HG10008647 (gene) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTGCCCCGCAGGTCTTTCACATGGATTCTTCTGCTCTTCATCATATTCTCCACTCTCTTCATTCCTTCCAGCTCCAGCAACTACTGGACTGCCAAGAGAATGCGTATGAGGGAGAAAGTCCGCCGGATGTAAGACTCTCATCTTCATAATCTCCATTGTTTTTAGTTGAATTGCGGTAGTTTCGTTTTTCCTTTCGGTCAATTGGATGTGGTTCTGACTTCGTTATCGTTCTGCGGATCGGTAGTGTTGAGCAACTCTAGTGTTTGGTGGTATAGGAGATAATTTGTTCAATTCTAGGAAAATTGTAACTATAAATTCTGATTTTGTCCTGTCTGGAGAATTTTCGTTTTTTGTTTAGTTTGTTATGATTATGACTATGTTGTTTCTCTGAGGCTGATCGTTGTTATCTGCGTTTAGTCATATTTTTTTTTTCTGGAACTTGGAGGCAGTACAGTGACGATACTGTTGGGAGGGGGGAAAGGAGGCGAAATGAGCTCTTATGTCCTGTTTAAATTGTTGTTTGGATCAAGTTTTGGCTCTTCGAAATATCCAACGCAATAACATATGGAAGTTTTAATTGACATGAAATCATTTTCGAATACAATTTCGTAAGCTGTAGGATTTACTTAGAAAGTTGTTTGTGTGTTTTCATATCTTAGTTCTGTAACAAATTATTATATTATAAGTCTTTTTATAAGAGATTTCCTTTTCCTTCTGAAATAGCATAAAGTGAATTACGACCACAATTTGTTTTGTGAATTCAAACGTATATATTCACATCACAATATGTTGGTATGTTTTTTTTTTCGTGAGGATACTTTAAATTGAAGTTAGTTATGCTCCATTCATTGTTTAATTACGGTGATATTTACTGACCCTTTCCATTTTAAATAAATTATATTTTTAGTCTGAAATTACTTTAACCAAGCCAAGGTTACATCAGTATAGATAATTCTTAGTTTCGGTTTTGTTTTCATAAGAGCAGGTTACGTATGCCCCTGAGTTTATCTACCTCTTATTGGGGCAATAAGTCACAGTAATATGGGACCAAATGCCTATTGCCTTGATCTTATTCAGTCTAGATCTTCAGGAAAATTATGACTAGATTTGTTGAACTTCTATCCGAGCGACATTAAGTGCATTATTTTGACCTCTAGTCACTGTGTCTTAATACTTATTCTTGGTGAGTTGCATAACCTTATTTTAGTACGCAACATTGTTCTTGAATAATTTTTGTCATATTTTCTTAGATGATACCCCACATTATCTAGCTCGTGAAGTGTCTAACAGTTGGCTTATTTTTTCTATGCTTTTAGGTTCTACCATGCGTATGACAATTATATGACATATGCATTTCCAGTAAGTGTTCTTGGATACAGATTTGTGTGCTCTGAATCTCTGACCATGTAGAAATCTATTGACTGGCCTATTTCTTTTAGAACGATGAGCTAAAACCTCTTACGAAGACCTTCACCAACTCCCTCAGTGAGCTTGGTAATCTTAAGGTAATCAATATAATGTTAATATGGCTGTAGTGTGGTGATTGGTTGCAGGGGAATGCATTAACTGTAATTCTTCCAATTTCAGCTGGAACACCTACCGCAAAATTACAATGGATCTGCTCTTACACTAATTGAATCATTGTCTAGGTATAATTTCATATACTGCCTGAGTTTATGGTTGTTTAGTTATCAGTTTCATAATCTATGACATTTTCCTTTTTCAGTCTTGTGATTTTAGGTAACAACACTGAATTTCAAAGGGCGGTGCTTTGGCTTTCTGAAAATTTGCATTTTGATGTTGATGCACGGATAAATCTATTTGAGGTACCCAAGTCCTTAGACATTCCCAATTCCCAATAAGATGAATGTGGTTGGCTGGTTGGCTTGCATCTCTAGAGTTCAAATGCATGTTATGCTAAGAAAGAACTAAAATGTTGTGAATGAAGGAGCAATATATGCCTTTTTACCCTTCACCACAATTTTGTAGTGCAACATAAGAGTTCTTGGAGGACTTGTTTCTGCCCATGTTCTTGCAACTGATTCCACAAACCGATTGGCTAGACAAAATTATAAGAATCAACTACTAGTTTTGGCTGAAGACTTAGGGAACCGCTTTCTACCTGCATTTAATACCCCCACAGGGTTGCCATATGCGTGGATTAACCTCAAGGTATTACCTATCATCTGCTTATATCCAAGTTTTATAGATTATAAATATTATGATGTATGTCATGCTATATGATCTTCAGGGGACTTTGCACTCACTGGCCCCTGTCTTCTTTTATCAAACTAATCTTGCGGTTGTTGAGAAATTGAGATACGTCTCTGATGCTTAATTAAGTTGTTTATGCTGTTTGCATATTGAACAATATTCTTGGTATGGGTTCTAAATGATCATAACAAGAATAAGTGAATCTCCATAGGTGTACTGAAGAAATTTTGCATCCAACAAGCCAGGTCTTACTTTGCTTTATTCCTTTTCTTCTTCTTCTCAGAGGGTATTTTTTTTCTTGGAAAAGGGTGGGGTGGGGGGGTGTCAAATGTTCTAAAATTGAGCTCAAATCTGGGCTATGCGAATGATGTTCTTGATGCAGCTTATGCTCACTGTAATGGTGCGCATAGGAGTTCCATAGATATTTTCAGAAGTTCTCTTTTCAGTTTTAGAATATATGAATATGTTTTTTCGGGTCATGTTTTCCTTTTCTTCCTCTAAAGAGGAGTATATGACTCCGCAACAATCCAAAATTCTATGGGCAGCATGGAGTAATGGAGGATGAGACTACTGAAACAAGTACTTCCGGGTGTGGTGAGGTCTTATCTTTTATGTTAAGATAAGTATACGTGAAGATTTACGGTCTGAATTGGATCGGCTTTTATCTGGATATAGGTTCTCTAATTCTTGAAATGGGAGCATTATCACGATTGACTGGTGACCCCAGGTTTGAATATGCTGCTTTGCGTGCACTTCGTAAGTTGTGGAGCATGCGCAGTTCACTGAATTTACTTGGAACTACCTTGGATGTGGAAACAGGTGAATGGATTGAGTTCTCATCTGGAATTGGAGCTGGTAAGTCATCTTTGTTGCTGACAATACAGACTTTTACATGTTTCGGTAGATATTAGCATATCTTCATTATAACTGATTTTTTTTTCTTCTATAACTGTCACCCATCTTATAGGGTGCTTCCATACTCTAGTAATATTAACCCAACGTCCATCAGGAAGAAAACCTGTTTTATGCAATTGAGTTTGCTGGGTTAGAATTATACATAATTACAACTTGGACGAGTGAAATCCGTAATTCTAATGTTAGATTCTTGTGGTTTCTTCAAGGGGTTGATTCATTTTATGAGTATCTATTTAAGGCTCATGTCCTTTTTGGAAAAGAGGAATTCTGGAGAATGTTCCACACCGCTTACCTTGCTGTGCAGAAATATTTCAGACATGGTCCATGGTAGTGTGTACACTTTTTTGATGAATATTCTAATACAAACATATGTTCTTAAATTATGCAAAACTGTATTCCTTTTGAACCGTTTCTATAATATAACAAATAGTAATTTTCAATGCGCACCAATTTTTTTCCTCCAAATATTTTTTAACAATTACAACTAAAAACATTTCTTTAAAATATTCTTTAAGAACAAACATTTTAATAAGTACCATACAGATAGTCCCTTCTGAAAGGGTAATATACAAAAATCTATTATCTTAATTTGGGCGGCCCACTTGAAATTATTTGGTAATGTAGGTACCATGAAGCCGATATGAGGACGGGGAGAGCAACCTACTGGCAGCTTACAAGCCTTCAAGCATTTTGGCCTGGCCTACAGGCTAGTTGCTACAAACTTTTAAGTTTTAGTAAATGATACGTTACTTGAATATGACTGTTCTTGACACACTGTTCGTAGGTTCTTGTTGGGGACATTCCGGCAGCTAATTCATCACACCGTGAGTTCTTTTATGTATGGGAGAAATATGGAGTTCTACCGGAAAGGTATTTAAACTATCCCATGATTTTACCAGAACACAGAATTTTTGCTGTTCTATCTTCTTTGCTTTTGTTTCAATATTGGAGTTAATGTAATTTCCATGACAACGATTAATTCCCAACGGTGGGATTTGAAATTGTTCAGGTATTTACTTGACCACCAAATGCTGCATCCTACAGAAAAGTACTATCCTCTCCGTCCAGAATTGGCAGAGTCAACTTTTTACTTATATCAAGCAACCAAAGGTTTTATTTTTCAAAAACTTTCACGTTTGATATTATGATTATTTCATTTCATGTTGACTAGAAATTTGAAGCTCTGCTGTATCATAGTATTTTTGGAATGCTTTTTTCCTTGTCTTTTTCCAACTACTAGTTATAAAGCTCAACTGATCCTTACACTTAGAGAGATTTGATATTTCAACAATTTATGGTGGTCAAACTACTCGTGTCTTGTTGCATAACATTTCTCAAGTTTCTACATTGCTTCTTGGCCAAATTGGTAGTTTGATTATTAAACTTGACTTTTGGATTCTTTTCGTTTTGCAATCTAATCAGTTCTTGTATAATGGTCCATCTCATTGTCTGCTTCTGGCATTCTTTCCATCCTATTCCTCAATATACCGTTGCTTTTGGCATTGTAGATCCATGGTACTTTGAAGTGGGTGAATCAATCATGAAGTCTCTTACCTTGTACACTAAAGTTGAAGGAGGATTTGCAAGTGTTAGAGATGTTACCACTATGCAGTTGGAAGATCATCAACATAGTTTTTTCCTCTCTGAAACGTATGATCTCTCTCTCTCTCCCCCCGAATTCTGTTATCAGGAAAATCAGCTTGGTCATCAGTCACACTAAGATAAGGTCTCCCTCTTTATATAGGTGCAAATATTTATATCTTTTATTTGACGACTCATTTCTGGTTGGCCAAAATTATATTTTCACCACCGAGGGCCACCCCCTGCCAGTTTTAAGTTCTTGGCACGAACGACTTCCAGAGGCGTATGGCCTGACTAACGGGACATCTATCAGGGTATTTCTCCCACTGTCTACTCTTCATATTTATTTACCCCTCCATGACATGGGGCCACTGTTTAAAATATGTCCAGTAGACTGGGAAAGTTTAATGAAGAGCAAATTTGAAGGAATATTTTAAAATCTTAGTCCCCATATTATAACTATTTGACTTTTGAAAATTACGACTGCTTTCTCACAATTTCTTTATCAAGATTTTCATATTTCCTATTAACCAGATTTCAAAAAAAAAAAAAAAAGTTTCTAAGAACTAATTTTGTTAGTTTCCAAAAACGGTGTTAGATTTTGAAAACGCTCTTAAACACTAGATGACAAAACAAAGAATAGGTAGAAGTACTGTTTTTAAGCTTAATTTTCAAGAACAAAAAACTAAATGATTATCAAACAGGATATTAGTTTTATATATATATATATAATTATCAAGTATATATATATATATATATATATATTTGAATAATTAATTTACTATAAATTAAGAGAATACAATTGCCTCCTTTGTTCTTGGCTCTGTTCTTGAGTTCGCGATCTTGAGTTACTAAATCATTTTGGCTTCGTTTGCTTCTCAAGTCCACTTGTTCTTCTTCACAAGTAGTAGGGTGCAATCTCCTATATCTTCTTAGGCTTCAAATGTGAAATAAATTAGTGTGGATGAAGTGCATTTTATTTCTGCAGGGTGAAAATTCATCAAGAAGGTTAAGTGCAATGTCTCTACAAGTCTGCCCAGCCACCTCACTGAACACAGCAGGAGATAGCCAACAAATAGAGAGTGCTTGTCATATCCTTGATGCTCGAGCAGATCACAAGTGTTTCAGTGATGAAGAATGTGGGGTCGATTCAACTACTTGCAGAAGGCGATCGTGTAGCTCGTCTGGTTATTGTGGTCAGTGGTTGCAGTTATAACATAGACAGTAACTATTTTCAATAAGGTTATTAACTTGGTTCCTCTTCCACCGACGGATGAGGTCGAGCTAAAATGAACTTTGTAAGAAATTGCTTAGTCCATACGAGAATTCTTTTTCACCCACAAAAAGAAAAATGATTGAATGTAGCTACTACAATGTAGATGTTATTCTCATAGTTGTTAGATGCAGGATAGTCTATTATTATTCTTTCTTTTTTTTCTTCTCCCAAAAGGTCTAATGTCAAAATTTCGAGCTGAAAAGTTTGATTTTTGGGGGGGAGTCTATGAAAAAACCATGTTCATTTGACTTGTATGAATGACTTTTAAGATGTGTGTGGTTGAAACGATGAGATAGGTTATGCATCTTAAACTCAACCCTTGATTAGAGCAAGGATTTAGAGAAGTCTCGGCTCCCTATAACTTTTTCCGTGGGTTGAAGAGTAAACAATATTTCAATCTCAAAATTACCTCCTTTTTTTTTTTAAAAAAAAAAAGATTTAAAATGTAACCCTTGTCTGCATGATTGAAGTGAAACACATGGTTTTGTGAAGAAGTGTTTTTGTTGTCGTGTTCAAGTTCTCAAGGCCCATGGCATGGCGCCATCCAATTTAGCTTTTTAGAGCCGGGGGTAATTGTGTAATTGTGTCATTCCAAGTCCAAAGCCATGGAAAGTGATGTCAGATTGAAAGTACAAAGGAAGATTCGTGGAAATGAGGCTATCAACTTGAAGGTTCACGCTTTTTTTTTCTTTTCTTCAAAGTACTAATTTATTATTACGTTGCTCTCACCCTTTTGACTAATGGTATTGGTAATATTATTCAAATGAACCAAATTTATTATAATAAGTAAAATTTCCCAGTTAGAAAAAATATCAAATTATTTATAAAAAATAATAAAAAATAATACGGATAGACATAGATAGATTTCTATCAGTATCTATCAGTGATAGACTTCTATTATTTCTATCACCCGGATAAAATTTTGCTATTTTGTGTAAATAGTTTTCTTTATTTTTTTATTTTTTAAAATTTCCCTTATAATAATCCAGGCAATGTAGCATTCTTATTAATTTTTTTTTTTAAAATCAACCATACGTGGGAGATACTATTGACTTAGTGGTGTTTGGTTATTTGGCCAATTTTGGATTTTTTTTTTTAATATTAAAAGTGTTTTTAAGTTGAAATGTTTAAGTAGCATTTTTTGTTTTCTTTTTTCTCTTTTTAAACACTTTTAAAAGTCTACTTTCGAAAAGATTAGTATGAGTTGAATGTACGACTTAGATTTGATTTTGATATGTTCAATTGGCCAATCCCATCAAAGTGGATGTCAAATATGTAATATGTGCGGCAAAATATAATTTGTTACCAAAGATACCCATGTTAAAGATTTCCAACATTTATCTTTTTTAAAAAAACAAAAACAAAAACTTATCGTTAATTCTCCAACTTTCTAATACATTGTGTGCCACAATTATTGGAATAGGCTAAAACAATATGATCGGTAGTTAAAGCACTGTGGCTTTGATAGTTGAACAATGTGATAATTTTATTAGTTTGATTAGTCCTTTGATGAACACGTGTGTTGACTGTTTACTAAATATTTGAATCACGTTTGAAACATGTGTTAATATATTAATAATTTATTTTTATATATTTGTTCGTAACCGTGCAAAGTAATGCAAAGAACTAAACCGAATCAAAAACACAAAACGAAGCCTCTTATAAAACTACGGTAGTTTTATAATATTAAACATATAAAATAGGAATGGTTGAAGATATTTAATGTAGTGAAAGACGTTTTTTTGAATATGCATCTAAGGACTACGAAAAGCTAAAGTGAGCATAGCTCATGTGAATAGGTCAGTGCTTCAAATTGCCTCAACTTCCATTGTACTAAAATAAGACAAATTAGTCAATGAATTTTGAAGTTTGTGTAAATTTGGTCCCTAAACTTTCTAACTCATCTAATAAGTCTTCATCTCAATTTTGATTTGATATTCTAAAGATTTTTTACTCTAAGAGTAGTTTTGAAAAGTTCATGAAAATTGGAGATAGTATTGAAGCTTTTAAAAATATAAAAGTATTTTTGAAACAAAGACAAAATTTAACAATATTTTTTATAAATTAATATTTTTAAGGTTAAATTACTAATTTAATCTCTATGGTTTGGAAAAAATTAGAGTTTAGTCCCTATGGTTTTAGAAGTTATAATTTAGTTCTTATAATTTGATAAAAACCTAAAATATTAATTTATAAGGTTCTCATAAATAGTCCCCAATATCAAACTAAAGACTAAATTATAATTATGAACTATAGAAACTAAATTCTAATTTTCTTCAAAATGTAAAAACCCAATTTGCAATTTAACCTATTTTCAAAAAAGAAAATATTGATGGATATGTCAATAAATCAGTAAATCAAAGGGGTCGATACCGATATCAAATATCTCTATCTTTTATAAATGCTCGTAAAACATTAAAAAAATATCATATATTTAATCCAATATGAATATCACTACTAATAACAATATCCATAATTTAGTTTTGGAGTAAAAACAACTTAGTTGTTAATCTAAATAAAATTTACAAAATTATTTTGTGACTTACCGAAATATCTGTATTTTATTGATATATCAATAAAATTGAAATTTCGACATCAATATTTTATCATTGTCTATTTCTAAAATTGGGACGAAATAAATACAAACTTTAAAGGATTGTTTTCAAATATAGAAAAATAAGTCAAACTATTTACAAATATATAAAAAATTGGCAGTCTATCCGTCATAGACACGATAGAATTCTATCGCTCAAACGATTTATTTACTTGAGCGATAGAAAGTGATAGAATTCTATTATCACTTACATTTTTCTATATTTGTAATTAGTTTAATATTTTTTCTCTTTATAATAATTTATCAGAATTTGTAATTTTAACATAAATATGGCAAATGTAAATTTGGCAGAGGAAAACGATAGGGGGCGGAGGCAGAAAGATGTTTGAAGTGAAGTGAAGGGTATTTACAGAGAAAAAAAAAACACATTTTCTAGTAGGGCCCATTTTCGCTGACGTCAGCCTTCGGTCAGACGCGGTTTCAAGGGCCATTCCGCCACCCACACGCTCTCGCTTTCTCTGACTGACACACCAATCCACTCTCCTTTGCCTCTTTGCCTTTGAGTTTCGCTCCAACGGAAATATCTCCAACGATCTTCTTCTTCTTCTTCACTTCTGGCTTATACTCTTCTTCTTCGCCGCCGGACTCGGCCACACCACCATTTTCTTCTTTTTCAGACCGACCCAGAAAGTTTTGAGGGAAAAAATGACGATTATGATTGAGTTTCAGGGCAAGGAGAACTCCAATTTGGATGAAGGCTAGGTTGATGATGGAGAACGAAGAAAGGGATCAGATGGGTTTTTTTTTGTAGCTTCTTTTCCTTTTTGGGTTGATCGAAATTAATTTGTGGGTTTGTTGTATATATTCCCATATTTGTGTATATCTTTTCTTGCTTTCTTGCGCTTGCGCCGCATGTTGGTCTTTTTAGTTCATTGCAATCTTCGCCAATACCATCGCATCGTCTTGTATCTGTATGTCTTCTGGCCTCCTATGTTGTCGCAGAAAAGAAACCCAGATGATGGTGATGGTTCGGCGGATGGTGATAATCCAGATGATAAGCGTAGAAAGTATTCTTTTATGAGGTACTACTACCACACGATGCTTCTCTCTCTTTTACTTCTTTTTAAGGGTTTTTGTTTCACTGATTTGTGGGATCGTTCTTGTATAGTTGTGCATATGGAAGTTTTCTAGTTGATTATGTTTAATTTCTCCTTGCTATATGGATTTCGAGTGAGTTTTGTTAGCAATGCTAATATATGTTTTGAATCTGAGTTCCATTTGCTGGAAGGTCAGAATTCGAAGCAGGAACGTCATACGTGGTTCGATCTGGCTTCATTGGTTTAATTGAATTTTGGGAGAACTGTGGGTGAAAGAGCTAGATGATTCTTGTTTAAGTATTTTTTGGGTGGATTCTAGGGACTATTCTGTGGAGAGGAAAATGATGTATTTATGTGGGGCATCATAATGAGTGTGAGTCTGAAGGGATAAGTATGTGCAATTGAGTTTGTTTGATATTCCACTGAAGAACAAACTTGGCTTGAAGAAGCTATTAGGCATGATCTTGTGTGATATATATAGGAAATAGGGAGTAGGTTGGACTCCCTCAGTTACGTTTTAGAGAAGAGCTGATTTACATCATTGGTCATGCTAATATAGACCAGAAGCATTTGTCTATTTCTTTTCTTACTATGCAAATCTCCTTCCATTTCCCTCAACTTTGATTTTTGGAGACCCTTCTTCGAATGTGAAATCATGAATTTTTCTGCCATTATTTCCTTATTAGATGAGTTTGTCTTCTTCCAAATTTTAATTATCACTTTATGTGGACCTCAAGCTAATCTATCCCTTCTTTTCTCGTTTTGCTGCTCATTCTATCCTTCTCCTCTCCCCCACCAAGCCCTGAAAAGACTAAATTCCTAAGATGGTTAGCTTTTTCTCTTGATAGATTGTTTTGGATCCTCAGATTATGCTTTGTTGTATAAGAGGGCTTCAGAAGACTTGAATTATATCTTATTGAGATGTCACTTTGCTGTAGTAATTGGGATACATTTCTAGAGACATTCAGTATTAGCTTGGCTTAAAGTAGATGTTAACTAGATATGATGGAAGAGGTGGCTAGGACTCTTCCTATGCTGATTATAGTATTAAGGTGAAGTATGTCCCCAATAGATTTTGGAACCTCAAGACCTTCCAGCAATCAGTATATTCTTGTCGTGGTCTTTTGACTGCTATGTTGTTCTGTGTCTTTTTTTATTTTTTTTATAAAGATTCTTTTTGTTTGTTCTAAATTCTAATATCTTTGTATGATGATTTATTTTTCAATAATGTACAGTGTGGTTCGTGATGCCCTATCATTGCAATCATTGCAACAGCTATTGGAGCCAGTCATTCGTAAAGTGGTAAGCATGATCACTCCAGGAAATATGTTAATATCATTGTTTTTATCATTGAAAAGTCGTTCCATTGCTGTAGAAAATTTATAATGGGACTGGAAGTCTAAGCCTTTACCAAATTATTGAGGACATTTTCCTATTCATTCATTGTAAGAAAGAAGCGTCAAAGCCTTAAGCATAACAGGAAAAACTTATTCATAGGGATGACCACGGTCATTCTAGACTTTTCAAACGGCACCAAATGAAAGCTTTCCGGCAGAGGAGTAGGTTTCTTGTTAATACCATTGGGGTTGAACCCACCTATAAATGTGGAAATCTTGCCTCCTTTTGTCTATGTTTCTCTCTGTTCATACCATCTCTTATACACAGTAGTGGCAGTACGGAAGGTGCATATGGAGTTAGTTTAGTTTACCCTTGTTGGAATATGAAAGTATTTGAAAGAATAAAGAATAGGAGATCCTAAAAAGGAAAGAAAATGCTCTACCAAACGAATTAGAAAGGAATAGAACTTTCATAGTCTGAACATTTTCTTTTGCAACAAAAGTAAATAATTTGGCTACTTTGACTTTGATAAAGGGCTAAGAGGTCATGGGTTCAATCCATGGTGGCCACCTACCTAGGATTTAATATCCTGTGAGTTTCCTTGACACCTAAATATTGTAGAGTCAGGCAGGTTGTCCTGTGAGATTAGTTGGGGTGCGCATAAGCTGGCCCAGACACTCACATATATAAAATATATATCTTTTGATCATTAAAATTTAAACCCCAAGGAAAGTTGAAATGAGGCAATGTCGAGGAGCTCTATTCTTGGGATTGATTGCTAATGAAATCCCAACTCAGCTGGTGTATCAGGAACATAAAATGTCAAACTCATGAAGCAATTGGAGCTAGAGCCTCGTATACAATTAATATTAAAAATTTAAATAACAAAAACAAGTCAGCTTCACATTTGCACGTGATAACTTACGACAATGGCGATTTAAGATAAAGTCTTTTCCTTTGCTCAAGAGATCACCATTATTCCCACTTTTCAAGTTGAAAGACCAAATAACTACATGAACTTGATGCAAGGGTTTCATCTTACTAAGAAGCGAAGAAGGTAAGCTTTATCATTGATTGGCCTATAACTTATCATCAGACATTACTGAATCAAAATTTTAGGTGCCCTATTCTCTAATTTTTCTTTTCCTTTGAATTTCTATTGATTTTGTAAATAGGATCAAGGAGAAAGAAGTTTCTATTTGCTTGTTTCCTCTGGGCCTCTGGCCTGGGTTGTGTTCTCAGCCTTGGGATCTTGCACAATTTTCCTACAGTTCTTGAATATTGAATACTTCTGTTATAAGGGTGGGGCAAAACTATTTGGATTGGCATGGTATAAATGGCTACTTCCTGGGACTTGAAATGAAGTCGAACATTTTATAAATGGGATAGGGAAAATTCATGAACTCCTCAACAGTTCTGATTTCTTATAGTATTTATACATTTTGATTCTATCCAAAAAAGAAAAAAAAAGAAAAAAGAAAAAAGAAGAAGAAAGAAATGAAATAAATAAAGAAAGAAAATCTATCAAAAAGTACAGTTATGTTTTAATAGATGACTATTCCTTGAGTTGCAATTTTTAGCATATGATGTAAGCTTGCTAATTGTGTGCTGGACAGGTGAGGGAGGAGGTTGAATTGGCACTAAGAAAGTACAGTACCAATGTGCAAAGGTAACTATTTTTTTGTGATTTTATATTTAATTGCTGAAGCATTGTCGAGTCCACTTCTAAATTAGAAATAGAGAGGAGGTGAAATTAGGTCATAAATTGTTAAACCCAAAAGAATCTGTGTACGGTTGATATGTTAGAGGTGTTGATGAAATATCATGCATTTATGTTAAGGAATGACGAGAATGATGGGAAAGAAATCTATTCTTCCGGGCCGAGATGCTTTCAATTGAAGTTCGTAACTGATATTTCTCTCCCGGTATTTACTGGAGCTCGCATTGAAGGAAGAGATGGTTCCAACTTGATGGTGGCTTTGGTTGACACCTTAAGTGGGGAAGTTGTTGGCGCTGGGCCTCAATCCTCAGCCAAAGTGGAAATTGTAGTGCTCGAGGGTGATTTTGAGGGTGGAGGTGATAGTTACACTATAGAGGAGTTTAAGAATAACATTGTAAGAGAGAGGGAAGGAAAGAAACCACTTCTTACAGGAGATACATTTGTGAGTCTCAAAGATGGCATTGGTTTGGTAGGTGAGATTTCTTTCACTGACAATTCAAGCTGGACTAGAAGCCGTCGGTTCAGGCTCGGTGCAAGAATTATAGATGACAATGATGGAACGAGAATACTGGAAGCAAAGACTGCATCATTTGTGGTTAGAGATCACCGTGGAGAATGTGAGTACTTAGCTTTATTATTTGATTTTACACATTGTCAAAGTGAAAGAAAAGAACTTTTATGCTTGTCAGCGTATGCATTGAATTTTTCTGGCCATGGTTCCTTTCTTACGAGGAAAATGGTACACTGAAGTCAAATTTCATTATAGTTTTCTTTAATGACACTCTGCGGTTTGTTCTCTAGATGTTCATCATGAAGTCTGCATCAAATCAAATTCTTCATTATTATTTATTATTATTATTATTATTGCCAATGGCTTTTTGAAAGTTCTGCTTGGCCTTTATTTATTTATTTTTGGTTGTTATTGAATTAGGTCATCAACTAAACGTATAATTGCAAATTGGAGCTTGATATTTGATATGGCTATTTGAGTATTATAATTTGGAAGCTTCTATTACGTGAAACTTGTGATGTGGTTAACTTGTTATTATGTCTAATATCTCGTGGATGAGTGTTTTTGAAGAATTGAAAACAGTTATAAATCTTTGTAGAACACATTTAACACTGTGACTTTGACACCATTAGGGGATATGCTTCGTTTAAATACAAAACACTGGAGTTCACTCTCAATATATTATCTCCCATCCATGGGTTTGTGGAGGCATATATATATATATATATATTATACTGTATTTTTTTGGTCAACATATTTTAAAAATTTGACCTCTGCCATTTGGTTCAGTGTACAAAAAGCACCACCCTCCATTTCTGCAGGATGAAGTATGGAGATTGCAGAAAATTAGCAAGGATGGAGCCTATCATAAGCGCCTAAGTCAAGAAAAAATCGAGACGGTGAAAGATTTCCTAACTCAGCTTTATGTACAACCTTCAAGGCTTCGTAATGTATATACCTTTTTCTCGTGTATCATATATCTAAATGTTGTGCACATTTGGATGTGCTAGTAGAAATTTAAGCTAAATTATTCTACATACAAACGACACTACTTATACACCTTTTTTTTTTTGGGTTGCAGATTCTTGGCCCTGGTATGTCTACCAAAATGTGGGAAGCTACGATTGAGCATGCACAGACATGTGTGCTCGATAGGAAGATTTACGTGTACAAACCTCGTGATTGGGAACAGAAAAACGGAGTGGTCTTCAATGTTGTAGGACAAGTGATGGGGCTACTTTCAGATTACCAGTACGTTCCCATAGATAAGCTATCTGAAAGTGAAAAGGCACTCATCTCCTGTCACCTCTTAATATACATAATATTATTATTTTGAGTTGCTTTACATTTTTTCAGCTGATTTAATACATTCATTCTGAACTCAGGCTGATGCTCACCACTTGGTTATCTCTGCATACAAACACTGGGAAGAAGTTGACTCTATTGATGATGAAACTTCTCTTGTAGGTGGCTCTTCTCACCCACTCAGTTTCCTTTACACCCCCAGTTCACCCATTGAGGACCATTCTTATGGTGGCAAGTACTTGGCTTCTCCAAAATTTAGTGGCTTTGATTTCACACCATCAAATGCCTATTCTTCTGACATAATTTCATCGATGGGTTCTATTGGGAATCCTAGCGGCTTGGACGATCATGCTTTGCAGGGTTTTGATTCTATGGTTGTAAGATATGATCAGATGCCAAGTTCCCCAAACTTTGCCAGCTCTTCTCTGATCTGCGATTCCGAGCCACTAAACTCATCTTTCTTTGATGTGGATCATACACAAGTTTTAGAATCACGAGCAATCACAACAACTCTTCAAGGTGGCTCCTCATCATGTGGTGCTCAAATGAGATGGGCTAAGGTATATGGTGTGCTAAAATGGTACTTTTTGTTGAGATTTGTAATTAGGAGAAACAAACGCGGTTTCGAGAGATACAAAGGTGTACAGGGACGTGGAAAGGAAAAACTGGACTATGGTTGAATGTTGCCCCGCAGGTCTTTCACATGGATTCTTCTGCTCTTCATCATATTCTCCACTCTCTTCATTCCTTCCAGCTCCAGCAACTACTGGACTGCCAAGAGAATGCGTATGAGGGAGAAAGTCCGCCGGATGTTCTACCATGCGTATGACAATTATATGACATATGCATTTCCAAACGATGAGCTAAAACCTCTTACGAAGACCTTCACCAACTCCCTCAGTGAGCTTGGTAATCTTAAGCTGGAACACCTACCGCAAAATTACAATGGATCTGCTCTTACACTAATTGAATCATTGTCTAGTCTTGTGATTTTAGGTAACAACACTGAATTTCAAAGGGCGGTGCTTTGGCTTTCTGAAAATTTGCATTTTGATGTTGATGCACGGATAAATCTATTTGAGTGCAACATAAGAGTTCTTGGAGGACTTGTTTCTGCCCATGTTCTTGCAACTGATTCCACAAACCGATTGGCTAGACAAAATTATAAGAATCAACTACTAGTTTTGGCTGAAGACTTAGGGAACCGCTTTCTACCTGCATTTAATACCCCCACAGGGTTGCCATATGCGTGGATTAACCTCAAGCATGGAGTAATGGAGGATGAGACTACTGAAACAAGTACTTCCGGGTGTGGTTCTCTAATTCTTGAAATGGGAGCATTATCACGATTGACTGGTGACCCCAGGTTTGAATATGCTGCTTTGCGTGCACTTCGTAAGTTGTGGAGCATGCGCAGTTCACTGAATTTACTTGGAACTACCTTGGATGTGGAAACAGGTGAATGGATTGAGTTCTCATCTGGAATTGGAGCTGGGGTTGATTCATTTTATGAGTATCTATTTAAGGCTCATGTCCTTTTTGGAAAAGAGGAATTCTGGAGAATGTTCCACACCGCTTACCTTGCTGTGCAGAAATATTTCAGACATGGTCCATGGTTCTTGTTGGGGACATTCCGGCAGCTAATTCATCACACCGTGAGTTCTTTTATGTATGGGAGAAATATGGAGTTCTACCGGAAAGTTCATTGCAATCTTCGCCAATACCATCGCATCGTCTTGTATCTGTATGTCTTCTGGCCTCCTATGTTGTCGCAGAAAAGAAACCCAGATGATGGTGATGGTTCGGCGGATGGTGATAATCCAGATGATAAGCGTAGAAAGTATTCTTTTATGAGTGTGGTTCGTGATGCCCTATCATTGCAATCATTGCAACAGCTATTGGAGCCAGTCATTCGTAAAGTGGTGAGGGAGGAGGTTGAATTGGCACTAAGAAAGTACAGTACCAATGTGCAAAGGAATGACGAGAATGATGGGAAAGAAATCTATTCTTCCGGGCCGAGATGCTTTCAATTGAAGTTCGTAACTGATATTTCTCTCCCGGTATTTACTGGAGCTCGCATTGAAGGAAGAGATGGTTCCAACTTGATGGTGGCTTTGGTTGACACCTTAAGTGGGGAAGTTGTTGGCGCTGGGCCTCAATCCTCAGCCAAAGTGGAAATTGTAGTGCTCGAGGGTGATTTTGAGGGTGGAGGTGATAGTTACACTATAGAGGAGTTTAAGAATAACATTGTAAGAGAGAGGGAAGGAAAGAAACCACTTCTTACAGGAGATACATTTGTGAGTCTCAAAGATGGCATTGGTTTGGTAGGTGAGATTTCTTTCACTGACAATTCAAGCTGGACTAGAAGCCGTCGGTTCAGGCTCGGTGCAAGAATTATAGATGACAATGATGGAACGAGAATACTGGAAGCAAAGACTGCATCATTTGTGGTTAGAGATCACCGTGGAGAATTGTACAAAAAGCACCACCCTCCATTTCTGCAGGATGAAGTATGGAGATTGCAGAAAATTAGCAAGGATGGAGCCTATCATAAGCGCCTAAGTCAAGAAAAAATCGAGACGATTCTTGGCCCTGGTATGTCTACCAAAATGTGGGAAGCTACGATTGAGCATGCACAGACATGTGTGCTCGATAGGAAGATTTACGTGTACAAACCTCGTGATTGGGAACAGAAAAACGGAGTGGTCTTCAATGTTGTAGGACAAGCTGATGCTCACCACTTGGTTATCTCTGCATACAAACACTGGGAAGAAGTTGACTCTATTGATGATGAAACTTCTCTTGTAGGTGGCTCTTCTCACCCACTCAGTTTCCTTTACACCCCCAGTTCACCCATTGAGGACCATTCTTATGGTGGCAAGTACTTGGCTTCTCCAAAATTTAGTGGCTTTGATTTCACACCATCAAATGCCTATTCTTCTGACATAATTTCATCGATGGGTTCTATTGGGAATCCTAGCGGCTTGGACGATCATGCTTTGCAGGGTTTTGATTCTATGGTTGTAAGATATGATCAGATGCCAAGTTCCCCAAACTTTGCCAGCTCTTCTCTGATCTGCGATTCCGAGCCACTAAACTCATCTTTCTTTGATGTGGATCATACACAAGTTTTAGAATCACGAGCAATCACAACAACTCTTCAAGGTGGCTCCTCATCATGTGGTGCTCAAATGAGATGGGCTAAGGTATATGGTGTGCTAAAATGGTACTTTTTGTTGAGATTTGTAATTAGGAGAAACAAACGCGGTTTCGAGAGATACAAAGGTGTACAGGGACGTGGAAAGGAAAAACTGGACTATGGTTGA ATGTTGCCCCGCAGGTCTTTCACATGGATTCTTCTGCTCTTCATCATATTCTCCACTCTCTTCATTCCTTCCAGCTCCAGCAACTACTGGACTGCCAAGAGAATGCGTATGAGGGAGAAAGTCCGCCGGATGTTCTACCATGCGTATGACAATTATATGACATATGCATTTCCAAACGATGAGCTAAAACCTCTTACGAAGACCTTCACCAACTCCCTCAGTGAGCTTGGTAATCTTAAGCTGGAACACCTACCGCAAAATTACAATGGATCTGCTCTTACACTAATTGAATCATTGTCTAGTCTTGTGATTTTAGGTAACAACACTGAATTTCAAAGGGCGGTGCTTTGGCTTTCTGAAAATTTGCATTTTGATGTTGATGCACGGATAAATCTATTTGAGTGCAACATAAGAGTTCTTGGAGGACTTGTTTCTGCCCATGTTCTTGCAACTGATTCCACAAACCGATTGGCTAGACAAAATTATAAGAATCAACTACTAGTTTTGGCTGAAGACTTAGGGAACCGCTTTCTACCTGCATTTAATACCCCCACAGGGTTGCCATATGCGTGGATTAACCTCAAGCATGGAGTAATGGAGGATGAGACTACTGAAACAAGTACTTCCGGGTGTGGTTCTCTAATTCTTGAAATGGGAGCATTATCACGATTGACTGGTGACCCCAGGTTTGAATATGCTGCTTTGCGTGCACTTCGTAAGTTGTGGAGCATGCGCAGTTCACTGAATTTACTTGGAACTACCTTGGATGTGGAAACAGGTGAATGGATTGAGTTCTCATCTGGAATTGGAGCTGGGGTTGATTCATTTTATGAGTATCTATTTAAGGCTCATGTCCTTTTTGGAAAAGAGGAATTCTGGAGAATGTTCCACACCGCTTACCTTGCTGTGCAGAAATATTTCAGACATGGTCCATGGTTCTTGTTGGGGACATTCCGGCAGCTAATTCATCACACCGTGAGTTCTTTTATGTATGGGAGAAATATGGAGTTCTACCGGAAAGTTCATTGCAATCTTCGCCAATACCATCGCATCGTCTTGTATCTGTATGTCTTCTGGCCTCCTATGTTGTCGCAGAAAAGAAACCCAGATGATGGTGATGGTTCGGCGGATGGTGATAATCCAGATGATAAGCGTAGAAAGTATTCTTTTATGAGTGTGGTTCGTGATGCCCTATCATTGCAATCATTGCAACAGCTATTGGAGCCAGTCATTCGTAAAGTGGTGAGGGAGGAGGTTGAATTGGCACTAAGAAAGTACAGTACCAATGTGCAAAGGAATGACGAGAATGATGGGAAAGAAATCTATTCTTCCGGGCCGAGATGCTTTCAATTGAAGTTCGTAACTGATATTTCTCTCCCGGTATTTACTGGAGCTCGCATTGAAGGAAGAGATGGTTCCAACTTGATGGTGGCTTTGGTTGACACCTTAAGTGGGGAAGTTGTTGGCGCTGGGCCTCAATCCTCAGCCAAAGTGGAAATTGTAGTGCTCGAGGGTGATTTTGAGGGTGGAGGTGATAGTTACACTATAGAGGAGTTTAAGAATAACATTGTAAGAGAGAGGGAAGGAAAGAAACCACTTCTTACAGGAGATACATTTGTGAGTCTCAAAGATGGCATTGGTTTGGTAGGTGAGATTTCTTTCACTGACAATTCAAGCTGGACTAGAAGCCGTCGGTTCAGGCTCGGTGCAAGAATTATAGATGACAATGATGGAACGAGAATACTGGAAGCAAAGACTGCATCATTTGTGGTTAGAGATCACCGTGGAGAATTGTACAAAAAGCACCACCCTCCATTTCTGCAGGATGAAGTATGGAGATTGCAGAAAATTAGCAAGGATGGAGCCTATCATAAGCGCCTAAGTCAAGAAAAAATCGAGACGATTCTTGGCCCTGGTATGTCTACCAAAATGTGGGAAGCTACGATTGAGCATGCACAGACATGTGTGCTCGATAGGAAGATTTACGTGTACAAACCTCGTGATTGGGAACAGAAAAACGGAGTGGTCTTCAATGTTGTAGGACAAGCTGATGCTCACCACTTGGTTATCTCTGCATACAAACACTGGGAAGAAGTTGACTCTATTGATGATGAAACTTCTCTTGTAGGTGGCTCTTCTCACCCACTCAGTTTCCTTTACACCCCCAGTTCACCCATTGAGGACCATTCTTATGGTGGCAAGTACTTGGCTTCTCCAAAATTTAGTGGCTTTGATTTCACACCATCAAATGCCTATTCTTCTGACATAATTTCATCGATGGGTTCTATTGGGAATCCTAGCGGCTTGGACGATCATGCTTTGCAGGGTTTTGATTCTATGGTTGTAAGATATGATCAGATGCCAAGTTCCCCAAACTTTGCCAGCTCTTCTCTGATCTGCGATTCCGAGCCACTAAACTCATCTTTCTTTGATGTGGATCATACACAAGTTTTAGAATCACGAGCAATCACAACAACTCTTCAAGGTGGCTCCTCATCATGTGGTGCTCAAATGAGATGGGCTAAGGTATATGGTGTGCTAAAATGGTACTTTTTGTTGAGATTTGTAATTAGGAGAAACAAACGCGGTTTCGAGAGATACAAAGGTGTACAGGGACGTGGAAAGGAAAAACTGGACTATGGTTGA MLPRRSFTWILLLFIIFSTLFIPSSSSNYWTAKRMRMREKVRRMFYHAYDNYMTYAFPNDELKPLTKTFTNSLSELGNLKLEHLPQNYNGSALTLIESLSSLVILGNNTEFQRAVLWLSENLHFDVDARINLFECNIRVLGGLVSAHVLATDSTNRLARQNYKNQLLVLAEDLGNRFLPAFNTPTGLPYAWINLKHGVMEDETTETSTSGCGSLILEMGALSRLTGDPRFEYAALRALRKLWSMRSSLNLLGTTLDVETGEWIEFSSGIGAGVDSFYEYLFKAHVLFGKEEFWRMFHTAYLAVQKYFRHGPWFLLGTFRQLIHHTVSSFMYGRNMEFYRKVHCNLRQYHRIVLYLYVFWPPMLSQKRNPDDGDGSADGDNPDDKRRKYSFMSVVRDALSLQSLQQLLEPVIRKVVREEVELALRKYSTNVQRNDENDGKEIYSSGPRCFQLKFVTDISLPVFTGARIEGRDGSNLMVALVDTLSGEVVGAGPQSSAKVEIVVLEGDFEGGGDSYTIEEFKNNIVREREGKKPLLTGDTFVSLKDGIGLVGEISFTDNSSWTRSRRFRLGARIIDDNDGTRILEAKTASFVVRDHRGELYKKHHPPFLQDEVWRLQKISKDGAYHKRLSQEKIETILGPGMSTKMWEATIEHAQTCVLDRKIYVYKPRDWEQKNGVVFNVVGQADAHHLVISAYKHWEEVDSIDDETSLVGGSSHPLSFLYTPSSPIEDHSYGGKYLASPKFSGFDFTPSNAYSSDIISSMGSIGNPSGLDDHALQGFDSMVVRYDQMPSSPNFASSSLICDSEPLNSSFFDVDHTQVLESRAITTTLQGGSSSCGAQMRWAKVYGVLKWYFLLRFVIRRNKRGFERYKGVQGRGKEKLDYG Homology
BLAST of HG10008647 vs. NCBI nr
Match: XP_008453126.1 (PREDICTED: calmodulin-binding protein 60 A-like isoform X2 [Cucumis melo]) HSP 1 Score: 970.7 bits (2508), Expect = 8.5e-279 Identity = 494/582 (84.88%), Postives = 516/582 (88.66%), Query Frame = 0
BLAST of HG10008647 vs. NCBI nr
Match: XP_008453125.1 (PREDICTED: calmodulin-binding protein 60 A-like isoform X1 [Cucumis melo]) HSP 1 Score: 967.6 bits (2500), Expect = 7.2e-278 Identity = 494/590 (83.73%), Postives = 516/590 (87.46%), Query Frame = 0
BLAST of HG10008647 vs. NCBI nr
Match: TYJ98579.1 (calmodulin-binding protein 60 A-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 951.8 bits (2459), Expect = 4.1e-273 Identity = 495/624 (79.33%), Postives = 516/624 (82.69%), Query Frame = 0
BLAST of HG10008647 vs. NCBI nr
Match: KAA0057891.1 (calmodulin-binding protein 60 A-like isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 949.9 bits (2454), Expect = 1.6e-272 Identity = 494/624 (79.17%), Postives = 515/624 (82.53%), Query Frame = 0
BLAST of HG10008647 vs. NCBI nr
Match: XP_004138123.1 (calmodulin-binding protein 60 A isoform X1 [Cucumis sativus] >KGN63613.2 hypothetical protein Csa_013238 [Cucumis sativus]) HSP 1 Score: 942.2 bits (2434), Expect = 3.2e-270 Identity = 483/590 (81.86%), Postives = 508/590 (86.10%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy Swiss-Prot
Match: Q9SXC9 (Alpha-mannosidase I MNS5 OS=Arabidopsis thaliana OX=3702 GN=MNS5 PE=1 SV=1) HSP 1 Score: 494.6 bits (1272), Expect = 2.3e-138 Identity = 241/311 (77.49%), Postives = 273/311 (87.78%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy Swiss-Prot
Match: C0SVV6 (Calmodulin-binding protein 60 A OS=Arabidopsis thaliana OX=3702 GN=CBP60A PE=2 SV=1) HSP 1 Score: 336.3 bits (861), Expect = 1.1e-90 Identity = 213/513 (41.52%), Postives = 288/513 (56.14%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy Swiss-Prot
Match: Q9FKL6 (Calmodulin-binding protein 60 B OS=Arabidopsis thaliana OX=3702 GN=CBP60B PE=2 SV=1) HSP 1 Score: 301.6 bits (771), Expect = 2.9e-80 Identity = 164/341 (48.09%), Postives = 226/341 (66.28%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy Swiss-Prot
Match: C0SV51 (Calmodulin-binding protein 60 C OS=Arabidopsis thaliana OX=3702 GN=CBP60C PE=2 SV=1) HSP 1 Score: 299.7 bits (766), Expect = 1.1e-79 Identity = 167/387 (43.15%), Postives = 242/387 (62.53%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy Swiss-Prot
Match: Q0WVV6 (Calmodulin-binding protein 60 D OS=Arabidopsis thaliana OX=3702 GN=CBP60D PE=2 SV=1) HSP 1 Score: 299.3 bits (765), Expect = 1.4e-79 Identity = 165/324 (50.93%), Postives = 214/324 (66.05%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy TrEMBL
Match: A0A1S3BVH3 (calmodulin-binding protein 60 A-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103493934 PE=3 SV=1) HSP 1 Score: 970.7 bits (2508), Expect = 4.1e-279 Identity = 494/582 (84.88%), Postives = 516/582 (88.66%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy TrEMBL
Match: A0A1S3BUW6 (calmodulin-binding protein 60 A-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103493934 PE=3 SV=1) HSP 1 Score: 967.6 bits (2500), Expect = 3.5e-278 Identity = 494/590 (83.73%), Postives = 516/590 (87.46%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy TrEMBL
Match: A0A5D3BHT8 (Calmodulin-binding protein 60 A-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold350G001990 PE=3 SV=1) HSP 1 Score: 951.8 bits (2459), Expect = 2.0e-273 Identity = 495/624 (79.33%), Postives = 516/624 (82.69%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy TrEMBL
Match: A0A5A7UWN0 (Calmodulin-binding protein 60 A-like isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold274G001910 PE=3 SV=1) HSP 1 Score: 949.9 bits (2454), Expect = 7.5e-273 Identity = 494/624 (79.17%), Postives = 515/624 (82.53%), Query Frame = 0
BLAST of HG10008647 vs. ExPASy TrEMBL
Match: A0A6A6MQL3 (alpha-1,2-Mannosidase OS=Hevea brasiliensis OX=3981 GN=GH714_030147 PE=3 SV=1) HSP 1 Score: 940.6 bits (2430), Expect = 4.6e-270 Identity = 533/1049 (50.81%), Postives = 657/1049 (62.63%), Query Frame = 0
BLAST of HG10008647 vs. TAIR 10
Match: AT1G27520.1 (Glycosyl hydrolase family 47 protein ) HSP 1 Score: 494.6 bits (1272), Expect = 1.7e-139 Identity = 241/311 (77.49%), Postives = 273/311 (87.78%), Query Frame = 0
BLAST of HG10008647 vs. TAIR 10
Match: AT5G62570.2 (Calmodulin binding protein-like ) HSP 1 Score: 336.3 bits (861), Expect = 7.6e-92 Identity = 213/513 (41.52%), Postives = 288/513 (56.14%), Query Frame = 0
BLAST of HG10008647 vs. TAIR 10
Match: AT5G62570.1 (Calmodulin binding protein-like ) HSP 1 Score: 330.9 bits (847), Expect = 3.2e-90 Identity = 207/495 (41.82%), Postives = 278/495 (56.16%), Query Frame = 0
BLAST of HG10008647 vs. TAIR 10
Match: AT5G57580.1 (Calmodulin-binding protein ) HSP 1 Score: 301.6 bits (771), Expect = 2.1e-81 Identity = 164/341 (48.09%), Postives = 226/341 (66.28%), Query Frame = 0
BLAST of HG10008647 vs. TAIR 10
Match: AT2G18750.1 (Calmodulin-binding protein ) HSP 1 Score: 299.7 bits (766), Expect = 7.9e-81 Identity = 167/387 (43.15%), Postives = 242/387 (62.53%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01 Position : 0 Zoom : x 1
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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