MELO3C022613 (gene) Melon (DHL92) v4
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGCGAAATGTTGACTACAAACGAGCACGACATTTTGAGGTTGATCTATCGGCTTTCCGAAACATACTTGACATCGATAAGGAGAGAATGATTGCAAAAGTTGAGCCCCATGTGAACATGGGACAAATATCTAGAGCCACAATTCCAATGAACCTTTCACTTGCAGTGGTGGCTGAGCTCGATGACCTTACTGTTGGTGGCCTCATCAATGGCTATGGCATTGAAGGAAGCTCCCATATCTATGGTCTTTTCTCGGATACTGTTGTGGCCTATGAGATCGTTCTTGCAGATGGCAGGGTCGTAAGAGCAACCAAGGATAATGAATACTCAGATCTTTTCTATGCCATCCCGTGGTCTCAAGGAACTCTGGGCTTTCTTGTGTCTGCTGAGATCAAACTCATACATATAAAGGAATATATGAAACTTACTTACCTACCTGTGAAAGGAAAACTACAGGAGATTGGGCAGGCGTACATGGACTCATTTACGCCTAGAGACCTAGATCAAGATAACCCCGAGAAAGTTCCCGATTTTGTGGAAACCATGATTTATTCTCCTACCGAAGCCGTGTGCATGACAGGAAGATATGCATCCAAAGAAGAGGCCAAGAAGAAAGGGAACGTGATCAACAGCATTGGTTGGTGGTTCAAACCTTGGTTTTACCAGCATGCACAAAAAGCACTGATAAAGGGGGAGTTCGTGGAATATATCCCAACAAGAGAGTACTATCACAGGCACACCAGATCTTTGTACTGGGAGGGAAAGCTTATCCTTCCTTTTGCTGACCAATGGTGGTTTCGGTTTCTGTTGGGATGGATGATGCCTCCCAAGGTGTCTCTACTGAAGGCTACTCAGGGTGAAGCTATCAGAAACTATTACCATGAGATGCATATAGTCCAAGACATGCTTGTGCCTCTTAGAAGAATCGGAGATACTTTGGAGTGGATCCACAGGGAGATGGAGGTGATTTTTTTCTTCTCCTTTGAACTTATATTCCTCTATTAGCTTGAATGTTAGATAGTGAAAAGAAAGTTCTTCCCAGGGTTGATTTATTGGTATAACATGCTAAGGAGATTTGAACCTGGGTTAGAAGGGGGCAACTCACTAAACTAACTATAAATATTAAAAAATAAATAATTTTCTTTATATATATTATATAAAGACAATAAAGTTGAGGGGAACTTGAGCCCCCTGAGCCTATATGCTAAATCTGTCGGTGATCCAAATTTAAATATCATAGGCTTGTCTGATTACAAATTTTGGTTTCCTAGTTAAGAAAAGTATGAATGTTTACTACTGCTAGCAATTCAAATATTTAGGATGGCTGGAGTGTTATATTAGTTACATTCTTAAATCTTGGATCTGCAGGTATACCCATTATGGCTCTGCCCCCACAGATTGTTTAAACCCCCAATGAAAACAATGGTGTCTCCTGAACCAGGATTTGAGCTTCAAATCAAGCAGGGCGACACCTCCTATGCTCAGATGTACACAGATATCGGAGTGTACTATGCTCCAGGGCCCGTCCTGAGGGGTGAAGTTTATGACGGTGCTCAGGCGGTTCGCAACATGGAGAACTGGCTTATTGAAATTCATGGTTTCCAACCACAGCACTCGGTGACCGAGATGAGCGAGAAAGAGTTCTGGAAAATGTTTGATTCCGAACTTTACGAGGCGTGCCGAAAGAAGTATGGAGCTATAGGGACGTTTATGCATGTTTATTACAAATGTAAGAAGGGAAGGAAGACTGAGAAGGAAATCGAGGAAGCTGAAAATGCTCAAGCTGAAACTGCTTATGCTGATGTAGAGCAGGCAAGTGAGTAATGGTTGTGAATTACTGAACAATAAAACAGAGTAGCATTCTTGTGTTTTCCTCACGTTATTTCTGGGTTCTCTGTGTCTAATAATGTCTTGCCTTTGAAATTTTAATGTTGTGTTTGTATTATTGTATATTGTAATGTCCAAACTGAAAAAATGGTTGAAAAGAGTAAATCAAATTTATTAAATTGCTCTAAACTTCTTGTGTTCGATTTGCATTTTCTTTTTGAAACAGATGTTTGTATGGTTTCCTATTGAATTTAGCTTTTGGTCTTTGGAGATTCTAAACAGTGGTTAACTCATGGTCTTAGTCCCCAATTTTTTTGTTTGTTGTCTTTTCTCAATCTAATCCTTATTATTTAAAATTTAAAATACTTTAATCACATGGTCTTCGTTGGTAATCTTAGAATTGGTTGATTATAAGCTCGGATATGTTCCCAATATCGATGATTGAAGAACTTTTCAATGAACTAAATGGGGCAAATGTGTTCTCGAAGATAGACCTCAAAGCTGGATATCATCATATTAGGATGTGCCCTGATGACATAGGGAAAACTGCTTTCTGCACTCATGAGGGCCACTATGAATTTCTGGTGATGTTGTTCGGTTTGACCAATGCACCCTCAACCTATCAATCCTTGATGAACCAGATATTTAAGTCATACATGAAAAGGTTCTACTTGTTTTCTTTGATGATATTTTAGTCTATAGCAAAGGGGTGGAAGAACATGTGCAACGCCTAGGAGTACTGGAATTATTAAGGGAAAGTGAATTATATGCTAATTTATATGCTAATCTAGATAAGTGCAACTTTGCCAAGCCGAGGATTAGCTACTTAGGCCACTTCATTTCAGAGAAAGGGATTGAGGTGGATCTTGAGAAGATAAAATCAATAAAGGAGTGACTAATTCCCACGAATGTTCGAGAGGTTAGAGGATTTTTGGGACTCACTGGATGCTACCGTCGATTCGTGCAAAACTATGGTAGTACGACAGCTCCTCTCACTCAGTTGTTGAAAATAGGGGCGTACAAGTGGGATGAAAAGGCTAACACAGCTTTTGAGAAGCTCAAGATGGCGATGATGACTTTACCCATTTTGGTTGTCAGATTTTAATCTACTGTTTGAAATATAATCGGACGCGTCTAAGTTTGGAGTGGGGGCAGTGCTAATTCAAGCTAAGAGGCCAATCGCCTACTTCAGTAAAACCCTGAGTATGAGAGATAGATCACGGACGATGTACGAGCGAGAATTAATTGTTGTAGTCTTTGCAGTCTAGAGGTGGAGACCATATCTGTTGGGGAGGAAATTCATGGTGAAAACCGATTAAAGATCCCTCAAATTTTTACTGGAACAGAGAGTCATAAAACCACAGTACCAAAAGTGGATAGTTAAGCTACTAGCTATTCGTTTGAAGTAATTTATTAGCTAGGTTTGGAGAACAAGGCGGTGGATGCACTGTCCAAGATTCCCCCTACAGTACACTTGAACCAATTGACTGCCTTAGCTCTGATAGATGTGGCGGTTATTCAGGAAGAGGTGGCAAAAGAACCTACCCTACACGAGATTATCAAATTGATAGAGGAGCAAAAAATAGAAGTTCCAGACTACACTATGTAGGGGGGGGGGGTATTGCAGTTTAAAGTCATGCTGGTACTTTCTAAATCATCCTCCTTAATTCCAACTATTATGCATATGTACCAAACTCAGTTTTTGGGGGACACTCGGGCTTCCTTAGAACTTAGAAGAGAATATCTAACGAGCTATATTGGAAGGGGATAAAGAAGGATGTCAAGAAAAATTGTGAAGAATGTGTGATATGCCAGAAGAATAAAACGTCTGCCTTGTCACCAACCAGGCTATTGATACCATTAGAAATTTCGGATGCCATCTGGAATGACATCTCCATGGATTTCATTGAAGGGCTACCAAAGTCAGGAGGATGGGAGGTAATTTTGGTGGTAGTTGATCGGTTAAGCAAGTATGCTCATTTCCTTACATTGAAGCATCCATATACTGCTAAGATCGTGGTAGAAGTGTTTGTTAAAGAAGTGGTAAAGCTGCACGGGTACCCTAAATCGAGAGAGTTTCAGACAGAGACAAATATTCCTTAGCCACTTCTAGAAAGAATGTTTAGACTAGTCGAGACCAAGCTGAATTGAAGTTCTTCCTATCATCCCCAATCTGATGGATAGACAGAGGTGGTGAATAAAAGTGTGGAAGCATACTTAAAGTGTTTTTGTGGAGAGAGGCTGAAAGAATGGAGTAAGTGGCTGCACTTGGTGGAATACTGGTACAACACCACATACCATAGCTCAATCGGGATCACCCCATTTCAGGCTGTATATGGAAGACTACCTCTGCCCTTAATCCAATATGGGGACATGGAGACATCGAATTCAACGTTAGATCAGCAACTGAGGGACATAGATATGGTGTTGGGAGTGTTAAAAGATCACCTAAGAGTGGCTCAAGAAAGAATGAAGCAATTCGCAGGTTTGAAAAGAAGGGATGTGGAATTTCAGATTGGGGATCACGTGTTCTTGAAGATAATGCCCTATAGACAAGTATCGTTTGAGGAAAAAACGTAATGACAAACTATCACCAAAGTATTTCGGGCCCTATAAAATCCTAGCGAAAATTGGAGTAGTGGCTTATAGGTTGGAATTGCCTAGCTCGGCAATCATTCACCCGATGTTCCATGTATCCCTGCTCAAAAAGTCAGTAAGGAACTTTAAAGATGTGCAACCACTTGATCCTTATGTTTTTTCTTACGAACTCTTAATAGAAAGTTTGGTACTAGTTAGTACCTTAACAGTAAATTCTTGATGTAACTTCATACCTATAACTTTGGAACTAACTTTGGACGTCCATTTATTACTTGATTGGTAGAGAATGGTTATTTTTTAGTGTACAGTTTTACTGGATCTTTTTCTCAAGTTGTGGCAATTTGCTATCTCAAAATTGTGTATGATTGATGATGGTGGTCAGGAATTTTAGGATAATTGTAGGATCATATCCATTTCAAATGTTGGTTTTGCACTGAAAATTATAGCTTATTTATTGCTTTAAGTTGGCAATTTTTGTTTTGGCCTTCTCAGTATCTCATATCGTATATTTTGGCTTTATTAAACTTGGAATCTCGTTACTACATTCCAGTCAAGTTCCCTTCCTCTCTCCTAAGATTTTGATAAGCTTTTTTGCTAGCGAATAAGTTCCCAATTGTATTGTAATTTGTCTCTGAGATAAATTATTACAGATTTATTTGACTTCTCAAATGTCAGGTATTCTCTTATATCTATAGGCAGAGCTGGAGACAGTATCTGAAATCACACATGAGAAGGGCAAGAAAAAAGATAGTCAAAAGATAAAGTATGGAACTATAAAGTTGCTTTTGTCCTCAGTACTGAATTGCTTTATCATAGTTGGGTGAGAACATATTCGTTGGAGTTATTATTACATCTTCCTCAGTTGCTCTCTTCTGTTATTGGACAATGGGACAAGAGCACTCCAGTTACAGGATGTCTTTTCTCTGGAAAATGAAGAATCCGATGACATTACAACCTTGATTGATAAAAAAGTAAGTTTGAAATGAGTTTTAGTATTTGATAATGAATGGATACTACGGCTAACATTCTATGTATGATTTCCCTGTCACTAGTTTGGTTGCTTTGGTTGTTGAATTAGAGAGTTGAGACGCATGGCCATTGCCATAAGAGTTACATAAAATGAGTAAGTATTAAGTATTCAATAAAGGGCTGATGCCTGGGAAATTTCATGACTACAGGGTGACTTTATGAAAATTTTGTTTGATGATAAAACATTTGATGCAAGGCACTCATCACGCTCCAGACTCGGTACATTCTAATGACATTTTTGAAGTATGGGTTTAGAGCAATCATTCTTTTGAATTAACTGCTGCTTCCCCTATGACAGTATGATTGCTTCAAGGAGATCTACAGAGTATTAAAGCCGGGCTAAATAACCAAGATCACCAAAAAAATAAAGGTTATCTTACTGATTTTGTCCCCCATTTCCTTTGATCTTATACACTTATATCGACAATGTCCATATCCATAGGCTGAAATTGAGATTGACAGTGGGCTTCCAGATATCAGGACAATAGGAAAGTGCCTTGAAGCTTTATGTAGATGAATGAAATGGTTTCTTAATCAGAGGACTAAAGAACTAACGATGACAATTAGCATATCTATTATATTTGATCACTTATGGTGAACTTTGTATTTTGAAGGTTAATTTGTGTTGTTGGTACATTTACTAAACTTTGTATTTACCTTCATATTATTTAGATCTCAACTTTAATTAAATAAATTATTGAATACTTTATTTAGCTTAATATTACCGTTATAAATACTATATTATAGCTTAATATTACAACTATAAATATTATATTATAGCGTTGAGGAAAAGCTATTATATGGCAAAGATAGCACATTATTTAAGCTATGTAAACTTATTATAGCTCTTATGAAAAACGCTATCAGATGTTTCTATAGCAATGTATATACTATATCTTCATACTCTACAATATCGCTCATTATAGCTTGGGAAAACGTTATAAAAAGTCCCCGACTTTTAATAACATGGGCTGTTAGGAAGCCTAGGCCGCCCATTCTTGTGTCTCACCTAGCAATTACAATAGACACTTAACCTTGTCCTTTTAGAGGTTAGTCTTGACATCTCTGGATCACACAACTCATACTTTTTAATTTCTTATTCTTTGAAGCTGCCATGCCTCTCTTGGCTGCCTAGGAGTATGCCAACGCCTTGGGCCACATTTTGAACTTTGATTACAACCTTGGTTATAATGACACTCAACTATGTCACTTGACTACTCAACAACCTTCCATAGAATTTCCTTTTATCATCTTCACTAACTCATCTTCTTCTTCTTTCATCAAGTTCTTGCAAGTCTTAGGTCCTTAGATCTAGGGTTTACAATAGCCATTTCTTTAGTTTAAGGCTATTATGAAATGTGTAAAGTGCAATGATTTGCATTACTTGTGATTACTTGGGAATGCTTACTATGAAAAGTATGATGATTGTTTGCATGCTTATCATGGATTACTATTTGGACATAATCTAAAATTTTATTAAGTAAAATTATTAATTATTTTTCTTATATTTTGGATAACCTCAATAATATGTTTTAGGCGTCCAAATGTTAATGCGATTCTTTAAGGATAGGCAAGAGAGACAAGTTTGGGAGGCCATATAAGAAGGAATAACCTCTATAGAAAGGTGATATGCGTTGAGATTGGTAGGCGAGCAAGGGTTGCTAGGCTTGTTGTGGCTACAAAAGGAGATTCGTGTTGGATATGCATAAAAGATTGGTCATATGCTACTCAAGATGAGACACGAAGAGGTTAGTAAGCGTGGAAAATAGGTGACCAAGAGCTAGGCGATGAAGCTTGCACACGAGGGAGGTTAACTGCCTTAGATGTTAGTAAGGTGCGTAAGTAAGCAATATGGCTGATTAAGGGCAATCAGTTTCATGAAAATCCAGGTGTCTTAAGTATGTTTCATGCATTTTGCGACCAAGTAGGAGGTGGATTAAGGAAATTAAAAGGCAAATTAAGAGAGTTGGAGGTGCCAATTCAGCTTGATGCAAGGGTTCATTATAAACAGGCAACTTCAGACAAGTTTTTCTCATAATCCACTCGTGTGATTATTAAATTAATTTCAAAAGATTAGAAATTGAGCCCAACAAGATTGCTTTTCAACAAAGGACAAGTAAGATGGTCAAATTTAGGGAGAATATGAGTAAGGTGCACATTTTGGAAGCCACATTACACGTTTTTTGGAGTTTGGATTTGGAACTTTGAGGTAAGAAAGTTAAGGCATTTTTAAGTAAATTTGTAGCAGAAATTTTCTTAAAAGAGTTATGGAAGTTTTAGTTATGATTTTTCAAAATGAAGCTAAGTTTCTATATGAAAATCTGTTTTTGGGTAGTGGTTGAGTGTCAAGCAAAACAAGGTGAGTTGGGTGTGAGTTTTGAGTTTGTAGAGATTATTTTGCTTAAGTTAAGGCATGTGGCACAACCATGGGATGGCCGGGCGACAAGGATGCACTCAGGCTGTACGGATGACCGGGTGACAAGGATGCACTTAGGTTATACGGATGACCATGTGTTGGTGTGAGCATGACACGACGCGCGTTAGGGTCATGGGCGTGATGCATTCAAGGCGCACGACTAAGGCGCGCGTGGTCCCTCATTTCGGGGTTAGAACACAACGCCTAACACCTCATTGTTGAGGTTAGCACACGGCAAGGCTCGCCTAGGCACGGTTCAGAGGATACAAAAATGGCTATAGAAGCCTTTTGAGTTCTGAATTAGGGGAATTCAGTATATGAAAAGCAAGAGAAGAAAGGCAAGCTAGCTTGCTTCAGAAGTTTCGACACTCCTGCTCTACCTCCTTCCCCGTGCCTTTTTCCTAAAGCGCCAATCTCACCATTGAAATAGGGGAGGAGTGATGTAGTATGAATGGTAATTGAAATGGATAGGCAAAGCTAGAATCCAAGAGAGTAGGACGGAGAGTCTCAGACCGGCTGTACGCGCACGCCAAGCCTTGCCACCGTACCATTGGGCACAAGCATGCATGGGTTATTTTTTGGGTTGTCTTACTAATTTGAACAATTTTAAGCAAATCTTGGTTATTTTCCTTACTAAGGAATTAACTAGGACTCAAATATACATTTTTCAAGTCAAGGAGATTTTTGTAGGAAATTCCAAACCAAGAGCTAACACCAGTGTTGTGAGTGACAGTATGATTCCTATGAAGTTTCTTAAAAGCATGATTTATATGGTTATTTTAAGAAGGTTACGTTTACTGATTTCTAATGAGTTTGTAAAAGCTTAAATGTTTTATAAGTTGATTTCTAAAAGACTGTTATTTTCAATTGAATGCTATAGCTACGTGATAAAATTTATGTTTCAAGGTTTCAACTATGTTTTATCCTAGCCTAAATCTACCATGAGACCTATTGTGCATATGTGGTTAACTCCTTATTGATGGTAGGGTTGACGAGCCTATTTTAACTATGGGCCATTAGGAAGGGTATAAACTATGATGCCTTAAAGAAGAAGGATAACAATGAAAATTGTTTTCTATCGACTGTTCCATATTAGGACAAAGAGGTTTAGTACCGCATATATCTATGGATCATGTCTTCCAAAAGCTCTATGTAATGTTATTAAAAGTTCAATGTTTCCAGGTACCATGCTATGAAATGAATTTCTATTGCTAAATGTTTCTTAAGCCAAGCTTTTATGCTAAACTGTTTATGAAAACATGTTTTTATAAAACCATCATTCACTAAGTCTTTTGACTTATCCTTTCAAAATGTTTTCTCACTTTTGAGGTACAGTTAAAATAGGTCTGCAGCAGAAAATTCATACTTCAATAACGATAACATCTAAATTGGTGGACTTTGCACAGTTTGTGGAAACTTCATTAAGAGTCAAGAAAGTTTAGTATCAAATAAACTTGATGGTAAAAGACCACAAGAAGTTTTGAAATCAAGTATTGGTGTAAAAGACCACAAGATGTTTTGAAATCAAGTATTGGTGAAGGAAGACGAGAGCAAAGAAAAAGTTTTACCCTAGGAGTGTCCAGGAAAAAAAGTTTTAAGGACAAGTCCAAGGGAAATTCATTTCAACGAACATAGTTCAGGGGGCGGTTATCAAAGGTCGGTTGCAATTAGCAATAACAAACCACTTTGAAATGAATGCCACAAGTACTATCTAGGGCAATGTTTTAGAGGAGGAGATATTTTCTTTCGATGTATGAAGTCAGGACACTTTGCAAGAGACTGTCCACAATTTAGTGCAAGACAACAAGGAAAAATAAAGGGCAGTTTCTCAATCAATAAATCAACTGATAATAACTCCGTCAAGGGGAGAAGGACCTAGTAATGCAAAGAAAAAGAGAATCTTACGAAAATAAGTATGTTTGCATTATGCAGATATTGTAAGATACAAGTAAATTTATGTAAAAAACTTTGGAATAAAAGAACCGTTGATAAATTTCAAGGACGAAATTTCTTAAGAGAGTGAGGATTGTAAAGCCCCAAAATTTATAGGAATCGTTGAGAAAAAATTTGGTGAAGGAAGAGAAAACAAATTAATAGACAACGAAGGAGAATTTCTTCGAAATGTTAAAGGTTAAATATTGAGGTTTAGATATTTAGCTAAGAAGGGAAAAATGGCTAAGTGTTAAAAAGGAAATGCTATGCGTTTAGAGGTCAGGTGGGTAGCCAAAAGAAGATCAAATAACCTTTAAGGCACACGAGGTTAGGCGTTTTGATCATATGCTAGGTGGTCAATTGACTTTAGATAACCTCTAAATGATATGTTTTAAAAGGAAAAATGTTAATGAGAACCTCTAAGGATAGGCAATAAAGGCAAGTTTGGGCACCTGCATAAGAAGGAATAACCTCTAAAGAAAGACCATAGACGTTAATGTTGCTAGGCGAGTAAGGGTTGCTAAGCGTGATGATTGACTAAGAGGTTAACAAGGCTTGCTATTCTAGCTACACGAGGATATTGATGTCGGCTATGCATAGAAGATTTGACCATATGCTAGGCGAGATTACACATGAAGAGGTTAGTAGGCGTGGAAAGTAGACGACCAAGAGCTAGGTGAGGAAAGCTTGCACGCGAGGGAGGTTGGCAGTCATAGAGGTTAGCAAGGCGTGTAAGTAAGCAACGTGGCTGATTAGGGGCAATTAGTTTATTGAAAATCCAGGTGTTTTTAGCATGTTTTATGTATTTTGCGGTCAAGTAGGAAGTAGATTAGGAAGCAGGAGGTGGATTAAGGAAATTAAAAGGCAAATTAAGGTAGTTGGAGGTGTTAATTCAATTTCATGCAAGGGTTCACTATAAATAGGCGACTTTTAGACAATGTTTTCTCATAATACACTCATGTTATTTACCTCAAATTAATTTTAAAATATCAGAATTTAAGTCTAATTTCTAGACAACAATTGCCGGTTAATTTAGAGGCGAGAAAGATTGCCTTCAAACAAAGGAAAGGCAAGAATGTTCAAATTTAGGGAGAATTTAAGTAAGGTGCATATTTTGAAAGCTTAAATATTTTAAATATTTCGAGTAAGTTTCTTAAAATCAAGATTTATATTGTTATTTCAAGAAGTTTACTGATTTCTAATGAATTTGTAAAAGCTTAAATATTTTATAAGCTGATTTCCAAAAGACTATGTTATGTTCAACTGAATGCTACAGCTATGTGATCAAAAGTATGTTTCAAGGTTTCAACTATGATTTATCTTAGCCCGAATCTTCCATAAGACCTATTATGCACATGTGGTTAACTCCATACTGATGGCAAGATTGATGAGTCTATTTTAACTATGGGCCATTAGGAAGGGTATAAACTATTATGCCTTAAAGAAGGAGGATAACAGTGAAAGCTGTTTACTATCGACTGTCCGTATTAGGATGAAGAGGTTTCATACTACATGTATCTATGGATCATGTCTTTAAAAGCTCTATGCAATGTTACTAAAAGTTCAACGTTTCGAAGTACCATGTTATGAAATGAATTTCTATTGCTAAATGTTTCTTAAGCCAAGGTTTTATGCTAAACTATTTATGAAAACATGTTTTATAAAACCATCACTCACTAAGCCTTTTGACTTATCCTTTCAAAATGTTTTCTCATTTTTAGGTACAGATCGTGCATCTCTAGATGTTGGACTTACTACTGCTAGGCCAATTAGAAATTGATTATGAAAAAGAATTATTATGATAAAAAGAGTCTTCTTGCTAGAGTTAGAAAGAATTTATGAAAACTTTATGATTTTCATGTCCGTATGCGCTTTCTATTAAAACATTGCCATTAAATATTTGTATTGTTAAATGGTTTACATCACAATTATTTTTTCCATGACAATTAAAAACTTCTACTTGCAAATTGTTTAAAAGTAAAAGGTTAAGGGTCGGTTGGTGTTGTTCAGAGAGGGGGAATGAAATCAATTGACATTAGACCAACTCTCGAGTCTAGAATATGTGATTTGGAAGAAGGTGTGACACATGGCATCTCGCGTGCCCCCTTATGCACAGGACTTGCCATGTGCCTCTTTGCTTGTTGTTTGCAGGCTATGAATCCAACACAAGCCTAAACATGTCACTAACCTCTTTTAACCTCAACACACATGTCCATCTCGTCTAACAAAGCTTGTCACTCAGCCAACCTCTAACTTACTCCAAAACTGATTTTTCGTAACTAAAAATCCACAACTCTTTTAGGTACACTCTTCTATAAAGTTACTTGAAATTGTCTTAACTTTCTTATCTTAAACTTTTAGCTCCAAATTCCAAGAGATGTGCTATGTAGCCTTCTAGAAATGCACCTCGCTCAAATTCTCTTTAGGAAAGACTTTTCTCTCTTTCTTTAGCTCAAACTTAATCCTCCTTGCCTCAAATTTGACCTGCAGCGACAAATTATAAACTAGACTCAATTTAGAATCTTTTGAAAGTAACTTCAGCCAAAATGCACGAGTAAAATGAGAGAAATCCTCCTCTAAAGTTACCTATATATAGTGAACCTTGCATGAACATTTATTAACACCACCTACTTGCTAAAATTTAGCTTAAGTATGCTGAGGACACCTGTAAAGCACTCATCGACTTCACCTCTTAAATATCTCACCCAACAAAAATGCCTAAGTGTCCCACATCAAGCTTAAATGCCTAACATAGAGCAAAAAACCTCTTTTTACATGGCCGCAACCCTCTTGCTCGTAGCACAAGCTTTCTTGCCCACCACCAAGTAGCCTAGCCATCTCACTTAGGCCTCTTAATGCCCAACTAACCTCTAAATGACAAGCTCTTCTCACCTAGGTGAACCACGGTCGCCCCATGATACTTCTTTAGAGGTTCTTCATGCTCAAAGCCACCCACACAAGCCTTGGCCGCCTACTTAAGTTAAAAAAAGCCTAATAACCTCTTTAGATATTATTTTCACTTCTTTTGGCTGCCTAACACACAACCAAAAATCTCTTATTGCCTAGCCTTCAAGTCCTTGACACTTAACCAAAATTTCCTCTCTGTTCAATAACCATGACATACTTTTAATGACACTTTTGAGCCTCTTTTTATTTTCAATTCCAAACAACATTTATCCTTCTAAGCTCTTCAGAAGAATGAAGTTTTCCTAAGATTCGGGGTTTACAGAAAGTATGTAACAATAATTGTAAACATGACATGAAATATAAGTCATAATAGTCTATAATTATGCACTTTATGTTTAAAGGTCTAGTAATAGATTCTCTTACTTGAGATTAGCTAAAACAAATTATTACCTCAGCTTTTGACTTTTTACAACTTTGACCATTTCCATCAATTTCGAGCTTCCAAATATGAATTTATATTTATATTTTTAATATTTAAATCACATTTAAACTTAAAGCTCTATAACCGAAAACTTTATCACATAAATTCGTCGGTTTATCTCTCTACCTACTTCGAACAATAATTCGAATTGTTTCAACATATTGTTCTAAGTTAATTCCGTATGCACTAGTAAGGAAACTTAATGGACCTATAGTAATGGACTCTAATGATCTGAGATTAACTGCTTAAACCCTTTTAGACCTAGCTAATTAACATTCGTTAACTAACGACTCATTCTACTAAAGTCTTGTAGTTGCACTCCCCCCACTATAGATATATTTTTGTCCATCTGATATTACCATGATCAGTAAGTTAATCCTTCACAGGTTGTTTGTAACCTCGACTAGGTCAAAATATTGTTTTACCCCCAAGACTACATCTTGTTCTTTAAGTCCCACTGGTCCACTATTGAACATTTGGTTTAAGGTCTAACCTATAAATCGAGTCCCTCTCGGGCTAATGAGAGCACGGGATCCCTTGTTCAAGACTTGGATTCAGTCCTTAAGGGAACAACCTATCTACTAACCCTAAAATGGGTAAGAGTGAATTTTGTCTTGCACCCTATGTCCCTAGCCATCCACTCGGTCTTACCCTTGAAATAGGAGTATTATTGGGCCAGCGTCGTTGAGCTGTCCTCCCTTATGTAGATCTAAGGATAACATCGGTTGAACAAATGTTTATAGTTAGCTCAGAATTAAGATTAAGTTATCTAGTTCATTTTAATCAAAATAGTCAGTTTATATAGTCAACGGTGTTATAACTTAAAAGTGATTATTTCATGGTTCCAGTCTTATGTAAACTCTCTACCTAGAATGCCTCCACTCTCATGTCTCTACATGTACAATTTAGGATCAAATCGTTTGTACTAACTACTAGAGAGTGGGCCGCATCCATAGTGTTTTCGGAATAAAGAGCCCAACCTCATTCATACATTATAGACCGTTTGGGCTATAAACTCGAACTTGATCCCCGTTTATGTCGCTACATAAAGCTCAAGTCTACACTAGATAGCCTTGGGATCTTAGTTAATTGGATTCCAGATTATAGTATGCTATATTCACTAATAAGTCTTAAATAACTATTTTATTGAATAGAATATAATTTGAACTACAAACTACGAGATTTAGGACATAAATTCCAACAACCTCCCACTCGGACTAAAATTCCTAGTGTGAGTAAACAGTGTTGAATTTAATTATGAGAGAATTACTCATATTAGTAGAATAAACATATAAGTATGACAAACTAGGGTATATACCCAAACATTCTCCCACTAGTCATAGTGGTTAAACTCCTAGACCTAAACTATTTAGGTCAAATACACTTTAACTTTATGCTTCTTCACACTACTGCTCCTCCATTTAGAGTGAATACTGATTTTAATGCAGACTTTCTAACATTTTTAGAAATCAAAATCAGTGTATTTGATAAGGATCAGATCCTTAGCACTATATACGAGCACATAGTCTTTTAAATTTCTAAACTATTTTAGAATATACTTAATGACAATCCAACTCTTTTGGAATTCTGCATTTTATATCTAGACAACATTTTGTCTATATAAGATACTTGAGACTGGCTAGTATTATGTTGTAATTTCAAACAATTTGGATCTTGAGAACACATTTTGCATTTCCAAAACCCTTATTTGAAAGTGCATAGCTAGTCATTTCTAAACGTCAGATAGATAATCTACATCATTCATTGTTTTTTCATAAAGTCAATGGATCCTCTTAAACCATCATTAAGTATGACGATTTGGTTTTCAAAAAAACCAGGTAACGATCAGGCTGATGAACAATCCTCCCATTACTTCGAGGCACTCTCAACTTTTGAGAAGGATGTGACTAACCAAATTCCTTAGATGCGAAATGTTGACTACAAACGAGCACGACATTTTGAGGTTGATCTATCGGCTTTCCGAAACATACTTGACATCGATAAGGAGAGAATGATTGCAAAAGTTGAGCCCCATGTGAACATGGGACAAATATCTAGAGCCACAATTCCAATGAACCTTTCACTTGCAGTGGTGGCTGAGCTCGATGACCTTACTGTTGGTGGCCTCATCAATGGCTATGGCATTGAAGGAAGCTCCCATATCTATGGTCTTTTCTCGGATACTGTTGTGGCCTATGAGATCGTTCTTGCAGATGGCAGGGTCGTAAGAGCAACCAAGGATAATGAATACTCAGATCTTTTCTATGCCATCCCGTGGTCTCAAGGAACTCTGGGCTTTCTTGTGTCTGCTGAGATCAAACTCATACATATAAAGGAATATATGAAACTTACTTACCTACCTGTGAAAGGAAAACTACAGGAGATTGGGCAGGCGTACATGGACTCATTTACGCCTAGAGACCTAGATCAAGATAACCCCGAGAAAGTTCCCGATTTTGTGGAAACCATGATTTATTCTCCTACCGAAGCCGTGTGCATGACAGGAAGATATGCATCCAAAGAAGAGGCCAAGAAGAAAGGGAACGTGATCAACAGCATTGGTTGGTGGTTCAAACCTTGGTTTTACCAGCATGCACAAAAAGCACTGATAAAGGGGGAGTTCGTGGAATATATCCCAACAAGAGAGTACTATCACAGGCACACCAGATCTTTGTACTGGGAGGGAAAGCTTATCCTTCCTTTTGCTGACCAATGGTGGTTTCGGTTTCTGTTGGGATGGATGATGCCTCCCAAGGTGTCTCTACTGAAGGCTACTCAGGGTGAAGCTATCAGAAACTATTACCATGAGATGCATATAGTCCAAGACATGCTTGTGCCTCTTAGAAGAATCGGAGATACTTTGGAGTGGATCCACAGGGAGATGGAGGTATACCCATTATGGCTCTGCCCCCACAGATTGTTTAAACCCCCAATGAAAACAATGGTGTCTCCTGAACCAGGATTTGAGCTTCAAATCAAGCAGGGCGACACCTCCTATGCTCAGATGTACACAGATATCGGAGTGTACTATGCTCCAGGGCCCGTCCTGAGGGGTGAAGTTTATGACGGTGCTCAGGCGGTTCGCAACATGGAGAACTGGCTTATTGAAATTCATGGTTTCCAACCACAGCACTCGGTGACCGAGATGAGCGAGAAAGAGTTCTGGAAAATGTTTGATTCCGAACTTTACGAGGCGTGCCGAAAGAAGTATGGAGCTATAGGGACGTTTATGCATGTTTATTACAAATGTAAGAAGGGAAGGAAGACTGAGAAGGAAATCGAGGAAGCTGAAAATGCTCAAGCTGAAACTGCTTATGCTGATGTAGAGCAGGCAAAGCTGGAGACAGTATCTGAAATCACACATGAGAAGGGCAAGAAAAAAGATAGTCAAAAGATAAATTGCTCTCTTCTGTTATTGGACAATGGGACAAGAGCACTCCAGTTACAGGATGTCTTTTCTCTGGAAAATGAAGAATCCGATGACATTACAACCTTGATTGATAAAAAAGCAAGAGAGACAAGTTTGGGAGGCCATATAAGAAGGAATAACCTCTATAGAAAGGTGATATGCGTTGAGATTGGTAGGCGAGCAAGGGTTGCTAGGCTTGTTGTGGCTACAAAAGGAGATTCGTGTTGGATATGCATAAAAGATTGGTCATATGCTACTCAAGATGAGACACGAAGAGTGGTTGAGTGTCAAGCAAAACAAGGTGAGTTGGGTGTGAGTTTTGAGTTTGTAGAGATTATTTTGCTTAAGTTAAGGCATGTGGCACAACCATGGGATGGCCGGGCGACAAGGATGCACTCAGGCTGTACGGATGACCGGGCAAAGCTAGAATCCAAGAGAGTAGGACGGAGAGTCTCAGACCGGCTGTACGCGCACGCCAAGCCTTGCCACCGTACCATTGGGCACAAGCATGCATGGTCAATGGATCCTCTTAAACCATCATTAAGTATGACGATTTGGTTTTCAAAAAAACCAGGTAACGATCAGGCTGATGAACAATCCTCCCATTACTTCGAGGCACTCTCAACTTTTGAGAAGGATGTGACTAACCAAATTCCTTAG ATGCGAAATGTTGACTACAAACGAGCACGACATTTTGAGGTTGATCTATCGGCTTTCCGAAACATACTTGACATCGATAAGGAGAGAATGATTGCAAAAGTTGAGCCCCATGTGAACATGGGACAAATATCTAGAGCCACAATTCCAATGAACCTTTCACTTGCAGTGGTGGCTGAGCTCGATGACCTTACTGTTGGTGGCCTCATCAATGGCTATGGCATTGAAGGAAGCTCCCATATCTATGGTCTTTTCTCGGATACTGTTGTGGCCTATGAGATCGTTCTTGCAGATGGCAGGGTCGTAAGAGCAACCAAGGATAATGAATACTCAGATCTTTTCTATGCCATCCCGTGGTCTCAAGGAACTCTGGGCTTTCTTGTGTCTGCTGAGATCAAACTCATACATATAAAGGAATATATGAAACTTACTTACCTACCTGTGAAAGGAAAACTACAGGAGATTGGGCAGGCGTACATGGACTCATTTACGCCTAGAGACCTAGATCAAGATAACCCCGAGAAAGTTCCCGATTTTGTGGAAACCATGATTTATTCTCCTACCGAAGCCGTGTGCATGACAGGAAGATATGCATCCAAAGAAGAGGCCAAGAAGAAAGGGAACGTGATCAACAGCATTGGTTGGTGGTTCAAACCTTGGTTTTACCAGCATGCACAAAAAGCACTGATAAAGGGGGAGTTCGTGGAATATATCCCAACAAGAGAGTACTATCACAGGCACACCAGATCTTTGTACTGGGAGGGAAAGCTTATCCTTCCTTTTGCTGACCAATGGTGGTTTCGGTTTCTGTTGGGATGGATGATGCCTCCCAAGGTGTCTCTACTGAAGGCTACTCAGGGTGAAGCTATCAGAAACTATTACCATGAGATGCATATAGTCCAAGACATGCTTGTGCCTCTTAGAAGAATCGGAGATACTTTGGAGTGGATCCACAGGGAGATGGAGGTATACCCATTATGGCTCTGCCCCCACAGATTGTTTAAACCCCCAATGAAAACAATGGTGTCTCCTGAACCAGGATTTGAGCTTCAAATCAAGCAGGGCGACACCTCCTATGCTCAGATGTACACAGATATCGGAGTGTACTATGCTCCAGGGCCCGTCCTGAGGGGTGAAGTTTATGACGGTGCTCAGGCGGTTCGCAACATGGAGAACTGGCTTATTGAAATTCATGGTTTCCAACCACAGCACTCGGTGACCGAGATGAGCGAGAAAGAGTTCTGGAAAATGTTTGATTCCGAACTTTACGAGGCGTGCCGAAAGAAGTATGGAGCTATAGGGACGTTTATGCATGTTTATTACAAATGTAAGAAGGGAAGGAAGACTGAGAAGGAAATCGAGGAAGCTGAAAATGCTCAAGCTGAAACTGCTTATGCTGATGTAGAGCAGGCAAAGCTGGAGACAGTATCTGAAATCACACATGAGAAGGGCAAGAAAAAAGATAGTCAAAAGATAAATTGCTCTCTTCTGTTATTGGACAATGGGACAAGAGCACTCCAGTTACAGGATGTCTTTTCTCTGGAAAATGAAGAATCCGATGACATTACAACCTTGATTGATAAAAAAGCAAGAGAGACAAGTTTGGGAGGCCATATAAGAAGGAATAACCTCTATAGAAAGGTGATATGCGTTGAGATTGGTAGGCGAGCAAGGGTTGCTAGGCTTGTTGTGGCTACAAAAGGAGATTCGTGTTGGATATGCATAAAAGATTGGTCATATGCTACTCAAGATGAGACACGAAGAGTGGTTGAGTGTCAAGCAAAACAAGGTGAGTTGGGTGTGAGTTTTGAGTTTGTAGAGATTATTTTGCTTAAGTTAAGGCATGTGGCACAACCATGGGATGGCCGGGCGACAAGGATGCACTCAGGCTGTACGGATGACCGGGCAAAGCTAGAATCCAAGAGAGTAGGACGGAGAGTCTCAGACCGGCTGTACGCGCACGCCAAGCCTTGCCACCGTACCATTGGGCACAAGCATGCATGGTCAATGGATCCTCTTAAACCATCATTAAGTATGACGATTTGGTTTTCAAAAAAACCAGGTAACGATCAGGCTGATGAACAATCCTCCCATTACTTCGAGGCACTCTCAACTTTTGAGAAGGATGTGACTAACCAAATTCCTTAG MRNVDYKRARHFEVDLSAFRNILDIDKERMIAKVEPHVNMGQISRATIPMNLSLAVVAELDDLTVGGLINGYGIEGSSHIYGLFSDTVVAYEIVLADGRVVRATKDNEYSDLFYAIPWSQGTLGFLVSAEIKLIHIKEYMKLTYLPVKGKLQEIGQAYMDSFTPRDLDQDNPEKVPDFVETMIYSPTEAVCMTGRYASKEEAKKKGNVINSIGWWFKPWFYQHAQKALIKGEFVEYIPTREYYHRHTRSLYWEGKLILPFADQWWFRFLLGWMMPPKVSLLKATQGEAIRNYYHEMHIVQDMLVPLRRIGDTLEWIHREMEVYPLWLCPHRLFKPPMKTMVSPEPGFELQIKQGDTSYAQMYTDIGVYYAPGPVLRGEVYDGAQAVRNMENWLIEIHGFQPQHSVTEMSEKEFWKMFDSELYEACRKKYGAIGTFMHVYYKCKKGRKTEKEIEEAENAQAETAYADVEQAKLETVSEITHEKGKKKDSQKINCSLLLLDNGTRALQLQDVFSLENEESDDITTLIDKKARETSLGGHIRRNNLYRKVICVEIGRRARVARLVVATKGDSCWICIKDWSYATQDETRRVVECQAKQGELGVSFEFVEIILLKLRHVAQPWDGRATRMHSGCTDDRAKLESKRVGRRVSDRLYAHAKPCHRTIGHKHAWSMDPLKPSLSMTIWFSKKPGNDQADEQSSHYFEALSTFEKDVTNQIP Homology
BLAST of MELO3C022613 vs. NCBI nr
Match: KAA0066538.1 (delta(24)-sterol reductase-like [Cucumis melo var. makuwa] >TYK00240.1 delta(24)-sterol reductase-like [Cucumis melo var. makuwa]) HSP 1 Score: 980.3 bits (2533), Expect = 8.7e-282 Identity = 472/472 (100.00%), Postives = 472/472 (100.00%), Query Frame = 0
BLAST of MELO3C022613 vs. NCBI nr
Match: XP_008460246.1 (PREDICTED: delta(24)-sterol reductase-like [Cucumis melo] >XP_008460247.1 PREDICTED: delta(24)-sterol reductase-like [Cucumis melo] >XP_008460248.1 PREDICTED: delta(24)-sterol reductase-like [Cucumis melo] >XP_008460249.1 PREDICTED: delta(24)-sterol reductase-like [Cucumis melo]) HSP 1 Score: 976.9 bits (2524), Expect = 9.6e-281 Identity = 470/470 (100.00%), Postives = 470/470 (100.00%), Query Frame = 0
BLAST of MELO3C022613 vs. NCBI nr
Match: XP_004137177.1 (delta(24)-sterol reductase [Cucumis sativus] >XP_011653373.1 delta(24)-sterol reductase [Cucumis sativus] >XP_031740073.1 delta(24)-sterol reductase [Cucumis sativus] >XP_031740074.1 delta(24)-sterol reductase [Cucumis sativus] >XP_031740075.1 delta(24)-sterol reductase [Cucumis sativus] >KGN53687.1 hypothetical protein Csa_014693 [Cucumis sativus]) HSP 1 Score: 958.4 bits (2476), Expect = 3.5e-275 Identity = 458/470 (97.45%), Postives = 463/470 (98.51%), Query Frame = 0
BLAST of MELO3C022613 vs. NCBI nr
Match: XP_038877985.1 (delta(24)-sterol reductase-like [Benincasa hispida] >XP_038877986.1 delta(24)-sterol reductase-like [Benincasa hispida] >XP_038877988.1 delta(24)-sterol reductase-like [Benincasa hispida] >XP_038877989.1 delta(24)-sterol reductase-like [Benincasa hispida]) HSP 1 Score: 957.6 bits (2474), Expect = 6.0e-275 Identity = 458/470 (97.45%), Postives = 463/470 (98.51%), Query Frame = 0
BLAST of MELO3C022613 vs. NCBI nr
Match: XP_022153163.1 (delta(24)-sterol reductase-like [Momordica charantia] >XP_022153164.1 delta(24)-sterol reductase-like [Momordica charantia] >XP_022153165.1 delta(24)-sterol reductase-like [Momordica charantia]) HSP 1 Score: 944.1 bits (2439), Expect = 6.9e-271 Identity = 448/469 (95.52%), Postives = 460/469 (98.08%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy Swiss-Prot
Match: P93472 (Delta(24)-sterol reductase OS=Pisum sativum OX=3888 GN=DIM PE=1 SV=1) HSP 1 Score: 803.1 bits (2073), Expect = 2.5e-231 Identity = 375/469 (79.96%), Postives = 422/469 (89.98%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy Swiss-Prot
Match: Q39085 (Delta(24)-sterol reductase OS=Arabidopsis thaliana OX=3702 GN=DIM PE=1 SV=2) HSP 1 Score: 777.7 bits (2007), Expect = 1.1e-223 Identity = 360/468 (76.92%), Postives = 412/468 (88.03%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy Swiss-Prot
Match: Q15392 (Delta(24)-sterol reductase OS=Homo sapiens OX=9606 GN=DHCR24 PE=1 SV=2) HSP 1 Score: 354.0 bits (907), Expect = 4.0e-96 Identity = 193/428 (45.09%), Postives = 262/428 (61.21%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy Swiss-Prot
Match: Q5BQE6 (Delta(24)-sterol reductase OS=Rattus norvegicus OX=10116 GN=Dhcr24 PE=2 SV=2) HSP 1 Score: 353.6 bits (906), Expect = 5.2e-96 Identity = 193/428 (45.09%), Postives = 263/428 (61.45%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy Swiss-Prot
Match: Q60HC5 (Delta(24)-sterol reductase OS=Macaca fascicularis OX=9541 GN=DHCR24 PE=2 SV=2) HSP 1 Score: 353.2 bits (905), Expect = 6.8e-96 Identity = 193/428 (45.09%), Postives = 262/428 (61.21%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy TrEMBL
Match: A0A5D3BMN3 (Delta(24)-sterol reductase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold895G00130 PE=4 SV=1) HSP 1 Score: 980.3 bits (2533), Expect = 4.2e-282 Identity = 472/472 (100.00%), Postives = 472/472 (100.00%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy TrEMBL
Match: A0A1S3CCJ1 (Delta(24)-sterol reductase OS=Cucumis melo OX=3656 GN=LOC103499124 PE=4 SV=1) HSP 1 Score: 976.9 bits (2524), Expect = 4.7e-281 Identity = 470/470 (100.00%), Postives = 470/470 (100.00%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy TrEMBL
Match: A0A0A0KZ82 (Delta(24)-sterol reductase OS=Cucumis sativus OX=3659 GN=Csa_4G103350 PE=4 SV=1) HSP 1 Score: 958.4 bits (2476), Expect = 1.7e-275 Identity = 458/470 (97.45%), Postives = 463/470 (98.51%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy TrEMBL
Match: A0A6J1DI89 (Delta(24)-sterol reductase OS=Momordica charantia OX=3673 GN=LOC111020726 PE=4 SV=1) HSP 1 Score: 944.1 bits (2439), Expect = 3.3e-271 Identity = 448/469 (95.52%), Postives = 460/469 (98.08%), Query Frame = 0
BLAST of MELO3C022613 vs. ExPASy TrEMBL
Match: A0A6J1KA67 (Delta(24)-sterol reductase OS=Cucurbita maxima OX=3661 GN=LOC111493057 PE=4 SV=1) HSP 1 Score: 936.4 bits (2419), Expect = 7.0e-269 Identity = 445/469 (94.88%), Postives = 456/469 (97.23%), Query Frame = 0
BLAST of MELO3C022613 vs. TAIR 10
Match: AT3G19820.1 (cell elongation protein / DWARF1 / DIMINUTO (DIM) ) HSP 1 Score: 777.7 bits (2007), Expect = 8.0e-225 Identity = 360/468 (76.92%), Postives = 412/468 (88.03%), Query Frame = 0
BLAST of MELO3C022613 vs. TAIR 10
Match: AT3G19820.2 (cell elongation protein / DWARF1 / DIMINUTO (DIM) ) HSP 1 Score: 777.7 bits (2007), Expect = 8.0e-225 Identity = 360/468 (76.92%), Postives = 412/468 (88.03%), Query Frame = 0
BLAST of MELO3C022613 vs. TAIR 10
Match: AT3G19820.3 (cell elongation protein / DWARF1 / DIMINUTO (DIM) ) HSP 1 Score: 777.7 bits (2007), Expect = 8.0e-225 Identity = 360/468 (76.92%), Postives = 412/468 (88.03%), Query Frame = 0
BLAST of MELO3C022613 vs. TAIR 10
Match: AT5G51710.1 (K+ efflux antiporter 5 ) HSP 1 Score: 68.6 bits (166), Expect = 2.4e-11 Identity = 45/89 (50.56%), Postives = 61/89 (68.54%), Query Frame = 0
BLAST of MELO3C022613 vs. TAIR 10
Match: AT5G51710.2 (K+ efflux antiporter 5 ) HSP 1 Score: 68.6 bits (166), Expect = 2.4e-11 Identity = 45/89 (50.56%), Postives = 61/89 (68.54%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06
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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