCGAAGAGATGGTGACTCTTCGTCTTTATTGGGTTCTACGAAGAGAGTTTCGTGTGAATTTGATATGGAGACACGAAGGAGTTCTGTACGCTCGTGGGGTAATCAGACCCTTCGAGCTGCGGACCCCAAGTTGTATGGGATTATGGAGAAAGAGAAACAGAGGCAAATCAATGGCATTGAATTGATTGCTTCGGAAAATTATGTGTGTCGAGCTGTAATGGAAGCACTTGGAAGCCACTTGACTAATAAGTACTCAGAAGGTATGCCTGGCGCGAGGTATTACGGTGGAAATCAATATATAGATGAGATTGAAATCCTTTGTCGTGAGCGCGCTTTGGCAGCGTTTGATCTTAATCCTCATTCGTGGGGAGTTAACGTTCAACCTTATTCATGCACGTCTGCAAATTTTGCCGTCTATACTGGTTTGTTACTGCCAGGGGATCGAATCATGGCATTGGATTCTCCTTCTGGTGGCAATCCTAGTCATGGTTATTGTACCCGAAATGGGAAAAAGGTTGCTGGGGCCTCAATTTTTTTTGAGAGTTTTCCATATAAGGTGAATCCGCAAACTGGTTATATAGATTATGATAAGCTTGAGGAGAGGGCGCTTGACTTTCGCCCTAAACTACTTATTTGTGGAGGGAGTGCGTATCCTCGTGAATTGGATTATGCAAGGTTTAGGCAGATTGCAGATAAGTGTGGAGCAGTTCTGATGTGTGATATGGCTCAAATTAGTGGCCTTGTTGCTGCTAAGGAATGTGCGAGTCCTTTCGAGTACTGTGATGTTGTGACTTCAACTACTCATAAGAGCCTTCGAGGTCCAAGGGGAGGTATAATTTTTTATAAGAAGGGTTATAAGCCAAGGGGGAGAGCAATTGTTCTGTATCAGGGAAATGACGTCAAGGAATATGACTTTGAGGAGAGGATAAACTTTGCTGTTTTTCCATCCTTACAAGGTGGACCGCACAATAACCATATTGCAGCTCTTGCTGTGGCCCTAAGACAAGTGGCTACTCCAGAGTACAAGGCCTATATGCAGCAGGTGAAAAAGAATGCTCAAGCCTTGGCTTCTGCTTTACTTCGAAGGAACTACAAGCTTGTAACTGGGGGCACTGATAATCACATGGTACTCTGGGATCTAAGGTCATTGGGATTGTCAGGTAAAAACTTGGAGCAACTTTGTGAGATGTGCCACATTACTCTAAACAAAATTATAATATTTGGTGATAACGGAGTTATTACTACTGGAGGAGTGAGGATCGGCACCCCAGCCATGACATCAAGAGGCTGTCTGGAATCTGATTTTGAGTTAATTGTTGAATTTCTTCATACAGCCGCTCAAATTGCAATTTGTATTCAGCGAGAGTATGGGAAAATGCCAAATGCTTTTCTTACGGGCGTTCAAAGTAATAAAGAAGTTGTTGAGCTTGGGAACCGTGTTGAAAGTTTTTCAGCTAAGTTTGCCATGCCAGGCGTTGAAACTTGA MDLSNSQSNISRGRVSPPHRTQIADDSILLHLDSSRRGPSYSSPPVPLQLMEPQTENHRDENGDAKRDGDECDDRDVEEFRILGHSMCLKRRRDGDSSSLLGSTKRVSCEFDMETRRSSVRSWGNQTLRAADPKLYGIMEKEKQRQINGIELIASENYVCRAVMEALGSHLTNKYSEGMPGARYYGGNQYIDEIEILCRERALAAFDLNPHSWGVNVQPYSCTSANFAVYTGLLLPGDRIMALDSPSGGNPSHGYCTRNGKKVAGASIFFESFPYKVNPQTGYIDYDKLEERALDFRPKLLICGGSAYPRELDYARFRQIADKCGAVLMCDMAQISGLVAAKECASPFEYCDVVTSTTHKSLRGPRGGIIFYKKGYKPRGRAIVLYQGNDVKEYDFEERINFAVFPSLQGGPHNNHIAALAVALRQVATPEYKAYMQQVKKNAQALASALLRRNYKLVTGGTDNHMVLWDLRSLGLSGKNLEQLCEMCHITLNKIIIFGDNGVITTGGVRIGTPAMTSRGCLESDFELIVEFLHTAAQIAICIQREYGKMPNAFLTGVQSNKEVVELGNRVESFSAKFAMPGVET
BLAST of MELO3C019450.2 vs. NCBI nr
Match: XP_008456065.1 (PREDICTED: serine hydroxymethyltransferase 7-like isoform X1 [Cucumis melo]) HSP 1 Score: 1196.0 bits (3093), Expect = 0.0e+00 Identity = 585/585 (100.00%), Postives = 585/585 (100.00%), Query Frame = 0
BLAST of MELO3C019450.2 vs. NCBI nr
Match: XP_004146284.1 (PREDICTED: serine hydroxymethyltransferase 7-like [Cucumis sativus] >KGN57592.1 hypothetical protein Csa_3G221750 [Cucumis sativus]) HSP 1 Score: 1176.0 bits (3041), Expect = 0.0e+00 Identity = 574/585 (98.12%), Postives = 580/585 (99.15%), Query Frame = 0
BLAST of MELO3C019450.2 vs. NCBI nr
Match: XP_023552257.1 (serine hydroxymethyltransferase 7-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1028.5 bits (2658), Expect = 9.0e-297 Identity = 502/588 (85.37%), Postives = 538/588 (91.50%), Query Frame = 0
BLAST of MELO3C019450.2 vs. NCBI nr
Match: XP_022922715.1 (serine hydroxymethyltransferase 7-like [Cucurbita moschata]) HSP 1 Score: 1025.8 bits (2651), Expect = 5.8e-296 Identity = 501/588 (85.20%), Postives = 537/588 (91.33%), Query Frame = 0
BLAST of MELO3C019450.2 vs. NCBI nr
Match: XP_022941930.1 (serine hydroxymethyltransferase 7-like [Cucurbita moschata]) HSP 1 Score: 1016.9 bits (2628), Expect = 2.7e-293 Identity = 491/587 (83.65%), Postives = 533/587 (90.80%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TAIR10
Match: AT1G36370.1 (serine hydroxymethyltransferase 7) HSP 1 Score: 769.6 bits (1986), Expect = 1.4e-222 Identity = 382/593 (64.42%), Postives = 454/593 (76.56%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TAIR10
Match: AT1G22020.1 (serine hydroxymethyltransferase 6) HSP 1 Score: 760.4 bits (1962), Expect = 8.3e-220 Identity = 378/579 (65.28%), Postives = 451/579 (77.89%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TAIR10
Match: AT4G13930.1 (serine hydroxymethyltransferase 4) HSP 1 Score: 610.1 bits (1572), Expect = 1.4e-174 Identity = 294/463 (63.50%), Postives = 359/463 (77.54%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TAIR10
Match: AT4G13890.1 (Pyridoxal phosphate (PLP)-dependent transferases superfamily protein) HSP 1 Score: 598.2 bits (1541), Expect = 5.4e-171 Identity = 286/463 (61.77%), Postives = 348/463 (75.16%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TAIR10
Match: AT4G37930.1 (serine transhydroxymethyltransferase 1) HSP 1 Score: 479.6 bits (1233), Expect = 2.8e-135 Identity = 243/465 (52.26%), Postives = 320/465 (68.82%), Query Frame = 0
BLAST of MELO3C019450.2 vs. Swiss-Prot
Match: sp|Q84WV0|GLYC7_ARATH (Serine hydroxymethyltransferase 7 OS=Arabidopsis thaliana OX=3702 GN=SHM7 PE=2 SV=1) HSP 1 Score: 769.6 bits (1986), Expect = 2.5e-221 Identity = 382/593 (64.42%), Postives = 454/593 (76.56%), Query Frame = 0
BLAST of MELO3C019450.2 vs. Swiss-Prot
Match: sp|Q9LM59|GLYC6_ARATH (Serine hydroxymethyltransferase 6 OS=Arabidopsis thaliana OX=3702 GN=SHM6 PE=2 SV=1) HSP 1 Score: 760.4 bits (1962), Expect = 1.5e-218 Identity = 378/579 (65.28%), Postives = 451/579 (77.89%), Query Frame = 0
BLAST of MELO3C019450.2 vs. Swiss-Prot
Match: sp|O23254|GLYC4_ARATH (Serine hydroxymethyltransferase 4 OS=Arabidopsis thaliana OX=3702 GN=SHM4 PE=1 SV=1) HSP 1 Score: 610.1 bits (1572), Expect = 2.5e-173 Identity = 294/463 (63.50%), Postives = 359/463 (77.54%), Query Frame = 0
BLAST of MELO3C019450.2 vs. Swiss-Prot
Match: sp|Q9SVM4|GLYC5_ARATH (Serine hydroxymethyltransferase 5 OS=Arabidopsis thaliana OX=3702 GN=SHM5 PE=3 SV=1) HSP 1 Score: 598.2 bits (1541), Expect = 9.8e-170 Identity = 286/463 (61.77%), Postives = 348/463 (75.16%), Query Frame = 0
BLAST of MELO3C019450.2 vs. Swiss-Prot
Match: sp|Q54Z26|GLYC1_DICDI (Serine hydroxymethyltransferase 1 OS=Dictyostelium discoideum OX=44689 GN=shmt1 PE=1 SV=1) HSP 1 Score: 533.1 bits (1372), Expect = 3.9e-150 Identity = 259/460 (56.30%), Postives = 333/460 (72.39%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TrEMBL
Match: tr|A0A1S3C2G6|A0A1S3C2G6_CUCME (Serine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103496109 PE=3 SV=1) HSP 1 Score: 1196.0 bits (3093), Expect = 0.0e+00 Identity = 585/585 (100.00%), Postives = 585/585 (100.00%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TrEMBL
Match: tr|A0A0A0LAD1|A0A0A0LAD1_CUCSA (Serine hydroxymethyltransferase OS=Cucumis sativus OX=3659 GN=Csa_3G221750 PE=3 SV=1) HSP 1 Score: 1176.0 bits (3041), Expect = 0.0e+00 Identity = 574/585 (98.12%), Postives = 580/585 (99.15%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TrEMBL
Match: tr|A0A1S4E114|A0A1S4E114_CUCME (Serine hydroxymethyltransferase OS=Cucumis melo OX=3656 GN=LOC103496109 PE=3 SV=1) HSP 1 Score: 981.9 bits (2537), Expect = 6.4e-283 Identity = 479/483 (99.17%), Postives = 480/483 (99.38%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TrEMBL
Match: tr|A0A2I4GDS0|A0A2I4GDS0_9ROSI (Serine hydroxymethyltransferase OS=Juglans regia OX=51240 GN=LOC109007018 PE=3 SV=1) HSP 1 Score: 891.0 bits (2301), Expect = 1.5e-255 Identity = 444/597 (74.37%), Postives = 505/597 (84.59%), Query Frame = 0
BLAST of MELO3C019450.2 vs. TrEMBL
Match: tr|A0A1S2XB39|A0A1S2XB39_CICAR (Serine hydroxymethyltransferase OS=Cicer arietinum OX=3827 GN=LOC101512432 PE=3 SV=1) HSP 1 Score: 878.6 bits (2269), Expect = 7.6e-252 Identity = 432/589 (73.34%), Postives = 496/589 (84.21%), Query Frame = 0
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 v3.6.1
Date Performed: 2018-09-25
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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