IVF0005094.2 (mRNA) Melon (IVF77) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAGTCATACACTCAGCCACGAGCAATAATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCTAACACCTAAATTCCGACTACTTTCTCTATCTGCAATTCCAAACATGTTACATTTTCCAAATCAACCTAATCTCTACTTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGTTTGGTCCACTAAGGAGGAGGGATTTTCAAACCAGAAGTCGCTTAACATTTGTAAATTGTGGTGCAGGAGCAACAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCCTATAAGAAACTCGCTCGTAAGGTATTTTCCGTTTTGTTTTCTGCTATTAGTATTTTCTTGATTTTTACGGGGCTTCTTGGTCCCCAGTAAAGCGAATTAGAGGGTTTAAAATCGAATGGAACTGCACTGTGGGCGGGGTAATGAGAAACTAGAGACTTGAAAGATATTTGAATTTTCAAATGCTACACGTGTATTCCAAACCTGAAACTCAGAAAAATCTCAACAGAGGCAGCACTATGTTACAATATACTGAAATAACAAGCCAAATGTCTACAACCAGTCAAGAATATAAGCAAGGATGATAAAAACAATAAGAACACCAAACTTAGTTCCATCGAGAAGGCTGGAAACCTCTCCTAATAAATCCTACAGCAGCTTTCACAGAAAACGAAACCTAAAAACATCAATCCCTAAACATTCTATATAAATACCCACCACAGCAGTGGCCCTCAAGTGTTACTTCCTCTCTCCTCAGCTCCTCATTTGCTTATTCTGTGTTATTCCCCTTTTTGCCCCTTCTCTTGTATGTGTATAATATCGGGGTCTAACATTACCGCTCGGCTTGAAACTCACCTTGTCCTCGAGGTGAAATGAGGGAAATTGCTGATTCATTAAGTACATCTCCTCCCAAGTCGTTTAGCTGTCTGGCATCCTCATCCACTTGACAAGCCACTCGTTTGTGGCCATTTCTCTATTCCATCTAATCCCTAGAACTGCCTCTCGCTTCAGCTGCAATTCAAATTCTTCAGTCAACATGGGGGGAAATGTTGGACCTTTGAGTTTGACCGAATTTCAACTTCAGCTGGGATACATGAAAAACCTCATGGATACATGCTTTCTTGGTAATTCCAAGCGATATGCCACTTCTCCAAATTTTTCATGATTATGTAGGGTCCATAAAACTTAGGAGAAAGCTTCTCACTTCTCTTTTTTGCTAAGGATCTTTGTCGATAGGGCCTTAATTTCAATTACACTTCATCACCTACTTGAAAGGTCATCTCCCTTCAGTGTAGATCCGCTTGCTTTTTCATCCGATTTTGAGCCAAAACAAAATTATCCTTTAGCGCTTTAATTATCAACTCCCTCTTCTTAAACAATTGATTAGTACTATAATTTGTTGTCTTTCTTTAATCATAAGAGACGATAGGGGGTGGGGATCTCCCATAAACAGTTGGAATGGGGTTGTCTTCGAAGAGGCATGGAATGTGGTGTTGTACCAAAGTTTAGCCCATGGAATAGGCATGGAATGGGGTTGTCTTCGAAAAGGCCTCCTTCAACCTCTTTCTTCTAACAAAGCATTTTGGAAATGGTTTAAAAAGGGTTGGAAGATGCCTTTTTTCATTATATTGATGTAAAGTTTGTTTTCTTTTAAAAAAAACTTTGTCTTCTTCATCTTTGGTAAAGGTATACAAGTTAAAGTTACTCTGTCCTTTTTCAAATGGGAATCTCGTTTTCTGCCTCATGGTATCGGCCCATGAGCATCTACTTTGTATTTAATTATCCCCCCAACCCCTTTTATTTTTATTCGAACAGTACCATCCAGATGTGAACAAGGAACCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTGAGAATCAAGACTCTCATTTGAGCATCAATACCTTGTGTAATTGTGTATATCTATATCTAATTTTTTTAATCATTTTATGGATTTTCTAATTGATTTCTCATCTTTCAACTTGTTTGTCGAGTTACTTCTTGATGTTTAAGAGGTTGATATGTAGTTTTTCTTTTAAATGGAGACAAGCCTCTTTATTAATAATGGAAAATGAGACTAATGCTCAATGTACAAGAGAATTATACTAAGAGCAAAAAGAAAAGACAAAAACTACAAAACAAACTGCCCAAAGATGATCTCAGCCAATACAAGGAAAAAAGACCAAAACAAAACAATCACAATCACAAAGAACAAGCGAAAAAGGTGAAATCGAAAGAAATATGAAGCTAAAACAGAACCAAAATGAAGAGATCTAAATACAAAGCATAACAAAATAACTCTCTCGAAAGGAAACATTCGAATCTAGAGACTAGCAAGAAAAGCATCCAACTATCTCAAAGCTATCATGCCAAAGTAGTCCAAAATCGAGAAGAGGCCTGAAAAAGCCTTTCCAAATATCAACATCAGCAAAAGGTTGTACTTCCTTTTGCAACACCTCAACACCCCATGTTGAAACTTCAGAGACAAAGATTAATGTTCCAAATGAAAATACATCCCCCATGTGTGCAGAAGTATAAAAGTATTCTCCAAAATAATTCTTCCATAAGCCACTCTAAGAGATTTCATCACCTTTTTAAACCATAACACGATTCATGATGAACAAGATAATCTCACAGAATAGGATTTGAGAAATATTAGGCAGCCAAAGTTTCTGCAATGAAGACTTCCAAAGATGAGTTGCACGAAACATTAACATTCTCTCCAACTTCTCTTTCTGCTTTCTCTTACTATATTGGAATAAAATTGGGGGACTAACAACATGGAGGGCTGAACTGCTAATTTAAGCCAAAGTAATTCCACAATCATTGACTATTGGCAACAAATATTTTGGCAGATCCATGGGAACTTTATTTGGAGAGAAGCCTTCATCATTAAACAGAGCATTAATATCCACCCCTTCAATTTCCGGGTCTAATTTAAGGTCAAACGCGCTGAAAGCACCAGCTGATTCTTTACTACTAACACTGAATGGAGAAGAAATATCAAGTTGGTTCTTGAAAGAATAATCTGCTTTGCAGGGGGAGCCTCATAGAATAGAAGCCTTTGTGTTAGTGATGGTGGATTTAGAAAAATTGAAAAGTTCAGAAGTAGAATCTGCATTTACTGACCTAATGAAGCATTAACGGGCCTGAACTTTAGAGCTGTATACTTCCAGCAGATCTCGGTTTTTATTGGAAATGGAGTGCTTGATGGGATGAATCCAAAGAGAGTCTAAAGGGGAAACTTTAAGGTCACAAACCCCATTTAATTCTGATTTTAGTAGGGCAGTCCAAACATTGTTGAAGGAGGTTTGCTTGTAGATATAATGTTTGAGAATTTTTGGAGATTGAGAGGATTTACTTCCTTTGGCACATATGAAACGATTGGAAATTCCATAATCTAGAGAAAGATGGGCCCATGCACTAATGAAATTTGAATTTTTCGTTTCTGAGGCCATCTGAAATGTTTTTTGCATTAAAAAGTGTTAGAGCTATCAACAGAAACTTTTGGACAAATTTCATAATTACTCTTATTGGAAATAAAGTGGGCCATTTTTTCATTAATCCTCTCACTTGATGACTCATACACGACTCTTTGGCTACTAGAATTTTAAAAGTTGGATTAATAGAAGTGGACCCCACTGCCTTTTTGCAACAGCTGTTAGTCTTGGTTTCGGCAAAATTCAAATTAGGAGCCTGTTCAGTTGCCGGTGTAATTAATTCCCCTTCAAACTGAATGTCGGCCACTGTCTTCTTATCCAACGTCAATGGGATGGCCAAAAATTTCTTAAGAATTTCAAATGAATTTCTACCTCGGGGAAGAACTGCAAACACTGATTTCGGGCTGAGGGGAAGGAAGAAGGATCAATATCTTCATCAAGCAAAACATCTCTAACTCTTCAACAATCAATATAGTTTTTAACATCATCCCATAAGGAAGGAACTTTGGAGGGACCGGTAGGATTTAGGAATTCAAAATCTCTAAAATGAAGGTAGATATTTTCCCTTTTTAGGTTAGTAATTTCAATCGTGGACGGCACAAAACCACATAATTTCTTCTTAACTTGAATTCGGGCTTCACTAATGTTGGTTAAGTTCAAAGTTTCAGAGGCTATATCCGTGAGACCTCCAAAGTGATCCCCAATAACCTCAAAGGTACTTCTACACCAGTAATCCAAATGGAGGATTTTAATCTTGAGCCAACTGCCATAGTCTTTTTGAACTAGTGGCCGACTGTGTTTGAGGTTATCCCACCTTACAATTTGAGATGAAAGTTCCCCCACGTCTGCCATTTACCTTCCTCACGGATGAAGTCTAATATTGATCCTTGGTCAATGCTAATGAGGGCATTCTCATCACAAAGACGATTTATAACAATTTTCGTTTGGAAAGACTTCCAACCTCTTACGGATCAATCGTCTGAGACAAATAATTTTGATATAATTCATAGATTTTCAAAATTGACCTTCACAACTTCATGGTTCTTAATCAACTGATGCTTTTGTTTTGGAGGGGAAGAATGGTTGGGCACTCGAAGCTTCCTGTTTTGACTAGGAATCTGATTGATTTCCTTGGATTTGGACCTTGGAGTAGGGGAGTTAGAAAGACTAGATTTTGTCATTTCAACATAACTTAATTTTCCTCTCATTTTCGAAGAAGGGATCTTGGAGATATTATCAGAATGCCATCTATCAAAATCCAATTTTTCGACAAATTTTGTCCAACATCATACAAAATAACTTCCAACCTTGCAGATATTTTCCTAAGCACACTTTAATATTGAAAAGACCCCCTGAATATGGCCAATGATCGCAACTTAGAATCCATCCAGACTTAGCTTGAAACTTCGAAATTCTCAATCTTCCTCTGTCGATGTCCTCGAATTTCCTAAAATGGCTGTCCACCGGAATTTTGAGTAAATCGGCTATTACTGACTGGGTCCATCTAAGTTGGCTATCAGAAAGAAAGATGCTTCTGTCGGCTTCTACATCTTCGATAAAGCAAACATCTTCCTTTCCAATTGCAATAGTGTGACTGATCGATTTTGCAACTAACAACCTCCGTGTTGTGCTTTGAGAATTAACGGAGAGATATGCTGAGAAACCCCTTGCTGGAGAGGGGAGGAGAGAGGAGAGAGGAGAGAGGAGAGAGGGGAGAGAACTTATTTACGCATATTTTTTTTAGTTAGTCTTTTAAAAGTTGTGGTTGATGTGTAGTTTCTCATTCCTGGAATATAGCAAATAGATATTTTGTTGTTGTTTTAAAAAAATTAATGATTAAAATGTTAAAAGGAAATTAGGGTTTATGGCTTATTATCTTTTTGAAACGGAAACAAGTCTCTTTATTAATGATCATAAATGAGACTAAAGCTCAAAGTACAAGAGTATTATACTAAGAGCAAAAATAACTAAGAGAGAATACTATCAAAGACAAAAAAAAGAAAAAAACTGTACTTAGGCAACATAGAAATGATGGCAACCTAAAAACGAATTCCAATAGAAAATTAACGAGCTGAACAAAGCCACTTGAAGACAATGCATCCGTAGAAAGCTAAATACAAAGCTAAATACAAAGCAAAACTTAAAATCTCTCTCAAAAGGAGCCCACTCAAATGTAAAATCTTGCACGCCCAAAGCTTGAGGATGAAAGGAGGAAGAAAAACGCCAAGAAGATGCTACCAGCTACTTCAAAACTATCTTGCCAATGTAATCCAATACTCAGAGGACCTCGAAGAAGTCTTCCAAACCACAGAATCTGTTCCCAAAAGAAATCCCCAGTAGTTACTCCCCTTTGGCAAACCAAAAAACACAGACCAAACACAAAAACCAACATTAAGCAAGCTACCTCAATTAGTGAAGCCAAGACTCTCAACCTTGATGAAATTGCTGAAGGCCTCCTAGTTATTGCTTCCTAATGTTTCCATTTGAGTTTTATTTTTGGTCTAGTTTTGGAACTGTTAAGTTTTCATTTTATTTTGTTTAAGCTTTTCTTTTGCCTTGTTTGGGGATTACTTTGTTTTAGTTAGAAGTCTCAATGTAATCTTTGATGTATTCTTGGAAAAGATGAGGGGCTATGGAGGTGCTAACCTAGTTGAGATGTTTGGGTGCATCTCCTAATTCTTTTTTGGTTTCTTTATATTTGTTCAATGTATAATTCTCTTGTACCTTGAGTTTTAATTAATAACGAAGCTGATCTCCTTTTCAAAAATAGAAAAAATGTCAGCGGAAACAGAGAATATTTCAAAAAATCTCTCTGCTCCTTGTTTTTGCACTTGTGATCATGAGAATATTTTTCGTTGCAGCGGAAATAGAGACCTTTCTCCTTCCTGGCTTGAAATTCGGCCTCACTTAATCTCTTCGATGTTCCTTCCTTCTTAGTTTCCCCAATCGGATTCGACTTCAGCGTGATTGTTCTCATTGGGAATGTAGTATTTCCTTTATCGCTTATTGAATTATTAGGTTTTGAAATAGAAGAAGGGTAAAAAGGGTATTTACCTCCACTGTAGCCTTTGAGACTTGCTTCATTTCGAATTTTCTCCCGATTTTCCGTTAATTGGGCTAATAACATCATTTCGGCCAAGCCGGTTCGCCTACAAAATTCAACTTCGGCCTTGATCCACAGAAAAAGCCCACCCATAAAAGTCTCTTCGATCACCCGATCTGGCAAGTCCGATACCGGTGCCATTAATCTATCGAATTTGTTCTGATATTCTTCCACGCTCGATTCTTGCTGGATCCTTAAGAACTGCAAGCAGATTGATCCTTCCCTTGATGATCGGAATCGTACAAGTAATCGTTCCTTTAAATTTGCCCAATCCTTGAATTTATCCCGCTCTTCTTGCGCTCTATACCAATTTAGGGCTGGTCCTTCGAAGCTGATTGTTGCTACGGTCATTTTCTCAGAATCGGTCAACCTATGAATTTGGAAATAGCGATCTGCACGAAATAGCCACGCATCTGGATCTTCACCGTTGAACACGGGCATCTCAACCTTTTTGAATTTACTTCGATCATTGTTTTTTTCTTCTCCATTCTTTTCGTTCTCATTTCCTTCATCAATCAATTCTGTCACTTTTGTTTTCGCTTTACTCGTCGATCCCTCTGATTCACGTGTTGTTGATTGTCCTTTCATCATGCTTTCGATATATTGCAAAATTAGTTGCTGTTGATTCTGTTCATTCTGTGAATCATCTTTTCTAAGTGTTCTGTAATTTTTGCTTCCAGCATCGGTATTCTCTGTAATTCAGTCTGGATGTTGATGATTTCTTGCTCGATGGCTTCGAATCTCTCTTCAGCTTTCTTTGCCATTTTCCTTTTTTTGCCCAGGGTTGAACAGCTCTGATACCAATGTGATGGAACACCACTGGTATTCAATTACACTTTATTGATATCAAATCTCAATTACAAGAAGTAATCCTCTCTTTCTCGGTTATTCTATCTTTCAAGAATTAACACGAGACTTTCTTCATAAGATTTTCTCTATCTATTCACTGGGGTTCTATGGCTATTTATAATGCACTTATTCAACTACTTCTTCAACAGATTTCCTACTTACTTTGCTAACTGATCATAACAGTTTTCTGTTAACAGTTTTGCTAACAAACTTAATTGTCTTTCTTTCTTTTACTGTATGTTTGGATGATAGGGGGTCTATCACAATTCAAGTACAAATCCTGAATAGAGTAGTTAGTAAACTCCTCTAATGTTCTTGAAGGCCGTCAAATCCTTAGAACTCAAGGACACAGATGTACAACCTATAGAACAGATCCTGTTCAAGTAAGGTCGTAAAGGCCGTCAAATCCTAGACCCTATCCTAATAGAAAATGAAGAAATGGAGGAGAGAGGACTTATCTTTGGAGTCATTTCGTACTTCATCGCTGATGGATTCTTCTTCATGGTCTTAGTCTTATTGCCCAAAGGATGGTATTTTTGTATTTTGGCTTTACATGTATCACTATCATATGCTGTAAAGGCAGTATGGTAGCCTTCTTTGACAGGTCTATTCTTAGTATATTGGGAAGTTCTAAGGAGTGAAATAAATCTTTTTGCACAATATTGGGAACTTCTAATGGTTCAAAATCTCCAAAATTATGAAAAAAATTATCTCTGGTTCCACTCTTCAATTCTATAGTTGTCGGTAGAAATCCACACAGACTTTTCCAAACTCTAATTCTTGCTTCAGACTTCAGAGCACTTAATGAGATTAAGAGTTTCTAAAGCTATGTTTTCCAATCCTCCAAAGTAAGCCCCGATAACTTCAAATATATCTCTTCGGCATAGGTTGAGAGGGAGGTTTTTGATTGATAACCATCCTCTAAACCCTTCAAGAGATGGTCTGCTGTCTTTGGCTGCATTCCATTTTTCAAATAAGAGATGATATTTCCCGTAATTAAACAATTTGTCTAGTGAATAAATCATATCTTCTAACTTCCCTTGGGTAACTTTAATAATGGCTTTGTTTGCCAATAATGGGTTGATATTGATTTTAACCTGGAACAAATCTTCTAGGAATGTTGAGATGTCCTTCCATTCGTCCAAAAGGAATAATCTTGTTAAAACCCACAGGTTATTGAAATCTTCCTCTAGGATATCATCACTTTTCGGCAGCAAGTATCTCTACTCGATCGTTTTCAGTCTCTCTAGAAGATTGACTTAGATTTTTGGATTTATTCAATGAAGGGACTTGTTTCTGTTTAAAAAAAAACTAGTAGCTGGCTGCCACGTGTTTGCACTCAATTGGCATGTTTCATAATCTTATTGGTCCACGTGCCCACATGTCACCATGTCATATGTCATGAAATCAATTTTGACTGCTAGAAGTGCCACGTCAGCGTGTTAACCATTGACCATCCACACGTCATGTTTTGAGCTCTACCCAATAAACTTTTCAAAACACTCAAATTGCTAGTGAATAAAAGCAGATTTTTTTTATCATCAAAGTATTAATTAATTAATTAAAATTGATTTATTTGAGATCAAAGATTATATCAATTACAGTTTTGTTTCCCTTGGAAAAAAGGCCAAAATACAGGAGGGCTGAGAATGGATGAAGGCTTGGATAGGAGAAAAGGAAAGGAGTGGAAATGAGAGAGGAGAGTGCATACCTCTGTTTTCTCGTTCTTGTGTTCTTTTTTCAAGTCATTTGCTGATTTTCTTGCTCACTTGTAATTGTTAGTTTTGTTGTGCTTTATGGTTTTCTTTCACTCCTATGTGAAATTAGAAATGATTTAGATTAATCTCTTTTCATTAATTCAATTCAAAGTGTTTTCTCTTCTTTAAAATAAAAAAGAAAAAGAAAAGAAAAATAATGATCCTGCATTTCTTTGCATTCATGTGATAATGGAGTAGTTGTGTAGGTTCTATCAGATGATGAGAAAAGATATTTATATGATCAACTCAGCGAGGCAGGTGTGCAGGGAGACTATGGTGTAATGAGTCGTGATTCACAAGGGGTAAGATTATTGCTAGCATTTAGCTGACTGGCATTTGCGTCATTCGTGAAATTATATATGAGCTATTTTCTAATATAGCAAAATGAACCAAATTTTTTACAAAACATAGCAAAATATCACAGTCTATCTATGAATGGACCACGATAGATCATGATAGACATAGATAGTAGTTTATCTTGGTCTATTACAGATAGGTAGTGATATTTGTTGTATTTGTAAATATTTTCAGAAGTTTTGTCGTTAATAATAATTTACCAAATTATATACATATATAAATTGTTTATGGAATTCTTTTAGGTTGATCCCTTTGAAATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGAGATGGAATTGGAGGCATCAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCAGTAAGAGGTCTATTTTATTTGATTATATTTTTTATTTTTATTTTTTTGTTTATTAAAAAATAAAAAGAAAATATCTTTTTTAATCACCGGAGATTCACTACTATACTAAGTTATTTGTGTGTATATATATATTTTAAAGGAGATAAGCTTCTTTATTAAATAGAACTCAAAGTATAAGAGAATTATATAACGAGGAAAAATAAAGAAATAAAAAATAGGGTCAAGAGGCGCACGTGGACATCTCAACTAGGTTGACATCTCCTTAGCGACCCATCATATCCAATAGTATATCAAATATTACATAGAAACCCCTATTAAGACAGAGTAAAATCCCAATAAGGCAAAAGCAAGGTGAAAGCTAAAGAACAACAAGGACTAAAAAGGTTCAAAACAAGACCAAAAATAAAACACCAATGGAGAACAGAAGAAAGTAAAAATAGGAGGTCTTCCGCGAAAAATTTCAACTACACTTTTTTTGTTTGACTTTATCCACATAACTTAGATTGCTTTCCATAATAGTGGGAATGTGCTTCAAATGACTTTTTTGATATGTTTCTCTCTAGAACATAAATTGTCCAGCATATTTAGAAAGAATCTCCATCCCTGTTTGTTTACCCCTAAGCACACCCTTATATTAGAATGCCCTGCTGATGAAAGCCAAAAGTCACATCTTAATACCCATCCACTCTGTTTTAAATTTTGAATCTTTCGATCTACCTCTATCCACTTCACCTAGCTTTTGAAAGAACTTCTCCTCTGGCCCTCTTAATAATTCTGGGACTGCCTTCAACAACCATTCTAGATGAAATCTGGAGATTGACAAGATTCTACAAGCTTCCACATCTTCAACATGAATCTGATTTCCCTCAGTATAGTAATGAGACTCAAGGACTTTGCAGCTAACTACCTCCATATTTGGATGAAAGAGCCGGCAGCCGGAAGGAAAGAGGATATAGGGAGGAGGGAGGATGGAGGAGAGGGGAAAGAGAACTTACCTTCAGTATGATTTTTTAGGTTCCTGGCTTCGACATTTGGTGATTCTAATTCGTCACGGTTTTTGTTTGAAGCAGTTTAATATTTTTCTATCTCCTTGAACAGCCCTTTTAGTTTCAAGTAGGGGGAATTTTGCCACATGCTGAGAATCCTGGTTCCTAGTCACTCTAAGCCATTCAAGATTGAATGGGATCGATCTGATTCCATCACATTTGGAGTAAAGTGAGGAATAAAATCCCAGCACCAAAACTTCAATTTCTCGAAAGGATTTTTTGGAGATCATATTTCTATTCTGCCAATTTCTACATTTAGTCAATTGAAAAACAAATTAATCCTATTCCAATTCCTCTGTTTTAAGAGGATTGAAAAGTAAACCAATCTTCTTCCAATTCCTATTCTTAGAGAATTGAACAGCAAGCTAATCTTATTCTTAATTGATCAAAGAAACTAATTCTAGCTTTAATTGGGTTATGATGTTTTGGTGTTAAAGGGGTGTCAACCTAGTTGAGATGTCTAAGTGCACCTTCTGATCCTCCCTCTCTTATTGCTCTCTAGGCTTTATTATTATGCTCATTATATAACTCTCTTGTATTTTGAGTTGTTATTAATAAAGAAGTTTGTCTCCATTTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTAATTCTAATCCTATTCCACCAAGGAAACATCTTTTTGTTTTTTGTTTTTATTTATTTATTTATTTTTGTAAAGGAAACAAAAGTTTCTTTGATGAAATGAAAAGAGTTTATACTTATCCTAATGGTTTAGCTTTTAGCTTAAATTACAGATGTATTCCTATTCCCAAAAGAGTTTAATGCTTAAAGGACATAAATTCCAGAGGGTAAGAAAAATAACACCCACAACATTTATGGAGAAAATTAATCAATTATATTTTTATCCTAACCATAATCAATTAAGGAAACTAATTATATGCTTCATAAATTTGCAATAATTCAAGAAACTAGAAGAGACTGGCTTCAATAAAGCATTCATAAAAAGCATCTAGAGCTCCAAAGATGTTGGTGGGACTTTTGTTGGAAGCTTTAAGGAGTTTCACGGGCATTCTTACAATGTGGGATGAAGGATTTTTCAGACTGACATTACTAAAGCAGATTTCTCATTGAAAGTTAAGTGTTTGAATATTTGCAAAAAGCAATGCGAAGGGTCCAAAACTTAGGAATATTTAGTAATTCCTCTGGACTGGAGTAATGCGGTGAAGGCAGTGCTGGCAGGCTATTGTTTTTCCAGACTTAAGACAGCTCGCTTTATTTTCTTCTCTTTGGTCCTCCCTTTCAATGGCTTTTACTGTTTATTCCAGTAAAGAAAATAACTTAAATTGGTGTTGTTTCCTCTCCATGGAATTCAGACCATGGCTATGGACGTCTCTTTAGCCTATTATTATGCTCTATGCAATTGTGTTCTAAGCTTGTACTTTGTTTGCTTAGTTTCTGAGTTGTTTTTGGTTGAAAGTTCTTAAAGGTTTGCTTTATATTGTATTGTGTCTAAGATCTTTAAGTTTCTTTGGAAGTGGAGATATTGTTAGTGCAAAGGGGGTGTCAACCTAGTTGACATGTCTGGGCACCCCGCTGATCCATAGTTACTTTCATTTCCTTTTTGTTTTTTACTTACTTTGAGCATTAGTCTCATTTCATTATCCTAATGAAGAGGCTTGTTTCTCGTTAAAAAAAATTAAAGATTTGACCAAGAGACCCTAATTTACTCTAATCCTACTACATTATGATCATTTATCTAAGCTTGCTCTTATCATGGTTTCACTTGAACTGAGTTTGTGTATTCTTTCATATTTGTTAGTGTAAATTAGATGACGTGTGCTTACAAAATAGTCTGACTTGTACATTCCTTTTCTTCTCTTAACCTTACAGTTATGCCTTGCACCTAAGCTTTGAAGAATCAGTTTTCGGAGGAGAGCAGGCCATTCAATTTTCCTTTTTTGAGACATGTGGAAAATGTGATGGTACGGGTGCTAAATCAAATAGTTGCATAAAATTGTGTGCTAACTGTCATGGAAGAGGAGGAGTGGTCAAAACTCAGAAAACACCATTTGGAATGATGTCACAGGTAGTTTTTTTCCTTCCTTATTTTGGAAAAGGAAATTTGATTTTCATTCAATTAATGAAATGGGACAAAGTCTCAAAGTACATAAAGATAATACAACAAGTAATCTATTCTAAGAATCAAAAAATACTTGGTCAGGGTATGTTAAATCTTTTATACATATTATTACCAATTGATGCGAGGGAAGGTAATGAAAAACTGATTTGCGATTGTAACACCAGTACTTTTTACAATCTTACTTGAACAGGATATGTTCTGTAGGTTGTACATCTGTGTCCTTGAGTTTTAAGGAGACAAAGACGTAAGTCTGGTGGATGAACCACTGAAAAATACTAGTACCTTTTTTTAAACGAAACAAAATTTTCATTGATATAATGAAAAAAGTCTAATGCTCAAACTTTTCAAGTGTAACAATAGAACTCAATAATGTACTTTAATTTCTCAATTGCTTTCTTACAAATTTCACGTGTTCAAATGAATTTTGGTTTTTAGAAAAAAGTCGTATGAAAAATTCAACTCTTAGTCTCGTGGATTTACCTTAAGCTCATTGCTCTGTGACATCTTAGGTGTCCATATGTTCTGAATGTGGCGGTGATGGTAAGAAAATAACAGAGTTATGTCGAAGCTGTGGTGGCAGTGGTCAACTGCAATCAATTAAAAAATGAACTTAGTAATACCCCCAGGTGTCAGCGATGGAGCCACGATGAAAATTCAAAGAGAGGGTAGTTATGATAAGAAAAGGTTTAGCTATCCCTTCCTTTCTTATCCTTTTTATAGATTACAAATTTGA ATGAAGTCATACACTCAGCCACGAGCAATAATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCTAACACCTAAATTCCGACTACTTTCTCTATCTGCAATTCCAAACATGTTACATTTTCCAAATCAACCTAATCTCTACTTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGAGCAACAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCCTATAAGAAACTCGCTCGTAAGTATTTTCTTGATTTTTACGGGGCTTCTTGGTCCCCAGTAAAGCGAATTAGAGGGTTTAAAATCGAATGGAACTGCACTGTGGGCGGGTACCATCCAGATGTGAACAAGGAACCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTTCTATCAGATGATGAGAAAAGATATTTATATGATCAACTCAGCGAGGCAGGTGTGCAGGGAGACTATGGTGTAATGAGTCGTGATTCACAAGGGGTTGATCCCTTTGAAATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGAGATGGAATTGGAGGCATCAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCATTATGCCTTGCACCTAAGCTTTGAAGAATCAGTTTTCGGAGGAGAGCAGGCCATTCAATTTTCCTTTTTTGAGACATGTGGAAAATGTGATGGTACGGGTGCTAAATCAAATAGTTGCATAAAATTGTGTGCTAACTGTCATGGAAGAGGAGGAGTGGTCAAAACTCAGAAAACACCATTTGGAATGATGTCACAGGTGTCCATATGTTCTGAATGTGGCGGTGATGGTAAGAAAATAACAGAGTTATGTCGAAGCTGTGGTGGCAGTGTAATACCCCCAGGTGTCAGCGATGGAGCCACGATGAAAATTCAAAGAGAGGGTAGTTATGATAAGAAAAGGTTTAGCTATCCCTTCCTTTCTTATCCTTTTTATAGATTACAAATTTGA ATGAAGTCATACACTCAGCCACGAGCAATAATGCCACCCAATGGTATTTGCAGTCCCTGCAATGCGAACCTTAACCTAACACCTAAATTCCGACTACTTTCTCTATCTGCAATTCCAAACATGTTACATTTTCCAAATCAACCTAATCTCTACTTCGGTTCCAGCTCAAACTATTCCGGATTTTCCCGCTTGAGCAACAGGGCCGCCGCTACTGATCACTATTCGACGTTGAATGTTAGCCGGAATGCAACATTGCAGGATATAAAAAACTCCTATAAGAAACTCGCTCGTAAGTATTTTCTTGATTTTTACGGGGCTTCTTGGTCCCCAGTAAAGCGAATTAGAGGGTTTAAAATCGAATGGAACTGCACTGTGGGCGGGTACCATCCAGATGTGAACAAGGAACCTGGATCTGAAGACAGGTTCAAAGAGATAAGTGCTGCATATGAGGTTCTATCAGATGATGAGAAAAGATATTTATATGATCAACTCAGCGAGGCAGGTGTGCAGGGAGACTATGGTGTAATGAGTCGTGATTCACAAGGGGTTGATCCCTTTGAAATTTTTGATGCATTCTTTGGAGGATCAGATGGACTTTTTAGAGAAAGAGATGGAATTGGAGGCATCAATTTAAATCAGAGGAGTGAAAAAATTCAAAGTCTTGATATTCATTATGCCTTGCACCTAAGCTTTGAAGAATCAGTTTTCGGAGGAGAGCAGGCCATTCAATTTTCCTTTTTTGAGACATGTGGAAAATGTGATGGTACGGGTGCTAAATCAAATAGTTGCATAAAATTGTGTGCTAACTGTCATGGAAGAGGAGGAGTGGTCAAAACTCAGAAAACACCATTTGGAATGATGTCACAGGTGTCCATATGTTCTGAATGTGGCGGTGATGGTAAGAAAATAACAGAGTTATGTCGAAGCTGTGGTGGCAGTGTAATACCCCCAGGTGTCAGCGATGGAGCCACGATGAAAATTCAAAGAGAGGGTAGTTATGATAAGAAAAGGTTTAGCTATCCCTTCCTTTCTTATCCTTTTTATAGATTACAAATTTGA MKSYTQPRAIMPPNGICSPCNANLNLTPKFRLLSLSAIPNMLHFPNQPNLYFGSSSNYSGFSRLSNRAAATDHYSTLNVSRNATLQDIKNSYKKLARKYFLDFYGASWSPVKRIRGFKIEWNCTVGGYHPDVNKEPGSEDRFKEISAAYEVLSDDEKRYLYDQLSEAGVQGDYGVMSRDSQGVDPFEIFDAFFGGSDGLFRERDGIGGINLNQRSEKIQSLDIHYALHLSFEESVFGGEQAIQFSFFETCGKCDGTGAKSNSCIKLCANCHGRGGVVKTQKTPFGMMSQVSICSECGGDGKKITELCRSCGGSVIPPGVSDGATMKIQREGSYDKKRFSYPFLSYPFYRLQI Homology
BLAST of IVF0005094.2 vs. ExPASy Swiss-Prot
Match: Q9SJZ7 (Chaperone protein dnaJ A6, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DJA6 PE=2 SV=2) HSP 1 Score: 189.9 bits (481), Expect = 4.9e-47 Identity = 112/286 (39.16%), Postives = 158/286 (55.24%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy Swiss-Prot
Match: Q2JW78 (Chaperone protein DnaJ OS=Synechococcus sp. (strain JA-3-3Ab) OX=321327 GN=dnaJ PE=3 SV=1) HSP 1 Score: 183.3 bits (464), Expect = 4.6e-45 Identity = 108/285 (37.89%), Postives = 150/285 (52.63%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy Swiss-Prot
Match: B7JY68 (Chaperone protein DnaJ OS=Rippkaea orientalis (strain PCC 8801) OX=41431 GN=dnaJ PE=3 SV=1) HSP 1 Score: 182.2 bits (461), Expect = 1.0e-44 Identity = 105/277 (37.91%), Postives = 147/277 (53.07%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy Swiss-Prot
Match: B0CAZ0 (Chaperone protein DnaJ OS=Acaryochloris marina (strain MBIC 11017) OX=329726 GN=dnaJ PE=3 SV=1) HSP 1 Score: 181.8 bits (460), Expect = 1.3e-44 Identity = 108/279 (38.71%), Postives = 143/279 (51.25%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy Swiss-Prot
Match: Q55505 (Chaperone protein DnaJ 1 OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=dnaJ1 PE=3 SV=1) HSP 1 Score: 181.4 bits (459), Expect = 1.8e-44 Identity = 105/274 (38.32%), Postives = 146/274 (53.28%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy TrEMBL
Match: A0A0A0LT51 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G031710 PE=4 SV=1) HSP 1 Score: 649.4 bits (1674), Expect = 8.4e-183 Identity = 326/387 (84.24%), Postives = 334/387 (86.30%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy TrEMBL
Match: A0A1S3AZY1 (chaperone protein DnaJ isoform X1 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 6.1e-165 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy TrEMBL
Match: A0A1S4DUT2 (chaperone protein DnaJ isoform X4 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 6.1e-165 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy TrEMBL
Match: A0A1S3B179 (chaperone protein DnaJ isoform X2 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 6.1e-165 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. ExPASy TrEMBL
Match: A0A1S3B2L3 (chaperone protein DnaJ isoform X3 OS=Cucumis melo OX=3656 GN=LOC103484140 PE=3 SV=1) HSP 1 Score: 481.1 bits (1237), Expect = 4.0e-132 Identity = 257/348 (73.85%), Postives = 258/348 (74.14%), Query Frame = 0
BLAST of IVF0005094.2 vs. NCBI nr
Match: XP_016899475.1 (PREDICTED: chaperone protein DnaJ isoform X4 [Cucumis melo]) HSP 1 Score: 585 bits (1509), Expect = 1.17e-206 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. NCBI nr
Match: XP_008440493.1 (PREDICTED: chaperone protein DnaJ isoform X2 [Cucumis melo]) HSP 1 Score: 585 bits (1509), Expect = 2.06e-205 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. NCBI nr
Match: XP_008439676.1 (PREDICTED: chaperone protein DnaJ isoform X1 [Cucumis melo]) HSP 1 Score: 585 bits (1509), Expect = 2.36e-205 Identity = 306/371 (82.48%), Postives = 307/371 (82.75%), Query Frame = 0
BLAST of IVF0005094.2 vs. NCBI nr
Match: XP_031740633.1 (uncharacterized protein LOC101215426 isoform X3 [Cucumis sativus]) HSP 1 Score: 538 bits (1386), Expect = 4.74e-187 Identity = 285/372 (76.61%), Postives = 293/372 (78.76%), Query Frame = 0
BLAST of IVF0005094.2 vs. NCBI nr
Match: XP_011649534.1 (uncharacterized protein LOC101215426 isoform X2 [Cucumis sativus]) HSP 1 Score: 538 bits (1386), Expect = 6.01e-187 Identity = 285/372 (76.61%), Postives = 293/372 (78.76%), Query Frame = 0
BLAST of IVF0005094.2 vs. TAIR 10
Match: AT3G17830.1 (Molecular chaperone Hsp40/DnaJ family protein ) HSP 1 Score: 287.7 bits (735), Expect = 1.2e-77 Identity = 151/296 (51.01%), Postives = 195/296 (65.88%), Query Frame = 0
BLAST of IVF0005094.2 vs. TAIR 10
Match: AT1G80030.1 (Molecular chaperone Hsp40/DnaJ family protein ) HSP 1 Score: 211.5 bits (537), Expect = 1.1e-54 Identity = 116/275 (42.18%), Postives = 160/275 (58.18%), Query Frame = 0
BLAST of IVF0005094.2 vs. TAIR 10
Match: AT1G80030.3 (Molecular chaperone Hsp40/DnaJ family protein ) HSP 1 Score: 211.5 bits (537), Expect = 1.1e-54 Identity = 116/275 (42.18%), Postives = 160/275 (58.18%), Query Frame = 0
BLAST of IVF0005094.2 vs. TAIR 10
Match: AT1G80030.2 (Molecular chaperone Hsp40/DnaJ family protein ) HSP 1 Score: 211.5 bits (537), Expect = 1.1e-54 Identity = 116/275 (42.18%), Postives = 160/275 (58.18%), Query Frame = 0
BLAST of IVF0005094.2 vs. TAIR 10
Match: AT2G22360.1 (DNAJ heat shock family protein ) HSP 1 Score: 189.9 bits (481), Expect = 3.5e-48 Identity = 112/286 (39.16%), Postives = 158/286 (55.24%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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