PI0028506 (gene) Melon (PI 482460) v1
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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.ATGGTGAAGGAGACAGAATACTATGATGTGCTTGGAGTCAGCCCCGCGGCTACAGAAGCTGAAATCAAGAAAGCTTATTACATCAAGGTGGTTTCCCTTTACATAATTTCCACCCAATTTCTGTGATATTCGGCTTAATCTTATTCCCTTTCCTCAGTTATCCCCTTCTTTGTTTGTTGGTTGTCGTGGCCGTCTTGTTACGGCGGACATCATGAGATTCGGACCTGATTGTCCATATTTCAGATTAGTTTGAAGATATTTGACATTTATCCCTCATTTATTATATGTGAGCAATAATTTGCAGCTGGATCTATTTGGTATTATTGATGTATAGACCCTACCTCTAGTTGCCTGCCACTCATTTCTCGTATTATTTATCGAATCTGCTTTATTTGACATCCTTATGACCTAAAATTTGAAATCTAATTCTGAAATGACCTTGCTCATACTGTTTTCATTTGGTATTATCCTGCTTCAATGAATTATTTTAATCTTACCCTATATTGTAACTGTGCCCTACTTCTTCTTCTATTCGATAGACAGATTCTTTGATTTTTATAAATAATCATTTTTTTTATGGATTTTAGGCACGGCAGGTTCATCCAGATAAAAACCCAAGTGATCCTCTGGCAGCACAAAATTTCAGGCACGTTGAATGGTGTTATTATGTTTTAACTTGTTTTGTGTTCATATTTACTTTCCATAGATTATATGCTAAAGCTTTTACTTATTTATTTATTCATTTTATGAAAGGAGCTTATACTGTAGTTGAGAACCTTCGTCTAATGGGGAGAGTAACATTAGTGTATCCCAGTTGAAATCAACCACTTGTGAAAAAATGATATTCCTAGTGCTAGGCAAGTGTTATGTTAGGATATTTCTTCACTTTTCTTGATAATCATATCACAACAACGATTACAAACCAAAATCAAATTTGCAAGCTAAAAACGAACAGCAACTAAACAAGGTAACCTAACATATTTGAGAGGGCTGGTGACTCTCCCAAAAAGAAATCTGCATGTTCTAATACAATTTTCAAGATAATGATCCCTAATCACAAAACAAACACTTATTCTAACATTCCCTCGACAAAGTACAACAAACTCTCACGTGTAGGCACTGGTGGATCCAGAAATCTTGTTAACGGGTGACTTTTATTTAGTAAAATTAATCTGAAAAAAATGTAACAAGTGAGGCTTGAACCTGGATCTAGAGGGGGCTAAAAGACTAATTTACCATTGGGCCAACTAATGACATTGGTATAATGTTAGTTTTTTATATATATATTATATAACGAGCATAAAGTTGAAGGGGGGCTTGAGCCCCTTCTGGGCCTTCTCTTATTCTGCCAGTGCTTGCATGTATTTTCATGTTTAGGGTGAAATCCCTTTCTTGCCCCTCATTTCATAAACCTTTTGGATAGGAAGCGTAACATAGTAATGTCATCTTAAAGAGATTTGAGCAAAAAATTCTGCATGAATGACAAACCTTGAGTATTTTCTCGTTTAAGGCCAAAAGGAAGAACATTGGGTGGGGAGAGACCTCCTTGCTCTTTGTTTTTTCATCTTTATCATTTGTCGTCGTGTAAAATCATTTTGTATTTGACTTCTTAGAGTGGTTTGGGAGATTTTGTTTCATGTTTTTTTGCTCTCTTTCTAATAGGGAAGTGATGTATGTGGCCTTTTTTTTTCTTTGCTCGAGGGCCACTCCTATAGGCAGGGGAGAAGGGATGTGAGAGTTTGGAGTCTCAATCCTTTGTAGGGATTCTCGTGTAATTTGGTTTTTCATAGTTTGGTTGATTTGTATCCCTTAGGAGTGTCAATTTTGTTGGTGTTTTGGAGGATTGAGATCCCTAGGAAGGTGACGTTCTTTACTTGTTAAGTTTTACTTGGTTACGCTAAGACAATGGACCAACTTGTGATTTTGCTCTCTCTGGAAATGCTTTGCAAGTTATACTATTTAGGATATTTGTCTTGTTAAAGAAAATTAGGTTTATTGCTAACTAGTATTTTGAGTTATTCCTATTTAGTATTTTCCTTTATTGTATTTTTTCCTTTATTAGTTTTTTGATGTCTATTTATTCACTCATGTAAGAGGTTGTTATGAACTCTAATTTATTCAATAGAAATTCACATGGTATCAAAGCAAGGTTTCTAGGCTTTTGTCTCATTGAACTTAGCCGCTGCCTTGTCCTTTCTTTGCCTCCGTTGACCGGTCATTGACGGAGGTAAATCCAAGCAAATCCATTCAGATCCATGCATAGATTCCCTGCTCGTGGTTTGCAATTGTTAGTCGTCTGTTTTCTGTTTGATTCAAAGTTTGTCGTGGGTGTTTGTCGACACTGTTTGTGACTCTTTGCGTTTGTGGATCTATGTTCTGTTTTCAAATTAGTTTGAGGGTTTTGTCATAGATCTCTATATGAGAATCTTTGTTTTCAACCAAGAAGTTCTTGTTTTTTATTCTTCATAGGTGTTTTGTTTCTTGCCTAAATCTGCTGATTTGATTCAAAGTTTTCTTCGCAAACTCAAGTTGTTCGTCATTCTACCATCTTGAGTTTGAGGGAGGGTCTTAAAGAAAATTATGGTTTATTGCTACCAAGTATTTGAGTTATTCCTATTTAGTATGTTCCTTTATTGTATTTTTTCTTTTATGTATTTTTCCTTTATTAGTTCATTGGTGTCTATTTATTCACTTATGTAAAAGGTTGTTATCAACTCTAATTTATTCAAGAAGTTGTTCAGATCAATGAGTCCCAATCCCAGCTACCTAGTGTCAACTTTTCCATCTGAATCACACTGAAAACAAAGAGAAGAGTGGGAGGAGGTGACTTAGCATCCTTTGTTGTCTTCACATTTCTTCCCTTCGTTATCTTCACTTTATGTTTCCGCCATTGCTAGCTTCACTCCTCTCTTGACGATCGTGAACCATCGATGCCCAGTCATACCGCCGCTAGCTTCTCTGCCCAGATACACTAACGCTGCAGCCAAACCACCTCTAAAAGACCGTTCTCGCTGCAACTAGACCAATCTACTTCTTTGTCTATGCACGTTTTGATGAGATCAACTCAGATCCGGCCAACCTCTGCAACAATCCAGTGACCTCTACTTAGATCGGCGACCTCCACTCAAATCTGATTGCTTAATCTAAATGGATCGCAAACCCTATCTGCCGTTGTCGACATATCACCGGTCGTTCGTGTTTGTAGTCGTCAGCCGTCGAAAAATTTGCATTTTTCGAGTCATCTTATATACGCGATGGAAGTAGAAAGCTATAAGGTGTTAGGCTCGTTTTATGTATTTGGTCGAAAAATGGACTTTTTCATATGGAAGACGCGGAAGCTCAAAAATCAATTGTAGTCTCTGAGCTCATTTGGAATGGTTTTTGGGTGCACAACCAGGGGCTTAGAGGATTGTTTCTTTTTGAATTCGGGGAATTGGACTGTGGTGGGATGAAACTCTCGAAGTTTAAAGGTATAGAAGGTTGGATTTTAAGTTGTGATTTTGGTCGGCAAAGGGTGGGTGTTCAACCATTCGAGTTTGTTCGGGGGTTGCAAAGCAGGGGTGGTTGTCCTTTCTGGAAGTGCTAGAAAGTTTTCAAATGAAAACGAAATACACGAGATGTTATTCGAGTCAGGGGCCACTAGATTCAAGCCGGGCACCAACTATGTTGAAAAGGTAAATTCGTATGTTTCTACAGTCTCAAGCCAAAAGCAAGTAAAAACAGAGCATCATAAAATTTGAAGTTCAGAGTTCAGTAGAACGAACAATGAGTGGTTAAGAATGTAAAGGTCTTCCAAGAGAACTTTGATTAGTTATGGATTGTTTCAAGATTATTTGCATTTGATGATTGGAAAGAAATAAAAGAAGTGCTGGATTTGATGAATTCATGATGGAAAATCTTCGAAAGACCTTGGCTTTATTTGAATGGTGCTCAGGCCAAAAGTTTAACTAGGAGAAGTCATTCGTTTGTGGGATCAACATCGAGGAAATTTGACTGCTGCAATGGCATCAAGGTTAAGTTGCAAAATAGAGAAATTTCCAATTATGTACCTCGGATTACCGCTAGGAGGTTACCCAAAGAGTACCTCTTTTTGGCAGCCATCATTGATAAAATTCAAGGAAAATTGAGTAAATGGTGAAGGTATAATCTCTCTCGAGGAGGAAGAATCACTCTTTGTAAATCAGTACTTTCTAATCTCCCAACATATTATATGTGCACTTTCCTCATGCCCGCCTCTGTATCCAACTCGCTGGAAAACCCATGAGGAAGTTTTTCTGGGAAGGTAATAATGGGGGAAGCTGAACCACTTGGTCAAATGGAACTAAATCATTAGGCACAAAGAGATGGAGGCCTCGATTTAAGTAACCTGAAAACCAGAAATCTGGCACTTTTATCAAAATGGGGCCGGTGTTATATGACAGATCAGAATTTTTTATGGTCTAAAGTTGTAAAGAGCATACATGGGATCAACCTAGTTGAGATGTCCGAGTGCACTTACTGATCTCTTAGTCTTTGATTTCGTCTCTTCATTGTACTCTACATTTTGTCCTTTCATTTACTTAATGAAGTGGCTTGTTTCTTTTTTTTTAAAAAAAGAGCATACATTGGAGCAATCCTTTCCATTGGCATACAAGTGGAAAGGAATATTTGAGCCTAAGAAGGAGAAACTCCAAATATGCTGAAACCAGAATGGGCCATTCTTTCCTCAAAATACTCGAAACCAGCTTTTTCGAGGAACCCTTTTGAAGTTTTGATGGAACAGGAGGCTAGTCGGGCATTGGATCCATCTCAAGTTTGCCGAAACCCCATCATCAAGTTTCAAAGTTGCCAGAGAAACACAAATCAGCCAGTAGAGAAGTTGAGGAAATCGAAAAGTCTAATTTATTGAAGATAGAGAGTTATGACCAAGCCAAATCCATCACCCAATAAGAAATCAAAGGAAGTTGAGAAGGCGTCTTTAAGGAGGACAAAGAAAAGAGTGGATATTTTAATTAATTTGACCAATCAGTTCCCAAGCATTATTAAGGTTTTTAAAGGAAAATCAAAAGTTAACTCAGGGGTCTTGGAGGTCTTGATCAACTCATTTGTGCTTTTGTTGTGATGCTCTTTAGTCCTTTTTTGTTTTTTTTCGCTCTTAGTATAATTCTCTTGTACTTTGAGCTTTAGTCTCACTTATGTAATAATAAAAAGGCTCGTTTCAACTGTAGAAAAGTTCGAAAAAGGTAAGTTCTCTCCCCTCTCTCCTCTTCCATTCCACTCTCTCCTCTCTCTCCTCTCTCCACTCTCCACTCTCTGCCGTTTGTATCTTTTAGATTGAACATCAATCAAATGGAAGTGCTTAGTTGTAAAGTACTCTAGTCGCATTATTGTATTTGGCAGGAAGGAGATCGATTTCATGTTGAAGATGTGGAAGCTCACAGAATCTTGGCAGTTTCAGAATTTCAACTAGTATGGTTCTTGGAAGCAGTCTTTGAATTGTTAAGAGGTCCAGAAGATAATACTATCAGAAGTTTGGTGATTTGGATAAAGGAAGACTAAAGATATCAAAGTTCAAACAAAGTTTGGTGGGTGTTAAGTTGCGATTTTTGGCCAAAATCAGGAGGTCACTCAACCTTAAGGGTGTGTTCAGGGAAGATAAACAAGGATGAAGGTCATTTCACAACATGTTGAAAAACTTCCTTTCTAAGGTGAAATATGCAAAATAGTTTTCGTGCAACCACTTCAAGGCTAACATCTTACCACAGGCCACAATCTTAGCTATGCAGACAAGGTTAAATCAAAGGACACCATGGGTTTTGTTAAAAAGAAAGGCAAACAGGACGCCTTCAAATCTGAAGATCAGTTTGACATTAGATGCGATGAAGGTTCTTCCTCTGTTTTGAAGTTAAAAAATAGGGTTGATGGGTGATTAAGAACACCGAAGTTATTCTGGGATAATTTAAAGAGCGATTTTCATTCCCTTTTAAGGAATTCTACTTTTGTCCGGTTTAGAGTTGTCTTTTATTCTGTTGTAATTGATAGGCTACTGTTGTATAGGTCTTAAGTTATGGACCTTTTTTACTTTCTTATTGACATTTCATTTTGCTTTTTCGGATATGATGAGGACGCTAAGTGGGTGTCGACCTAGTTGAGATATCCGGGTGCGTCTGTTGATCCTTAGTTCATTATTGCTCATTGTATAATCCTCTTGTACTTTGAGCTATGTCTCATTTTTTATATATAATAAATGAGATTCGTTTCCTTTTTTTTAAAAAAAGAACACCCGAAGTTATTCAAGCCAAGGTTGAGCATCTTTGGATAGTCACAAGGCTCTCCGCTTTCGATGACTAGAGAGAAATTCGGAAAATGTTGGAAATTTATTTCCAAGCAAAGATCATTATCAATCCTCTGTTCGACGAAAATGCTCTCATAAATCTAAATCAGGGCTTGATAGAGGACTTCATCTTTCACAGTAAAATGAGTGAGAATGATAGGTCTGATATTGTTGTTCCTAAAGATATGGGAGAAAAGGACAGTGTTGATCAGACTGAGGTCAGAACAGAAACTGAAGGTAATGAGGCAGAACAGGGTCATTCAGGTAAACTCGATGAGTATGATCCTTCTCTTGACATCACCATTGCACTGAGAAAAGGTACCAGGTCTTGCATGAAACACCCCATTTGTAACTATTTTTCCTATGAGAATCTATCCCACAATTCAAGCCTTCACAACTAGCCTTGACTCTACCGTGATACCTAAAAATATTCATAGTGCTTTAGAGTGCTTTGAGTGGAAAACTGCAGTTATAGAATAGATGATAGCTCTTGAAAAGAATAAGACTTGGGAGATCTGCACTCTCCCTAACGGACAAAACTGTGGGATGTAAATAGGTGTTCACACTCAAATACAGGGCAAATGGAACTCTTGACAAATACAAGGCCAGGTTATTGCAAAAGGGTTTACTCAGACCTATGGAGTCTCTTACTCAGAAACTTTTTCTCTAGTTGCTGAACTAAATACTGTTAGAGTCCTGTTATTAGTTGTTGTGAACAAAGACTGGCCTCTGTATCAGCTAGATGTTAAGAATGCGTTCTTGAATGGGGACCTGGAAGAGGAATTTTATATGAGCCCCCCAAGGTTTGAAGCCCAGTTTGATCATTAGGTTTGTAAACTTCAGATATCCTTGTATGGACTGAAATAGTCACCGAGAGCTTGGTTTGATAGGTTTACTACCTTTGTCAAGTCCCAAGGTACAGTCAGGGGCACTCTGACCACACCTTGTTTACAAAGGTCTCCAAGGCTAGGAAGATCGTAGTGTTGATTGTTTATGTTGATGACATCGTTTTATCTAGGATGACACTGCTGAGATCATCCAACTGAAGTATTTCCTTGGGATGGAGGTAGCCAGATCTAAAGAAGGTATCTCCGTTTCTCAAAGGAAGTATACCCTTGACTTGTTGACCGAGACAGGTATGCTGGGATGTCGTCCTGCGGATACTCCCATTGAATTCAACTGTAAACTGGAAATTCAGGTGATAAAATTCCAGTTGATAAAGAACAATATTGGCGCCTTGTGGGAAAGTTGATTTACTTGTCGCATACACGACCAAATATCTCCTATGCTGTGAGTGCCGTGAGCCAGTTAATGCAGGCTCCCTATGAGGAACACATGGAGGCAGTTAACAAAATCTTGAGATACTTAAAAACAACCCCTAGTAAAGTATTGATGTTTAGGAAGACAGATAGAAAAGCTATTGAGGCCTATACTGACTCTGATTGGGCAGGATCTGCAGTTGACGGAAAATCCATATCCGGTTATTGTTCCTTTGTATGGGGCAATTTCATAACTTGGAGGAGTAAGAAGTAAGGGGTTGTGGCCAAAAGTAGTGCTGAAGCTGAGTATATGGCTATGAGTTTGGGGATTTGTGAGGAAATTTGGCTCCAGAAAGTTTTATCTGATCTTCATCAGAAGTGTGAGGTGTCGATGAAATTATCTGTGATAATAAGACTGCTATTAGCATTGCCAACAATCCAGTTCAACATGATAGAACTAAACATGTGGAGATTGATCGACACTTCATTAAAGAAAGACTGAATAATGGTAGCATATGCATCCCATACATTCCCTCGAGCCAACAGGTTGTTGATGTTCTCACCAAGAGGGCTTCTTAGATAGAACTTTGACTTTTGCATTAGCAAGTTGGGTCTCATTGACATCTACGTCCCAACTTTAGGGGGAGTGTTAGAATTAGTGGGTTTGGCCCAAGAAAGGATTTAATCTAATTTCCTTTCATCTTTTATCATTAACATGTTGCCCTTTTATATTCTCTATTGTATCTTTTTGTTTACTAGAAATTAACAAGAAAGTGACAATCGTGGTTTTTTCTCCCGGTACTCGGGTTTCCACGTAGATCGGTGTCTAGTTTCTTTACAGTTTTAACAAAGATGCTTTTATGTTACTATCTTAAATTAATTTTGTATTATGCTTAACTATTACGGTTGAGAATTCTTAATTGCCAATTGAAATTCCAAGTTTTAGCACAGATGGGAAAGTAGGTCAGACGAAGTGTGACCACACTTTTGCCGGTCCTTCTTCCTCCATTGGCTAGTCACTTCCATCTGCTTCATCAAAGTCTTTTGCCTTCATTCCCGTTGTCGGTTCTGTGCCCACCAAAACCCCTTCCATAAAAGTTCCTACTTCCAACTTTCCTCCATTGGTCTTTCTTCTTCCCTCTCATCCTCGCCCAAATCGGGGTCAAAGGCTAAGTCTAAAAAACATCCAAATCAAGGGTTCTTCCACATCCCTTCAAGACTTTCCAAAGCATTTTGTTAGAAGGAAAAGGGTAAAGGAGACCTAAACAAGTTTACGACAGGAAATATTGATTTTAGATCAGAACCCTGATTTTTTGGAGGCAAATTGTGCCCTTGTTCAAGCTCATTCTCAATCAAACAGGACAGATCCTCAGAGTTCTATTCATCCTCATTTTAAATACTCCATTTCCTCTATGCCTAATTCAAAGGTAAATTTTTTGAAAGGTTCTCCTATTCAAACTCCATTCTCCTTATCGAGAAAGAAGAGAGTATCAGATTTTGACTCTTTTTTTGTGTGTGAGCAGCGAGGAAGCTGAACATATGCCAAAGTCAACAGAGAAGGACAACCAGTCGATTAAGGATCCTTTAGAATCCGATCTCTCTCTCTTTTTTTCGATATCCATGAGTGTCCAGGTCAACTTATGCGCATCTCAACTAATCTCACAGGATAACTCGTTTGATCCTACAACATTTGGGTGTCAAGGTACTAGTAGGAAATTAGTTCCTAGGTAGTGGCCACATGGATTGAACGCACGACCTCTTAGTTAGTTCTTGAGACTATGTCTTTTTTTTTACCACTAGGCCAACCCATGATGGTTCTGATCTCAATACCCTGTTTCAGACAGAGGAGGATTTAATTACTGAGAAACATGCCTCTTTATTTCCCTCACAAGTCCAACACTGTGAAATTCCAGATCACTTGAAATCAATTGTTGAGAAATGTGGAATTATTTTTGTTTGAGTATAGATTTTAGACTGGATCTTTTTTCAGCAAATGGTTTTTGAAGTTTTTTTAGTGGATCACAGATGCTTCTATTATTTTGGCCCTTTAATGTTCTGAAATTTTTGGGTTCTAGTTCCTCACCCAAGATTTAAGGACTACTTAGAAGGCATATTTTTCAACAATCCTCAACTTGAAGCGGCATGGATGCTTGCTCTCCCTGTTGTATTATGCTTAATTATTACTTGTTTTTTCTTTCTTGTTTCCCCTCAGATAGAAGATTTGTATCCTTCATACATTGGAGTCATCTTAACTCTTACCTTGTTTGAGAAGTTACCATTAGTATTCTTTGCTTGGTTGCAATCTTGTATTTGATTCTTTTTTTTTCCGGGGGGGGGGGGGGGGGGGGGGGGTGCTTTCTACACAGGTTTTTCCCCTCCGTTCCCTCGATTATTCATTATTTCAAATTTTCAATGAAATAGCAAAATAGGTGCAATACATATACCTATTTTGTTTCTTAGTTAAAAGAAAATTAGTCCAAGAGATACTGAAAGACAGTGCCATATTTTTTAATTTAAACAAAAGAAAAAGAAAACAGGATTTTGACTTTAGATTGGATCAAACACCAATTCACCATGCATTATAGAGTTCAATAGTTTGCTTCAGATATTTCTACTGAACGAAGGACTTCTGTTCTTTTGCTTCATGGATTACCTTAACTTCTTTTCACTAGGTTTTCTTTCTCTCTCTCTCTCTCTTTCCTTCTAAAAACCGTTAGTTAGTCTAATGGTAAATCTATCTTCAATCCCTTCTAGACCCAGGTTCAAATCCTACTCTCTTCTCTCTTTCTTTCTTTCTTTTCTTTTTATTTTCTTTTTTCTTTTCTTCTCTCTCTTCTTTTTTATTTTTGGGTGAAAGTTATTTTGCCAGTTTAATGTTTGTTTTTCTTTCTTTTATTTGGGATCAGGTTTTGGAGAAGCTTACCAAGTATTAAGTGATCCAGCTCAAAGACAAGCCTATGATGCTCATGGGAAATCTGGATCTCAACGTTAGATTTCCTCTGTTTATTTCACTTTTTCTGTTTTCTTTGTACTTTTCTTTTGTAATTACTGGTTGGGTTTTAAAGTTTTGATGTGCATTATTGTTCCTTTTGTGCATGATGCGATTATTGATCCTGCAGCAATTTTTGCAATGCTTTTGGAAGTGAACTTTTTGAGGAATACATAGGGAGCTTGCCATGGATCGATGGCTTCTCTGGACATTTTCACTGAAGGGGAGCAATTTGATGCTAAACGGTTGCAGGAGAAAATGAGGGTACAACTTTCACCCTGATGTGATGCCATTCTTTTCACCCAAAAGTCCATCACTTGCTATTTTGATTGATTCAAAATGGGGACTACTATAGTTCTCACCGTAGTTGGTAGCTAAAAAACTCATGTTAACTCTCAGTTAAATAGCTACTTAACATAGGGTTTTGAACTTGTGGGACATAACTGAACATAGAATCCTTGCTTTTACTTTCAAATAATGGGGAGACTGGTAATGTCTTTTGGCTATTTTGCACTGAAAAATGGATGCTTCAAGATCTCTTTGTCACATGAAATCATCTATGTTAACCCCAATTTTCATCCACTTCCCTGTTTAAGTCGTGCAAGTTTAGTTTCCCATTCCAATTATACCGATTTTCAAGGTAAAATGGAACTGGATTTAATATATCCTCTTTCTTACTTTACAATATATTCTTTTAAAAAGGAAGTCTCGTCACTGAATTAAAGAAATGAGACTTTACAAAACAAATACAATGGACGAGAAAGAAGACGAGCCCTCTACTCTTTGTGATCCCTGGTAGATTGTTTCTTTTCTAAGCCAATTCCTTTCATCTGATTCTAAGTTGATTGTGCTCTTGTGCTTGCAACTGTCTGTTTCTTTTTGGTGTGTCCTAGAGTGAGATTACTCCAACGTTGTTGGACATGTGTTCCATTGAACGTTCAATTTTGATCTCATTCAATTCTAAATGTTGAGGCGGAAATCAAAGAATTGACCAAAAACGACACACCAATTGCATTGGAAATCAATTACCACAAGTCAAAAACTTGAAGCAAATGATGGAAAAAATGTGATTCTTGAACGATTCTCTTTGGAAGGTGGTTTTTAGTGATTGGTCCTTTGAATGCGGGTTTTGAATGAGCTTGAAGGAAATATCTTTTTTGGGTTTACGGCCGATGGAGAGTTCATCTTTTGGTGGTCTCAAATTTATCCCTTTGATCATAATATTTTGTTCAAAAAGTAGGAGGCTGGTTTGGTCATATTTCATGGAACAGTTTATTTCATTCCTGTTTGCTTCATAACTTTTTTCTTTTTAAAACTTGAGGAAGAGTTTTCTTTTTGGAAGGGTAGAATGATATAAGAAAAATGTTGGTTAATTGGATAATTAGTTAATTTGAAACAAGTTCTCCGAAAGGATAGAAATGTCCTTCCATTCGTCAAACGCAAATATTCTTGTAAGAACCCATAAATGTTGAAGTCTTCCTTCAGGAAATGATATCATCACATTTCCAGACCAAATACTGATGCACACTATGTTGATTGTTTTGTGTGCATTATCCATGCTCTGTTTCTGACGGTTCAAAACAGAAGAGTGCCTGACCCCATACTTCTTAACTTCATTTGCGTAGCTCAACTCTAGTTGAGATGGAACGACGCCTGAACTCCAGGATGAGAAGAATCTGAATGTATAGAAGAATGCCATGACATCTAATCGTATTCCAATAAGAAACTTCTGAGCATGTTCAAGAATGAGAGCCATCCTTGCTTTGAAACTCTTGAGAAAACGTGAACGAAGGATTGCTGTCTCGTGGTATGCCAAGCAACACACCTTAGAATCATTTGATGGAGCTCGAAACTTTGTCAGTCTTGTATTTCCACTTCCGTCCCTTATATTTTTTTACCAAGAACTTCTGTTATGGTTCATGAACAATTTCAGAAATAATCAATAAACCATTTCAGTTGTTGCTCAGTTACATGGTGGATTTTGCGAAAGTCTACTTCTTCAATATGAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGAGAAGAGATTGATAGTTGTATTATAAAGGCATTATGGAGTTCAAAAGAATTGGTTGGGACCTTATGAAGCTAATGGCAGATCAGGAGGATTGCTGATTATGTGGGATGAAAGTACGGTTGTTTATTGAAGTCCTGAAAAGAGGTATTCTCTTTCAATAAAGTGCAGCACAATCAATAGGAAAATCTGTTTGGATTTCAAATTTATGGCCCCACACATTATCGAGATAGAAATCATATTTGGTCGGAGTTGTCTTCTCTTTTAGACCTCTGTACAGGAGCTTGTGTATGAGAGGGGATTTCAACATCACTTGAAAGGTACAAGACCGATTTCCAGTAGAAAGAATGACAAGGGGAATGAGAAAATTCAATAAGTTCATTAGAGAATCAAAGATGCAAGAAATCCTTTATCTAACGGAAAGTTCACATGGTCAAGAAAGGAAGGTCATCTCACGCTCTCTGCTGGACAAATTCCTAGTATCTGTTAATTGGGACGAAGTCTTCGCTGACATCAGAGTTTCTCGAAAAGAAAGACTCACTTCTGATCATTTCCCCATCTTGTTAGAAGCTGGTGCATTTGAATGGGGCCCTCTCCATTTCGGTTTTGCAATAGTTGTTTGCTTGATAAACCGTGCTGCCAACTTATAATGAATTCCTTGACCTCTGGAAACCATCTAGGATGGGGCTCTTGTCATTTCTTCAAAGCTCGAAGTATAAAGAGCATTCTGAAATCATGCACGTGGATAGTGAAAGAGCCCGAAAAAGTCAGGAAGAAAGTTTGCTTCAAGCTCTTGCAAACGACATGGATGGACCGATTTGAATCTGTTCGTCTGAATGCAACTTCATAGTGTTCATTATCCAAATTTTTCAGGAGTACTCTTTGCAGGAAATTTTGATAAACTGCCAGCCTTTATAGCCTCACCACTTGAAGTCTTTGGACAATATGACTTTTGGAATAGCCCTCTGCTTCAATCAGTTTTTTCTGCATAAACGAGGACTGATTTTCAAATGTTTTCTGCTGCCATTTTGTTTTATGTTTTGTATGGACAGATTATTTTATTTTGGCCTTGTTTTTGTGGCTTTTATTTCGGCCCTGTATTGGCTAATATGAGCCTAGAGTGAGGATTATTCATTTATATCCGCTTTATGGATATGATGAGGGCGCTGTGAAGGTGTCAACCTAGTTGAGATGTCCGGGTGCGCCTGTTGATCCCCCCTCCTCTCTCATTGCTCATTGTATAACCCTATTGTACATTGAGCTTTTGTCTCTCTATTTTCAATATTAATGATAGTGAGACTCGTTTCCTTTTCAAAAAATCAATTCTCAACGCTCTTCTCCAAGAATTGTCCAATAAATTAAAGATTATTCTATGGATGAGATTTTACTAAACTCGCAGGCCTTCTTTTTCCTCTTTGTTGAAGCTTTAGATTCGGCTCCCATTTTTGGTGCTCCATATATTTTTAGAAGTCCTCTTTGATTCTTGTCTGGCTGTTTACTTATACCTGTCCTTGTAAGGGATTGTTTTTATGATCTTATTGTAGTAGTTTCAGGCTGTATAGGCTTATGTTAACCTTGCTTATGGACATTATTTATTTGTTTTTGTTTTCTTAGCTCGTATGGATATGATGAGGGTACTAAGGGGTGTCAAACTAGTTGAGATGCTCGAGTGCACCTCCTGATCCCTGGTTTATTTGCTCATTATATCATCCTCTTGTACTTTGAGCTTTGTCTCATTATTAATCTATTAATAAAAGAGACTGTTTCCTTTAAAAAAAAAAAAAAAATCTTAGTTTTCATCAAGTAGCCATAAGGGCTGGCATAAGGAAGTCTCCATGGAGCCAGATAAGGCAACAAGCTCCACCTACTGCTTTATGCAATTCCTGCTTCAATACTTCAGAGAAGAAAAATGGTCATAGAGAAGTATAATTATGGATGAAATTCTGAGGGAATGTAATGGCAGGGTTAGGCACCTTGATGTGTGGAAGCTTCTTGATGGTGCAAACGATTTGGTGGTAACCTTACATGCTAATATGGAGACTTTCTTCCAATAAGTGATGGGTCATTTCCATTCCAGTTTTCATTAACTTGTGGGTACGGTGCTCGACTGTTGGGGTCTTGAAAAGTTGGGAACTTAGGCCATTTCGTTATGCTGTTAAATGAGTGGCAGGTTACAATGAAGAACTCCCAAGTTAGAACTGCTATTTGAGTTAGTACAACAATATAAACCTCAAAAGTTATGACATGATAGCAACAGGGATTCATTCGAATGATTGAAGAAAACCAGTAATCGAATGATTGTTCTTGTATCCATCATATACAAGAACAAAGCTCAATAATCAAACTGATGTCAATCAGTTTTATTAGCGTACATAACCACATCAGGTACAAGTTTGTACAAAAAGTATAGTGGAAATACAGTATCTTATAGTATGGTTCATGTTCAATTTCTTTCCCTTATCTGCATTTTTGTAGTGTATTATGATTTTACAGGTAAGTACTGAGCTTTTTGAGAAAAATTAATAAACAAATAAATAATTTTTTCAAAAATACATGAGCATACACAAAACAGGCTTAAATTATAGTGTCTGTTTGCTTCTTTGCAGCCTATGGAGTTGACATGTTAAACACAATTGGCTATATATATGCCAGACAGGCTGCTAAAGAGCTTGGGAAGAAGGCAATTTATTGGGCGTGCCATTTGTTGCTGAGTGGTTTAGAAACAAAGGGCCTTCATAAATCCCAGGTCACAGCAGCCACAGGTATTGTTTAGCTCCTGTTTATTTTCTGTTGTGTTTCTTTTTAATATTGTTTCGACTCATGCTATTACTTATCTTATTGAGATTTTTTTTTTAAACTTGTTCTTTTCTGGTGGCATTAGGTGCTATTGCATTGATCCAACTGCAGGAGGACATGAAAAAGCAACTTAGTGCTGAAGGAAATTATACTGAAGAAGAGCTTGAAGAGTACGTGCAATCTCATAAGAAATTGATGATTGATTCCCTCTGGAAATTGAACGTGGCTGACATTGAGGCCACTCTTTCCCGTGTCTGTCAACAGGTTGTTTTAATACATGTGTGTGTATTTATTTCTTCTCCTTTTTATCCCTCTGTTGATTAAAAACAGTTACTTTCTTAACATCTCTTGTTAGTAATGATAATAAATTGTTTTAGGTTCTTCAAGACAACAACGTCAAGAAGGAGAGCTCCGTGCAAGAGCGAAGGGATTGAAAACTCTTGGTAAATTTTCCAGGTACTGTTCTATATTTTTCTCCGTAACAAATTCTGGCTATGACTTGTTTCTTGACTAATTATTATTTCAAAATTTGTATGTTGATGAAGAGGGTTAAGTCAACCAATGGAAATGAGGGTGAACCGGCAGTAAAAGGCTCAGTAGACAAACTGAATGGAAGTGAATCAAGTCATGATGCTTCCCCATTTCAACATTGAAATCTTCCGGCTATGAAGAAACATCTTTTGCAACACAGGTACCCCTCATGTTTCTGTTTCTTTGGAATCTTCAACCTTTTGTTTGAGTTGAACCTTTTCGATCTTTTAGTTGTAAGAATTGAATGAAACTTAATCTAATTCTCCATTCTTCAGCATAGGTCTGTCGGAAGATAGTATTATAGAGAAGTAAATATGTAAAGTAGCAAACGTTAAGTACGGAAGGATAAGTGTATGCCTACCTCACGTAGCTCCTGCCTTCATAGCTCATAATGTTTATAGTGTTTCTCATACCATTATTGCATTAATTAAATATTAGGAATTCCTTGAACACGTAGGCTTGTTTCTGAATGTGTTTCGGTGGTAGTGTTTGAAATGACTCAACCGCTAAACTAGAGTATTTTGGATATTTAGAGAAAATTTTAAGTTCTTTTTCAAGATAAAAATTTTGTAAGGACCTGATGAGAGACATACGGAAGTTATTAGTATTATGTTAACTAGAGGGGGTGAATTTGTAATTGGCTAGTAAGTTGGTTAGGGTTTTAGTTATAAATAGGGGTGGGTTGTCTTGAAATAATATTTAAGAGAGTAATTCGCAGTTGGTTACAGAGAGTTATTATTTCAAAGTTGGTTACAGAGTTATTATTTCAAAATTTGTGGGATTTCCTTAGTTGAATTGAGAGAGCCTAGCCCTCTCGAAAGGCTAGGGGTTATCTTGTTCCTTGTTCTTATGATATTATGATATATTGTAGTTCTTTTTATGTTGTTGCAATATATATACCTTTCTATCTTAGTGTTCTTTGTTTTTTTTTTTGTTAGTTCTTGTTAGGAGGTATCCTAACACAATCCTACCCTGTTTGGTACCATTTTGTTTTGAAAATTGTTATAATTTTGTTTTTTTAAAAGGAAACAGTTTTCATTGATATAATAAGATAAAGAATGATTACAACGAGACAACAACGAGAACCAACACAGGGATAAGATCTTTAGGTTTTTTTGCTCATTGTATAATTCTCTTGTACTATAACTTTAGTCTCATTAATATTATTATTTAATAAAAGAGACTTGTCCCTAAAAAAACCAACCCAGTGACTCCAATAAATGGATGCAAGAGCGACCACCCCAAAGTAAATAAAAACAAGAGAATCAAACTGAAGAACAATAGTTGCAATAACAGGATAATATCAAACCAAAAGACAAAGCAGAACTAAGACAAACTATCAACTGTAAAAGCTGGGGAAAAAAAGATTGACTTTAGAGCAGACCTGAGATAGATCATGAGCAAAACTTCAGGCAGCAAACATCTTGCAAAAACCTGAATGACTTTCGAGCAAGACCTGTTAGTGATATACAATTAAATTTACTTTCGCCCACAAACTTAAACTTTTGGGTCAATTGGTGATTTAAGATGGTATCAAAGTAGGAGGTTCTGTTTTCCAGTCTCTGCATTGTTTGTTTCTGCGCCAAATAAAATGATTGCCACTTGTTGATTCTTCAGTATTTCAAGCCCACAAGTGAGGGGAGTATTGGTTATATATAATTAAATTTACCTTCACCTACAAGCTTAAGCTTTTCGATCATCGATCATTTAAGATGATATCAGAGTAGATGTACAAGAGGTCCTGTGTTCAAACCTCTGCAATGGTGTTCCTCCCCATTTAAAATTGATTTCCACTTTGGGCCTTAGTGATTTAAGAAAAATTAAGCTTATGGACACTACTTTTACCTCCAACTTTCTAAGCCAAATTTGAAAATTAAAAAAAGTAGCTTTAAAAAATATACATGGAGATGACATAGGCTTAATTTTAAAAATAAAAACAAAAAAACAAAATGGTTACCAAACGCATTAGTTTTTGTGGATCAATTTTGTATTTACATATATATAAGTATTGAAACGTGAGTCTTGTTTGTTGGTTACTACAATTTTGTTGATAACTAATCTTCTCACTTTGTAATATACTCTTTTGGCGGTATGATAATTTCAATCTATTCGTAATACTCGTTAACAGATTTAAAATTAACATCCTTGCGAATAAATGGAAACTTGTATTAGTTTTGATATTAATATTTGCTCTACTTTCAATGATTTAGAGGTTAATATAGTCGTATAATAAAAAAATTAATTCAAGTAGTAATTGAATTTGTATTGCAATAAGGACAAAGTCGGTTGTTAATTAAAAAAAATGGAGCCTATAACGTAATAATTGTATTAGTTTCCAGTGGAATTTGCCCTTATCTAAATATAATGCCCGGATTAGTCAGATGTTCCTTCTACTTCGTAACCAACCTTGTTTGGTGCTCCAACCTATTGACTTCTACCTGTTTTGATAGTTCGACTTTTCCTTCCTTTCATTCTTAAAATTAAAACAGTTGGTACTATAGAGTCCCTATGTGGAGGCTCCCAATTTGCAGGTGCACACTTAAATAACTATTTTCCCAGGCCAACACCGCCTCCAGGTGCACAGAGACATCCGTCCTCCAGCAGGGATTGAATGGTGAAGGAGACAGAATACTATGATGTGCTTGGAGTCAGCCCCGCGGCTACAGAAGCTGAAATCAAGAAAGCTTATTACATCAAGGCACGGCAGGTTCATCCAGATAAAAACCCAAGTGATCCTCTGGCAGCACAAAATTTCAGGCACGTTGAATGGTGTTTTGGAGAAGCTTACCAAGTATTAAGTGATCCAGCTCAAAGACAAGCCTATGATGCTCATGGGAAATCTGGATCTCAACCTTGCCATGGATCGATGGCTTCTCTGGACATTTTCACTGAAGGGGAGCAATTTGATGCTAAACGGTTGCAGGAGAAAATGAGGTTCATTAGAGAATCAAAGATGCAAGAAATCCTTTATCTAACGGAAAGTTCACATGGTCAAGAAAGGAAGGTCATCTCACGCTCTCTGCTGGACAAATTCCTAGTATCTGTTAATTGGGACGAAGTCTTCGCTGACATCAGAGTTTCTCGAAAAGAAAGACTCACTTCTGATCATTTCCCCATCTTGTTAGAAGCTGCCTATGGAGTTGACATGTTAAACACAATTGGCTATATATATGCCAGACAGGCTGCTAAAGAGCTTGGGAAGAAGGCAATTTATTGGGCGTGCCATTTGTTGCTGAGTGGTTTAGAAACAAAGGGCCTTCATAAATCCCAGGTCACAGCAGCCACAGGTGCTATTGCATTGATCCAACTGCAGGAGGACATGAAAAAGCAACTTAGTGCTGAAGGAAATTATACTGAAGAAGAGCTTGAAGAGTACGTGCAATCTCATAAGAAATTGATGATTGATTCCCTCTGGAAATTGAACGTGGCTGACATTGAGGCCACTCTTTCCCGTGTCTGTCAACAGCTCCGTGCAAGAGCGAAGGGATTGAAAACTCTTGGTAAATTTTCCAGGTACTGTTCTATATTTTTCTCCAGGGTTAAGTCAACCAATGGAAATGAGGGTGAACCGGCAGTAAAAGGCTCAGTAGACAAACTGAATGGAAGTGAATCAAGCTCCCAATTTGCAGGTGCACACTTAAATAACTATTTTCCCAGGCCAACACCGCCTCCAGGTGCACAGAGACATCCGTCCTCCAGCAGGGATTGA ATGGTGAAGGAGACAGAATACTATGATGTGCTTGGAGTCAGCCCCGCGGCTACAGAAGCTGAAATCAAGAAAGCTTATTACATCAAGGCACGGCAGGTTCATCCAGATAAAAACCCAAGTGATCCTCTGGCAGCACAAAATTTCAGGCACGTTGAATGGTGTTTTGGAGAAGCTTACCAAGTATTAAGTGATCCAGCTCAAAGACAAGCCTATGATGCTCATGGGAAATCTGGATCTCAACCTTGCCATGGATCGATGGCTTCTCTGGACATTTTCACTGAAGGGGAGCAATTTGATGCTAAACGGTTGCAGGAGAAAATGAGGTTCATTAGAGAATCAAAGATGCAAGAAATCCTTTATCTAACGGAAAGTTCACATGGTCAAGAAAGGAAGGTCATCTCACGCTCTCTGCTGGACAAATTCCTAGTATCTGTTAATTGGGACGAAGTCTTCGCTGACATCAGAGTTTCTCGAAAAGAAAGACTCACTTCTGATCATTTCCCCATCTTGTTAGAAGCTGCCTATGGAGTTGACATGTTAAACACAATTGGCTATATATATGCCAGACAGGCTGCTAAAGAGCTTGGGAAGAAGGCAATTTATTGGGCGTGCCATTTGTTGCTGAGTGGTTTAGAAACAAAGGGCCTTCATAAATCCCAGGTCACAGCAGCCACAGGTGCTATTGCATTGATCCAACTGCAGGAGGACATGAAAAAGCAACTTAGTGCTGAAGGAAATTATACTGAAGAAGAGCTTGAAGAGTACGTGCAATCTCATAAGAAATTGATGATTGATTCCCTCTGGAAATTGAACGTGGCTGACATTGAGGCCACTCTTTCCCGTGTCTGTCAACAGCTCCGTGCAAGAGCGAAGGGATTGAAAACTCTTGGTAAATTTTCCAGGTACTGTTCTATATTTTTCTCCAGGGTTAAGTCAACCAATGGAAATGAGGGTGAACCGGCAGTAAAAGGCTCAGTAGACAAACTGAATGGAAGTGAATCAAGCTCCCAATTTGCAGGTGCACACTTAAATAACTATTTTCCCAGGCCAACACCGCCTCCAGGTGCACAGAGACATCCGTCCTCCAGCAGGGATTGA MVKETEYYDVLGVSPAATEAEIKKAYYIKARQVHPDKNPSDPLAAQNFRHVEWCFGEAYQVLSDPAQRQAYDAHGKSGSQPCHGSMASLDIFTEGEQFDAKRLQEKMRFIRESKMQEILYLTESSHGQERKVISRSLLDKFLVSVNWDEVFADIRVSRKERLTSDHFPILLEAAYGVDMLNTIGYIYARQAAKELGKKAIYWACHLLLSGLETKGLHKSQVTAATGAIALIQLQEDMKKQLSAEGNYTEEELEEYVQSHKKLMIDSLWKLNVADIEATLSRVCQQLRARAKGLKTLGKFSRYCSIFFSRVKSTNGNEGEPAVKGSVDKLNGSESSSQFAGAHLNNYFPRPTPPPGAQRHPSSSRD Homology
BLAST of PI0028506 vs. ExPASy Swiss-Prot
Match: Q8GYX8 (Chaperone protein dnaJ 10 OS=Arabidopsis thaliana OX=3702 GN=ATJ10 PE=2 SV=2) HSP 1 Score: 330.9 bits (847), Expect = 1.9e-89 Identity = 217/439 (49.43%), Postives = 254/439 (57.86%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy Swiss-Prot
Match: P39101 (Protein CAJ1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=CAJ1 PE=1 SV=1) HSP 1 Score: 97.8 bits (242), Expect = 2.6e-19 Identity = 51/93 (54.84%), Postives = 59/93 (63.44%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy Swiss-Prot
Match: P40564 (DnaJ-like protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=DJP1 PE=1 SV=1) HSP 1 Score: 81.6 bits (200), Expect = 2.0e-14 Identity = 43/84 (51.19%), Postives = 54/84 (64.29%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy Swiss-Prot
Match: O34136 (Chaperone protein DnaJ OS=Deinococcus proteolyticus (strain ATCC 35074 / DSM 20540 / JCM 6276 / NBRC 101906 / NCIMB 13154 / VKM Ac-1939 / CCM 2703 / MRP) OX=693977 GN=dnaJ PE=3 SV=2) HSP 1 Score: 81.3 bits (199), Expect = 2.6e-14 Identity = 41/79 (51.90%), Postives = 54/79 (68.35%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy Swiss-Prot
Match: Q9XCA6 (Chaperone protein DnaJ OS=Porphyromonas gingivalis (strain ATCC BAA-308 / W83) OX=242619 GN=dnaJ PE=3 SV=1) HSP 1 Score: 80.1 bits (196), Expect = 5.7e-14 Identity = 41/78 (52.56%), Postives = 52/78 (66.67%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy TrEMBL
Match: A0A0A0L602 (J domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G665650 PE=4 SV=1) HSP 1 Score: 445.3 bits (1144), Expect = 2.5e-121 Identity = 278/434 (64.06%), Postives = 287/434 (66.13%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy TrEMBL
Match: A0A1S3BV91 (chaperone protein dnaJ 10 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103493871 PE=4 SV=1) HSP 1 Score: 444.1 bits (1141), Expect = 5.6e-121 Identity = 276/434 (63.59%), Postives = 286/434 (65.90%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy TrEMBL
Match: A0A1S3BVB0 (chaperone protein dnaJ 10 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103493871 PE=4 SV=1) HSP 1 Score: 442.2 bits (1136), Expect = 2.1e-120 Identity = 276/439 (62.87%), Postives = 286/439 (65.15%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy TrEMBL
Match: A0A6J1CJQ7 (chaperone protein dnaJ 10-like OS=Momordica charantia OX=3673 GN=LOC111011801 PE=4 SV=1) HSP 1 Score: 429.5 bits (1103), Expect = 1.4e-116 Identity = 270/437 (61.78%), Postives = 281/437 (64.30%), Query Frame = 0
BLAST of PI0028506 vs. ExPASy TrEMBL
Match: A0A6J1F8J6 (chaperone protein dnaJ 10 OS=Cucurbita moschata OX=3662 GN=LOC111443081 PE=4 SV=1) HSP 1 Score: 425.6 bits (1093), Expect = 2.0e-115 Identity = 269/437 (61.56%), Postives = 280/437 (64.07%), Query Frame = 0
BLAST of PI0028506 vs. NCBI nr
Match: XP_011654298.1 (chaperone protein dnaJ 10 [Cucumis sativus] >KGN55561.1 hypothetical protein Csa_012576 [Cucumis sativus]) HSP 1 Score: 445.3 bits (1144), Expect = 5.2e-121 Identity = 278/434 (64.06%), Postives = 287/434 (66.13%), Query Frame = 0
BLAST of PI0028506 vs. NCBI nr
Match: XP_008453046.1 (PREDICTED: chaperone protein dnaJ 10 isoform X2 [Cucumis melo]) HSP 1 Score: 444.1 bits (1141), Expect = 1.1e-120 Identity = 276/434 (63.59%), Postives = 286/434 (65.90%), Query Frame = 0
BLAST of PI0028506 vs. NCBI nr
Match: XP_008453045.1 (PREDICTED: chaperone protein dnaJ 10 isoform X1 [Cucumis melo]) HSP 1 Score: 442.2 bits (1136), Expect = 4.4e-120 Identity = 276/439 (62.87%), Postives = 286/439 (65.15%), Query Frame = 0
BLAST of PI0028506 vs. NCBI nr
Match: XP_038897514.1 (chaperone protein dnaJ 10 [Benincasa hispida]) HSP 1 Score: 439.1 bits (1128), Expect = 3.7e-119 Identity = 275/434 (63.36%), Postives = 283/434 (65.21%), Query Frame = 0
BLAST of PI0028506 vs. NCBI nr
Match: XP_022141392.1 (chaperone protein dnaJ 10-like [Momordica charantia]) HSP 1 Score: 429.5 bits (1103), Expect = 2.9e-116 Identity = 270/437 (61.78%), Postives = 281/437 (64.30%), Query Frame = 0
BLAST of PI0028506 vs. TAIR 10
Match: AT1G21080.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 338.6 bits (867), Expect = 6.3e-93 Identity = 218/429 (50.82%), Postives = 256/429 (59.67%), Query Frame = 0
BLAST of PI0028506 vs. TAIR 10
Match: AT1G21080.3 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 335.1 bits (858), Expect = 7.0e-92 Identity = 218/438 (49.77%), Postives = 256/438 (58.45%), Query Frame = 0
BLAST of PI0028506 vs. TAIR 10
Match: AT1G76700.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 330.9 bits (847), Expect = 1.3e-90 Identity = 217/439 (49.43%), Postives = 254/439 (57.86%), Query Frame = 0
BLAST of PI0028506 vs. TAIR 10
Match: AT1G21080.2 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 231.5 bits (589), Expect = 1.1e-60 Identity = 154/320 (48.12%), Postives = 189/320 (59.06%), Query Frame = 0
BLAST of PI0028506 vs. TAIR 10
Match: AT1G77020.1 (DNAJ heat shock N-terminal domain-containing protein ) HSP 1 Score: 217.2 bits (552), Expect = 2.1e-56 Identity = 149/379 (39.31%), Postives = 203/379 (53.56%), 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:
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