Lag0037637 (gene) Sponge gourd (AG‐4) 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.ATGGGGTCTGGTTTTCGCGGCAATGGCAGTAGCAGTTGCGAGTACAAGTGCGACACTGCAGCCGATACTCAGCAATGGATAAAGGCCATCGTCGACTTTATCAAACCTTACTCGTTCTTGATCAATGCTCCCGTCGTCAATTTCTTCAAGGTTTGTTGATTTAATTCTTCATTCGCACAAGTTCTGGAATCTGCTTGGAGTGTGGCTTCTAACTTGATCTTGATCTTTCCTTTTCGCTCGTGGATGCTCTTTTATGATATTCTGTTATGTTACTGCTTCCATTTTCTCTTCCAGGATAGACTGTGGGAAACTGTTGATGAGGAATGGATGGAGTGCTTGCGCAAGGAACCTGTGAAAAACCTGCTCCTAATTCCTTCTGGAGTTGTCCAGGTGAGTCTTTAATTGAAGAACATTGTTAGACTTGGATTTTATTTCAATTAGCGTTTGTTTGGACATTTGAAACTTAGTTTAGAAGCTAGATTTGAGCTCATTTGTAAGGTCCTCATCCACAACAAAAGTACGCATGAATTATTTGACTGAATTGATTATTACGCCTTCTCATTGGTCCATTTAAGTATTTTTGGGATATTTTTACATGACAATCATCTGTCTACATGTCAATTTTGACATAATTGTCTGATTATCTGGATCGAAGTATAACATCTAATCAATGTGCTTGGAAGAGTATTTTAAAAATATTCATGCAACTGAAATTGATCACTAGTTGTAATTTTATTTTCATTATGAAATTCATATTGTAGCACCACCAAGGAATTGATGTAGAATATTAGATTTATATTTCGCTTAGTATGTTTTTATATGATATAATCCTCCATGACATGTCAATTTTGACATAATTTGTCTGATTATTTTGATGAAGGATAACATCTATCAGAAGATTGATTTGTACTTGTAGAGTATTTTAGAAATATTCATGGAACTGAAATTTATCATTAGTTGTAGTATTAAATTCTTTTTAAATTAGTTATTCTCTGTGTTAATACGTGGTTGGATGGCTAATTCTACGGAAGAATGCTGAAATTGTACAATGACAGATTGCTTTGAATAAATTCAGTTTCAATTTCTGGGAAAATCGATGTGAAATGGATTGAATTTTATTATTACTTTTTTTTTTCTTGGGAACAGATGCCATAAAGATTTCTGTCTAACCTCTTGTGTTTGCCTGGTGAGCATATAAATTTGGCTATCAATATGTGTGTAATTGATTGTTTTTTTTTTTTGGGTAAGAAACCGAACTTTCATTGAACACATGAAAGAATACAAGGATATACAAAAAACAAGTCCAAGGGGAACGAGAGTCCAAAACTAACTACAAAAAGAGACTCCAATCCAAAAGAACAAGATCAAGACCATATTTACAAAAAGGACTAGTGACTAATTGATTAATTGGATTTAAAAATAAGGATGCTGTTTTTTTTTTGTTCACTAACTCCATATTTAGGTGCGTATATGACGTCTCTGACTAGTTATATTAAATAGAACTGAAGTTATGATGAACCTTCACTTGAAAGCTTTTTTGTAACTATCTGGTGGACTAGGGATGCCTTATCCCTAGGTCCTTAGGATGTTTTTCTATGGCTGGAGCCTTTTTGAATGAAATTCTCTGTTTCTTCAAAAAAGAAAAAAATAACAAACTGAAGTTATAAAATAGCAAGAACTCAGAAATGAAATATGGGTGGAAAAATATGGCTAGCGTAAAAAATGTTGATGATTGCCATCTATGTGTCACTGCACGTCTGACCCTGAATTAGTTGCTGAGAAGTATCAGAGTTGTTGACATTTATCAGCATGGGCAACCGGGGAGTGTTCTGTCTGGAAATATCGCTGATAGTTTAATCCATTTAAGGAATTTATGAAATTATGTGATAGATCTTTTTATTGTGTTTTTTTATTATGAGTGCACTTATTCTAATGTAGTGAAAACTAATTTTCTGATTTTCTGGTTTGACGAAATCATTCAGGAATACTGGCCAGATTCACTAAAGGAATTTATCCGTACTTCAAGATCTCTTGCCTTTCAACGTGAACAAGTAGACTTGCAAATGGTAGTGCTTTTATGTTATACATATGTCATTTATGCTTAGTTGATGGTTTTTGCTTGATTGGATAGATTTGCTGTCTATAGCAAGTCTAAGAAACACAAACTAATGGCATGATATCCATTATCCACTACGATTTATATGTTACAGAATTAGATGCTTGGGAGGAAGGCATCTTTTTTAATAGACCTAAACACTTCGAAGAAGTAGAGATCGTTTTTAGGAAGAGCACATACAAAAAAACAATTTATTGTTATTTGATATAAGGGGAAGTATTTTTTGGGTATAGTACTAGGAGTTGGGAGAGTGAGGAGAACTCTCAAATCCTTTGCCAGATGTGCACTTCTCTATTTCTTTTTAATCATAAAGAACTATGTCACTATAATTATCCAACTCACGTGTGTCAAACAAAATGACGTTCCAGGTAATTTTATCCATTTTCTTAGTACCACATTTGCGTCTATTATTGCAGGTTCTACCTGGTTGGTGCATGGCTTCGCTTAACACTGTTCTTTCTCAAGGCATGAATCAGAAGAAAAAACATGAAGTAAGTTATTGGTGAAGCTTTGTTTCGTTTCTAAGATTGTCTATGATTTTTAAATTGAGATTTTAATTCTTATGATCTTGTTTTTTTTCCTACGAGTCAAATTTTCTAGCACTAGTTATCAATTTGGTGGAGAGCTAAGCCAAAATCAGTCAGTTTATCATTTTCAAAGAAAAGAAAAAGAAAAGGGAAAAAAAAGAAGAAGCCAAATCAGTAGGCTATTCTATTAATTCTTAAGATTTTATCACAAAAGGGGAAGCCCTACCTTTAGGTTATGGGTACAGACTTATTACAAGTAATGTTAACTAACAGTAAAATTAAATTATCCTACTTGCTACTTTTTAAAAAGTAACAATAATAAATAAAACAAAAATAATTACCCATATATAGTCCTACATCATTCGTTTCATTGAGCCAACATGAGTATAGCTTAGTGGTGATTGACATTTACTCATTTCCTTGGGATCAAAGGTTCAAATTCCTATGCCCCACATTCGTTCTACTTAAAAAAAAGCACTCATTTCACTGAAGATTCTTATGATTTTTTCCCACGTCAAAGTACAAATCCCATTTTTGATTTGCCTTTCAGTGTTGATGTGGTCATTCATTCGTTTACTTTCATACTATCTACAAATGATGATATCTATTTTTTTTTTAATACTATTTGATTTTTTTTATAAAGATATAAAAAAGAACAACTTATAGTTCGGCATGATGCTAAATTCCTCATGTTTGTACAGTTAAATTAGCCATTTATGCAACGTGTCTTTACCTAGTCAAACCTGTCCTTAAACCACTCTACTTTATGCACGTTTCATTTATTTTAGTTAGTAATAAACAAAGAATTTATTATGGTACGAGGTGATTTTGACAAGGTATGGAGAACTAACTCTTGTTGTACACGATAGGATTGTATTAGGGCCATATTAGTCATGTGTAGAGTAAAGATGGTCAGCCAATTGTATGCTTATTTACAAAACTATGATAGTTTAAATTGAATACGATGTATTTCGTCATTAACTATGCATCTGGATATGATTTATACTTAGTCCGTTTTGCATGATAAATTATGTGGGTTTCATGGCTTGTCAAATGCGATGATTCAATCTATCAGTTGTGTTTTGATATATTATAAACAAAACATTTTCTATATGATTCATTAGGAAAATTTTTAATGCATCGATAGGTTGAAGTCCTTTCCGCCATTATTAGTTTGATTGCAAGTGACCTGAAAAGTCGTGCAATTGTTGATGTTGGTGCTGGTCAGGTAACTCTTACTTTCATTACTATATGCAAAATGGGTAAGTTTGGTACTGCATCCGAGCTTCCTTATATTTTTTATTTGGTTTAAACACTTGACATGCATATAATATATTTGATGTATTGACTTTTGTAAAGTGGAAGTCTGTCAGTTTAAATGTACTCCAGAAATGAGCATTTATGAATTTGCATTGTATTGATAAGTCTTTGGAATGTACATTCTATTTTTTGGTGACACTAAAGCATTGGAAGCATAAGCAATTTACGAAATATATATGCCCTAATAAAAAAGAAGGCCATTTGGTTGCAATCATTCTTTTCTATTTAAAAAAAATGGTCATGGTGATTCAACTTTTTAGTGTTTGCGGAAAATGAATTTGATAGAGGATAAATGCAACTATACAACCGTTTCTTCTAAAAGCTACAAGCTACAATTGGCAGAGATGTATTCTTAGCATTTATGCATTCAGGATTCAGCTTGGAGTGAACTTTGCAAGCCTATCTAATCAGGTCGTACTAAAAAAAAAAAAAAGAAAAAATTCCATAATGGATGGGCTTAAGCATTTTCCATGATTTTGGATCTATTAGGTCTACTTTGTAAGCTAATGAAGCGCAATGACAGAAACCTCAACATTATTTCAGTTATTAAAGGCATATTTATAGAGTCCTAGACATACACGGGAGCTTTGAAATTAGTAGAGTAAAATTAAAATAAAGGGCGAATATCTAATAAGCTCATATGACTTAGATATTTATGTCAATATCCAATAATATTCATGTTGGAACACTCCTCAAGTTAGAGTGTATATGTTAATAACACCAAATTTGTTGTAAACATTATCTATTCTTGCTCCATTTAATGTGGTTGTGAGGATATCTCCCAAGCCTTAATTGTTTTTCACTCTTTGTAGATCTAGTGGATACTAAACCTTGTTATATTGTCTTCTGGTCAAATAACAATCTACTTCAACACATTTAGTTTGATCATGAAACACTTAGGACATGATATGATGATACGAATGCCAGCTTAGTTGTTTTCATCGCAATTTGGTTGGAACTGTGATGCTACAATCTAACTCACTCAAGAATTGTTGTTTTTACATTTACATATAGTTTGTACCATAGATTTATATTTTGAGTCAACACTTGAGCATAAGACCATAGTCTACTTCTTACTCTGCCATGAAACCATATTAATGTGTGGAAGACACTCATCTTAGTATGGTCACGAGCTTTATATATGATTATACACATTAAGGTATAGCTTTCAAGCGACCCAAAATTTGTTCTAGTATAGCTTAATTGTCATTTATAGATGAGGACATGTACTGTAGTACTTATTGGATGAGCTATGTTTGGAAAGGTCATTGAAGTTAATTCAACTTTTTGACCAATTTTCTATACCTCTCAAAAACCTTAAACAATTCATCTTTTGCGAGTTCCAATTATGCATAACTATTTACTTTTTTTTTTTTTTTTTTTTGAGAATGCATAACTATTTACTAAATGGCTTAGCCCCCAAGTTTTTTATCTAAATTTGCGAGTCAAGCACTAGTATCCTTTCTTGCTCAATGCCCAGGAAGTATTTTAATGTTCCCACCAAGTCTTTGTATGAAATTGACCATGGAGAAATGTTCGTGGATACAATATTGATGCATCATTCCTATGAACGACTGTCATCAATATATACCACTAATAGAATAATACCTTTCTCATACGCTTGTAGAAGTCTAAATAGTTATAGCTACTATTTCATTCCAAAATTCTCAGTAGTTGGACTAAAATTTTCCATGGCGTACTCAGTAGATTCTTCTTTAACCCATTTAAGGACTTACAATTACAAAGGTGACAAGCTTTCTCATTCTTCCGTTGAGCAGCTAAGCCGGTTGCTCTATGTAAACTTCTTCCTAGTGAAGAAAGACATTCTTAATGTGGAGCTTCAGCTAATATGAAGGCCAATAAGGGGTACATGGTTGAAATAATGGCTTGATAGATGTGAATTTAGAAATGGGAGAAAATGTGTTTTCTTGTAGTTCTTAGTTTGTATTATTTCTTTTTGCAAAAGGGATGTCCACGATTGCTCCTTGACATATCCGTTTCTATTTCCTAGAAATATGATTTCAGGCTTTGTTGGTGACTGGGTTAAAAAAACCTATGATATTGATTTTTATAAAAGAATTATAGATTTCTATTGTAGTATAATAGTATTCATCATTATTAAAAGAGCAACATTTGGGCCTTCTTTGTTTTCTTTCCTTTTCTTTTCTTATAAAATGTCTGGGAAACAATACTTCCTCAATTAAATGTGTAAATTTCTTTCTGAAATTAACTTAGTGGATTTTATGTTGTGGTACTTGAGGAATTGAACTTCACTTCAGTTGATTTTGCGTTGTGGTACTTGAAGAATTCAACTTCACTTGCTTGCCTTTGTATGATCAATGTCTAAGACATAATTTAGAATAGGATATCCTCCACATGCGTCTTGCATAGCAGCAAAACATTCCCCTGGGCTTCTAATTAAGCATTATCTGATGAATCTTTCTTTTATACGTTTGATCTGAATCTCAGCCATACTTTTTGAATGATCCTCTGTAATCTACTTACTCTCTTGATCTTTTTTTTTTCCTTTCATTAATGTTTCAGTATCTTCCTAAAAGAGTTTATTGTCCATATAACTTCTTCCTAAAATAAAAATTCTATGTAACTGTATGCTTCGTATAATGAAATTCTATGTAACTGTATGTTCGTATAATGTCCTGCTATTGCTTCAAGGAAAATATGTAGTCCATTTCATACTTATGATCTTTTCTTGTTAGGGTTATTTAGCACAAGTGCTCTCCTTCCATTACAAGCATTCAGTTCTAGCAATTGATGCTTGTTCCCATCATGGAAATGTGACAAGTGCACGTGCAGCACGGATTAAGAAGTATTACTTAGCTCAGATTCGTAAATCTGGGTAAGGGTCTAGAAAACATTTTTAGCCAATAAAACATTTCAGGCTGATGCGAGCAGATAGAATTAATTTGTTTCTCTCATTTCCCCTATTTTAAAAATCTTCTCAAAGCTATTTCTCTTGTTTGTGTTCTTTTGAACTTGGTCCCATCTTTTATTGGTTGTCTTAAAAACTTCATGTTTTGAGGGAGTGATAATGCAATTATTAGCGAGAGTATCTACCACCCGCAATTGCAATTTCTGAAGCCAAGCTAAGCTCATGCACATTGCATTTATTCTTTATCTTTTCAACGATGTTCATCTTCTGAAGACTGACATAAGAAATAGAAAAAATGTTTCCTCTCTATTCTGCATCTACAAATCTCAAAGATCCACAATATTAAACTTTGTAGTTCACAAAAACAACAGATAAATCACTTTGCGATTGTGATGAAACTCAAACCATCTTGTATCGATAAATCATTCTAATGCATGACCATTTCTAAAAAATCAGTCATTGCTCTTGTTATGTGGTTTTAGTCATTGTAACTTAGAGGTAAATAGAACAATAATGCTTCTGAATACTCAGGTGTATCTAAGAGGACTAGATGCAAATCTTGTTTTTGTCTTGCCACGATCTTAGTTACCAGACGAAAATAGCATTTTGGTCTTTACTTATAGTTTTTTTTTTTAAAAAAAAATTTAGTATCACAAGAATTTTCACTCTTTTTCTAATTTTCCTTGAATTGCTTTCAGATTGGAAGCCAAAACTTTGAGACCGCCAAAGGCAATGACATTCCACGTATTGTCCGTTGATGCATTAAAATCCCTTGCTAACATGTCACTACAAGACGATCATGCCGAGGAGACAAGTGTGACCCATCAGCAGGAATCAAAGTGTTTGTGCAGTTCGGACAAAGAACCTTCATTGGTTCTTGCTGGTCTTCATGCTTGTGGTGATCTTTCAGTGATAATGCTTAGGTTAGAATAACATGATATTGAATTACTCTTTTTAGCAAGATGTGTCAAATATACGCTTCTTAAAAATGCAAAGTAGGTATAAATTACTCACTAAAATTTGATTAAGAAGAACGACTGAGGATAAAGATGGATCAGCCAAAGGGTCTATGCGATGTCTGTGAGAAGCTAACTGGCCAGGAACTTTAATTTCCAATAAAATACAAAAAGAAGATCCTAGAAAAAATAACATGTTACTAATTTGGTTGCTCCACCTATGTGTCAAATGACTCAAATCTCATCAAAGAAATTAGTTTTCACAGCACTTCTAAGTTAAAGAGATGTTATTTATAATCGAGAATATGGTTTTAAGTTATTGCATTTTGCCTGGAAGTGTTTTTCTTTAGAAGAAAAAGATGCAAAGGTGAGATGGGCAACGGTTTCTATCTATCATATTGGTGTTATTATCTCTATCATTTCAGTATAGGATATAACAAATGTACTATATTCCACCATATAAACCAGGACTTTCGTAGAGTGCAAGGAAGTAAAAGCAGTCATTAATATTGGTTGTTGTTACAACCTTCTCTCGGAGGATGGATCTGACATTGAAGGTATCCAAAATGGATTTCCAATGAGCTCCGGTGTCAAATCTTCTGGCTTGTCTCTGGGAAAAAGTAGCAGAGACCTTGCATGTCAGGTCAGCTTTTCACCTTCTCCACCATCATACATACTTAAAAGATTTCATTTTTTTTCTTTATCTTCTCAAGGCAAGTTGGGTTGTCGTTTGAGTTTTCCTTGAATCACCTAGATGATAAAAATAAGATTAGAAAGAAAAGGAGAGAATACAGATAATAGTTTTATGCTCAAAGTAATTTTAAGAATTAAACCATCTGAAAGGTGTACGTAGTTGTTGCATGATTGAAGTACATTTTTTCGAGTTGATTAAAAGACTAGTATTGCTTAAGTGGTTTATAATGAATTTTAACTGGAGTGAAATATAGAAAACTACATTTGGCTTTGATGTCAGATCAATTGTTGTATAACGAGGAAGGAGAGCTAGGTCTTACTTGTCAGTATTGTTTAGCTTCGTTATTACAATAAGTGCCTTAAACAGATAAAATCTAGCCACAGGGCAAGAGATAAGAGCATTTAGAAAATTAATAGATCAATAATTTCAATGCTCAAGTAAAATTTATAACTTGTTTTTCTCTTTAGAGTGCAGAAAGATGGAGGAATTTGGAAAACGAGGGGGTCTCCATAATTTTGAGTTGCATGCTTTCCGTGCCGCTTTCCAGATGGTAAAAGCCGTGACTAGTTTTTTATTATCTCATTAGGCTTTATCATGTAACTTAGTTCAATTGTAATTTGCATTTAGTTTCAAGCATATTTTGAAAAAATTATATCGAATTTGTTTGAAATTTGATCTTGCCTCCTAACATTATTGCTTCTCTCCCTCTAAATTCAAATCAATCAAATAACTATTTATTGGAGGCCTTTACGGCAAGTTACCTCATTAGAAAACTGTTGTGTTTGTCTTAGAAACTGTAGTGAGCTTACGGAACTACAAATCCACCTATGTGCTGTGGTTAGAGTATAGCATTGAAAATTTTGATAAAGTATATTAGTAAAAGAAAACATGGGTAGTTTAGTCTTTCCTTGATCTCTTGAAGTTTCATGCAACTGGCTAAAAGAAACATAATACTTGAAATTAGCTGCGGACTTGATTTCTCATTTTGGTTTTCTATTGTTTTTTAAGATATCCCTTAAAGATCTCTTTGTTAGTTCTGTCAAAAGATTAAGCTTATGGGATTCAATAGAACTTTTCTTTACCGAGACATTCCATAGTACTTAAATAATTTTGCCTGACAATAGATTGTAAAGAGGCAATGGAAGTATGGATCACCTAACTTCTCTTCTGCCCTATAACACAAAAGATCCAAATGAAGTTACAAAAGAGAAAGGGCTATTAAAGTTGGCTAACCATAAGCTACACAAGATTCTTGAAACAGTACGTAATCTGCAGATCTGTTTGCACAAACATTTTGCTTTTCCTTTTTAAGCGTTCCTTCCTTTCTTTTTTCTTCTGTTAAGGTTCTCTATAAATATTATCCAGAAGTTGTAACAACTTGCCCATCTGTTGGGCGCCAAGGAAAGGCTTTGCGTCGTCGAAAGAAAAGGGAGGCTACAGTATCTTTGCAGTGTCGTGAAGATAAGCTTGAGGCAAAACAATCAGGTATGAGATGGTAAAGACTAAAGTGTTCTAGCTTTCTGTTAATCAATGACATTGTATCACACCCTATCCTGTGCTGATATGGTAGATGTTAGAGGGGTTAGTGGGCTATGCAGCATAGCTTCAAAGCATCCATTTGTTTATCTAGCAGATAGAATACTACTGATGCAATTTTAACTGTTTCTTTGACCAGTAAAATGTTCAAGTAACGATTCCATCTACTTTGTTACCCTGAAAATATACTGCAGATCTTATTGGGGCTTTGCCAGTCAACAACTATGCCTTTTCTCTTACCATTTCTGACAATGGGCGTGTGCAATGTGAACAGCCCAAATCTGTCGATAAATATCCTCTTTTTGAAAGGTTCTGCCAATCTGGATTAAATCGCCTTGGACTTCAATCTTTGCAGGACATGGATTATTGTGGAATATGGATGGACACTGAGCCTTTTGCTGTATGTATACTTAGTTCTTTTACCTGTTATATAGGACTGAGTCATATACAAATTACAAGTTACAATAATATATAATCTTTAGTCTGAGAATTTAATTGCTCCAAAATTAATGATTGTTGTTAATTTGAGTCTCTTGTTTCCTAAGATGTTAATTTATTATTATTTGGTTTGCTTCAGAGTTACGAATGCTGTCAATTAAACATCTGGTGTGATATCTAACTTGATCAACTGAATGGTGGAAGTTCAAAGAATAGGACATTTGTCTTAGAATTTAAGGGCTGAATCATTCAATTAGAAATTTAGAATCCAAGGGACCATTTAATGATGTTACATGAATTTAGTTGGAGGATGTTGCGTTATGGTCTCATACAAAGGCTTTGTTTATCTCGTGCACTATGTACTTAATTGTACAATTAATAAAAGAAAATAGAACATCGATTCTTTTTATAGAGTGTTGTGAAGTGTTCAAAAGAAGATACTTGGTAGATATATGCATAGTTGCAGGACATTACCATATATTCATATATATATATATATATATAGTTAAGCTAAAAGTTCTTTATGAGCCCTTCCATTTAGTGGTAGATGTTTTTGGTATTAAAATATTGATATGATGCTTAGAAAGGCAGGAAAGCATTTTGGTGGGGGTAAGAATACCTGTATATAGAAAGGTATCTTGTCTAAAGCAAGATTTCCTTATATCAACTTTTGAAAAACTAGGTGCGAGCATACCAACACTAATGCACCGGATCCCATTATAACTCCACAGTTAAGCGTGCTTGGGCGAGAGTAGTACTAAGTTGGGTGACCACTTGGGAAGTCCTTGTGTTGCACCCCTTTAAAAAAAAAAAAAAAAAAACTTTTGAAAAACCATTATTTCATATTAGAGTAAACCATTTACTGTATACGAGGATCTACTGAAGCCTAGAACTGAGATAAAATGACAGCTATAGACTAAAGATATAGATAGTAACAATCATGATGGATTGGCTTAGTGGTCAAAAAGGATCCTTGGGAATAATAAAGGGCTTAGAAGGAATAGGTTCAAACCATGGTGGTCATCTATCTAGGAGTTCATATCTTACAAGTTTCCTTGGTAATCAAATGTAGCATGGTTGGGGAAAAAAGCAGTTAGTAGCACAGTTATGCCATCTTTTCATAGAATTCATATTTAATTCTTTTGAAGAAAATGCTAAATGGAGATCCTGGCCCTGAAGAAAAGGTTCTTTATTTAAGGCCTAGAGAGACACCTCCACAACCTCCCTGCCCCTCACCCCACCCCAAACCTCGGACTACTATTGGAAATTATATGTATTTTTATGTGAAAATTTAGAAGTCAATATTATGTTAATGGCTCTTAAACATTCCCAATGTAACTAATAAATCGTATGCAGGAACTTATTGGGCCTTACTGGTCTCTTCGAGCTGCATTGGGCCCAGTTTTGGAAACATGTATTCTGCTTGACAGATTACTATTTCTCCAGGAGCAAGGTGGATCCCTTGAAGCCATAATGCTACCTATTTTTGATCCGGATTTATCTCCGAGGAATGTGGCTATAATCGCTAGGAAAGTTGGTGCAGCATAAATGGGGTCTGGTTTTCGCGGCAATGGCAGTAGCAGTTGCGAGTACAAGTGCGACACTGCAGCCGATACTCAGCAATGGATAAAGGCCATCGTCGACTTTATCAAACCTTACTCGTTCTTGATCAATGCTCCCGTCGTCAATTTCTTCAAGGATAGACTGTGGGAAACTGTTGATGAGGAATGGATGGAGTGCTTGCGCAAGGAACCTGTGAAAAACCTGCTCCTAATTCCTTCTGGAGTTGTCCAGGAATACTGGCCAGATTCACTAAAGGAATTTATCCGTACTTCAAGATCTCTTGCCTTTCAACGTGAACAAGTAGACTTGCAAATGGTTCTACCTGGTTGGTGCATGGCTTCGCTTAACACTGTTCTTTCTCAAGGCATGAATCAGAAGAAAAAACATGAAGTTGAAGTCCTTTCCGCCATTATTAGTTTGATTGCAAGTGACCTGAAAAGTCGTGCAATTGTTGATGTTGGTGCTGGTCAGGGTTATTTAGCACAAGTGCTCTCCTTCCATTACAAGCATTCAGTTCTAGCAATTGATGCTTGTTCCCATCATGGAAATGTGACAAGTGCACGTGCAGCACGGATTAAGAAGTATTACTTAGCTCAGATTCGTAAATCTGGATTGGAAGCCAAAACTTTGAGACCGCCAAAGGCAATGACATTCCACGTATTGTCCGTTGATGCATTAAAATCCCTTGCTAACATGTCACTACAAGACGATCATGCCGAGGAGACAAGTGTGACCCATCAGCAGGAATCAAAGTGTTTGTGCAGTTCGGACAAAGAACCTTCATTGGTTCTTGCTGGTCTTCATGCTTGTGGTGATCTTTCAGTGATAATGCTTAGGACTTTCGTAGAGTGCAAGGAAGTAAAAGCAGTCATTAATATTGGTTGTTGTTACAACCTTCTCTCGGAGGATGGATCTGACATTGAAGGTATCCAAAATGGATTTCCAATGAGCTCCGGTGTCAAATCTTCTGGCTTGTCTCTGGGAAAAAGTAGCAGAGACCTTGCATGTCAGGTTCTCTATAAATATTATCCAGAAGTTGTAACAACTTGCCCATCTGTTGGGCGCCAAGGAAAGGCTTTGCGTCGTCGAAAGAAAAGGGAGGCTACAGTATCTTTGCAGTGTCGTGAAGATAAGCTTGAGGCAAAACAATCAGATCTTATTGGGGCTTTGCCAGTCAACAACTATGCCTTTTCTCTTACCATTTCTGACAATGGGCGTGTGCAATGTGAACAGCCCAAATCTGTCGATAAATATCCTCTTTTTGAAAGGTTCTGCCAATCTGGATTAAATCGCCTTGGACTTCAATCTTTGCAGGACATGGATTATTGTGGAATATGGATGGACACTGAGCCTTTTGCTGAACTTATTGGGCCTTACTGGTCTCTTCGAGCTGCATTGGGCCCAGTTTTGGAAACATGTATTCTGCTTGACAGATTACTATTTCTCCAGGAGCAAGGTGGATCCCTTGAAGCCATAATGCTACCTATTTTTGATCCGGATTTATCTCCGAGGAATGTGGCTATAATCGCTAGGAAAGTTGGTGCAGCATAA ATGGGGTCTGGTTTTCGCGGCAATGGCAGTAGCAGTTGCGAGTACAAGTGCGACACTGCAGCCGATACTCAGCAATGGATAAAGGCCATCGTCGACTTTATCAAACCTTACTCGTTCTTGATCAATGCTCCCGTCGTCAATTTCTTCAAGGATAGACTGTGGGAAACTGTTGATGAGGAATGGATGGAGTGCTTGCGCAAGGAACCTGTGAAAAACCTGCTCCTAATTCCTTCTGGAGTTGTCCAGGAATACTGGCCAGATTCACTAAAGGAATTTATCCGTACTTCAAGATCTCTTGCCTTTCAACGTGAACAAGTAGACTTGCAAATGGTTCTACCTGGTTGGTGCATGGCTTCGCTTAACACTGTTCTTTCTCAAGGCATGAATCAGAAGAAAAAACATGAAGTTGAAGTCCTTTCCGCCATTATTAGTTTGATTGCAAGTGACCTGAAAAGTCGTGCAATTGTTGATGTTGGTGCTGGTCAGGGTTATTTAGCACAAGTGCTCTCCTTCCATTACAAGCATTCAGTTCTAGCAATTGATGCTTGTTCCCATCATGGAAATGTGACAAGTGCACGTGCAGCACGGATTAAGAAGTATTACTTAGCTCAGATTCGTAAATCTGGATTGGAAGCCAAAACTTTGAGACCGCCAAAGGCAATGACATTCCACGTATTGTCCGTTGATGCATTAAAATCCCTTGCTAACATGTCACTACAAGACGATCATGCCGAGGAGACAAGTGTGACCCATCAGCAGGAATCAAAGTGTTTGTGCAGTTCGGACAAAGAACCTTCATTGGTTCTTGCTGGTCTTCATGCTTGTGGTGATCTTTCAGTGATAATGCTTAGGACTTTCGTAGAGTGCAAGGAAGTAAAAGCAGTCATTAATATTGGTTGTTGTTACAACCTTCTCTCGGAGGATGGATCTGACATTGAAGGTATCCAAAATGGATTTCCAATGAGCTCCGGTGTCAAATCTTCTGGCTTGTCTCTGGGAAAAAGTAGCAGAGACCTTGCATGTCAGGTTCTCTATAAATATTATCCAGAAGTTGTAACAACTTGCCCATCTGTTGGGCGCCAAGGAAAGGCTTTGCGTCGTCGAAAGAAAAGGGAGGCTACAGTATCTTTGCAGTGTCGTGAAGATAAGCTTGAGGCAAAACAATCAGATCTTATTGGGGCTTTGCCAGTCAACAACTATGCCTTTTCTCTTACCATTTCTGACAATGGGCGTGTGCAATGTGAACAGCCCAAATCTGTCGATAAATATCCTCTTTTTGAAAGGTTCTGCCAATCTGGATTAAATCGCCTTGGACTTCAATCTTTGCAGGACATGGATTATTGTGGAATATGGATGGACACTGAGCCTTTTGCTGAACTTATTGGGCCTTACTGGTCTCTTCGAGCTGCATTGGGCCCAGTTTTGGAAACATGTATTCTGCTTGACAGATTACTATTTCTCCAGGAGCAAGGTGGATCCCTTGAAGCCATAATGCTACCTATTTTTGATCCGGATTTATCTCCGAGGAATGTGGCTATAATCGCTAGGAAAGTTGGTGCAGCATAA MGSGFRGNGSSSCEYKCDTAADTQQWIKAIVDFIKPYSFLINAPVVNFFKDRLWETVDEEWMECLRKEPVKNLLLIPSGVVQEYWPDSLKEFIRTSRSLAFQREQVDLQMVLPGWCMASLNTVLSQGMNQKKKHEVEVLSAIISLIASDLKSRAIVDVGAGQGYLAQVLSFHYKHSVLAIDACSHHGNVTSARAARIKKYYLAQIRKSGLEAKTLRPPKAMTFHVLSVDALKSLANMSLQDDHAEETSVTHQQESKCLCSSDKEPSLVLAGLHACGDLSVIMLRTFVECKEVKAVINIGCCYNLLSEDGSDIEGIQNGFPMSSGVKSSGLSLGKSSRDLACQVLYKYYPEVVTTCPSVGRQGKALRRRKKREATVSLQCREDKLEAKQSDLIGALPVNNYAFSLTISDNGRVQCEQPKSVDKYPLFERFCQSGLNRLGLQSLQDMDYCGIWMDTEPFAELIGPYWSLRAALGPVLETCILLDRLLFLQEQGGSLEAIMLPIFDPDLSPRNVAIIARKVGAA Homology
BLAST of Lag0037637 vs. NCBI nr
Match: XP_038899874.1 (protein RRNAD1 isoform X3 [Benincasa hispida]) HSP 1 Score: 916.8 bits (2368), Expect = 8.6e-263 Identity = 469/557 (84.20%), Postives = 489/557 (87.79%), Query Frame = 0
BLAST of Lag0037637 vs. NCBI nr
Match: XP_038899865.1 (protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899866.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899867.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899868.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899869.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899870.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899871.1 protein RRNAD1 isoform X1 [Benincasa hispida] >XP_038899872.1 protein RRNAD1 isoform X1 [Benincasa hispida]) HSP 1 Score: 902.5 bits (2331), Expect = 1.7e-258 Identity = 467/565 (82.65%), Postives = 487/565 (86.19%), Query Frame = 0
BLAST of Lag0037637 vs. NCBI nr
Match: XP_038899873.1 (protein RRNAD1 isoform X2 [Benincasa hispida]) HSP 1 Score: 902.5 bits (2331), Expect = 1.7e-258 Identity = 467/565 (82.65%), Postives = 487/565 (86.19%), Query Frame = 0
BLAST of Lag0037637 vs. NCBI nr
Match: XP_038899875.1 (protein RRNAD1 isoform X4 [Benincasa hispida] >XP_038899876.1 protein RRNAD1 isoform X4 [Benincasa hispida]) HSP 1 Score: 902.5 bits (2331), Expect = 1.7e-258 Identity = 467/565 (82.65%), Postives = 487/565 (86.19%), Query Frame = 0
BLAST of Lag0037637 vs. NCBI nr
Match: XP_023535164.1 (methyltransferase-like protein 25 isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 891.0 bits (2301), Expect = 5.1e-255 Identity = 459/555 (82.70%), Postives = 475/555 (85.59%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy Swiss-Prot
Match: Q6AYG0 (Protein RRNAD1 OS=Rattus norvegicus OX=10116 GN=Rrnad1 PE=2 SV=1) HSP 1 Score: 147.9 bits (372), Expect = 3.2e-34 Identity = 146/521 (28.02%), Postives = 218/521 (41.84%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy Swiss-Prot
Match: Q96FB5 (Protein RRNAD1 OS=Homo sapiens OX=9606 GN=RRNAD1 PE=2 SV=2) HSP 1 Score: 147.5 bits (371), Expect = 4.2e-34 Identity = 139/497 (27.97%), Postives = 215/497 (43.26%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy Swiss-Prot
Match: Q5E9V4 (Protein RRNAD1 OS=Bos taurus OX=9913 GN=RRNAD1 PE=2 SV=1) HSP 1 Score: 145.2 bits (365), Expect = 2.1e-33 Identity = 137/496 (27.62%), Postives = 217/496 (43.75%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy Swiss-Prot
Match: Q8BZG5 (Protein RRNAD1 OS=Mus musculus OX=10090 GN=Rrnad1 PE=2 SV=1) HSP 1 Score: 137.1 bits (344), Expect = 5.6e-31 Identity = 132/496 (26.61%), Postives = 210/496 (42.34%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy Swiss-Prot
Match: Q6NXH8 (Methyltransferase-like protein 25 OS=Mus musculus OX=10090 GN=Mettl25 PE=2 SV=1) HSP 1 Score: 109.0 bits (271), Expect = 1.6e-22 Identity = 122/494 (24.70%), Postives = 187/494 (37.85%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy TrEMBL
Match: A0A6J1DZT2 (methyltransferase-like protein 25 OS=Momordica charantia OX=3673 GN=LOC111026087 PE=4 SV=1) HSP 1 Score: 885.2 bits (2286), Expect = 1.3e-253 Identity = 447/554 (80.69%), Postives = 478/554 (86.28%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy TrEMBL
Match: A0A6J1IN34 (methyltransferase-like protein 25 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111477035 PE=4 SV=1) HSP 1 Score: 884.8 bits (2285), Expect = 1.8e-253 Identity = 457/555 (82.34%), Postives = 475/555 (85.59%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy TrEMBL
Match: A0A6J1F9A6 (methyltransferase-like protein 25 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111443254 PE=4 SV=1) HSP 1 Score: 883.2 bits (2281), Expect = 5.1e-253 Identity = 456/555 (82.16%), Postives = 475/555 (85.59%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy TrEMBL
Match: A0A1S3BAS0 (protein RRNAD1 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103487650 PE=4 SV=1) HSP 1 Score: 872.1 bits (2252), Expect = 1.2e-249 Identity = 450/559 (80.50%), Postives = 477/559 (85.33%), Query Frame = 0
BLAST of Lag0037637 vs. ExPASy TrEMBL
Match: A0A6J1F8D5 (methyltransferase-like protein 25 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443254 PE=4 SV=1) HSP 1 Score: 869.0 bits (2244), Expect = 1.0e-248 Identity = 454/563 (80.64%), Postives = 473/563 (84.01%), Query Frame = 0
BLAST of Lag0037637 vs. TAIR 10
Match: AT1G16650.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 531.2 bits (1367), Expect = 9.5e-151 Identity = 279/539 (51.76%), Postives = 368/539 (68.27%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (AG-4) 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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