PI0022603 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGACGGAAGCGAAGGTTGGTAGGCATCCGAATTTACGAGATGTAAGTGGTGAAATCCTTAGTTGTATTCTGTATTCAATTCTTTTGCGGACTCAAGTTTCATATTCCTTTTAGATTACAAAATTTCGCTCATTCATGTTACTGATTTGTTATTTTCTATTCCTTTACTGGGTATCGGTTCTAGAATTAAGATTGTGCTGTCTTGTTATTTCAGAGAGTTCTTTTCTTTTATTTTTGTCCATCGGATACTTTTTGGTCATTGATTAAAGCAAACTCAAGTATTTCTGTTTTCAGAAAATATTAGGTTTTACTTGTGGAATCTTATAAGCAAAGCAGTAGGTATCCATATTACTTTTGTGGTAAATGTTGATCAAATAGTTATTTGATCCCAAACACCATTGCTTATGGTTTTAGTTTTTGGCAACTTTTAAGTTCATCAATTTTGAGTTCACTTAAGGATTGTGTAAGACGATAAATATAAAGACATTAAGACTTATAAGGATTAATTACTGGGACTGATTGCAATCTTATCTCCTCATGTTGTCATACATACACTGCAGGATCAACTAAGCAATTGTCGGAGTTTTGGTAGCAATTTTCATCCTTCAAGCCAATCAAGAAAGATCTCAATTGGTGTTATGGTAGAGTCACCAGCCAATGGGAGATCAAGAGGCAAAAAAGAACAAAAATCCATGGTGCCAAATGCAGAAGTTGTTTTTTCCTGTTTAGAAAAATCCACGCAAGGGAACTGGAAGGAGAAAGACACAAGAACCTTGGGTACTGATGTTAAATCAAAATCATCAGAAGCTCCTCAAAAATTGAGTTCACCATGGGTTTCTACTCGATCCCTTAAACGAAATGCACCCGATATGGAGACTCCAAGTGTAGCAAAACAAGTGTTCCATTCTCCGATGACTTGTGGGAGGCAGAACAGAGGTCATGGACTAAAGGAGCCTCCAGCTACATGTTCTGTTATTTCGGTTGCAAACCAAAGCTCAATGTTCAAGTCCGGAAATAGCAAGGAAAAGAACTTTGATGAGGCCAGCTGTCAAATGGAAGGAGTGAGGGATACAACCAATGAGAAGTTGCATGAGTTTGCATTTGCAACCATGGCAGAGGTCCGGTCAGATAAAATGGTGATTGAGGATCAACCAAATAAAACAGAAAATAGAACTGAAATTTTGAAAATGAAGCTATGGGAGATACTTGGAACTGTTTCTATGCCTAATGAACAACATTCTGAATGTGAAAACCATGAGCAAAATGTCAATCAATTAATAACCAAAGAAATCGTTGTGCAGAAGCAGGATAGAGTTGTCGGATTCAAACATAATTCAGATACAATTGAAACTGATTCTGAAAATTCCGGTCAGACTTTGAAGAGGCCAATAGTTCGTTCTATAGCACGGAAAAGATCTCACATTTTTGTGCAGTCCCGAAAATCTAAGACCCCTTCGGGCAAGAAAGGGAAACATCAAGAGGGAAATGTTTTTGTCTTTGAAGGAGTGTCTGAAGGCATTCATGTGGCTACCAATGGGGCTTCATCAAAGTGTACAAGAAAGAAGAGTGGTGAAAAGAGTTCCAAACTTCAGCCACGAAAAATTTTCTTTCCTCGGAAGGAAGAGAAGATAGGAACTTTTCCTAAATCGACTGGGATTGAAGAACTGACACCTCAAGAAAAGCTCTCTTCTTTTAGAGAAATTCAGGGTTTTCATAGCTCCCCAGTTAACCATGTAATTGTTGAATTAGACAAACCGAAGGGATTCAATCAATTTCCACAAATGGACAAGACGGTATTGCTACAGAATATTCATAGCCCACCAGGTCGTGGTCAACAAGGAGGCATTGACAATGCACTGCTGAATAAGGGTGTAGACTTGCAGAGTCATACAGAAAGTCCAACATTCAGAATGAAAACGCCTGTCTGCAGTTCACCTAGTTCAACTCCAAAAGGAGATAAAGTAGTTTGTGAATCTTCAAGTCCTGGCTCAGCAGAGGAAATACTTTCTACAAGAAATATTTGTAGCTTCAGGAAGCTGCGGACTTCAGAAGAAGATTGTGACAGATCAGATGTAAAGCCACAGTTTTCAGTATTCTTGGTTACTGGTTTACGTCTATTATCAACTATCATCTTCTTGCAAGTCTCTTGTTTGCAATAATCTTTGAGCCTCATTGTCATGTCTCTATATTTTGTCTTTCCTTATTGGCCTTCAGAAAGATGATAAAGAGATTGAGCAATCTCCACTCAATAAAGCATCAGTTGATTTAACTAAAGGAGTAGCGGATTATGGGTTGTCTGATTCATCATCTGAGAGTGGCAGCTGTGAAAGCTCTGCAGAAGGTTTGTCTATTTCTTAGTTTTGAAATTAATATACACCTTACTTTCAATGTCATTGTTACTTGGTTCTATATTGAAATTTATCTGCACTACACTAAATCCTGCTTGATAAACATTACTTACTGTTGCTTTGGTTTCATGGATTTTCCTATTCTGAAATCGGAATTAGCTTTGCTCATACAGATACAGGTAATTTGATAAGTTGTGTTTGGTTTCATTGGCAAGTTGAAGTAACAAACCTGTAAGTGTGGAAGGTTTCCAAGTTCCAGAGCTGTATATAAGAACTTAAATTGTTTGGTTCTTCTGAGTCAATGAAAGACAAAATCGGAGTAATAAGAGATTTGAAACTCTCAGTTTATTTTCTCCATTTGATGTAAAGGCTAATTAGGTATTTTACAATATTCTAAATCAGAATAATACAACCAACATGAGCATAACTAACACTTTCTTTGAAATCAGAGGTTTAAATAAAATTTGACAGATTGCCTTGGATACTTTTAAACGAGCAGCTATTCTTTCTTCAACTTAAGGGATCGTAAAAAACCACCATTCAAAGATACAAGGATCATGCATTGGCAGAAAGAAAACGTGAATTTAGAGCCTTGGACTCTTCTGATATTGATGTGTAATTAAAAAGCTCAGTTTCTAACAGAAAAGAGGGAGAAAAAAAAAGGGAGAGAGATTTGTATGCGTAGTTAACTCAGCAAGCTTTTGCTCAAGTAACAAATATTCTGTTTTTATTAACTTCTTTAGAGACCTGACTTGTATGCACCCACGTCTCAGTTCTCATAGGTCACTATGCATATATCTCGCATCCTTGATTGGATCCATATCAACAAACTTATCTGAACATAGATGTATAATATTAAAACAACATTCTGTCTTGTTAATAGGTTCAGCTTGTGTCCCAATTATTCTTCTTTATGTGCAAAGACTTTGTATATTCAGGAAATGATGCTTGTTTTTTCCATTTTATCTCCATTTTGTTTTCATTCATAAAAATTTTCCTGTATAGATGTTGATTCAAGTCAAAGAGATACACCCTCTCCAGAAATCGGTGCCATAAAGAAATTCAAGTCTATGCTTCATCCAGCAAAGCGGGCCCGTAATGTAGAAAACCATGAATTTGATTTCAGTGGTATGTTCTTGCTCTTTAAAGAAAGTAATTTAACTTGAAGTATACGTGATTTTTGGTAATCAATCATGTTTAATTGTTTCAGCATTGTGTTTGCATATTTATGCTTAAAGATCTTTGTCTAGAAATGTAGACACAAGCGCACAAAAGAAAACTAACAATCAATTAAACTGTCTGAATGGGCAGGGCCTGGAGAAAGTATTTGGCCTGCTGAAATTTTAGTCCCAAATGAAGAGGATGGGCTTGCAATGTAATTTCACCCCTCGTAGTTTCTTCTTTTTCTTCTTCTTTGGTTTTTTTATTGGGAGGGGGAAATGTATCAAGTGAAATCCTATAAGTGTTCTCTATTTCCGTTTAGGGTGGCAAAACTGTTTCTCTCAGAACTTGAGAAGCTGAAAAGTAAAATATCGTCAATATCAATTGAAAAGTCTTCGGAGGTGCTATTGTCAGTTGCCGAGAGTATTCATTTGCAGTTGCAGAATGTACAGTCTCAAGTTCAAATGGACATGTAAGTCATCAGTTCATATTTCTGGTTGTTCTTTACAAGATAACAATTTCTTCAATGATTTGTGACTGTATTTCAGGGTAAAGCTGTTGAGCTTTGGTAAATCAAGACGAAAAGATCTAGAAATTTTTTTTGAAGGTAGCATAATCATATGATGGGTTTTTAATTCATATATCAATCTCTTTCTCTGTGTTTGCAAGCTTTTTCTGAACTGTGTTTGCAATCTCGTCCTCTTATCAATCTCTTTAATTCATAGATTTATGAAATAGTTCTATTTAACTGTGTTTGCAAGCTTTTTCTGAACTGGCTCCTGTTCAGGACTTGATATTTATTGGGGCGAATGCTCATCACTTGGACTAAATATTACTTATGAGATTTGTTGGTTTCCACCTTGCTTGGGTAACCAACTCAAACATATTCAAACTCGAGCTTTAACTTCAAAATCTAAATTTATAAATCATGAACTCTTCTTGCTCACAAATGAACTTACCAGCTACACAAATTAATGCCATCAAGTGTTCTGTTTATCTCTAACTCTCCAAACATATAAGATGGTAATTGAAATGAGACATCTGTTTATTCAGCATGTTTGATTTAAATTTTTCTATAAGCTCTCTTACATTTAGTGGCTGTGCATATGATGTTTAAAAATCTTTTAGATATCAATTTCACATCTTGTCGTGTAGAGTAATTTTGCTATCTTTTGCATGGGTTCCATCTTTACGTTGCTTGAGCATCAAAAGTTTTGTAATTTTTATATTTTTTGGTAGATCAACCACTTTCTATCTATATGTTTACAGAACAACAACAACAATTGAAACGTATTAATAAAAAGTTCAAGGAAGAGGTGAATCAGCATCTCCAGGATTGTAGGAACGCACTACAAGAATTGGAAGCACAACAGATAGAGTTCAAGGGAATTATGGAAAAGAAAAGTATGATCTGTTATGTTGCTTTAGATTTTTGCAACTACATGAAACTGCATTGCATATGTTTAACCTATTTGTTTCTGCCTCTATTCACTATCTATGATTTAGGGCTCTGACACTTTCTTGGTTCTTGGGGTCCTGAAAGAGAGGTGAGGGAAAAACTCTCATTTCGTGAGGTAGGAGGTGGTGATGATGCCAATGGATCTTGGAGTCTTAAATATAAGCAACTTAAGGGTGAAATGAGGCCTTGTTAGCTAAATAGTTGTAGCACTTTCCTCGCATGTTTTGATATAAGGTCATTGTGAGCAAGTATAGACCACGCCCTGTTGATGGATCATGAGTGGGATCTATTGAAAGAAGAGAAGAAGAACAAACACAAATTTACGTGGAAACCCTAGTACAGGGAGAAAAACCATGATGCTGATTTTCTTATTATTTTCTTATATCTGATGATACAGGGGCACATTAATTTATAGGCAATAGAAGACTAATTAAAATAATAAAAGATAATTAGGGCAACATAAAAAACCTAAAAAACCCTTAGGCTTTCAACAAACAATAAGCCCGCTAATTGTAACATTCCCCCTCAAGTTGGACCGTAAATGTCGAAAAGACCCAACTTGCTAACACAAGACTGGAAACTCTGTCTGAGAAGCCTTTTTGTGAGAACATCAACAATTTGTTGGCTTGAAGGTATGTAAGGAATGCAGATGCTACCACTATCCATTTTCTCTTTGATAAAGTGTCTATCAATCTCCACATGTTTAGTTATGTCATGTTGGATCGGGTTATTGGAAATACTGATGCCACCTTATTATCGTAGAAAAGTTTCATAGGTACCTCATAGTCCTGACGAAGATCAGATAACACCTTTTGAAGTCAAATTTCCTCACAAATTCCCAAACTCATGGTCTTGTACTCAACTTCAGCACTGCTCCTGGCAACAACCCCTTGATTCTTACTTCTCCATGTCGATTGCTCCACATAAAAGTACAGTACCCACAGGTGGATTTTCTATCAACAATAGACTGTGCCTAGTCAGAATCTGTATAGGTCTCAATACACCTTTTGTTAGTTTTTCTGAAATTCAACCCCTTTCCAGGAGTTGTTTTTAAATACCTCAGAATTCTGTTTACTGCCTCCATGTGTTCTTCGTAAGGAGTCTGCATGAATTGACTAACAGTACTTATAGCATATGAGATGTCAAGCCTAGTGTGAGATACATAAATCAGTTTTCCCACCATGCGCTGATACTTCTCTCTATCAATCGGAACTTTGTCGCTTGTATCCTTGAGTTTGGCATTGAACTCAATAGGTGTATCAGTTGGACGACATCCTAACATACCTATCTCAGTTAACAAATCAAGGGTGTATTTCCTCTAGGATAGAGAGATGCCCTCTTTAGATTTGACAATTTCCATCCCAAGGAAGTATTTCAAATTCCACAAGTCTTTAATTTCAAACTCATCCACCATCTTCTAAAAGATGGGCTGCAGTGAGAACAATATAGTCCCAGAGATAAGACGGAAGGGAAGTAAACAACATAAGAGGACGAGCTACTTCCAAAAGGTGACAGTTTTTTCGCTCAGCTACCCCATTTTGTTGGGGGGTATAGGCACAAGAAGTTTGGTGGACAATCCCTTTGGAGGACAAAATCTCATTGAGGGTATGGTTTTGGAACTCACGACCATTGTCACTCCATAAAATAGCAATCTTTGCATTGAACTGCATTTCTTCGGTGTGATAGAAGTCTCGGGAGACGGAGGTAACCTCGGATTTGTCGAAGACGAGAAAGACCCAAGTAAGATGGGTATGATCATCAATTTAGGTTACAAACCACCGTTTTCCAGATGAGGTAGTTATCTTGGATGGGCCCCAGGCATCACTATGAACAAGGGTGAAAGGATGGGTTGGTTTGTATGACTGGGAAGGAAACAACACCAGATGCTGTTTAGCCCGAATACATACGTCACAAGATAAGGTAGACACATCAATTTTAGAGAAAAAATGAGGAAATAAATGTTTCATATATTGAAAATTAGGGTGGCTTAAATGAAAATGCCACAACATACAATCTTGTTCAGAAGTAGTAAACTAGGAAGATAAAAGACTAGTCCTAGAAATGCTACTAGAAGAGGCGTCGTCATCAAGGAGGTAGAGTCCCCTACTATGCCAGGCAGTGCCAATCATCCTCCCGAGTTCAAATCCTGAAAAGAAACAGAATTAGGTAAGAATGTTGCTTTGCAGTTTAACTCATGAGTAATCTTGCTTATAGATAGCAGAGTATAAGAAATTTTGGGCACATGAAAAACATAATGTAAGGAGAGCCCTGTATAGGAAGAAATCTTTCCCTTCCCAGCAATTGGGGCCAAGGAGCCATCTGCAATTCTAATTGTTTCGTTACCAGCACAAGGAACATAGGACACAAATAGTTCAAAGGAATCGCCCCAGAACCCAGAATCCAGAATCCAGAATCCAGGGGTTCTTCCCATCAATACTAATAAGACCGAAGGACTGAGGTAGACTGAGGTATACCTGGTGATTGGGCAATGGTGCCCAGAGTAGTGAGACTGGGATCGGTCAGGTTTCCATGTGGATCAGGTGGTTGAGAAGATCTAGCAGACTTACTCACATACGCCCGCCCTGTGTTTTGTTTGTCGTTGGGAGAGCGTTTCTTACCTCCTGAGGGACGACCATGTAACTTCCAACACTGCTCCTTGGTATGTCATTGTTTCTTGCAATGATCACAGATAGGAACTAGTTTTCCATTGTTCTTCTCACTGCCACTGGTAAAGGACCTTGCACCAAAGGCAGCAGAGTCAATAGTAGGAGTTGTCAAAACATTCATAGCACTTGTACGATCCTCCTCAAGGTAGATTTTAGAATAGACCTCCATCAGGGAGGGAATCGATCTTTAGCCCAGTATACGTCTGTGAACTACATCAAACTTAGGGTTAAGACCAACAAGAAAGTCATAAATCCTGTCAATCTCTTCAATTCTTGAGTAGTACACATTATCACTAGGACTGCTCCAGACTAGTTCTCTACATAGGTCCATTTCCTGCCAGATAAGAGAGAGCTTGTTAAAAAAGGATGTGACATCCATGGTTCCTTGCTTGCATTCATGAACTTGTTTCCGTAGTGTGTATAGGCGAGAGGCATTCTGACGTTTGGAATATAGTTTCTGGGATGTGTCCCAAATATGCTTAGAGTATTTGTCGATCTGTGGTTCCATACTATTGATCAATGTGGACCGAAGAAGAGAGTCCTCTCCCTTCCAGTACCGTTCCTGTGGGTCTTTCGGCGGAGGACAAGGTATTTCCCCTGTCAGAAAACCAAATTTATGTCGTCCTTCAAGGACCATTTTCACTGACTGAGACCATGAGAAATAATTATTGTCGTTCAATTTTTTCCCTGAAAAATATCCTGTAGACTATGCCACTGTATTAGTCACATAAGAAGAGGATAAAGTGGGGAACGAGGTTACCGGATTCTCAGAATACATCGATAAAGGTGTATGAAGGTCATGACCAGGAGTTTTGGATGTCGCCCTTAAGGTAGCTTCAATTGCTGCAATCTACTGTTGAAGCCCCTTCAGTTGCTAAGCTATACTCGAAGAAAAAGCTGGCACATTAGGGTTGGAATGTGCCGAAGATTCACCAACCTCAAATGTTGAGTAAATTTGAGGATTCCCAACCCCGGGATGATTACTAGGGTTTGTAGCAGAATTAGTGGGTGGTAGTGCATACAGATTGGACTGCACAAACGGTGGTGGCTGGATGGAATTAGGTGGAGCACATGAAGCGAAGGGTGGGGGACATTATTGGTCGCAGATGAAGACAAGGGTGGCAGAGAAATGTTGGCCGGCGTGATCCGACTGGATGGGCTGGTACGGAGGTCCCCGACGGCGGTGCATGGACGGCATGTGAGCGGCGCGAACAACGAAAGGGTGACGAAATTATGTTGGACGGCGTTGTCTAAAGGCAGCGGAACCACTCATCCATGGCAGCGCTAATACAAGCTTCGACGGCAGTGGCAACGGCGGCGCGGATACCGGCGGCCGTCTCCTTTACTTGGTTTACAGCAAGTGTTTGATCATCTAGGGTTTCTTTAATACCCCACTCTGATACCATATTGAAAGAAGAGAAGAAGAACAAACACAAATTTATGTGGAAACCCTAGTACAGGGAGAAAAACCATGATACTGATTTTCTTATGTCTGATAATACAGGGGCACATTAATTTATAGGCAATAGAAGCCTAATTAAAATAATAAAAGATAATTAGGGCAACATAGAAAACCTAAAAAACCCTTGGGCTTTCAACAAACAATAAGCCCCCCTAATTCTAACAGGATCAAAGGAAATCTTTGGGAAGGTCCCTTTCTTTTCTCAAGTTGTCGATTGTTTAGTGAGTGATGGAGGGATCTTGCTCTTGGAAGGATTAAAGTTAGGGATCATCACGTCTCCTCAATGAGGAATCATACAGTGATAGTTATATTTTTGTCACTTTGGAAGCTCTCCCTCTTCTTTTGGATTATGATGTCCAATGTTTGACATTGAAATGCTGAAGGCTTGGGACTAAATTATATTCCCCTGACCTCAGGATCTGTTTAGGATCTTGGAAAAGTCTTAAGTAATATCCATTTCGTTGTATTAGATAAATCTAGTATCCGAATTATGGATAATCTAGTATTCGAATTATGGATGGTCACATTGAAGTTGAAGGAGTTCCAATTACTTCCATTTCCGGTTTTCATCAAGGAATTATTCCTTTTGGAATTTTGTTTTTTGGTTTACATAAAAGTTATTTGGGAAGGAAAGCACCGAAGGTCCACTGCTCCATCTTGGTGGACTATAGGATTGTGATAGGTTGGACCATGGACCGGCTAATTAGTTTTTAAGTGAGTTTGTTGATGAGGTGGTTAAAATTTAGTAATTAATAATTAGAGTGAGAAAATACAAGGCAACAAATTTTATAGTTGGATTTTAGTTGATTTAGAAAAGGGTATTGTATTTGAGTTATTTGAGATTATTTTATTGTAGTCTTGACTTCTTTAAATTTTCAATAGAATCAGTACAAAATTTAAATGTTGCGATTGGATTCCGCGAGGACGTAAGGAGAAATAAAAAATATGCAATACAAAACTGAAGAATAGTTTACATAAATAGAGCTTATCTGAAGGTTCTTTTCTTTTGGGGCTGCAATGAGCAGCACTTTCATTGGATCTGTTATTCTTGGACATTGACATATTTAATTCAATAACGATATATTGGAACATGATAAATTATAGCTAAATGGAAGCTCAATGTGGTGAAAGTAAAGTATTATTCTATTGGAAATTACTGTCGACCATTGTTTTTCAGATGGAAACAAAATAGTTGTCCTCCTTTGGATCATTATATATAAAATTATATAAATTTGAAGGTTCTGGGCACATTTCTAACGGTATTTTAAATTCATAGAAGCATCACATCGTAATAATCTCATGCAAGTGGAAGAACAAATTGACTTGCAACTCAAGGATGCACAAAAGAGAATTGAAGCTATCCACAAGGTATGTTTTCATTTTCAATTTTACCCTCAAGAAAATTTCTGGCTTCATTCTGGGTGGCAAATCATTGCCAAGAAGTCATACGGGGATTGGATATGCATCGTTTGTTCACATTATGTTAGAAAAATTGGCTATTTAGAACGAATTTGAAATTATGATTAAGGAAAATACTTTGAATGAAACAAATTCACTGGGTTCATGTTGTTTAGGGTGTTTTGCGTCTGCCATCGTGAAAATCTTAAAAGGTTAATAGTTTCAAGATATTGAAATTCAAATCCAAATATACTATCGATCTACCTAAAGATTAAGATCATATGTTAAGTGTGTAAAGATCATACTTAAAAATTTAACTTGATTTTGATAATTTTCTGCATGTTGAGTGTGTAGATACGTTGGGATTTTATATAGTGGGTGCTTAATAATATTTCATGCGTATAGTTAAGAATTGTTGCCGATCTGGGGGTTTGGATTTTTGGGTACAGCCCATCTTTTTTGGTTTCAGATTTTCTGGTACAAAGTCATGTTTTATTATGATGGTATTTGTTGAATAAAACTGTTGTTTTAATCATGATGGAGAAGTTCACGTACCTGCATTACCTTCAATTTTATTGCAGTCGGGAAGAGGAAAGATACTGCAGCTGAAACAAGTAATAGCAATGTGCTTGAAATAGGAAAGTTTAAACTGACCTACTCCACTTTGCACAGTTAGTGAGTTTGTGTATGGCCTAGAGAACCATTTCCCCCCTATACAATTCCCTCATCTTTTTCAGTTAGCTATTTTGCTTTTTATTTACGTGTTATTTGTTCTAGCTCTCCACTTAACCTAATTTCCTAAATGTC ATGACGGAAGCGAAGGTTGGTAGGCATCCGAATTTACGAGATGATCAACTAAGCAATTGTCGGAGTTTTGGTAGCAATTTTCATCCTTCAAGCCAATCAAGAAAGATCTCAATTGGTGTTATGGTAGAGTCACCAGCCAATGGGAGATCAAGAGGCAAAAAAGAACAAAAATCCATGGTGCCAAATGCAGAAGTTGTTTTTTCCTGTTTAGAAAAATCCACGCAAGGGAACTGGAAGGAGAAAGACACAAGAACCTTGGGTACTGATGTTAAATCAAAATCATCAGAAGCTCCTCAAAAATTGAGTTCACCATGGGTTTCTACTCGATCCCTTAAACGAAATGCACCCGATATGGAGACTCCAAGTGTAGCAAAACAAGTGTTCCATTCTCCGATGACTTGTGGGAGGCAGAACAGAGGTCATGGACTAAAGGAGCCTCCAGCTACATGTTCTGTTATTTCGGTTGCAAACCAAAGCTCAATGTTCAAGTCCGGAAATAGCAAGGAAAAGAACTTTGATGAGGCCAGCTGTCAAATGGAAGGAGTGAGGGATACAACCAATGAGAAGTTGCATGAGTTTGCATTTGCAACCATGGCAGAGGTCCGGTCAGATAAAATGGTGATTGAGGATCAACCAAATAAAACAGAAAATAGAACTGAAATTTTGAAAATGAAGCTATGGGAGATACTTGGAACTGTTTCTATGCCTAATGAACAACATTCTGAATGTGAAAACCATGAGCAAAATGTCAATCAATTAATAACCAAAGAAATCGTTGTGCAGAAGCAGGATAGAGTTGTCGGATTCAAACATAATTCAGATACAATTGAAACTGATTCTGAAAATTCCGGTCAGACTTTGAAGAGGCCAATAGTTCGTTCTATAGCACGGAAAAGATCTCACATTTTTGTGCAGTCCCGAAAATCTAAGACCCCTTCGGGCAAGAAAGGGAAACATCAAGAGGGAAATGTTTTTGTCTTTGAAGGAGTGTCTGAAGGCATTCATGTGGCTACCAATGGGGCTTCATCAAAGTGTACAAGAAAGAAGAGTGGTGAAAAGAGTTCCAAACTTCAGCCACGAAAAATTTTCTTTCCTCGGAAGGAAGAGAAGATAGGAACTTTTCCTAAATCGACTGGGATTGAAGAACTGACACCTCAAGAAAAGCTCTCTTCTTTTAGAGAAATTCAGGGTTTTCATAGCTCCCCAGTTAACCATGTAATTGTTGAATTAGACAAACCGAAGGGATTCAATCAATTTCCACAAATGGACAAGACGGTATTGCTACAGAATATTCATAGCCCACCAGGTCGTGGTCAACAAGGAGGCATTGACAATGCACTGCTGAATAAGGGTGTAGACTTGCAGAGTCATACAGAAAGTCCAACATTCAGAATGAAAACGCCTGTCTGCAGTTCACCTAGTTCAACTCCAAAAGGAGATAAAGTAGTTTGTGAATCTTCAAGTCCTGGCTCAGCAGAGGAAATACTTTCTACAAGAAATATTTGTAGCTTCAGGAAGCTGCGGACTTCAGAAGAAGATTGTGACAGATCAGATAAAGATGATAAAGAGATTGAGCAATCTCCACTCAATAAAGCATCAGTTGATTTAACTAAAGGAGTAGCGGATTATGGGTTGTCTGATTCATCATCTGAGAGTGGCAGCTGTGAAAGCTCTGCAGAAGATGTTGATTCAAGTCAAAGAGATACACCCTCTCCAGAAATCGGTGCCATAAAGAAATTCAAGTCTATGCTTCATCCAGCAAAGCGGGCCCGTAATGTAGAAAACCATGAATTTGATTTCAGTGGGCCTGGAGAAAGTATTTGGCCTGCTGAAATTTTAGTCCCAAATGAAGAGGATGGGCTTGCAATGGTGGCAAAACTGTTTCTCTCAGAACTTGAGAAGCTGAAAAGTAAAATATCGTCAATATCAATTGAAAAGTCTTCGGAGGTGCTATTGTCAGTTGCCGAGAGTATTCATTTGCAGTTGCAGAATGTACAGTCTCAAGTTCAAATGGACATGGTAAAGCTGTTGAGCTTTGGTAAATCAAGACGAAAAGATCTAGAAATTTTTTTTGAAGAACAACAACAACAATTGAAACGTATTAATAAAAAGTTCAAGGAAGAGGTGAATCAGCATCTCCAGGATTGTAGGAACGCACTACAAGAATTGGAAGCACAACAGATAGAGTTCAAGGGAATTATGGAAAAGAAAAAAGCATCACATCGTAATAATCTCATGCAAGTGGAAGAACAAATTGACTTGCAACTCAAGGATGCACAAAAGAGAATTGAAGCTATCCACAAGTCGGGAAGAGGAAAGATACTGCAGCTGAAACAAGTAATAGCAATGTGCTTGAAATAGGAAAGTTTAAACTGACCTACTCCACTTTGCACAGTTAGTGAGTTTGTGTATGGCCTAGAGAACCATTTCCCCCCTATACAATTCCCTCATCTTTTTCAGTTAGCTATTTTGCTTTTTATTTACGTGTTATTTGTTCTAGCTCTCCACTTAACCTAATTTCCTAAATGTC ATGACGGAAGCGAAGGTTGGTAGGCATCCGAATTTACGAGATGATCAACTAAGCAATTGTCGGAGTTTTGGTAGCAATTTTCATCCTTCAAGCCAATCAAGAAAGATCTCAATTGGTGTTATGGTAGAGTCACCAGCCAATGGGAGATCAAGAGGCAAAAAAGAACAAAAATCCATGGTGCCAAATGCAGAAGTTGTTTTTTCCTGTTTAGAAAAATCCACGCAAGGGAACTGGAAGGAGAAAGACACAAGAACCTTGGGTACTGATGTTAAATCAAAATCATCAGAAGCTCCTCAAAAATTGAGTTCACCATGGGTTTCTACTCGATCCCTTAAACGAAATGCACCCGATATGGAGACTCCAAGTGTAGCAAAACAAGTGTTCCATTCTCCGATGACTTGTGGGAGGCAGAACAGAGGTCATGGACTAAAGGAGCCTCCAGCTACATGTTCTGTTATTTCGGTTGCAAACCAAAGCTCAATGTTCAAGTCCGGAAATAGCAAGGAAAAGAACTTTGATGAGGCCAGCTGTCAAATGGAAGGAGTGAGGGATACAACCAATGAGAAGTTGCATGAGTTTGCATTTGCAACCATGGCAGAGGTCCGGTCAGATAAAATGGTGATTGAGGATCAACCAAATAAAACAGAAAATAGAACTGAAATTTTGAAAATGAAGCTATGGGAGATACTTGGAACTGTTTCTATGCCTAATGAACAACATTCTGAATGTGAAAACCATGAGCAAAATGTCAATCAATTAATAACCAAAGAAATCGTTGTGCAGAAGCAGGATAGAGTTGTCGGATTCAAACATAATTCAGATACAATTGAAACTGATTCTGAAAATTCCGGTCAGACTTTGAAGAGGCCAATAGTTCGTTCTATAGCACGGAAAAGATCTCACATTTTTGTGCAGTCCCGAAAATCTAAGACCCCTTCGGGCAAGAAAGGGAAACATCAAGAGGGAAATGTTTTTGTCTTTGAAGGAGTGTCTGAAGGCATTCATGTGGCTACCAATGGGGCTTCATCAAAGTGTACAAGAAAGAAGAGTGGTGAAAAGAGTTCCAAACTTCAGCCACGAAAAATTTTCTTTCCTCGGAAGGAAGAGAAGATAGGAACTTTTCCTAAATCGACTGGGATTGAAGAACTGACACCTCAAGAAAAGCTCTCTTCTTTTAGAGAAATTCAGGGTTTTCATAGCTCCCCAGTTAACCATGTAATTGTTGAATTAGACAAACCGAAGGGATTCAATCAATTTCCACAAATGGACAAGACGGTATTGCTACAGAATATTCATAGCCCACCAGGTCGTGGTCAACAAGGAGGCATTGACAATGCACTGCTGAATAAGGGTGTAGACTTGCAGAGTCATACAGAAAGTCCAACATTCAGAATGAAAACGCCTGTCTGCAGTTCACCTAGTTCAACTCCAAAAGGAGATAAAGTAGTTTGTGAATCTTCAAGTCCTGGCTCAGCAGAGGAAATACTTTCTACAAGAAATATTTGTAGCTTCAGGAAGCTGCGGACTTCAGAAGAAGATTGTGACAGATCAGATAAAGATGATAAAGAGATTGAGCAATCTCCACTCAATAAAGCATCAGTTGATTTAACTAAAGGAGTAGCGGATTATGGGTTGTCTGATTCATCATCTGAGAGTGGCAGCTGTGAAAGCTCTGCAGAAGATGTTGATTCAAGTCAAAGAGATACACCCTCTCCAGAAATCGGTGCCATAAAGAAATTCAAGTCTATGCTTCATCCAGCAAAGCGGGCCCGTAATGTAGAAAACCATGAATTTGATTTCAGTGGGCCTGGAGAAAGTATTTGGCCTGCTGAAATTTTAGTCCCAAATGAAGAGGATGGGCTTGCAATGGTGGCAAAACTGTTTCTCTCAGAACTTGAGAAGCTGAAAAGTAAAATATCGTCAATATCAATTGAAAAGTCTTCGGAGGTGCTATTGTCAGTTGCCGAGAGTATTCATTTGCAGTTGCAGAATGTACAGTCTCAAGTTCAAATGGACATGGTAAAGCTGTTGAGCTTTGGTAAATCAAGACGAAAAGATCTAGAAATTTTTTTTGAAGAACAACAACAACAATTGAAACGTATTAATAAAAAGTTCAAGGAAGAGGTGAATCAGCATCTCCAGGATTGTAGGAACGCACTACAAGAATTGGAAGCACAACAGATAGAGTTCAAGGGAATTATGGAAAAGAAAAAAGCATCACATCGTAATAATCTCATGCAAGTGGAAGAACAAATTGACTTGCAACTCAAGGATGCACAAAAGAGAATTGAAGCTATCCACAAGTCGGGAAGAGGAAAGATACTGCAGCTGAAACAAGTAATAGCAATGTGCTTGAAATAG MTEAKVGRHPNLRDDQLSNCRSFGSNFHPSSQSRKISIGVMVESPANGRSRGKKEQKSMVPNAEVVFSCLEKSTQGNWKEKDTRTLGTDVKSKSSEAPQKLSSPWVSTRSLKRNAPDMETPSVAKQVFHSPMTCGRQNRGHGLKEPPATCSVISVANQSSMFKSGNSKEKNFDEASCQMEGVRDTTNEKLHEFAFATMAEVRSDKMVIEDQPNKTENRTEILKMKLWEILGTVSMPNEQHSECENHEQNVNQLITKEIVVQKQDRVVGFKHNSDTIETDSENSGQTLKRPIVRSIARKRSHIFVQSRKSKTPSGKKGKHQEGNVFVFEGVSEGIHVATNGASSKCTRKKSGEKSSKLQPRKIFFPRKEEKIGTFPKSTGIEELTPQEKLSSFREIQGFHSSPVNHVIVELDKPKGFNQFPQMDKTVLLQNIHSPPGRGQQGGIDNALLNKGVDLQSHTESPTFRMKTPVCSSPSSTPKGDKVVCESSSPGSAEEILSTRNICSFRKLRTSEEDCDRSDKDDKEIEQSPLNKASVDLTKGVADYGLSDSSSESGSCESSAEDVDSSQRDTPSPEIGAIKKFKSMLHPAKRARNVENHEFDFSGPGESIWPAEILVPNEEDGLAMVAKLFLSELEKLKSKISSISIEKSSEVLLSVAESIHLQLQNVQSQVQMDMVKLLSFGKSRRKDLEIFFEEQQQQLKRINKKFKEEVNQHLQDCRNALQELEAQQIEFKGIMEKKKASHRNNLMQVEEQIDLQLKDAQKRIEAIHKSGRGKILQLKQVIAMCLK Homology
BLAST of PI0022603 vs. ExPASy Swiss-Prot
Match: Q0WR66 (Meiosis-specific protein ASY3 OS=Arabidopsis thaliana OX=3702 GN=ASY3 PE=1 SV=1) HSP 1 Score: 238.8 bits (608), Expect = 2.1e-61 Identity = 244/823 (29.65%), Postives = 392/823 (47.63%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy Swiss-Prot
Match: B9G5N1 (Meiosis-specific protein PAIR3 OS=Oryza sativa subsp. japonica OX=39947 GN=PAIR3 PE=2 SV=1) HSP 1 Score: 109.8 bits (273), Expect = 1.4e-22 Identity = 185/740 (25.00%), Postives = 299/740 (40.41%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy TrEMBL
Match: A0A1S3BJE1 (uncharacterized protein LOC103490538 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490538 PE=4 SV=1) HSP 1 Score: 1366.3 bits (3535), Expect = 0.0e+00 Identity = 721/787 (91.61%), Postives = 742/787 (94.28%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy TrEMBL
Match: A0A0A0KE90 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G127440 PE=4 SV=1) HSP 1 Score: 1356.7 bits (3510), Expect = 0.0e+00 Identity = 721/795 (90.69%), Postives = 741/795 (93.21%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy TrEMBL
Match: A0A1S4DX25 (uncharacterized protein LOC103490538 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103490538 PE=4 SV=1) HSP 1 Score: 1341.6 bits (3471), Expect = 0.0e+00 Identity = 709/773 (91.72%), Postives = 730/773 (94.44%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy TrEMBL
Match: A0A5A7V8M4 (Cytospin-B-like isoform X3 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold89G003770 PE=4 SV=1) HSP 1 Score: 1206.8 bits (3121), Expect = 0.0e+00 Identity = 634/693 (91.49%), Postives = 649/693 (93.65%), Query Frame = 0
BLAST of PI0022603 vs. ExPASy TrEMBL
Match: A0A5D3C1C6 (Cytospin-B-like isoform X3 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold143G002060 PE=4 SV=1) HSP 1 Score: 1094.3 bits (2829), Expect = 0.0e+00 Identity = 566/623 (90.85%), Postives = 584/623 (93.74%), Query Frame = 0
BLAST of PI0022603 vs. NCBI nr
Match: XP_008448304.1 (PREDICTED: uncharacterized protein LOC103490538 isoform X1 [Cucumis melo] >XP_016900522.1 PREDICTED: uncharacterized protein LOC103490538 isoform X1 [Cucumis melo]) HSP 1 Score: 1366.3 bits (3535), Expect = 0.0e+00 Identity = 721/787 (91.61%), Postives = 742/787 (94.28%), Query Frame = 0
BLAST of PI0022603 vs. NCBI nr
Match: XP_011656946.1 (meiosis-specific protein ASY3 [Cucumis sativus] >XP_031742376.1 meiosis-specific protein ASY3 [Cucumis sativus] >XP_031742377.1 meiosis-specific protein ASY3 [Cucumis sativus] >KGN46732.1 hypothetical protein Csa_020800 [Cucumis sativus]) HSP 1 Score: 1356.7 bits (3510), Expect = 0.0e+00 Identity = 721/795 (90.69%), Postives = 741/795 (93.21%), Query Frame = 0
BLAST of PI0022603 vs. NCBI nr
Match: XP_016900523.1 (PREDICTED: uncharacterized protein LOC103490538 isoform X2 [Cucumis melo]) HSP 1 Score: 1341.6 bits (3471), Expect = 0.0e+00 Identity = 709/773 (91.72%), Postives = 730/773 (94.44%), Query Frame = 0
BLAST of PI0022603 vs. NCBI nr
Match: XP_038902845.1 (meiosis-specific protein ASY3 isoform X3 [Benincasa hispida]) HSP 1 Score: 1257.3 bits (3252), Expect = 0.0e+00 Identity = 661/786 (84.10%), Postives = 702/786 (89.31%), Query Frame = 0
BLAST of PI0022603 vs. NCBI nr
Match: XP_038902842.1 (meiosis-specific protein ASY3 isoform X1 [Benincasa hispida] >XP_038902843.1 meiosis-specific protein ASY3 isoform X1 [Benincasa hispida]) HSP 1 Score: 1250.7 bits (3235), Expect = 0.0e+00 Identity = 661/792 (83.46%), Postives = 702/792 (88.64%), Query Frame = 0
BLAST of PI0022603 vs. TAIR 10
Match: AT2G46980.2 (unknown protein; Has 3995 Blast hits to 3325 proteins in 374 species: Archae - 19; Bacteria - 205; Metazoa - 2201; Fungi - 364; Plants - 149; Viruses - 22; Other Eukaryotes - 1035 (source: NCBI BLink). ) HSP 1 Score: 238.8 bits (608), Expect = 1.5e-62 Identity = 244/823 (29.65%), Postives = 392/823 (47.63%), Query Frame = 0
BLAST of PI0022603 vs. TAIR 10
Match: AT2G46980.3 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown. ) HSP 1 Score: 230.3 bits (586), Expect = 5.2e-60 Identity = 243/823 (29.53%), Postives = 389/823 (47.27%), Query Frame = 0
BLAST of PI0022603 vs. TAIR 10
Match: AT2G46980.1 (unknown protein; Has 1165 Blast hits to 947 proteins in 158 species: Archae - 0; Bacteria - 33; Metazoa - 631; Fungi - 90; Plants - 54; Viruses - 14; Other Eukaryotes - 343 (source: NCBI BLink). ) HSP 1 Score: 125.9 bits (315), Expect = 1.4e-28 Identity = 153/541 (28.28%), Postives = 239/541 (44.18%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
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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