Lag0039736 (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.ATGTTAAGAGGAAGAGAAAGCTTGGTCCGATTGGTTGGGAAACGGAGGCGCTTCCTTCCTAATCGTCTTGCTCTTCTCTCCTCTCCGGTCGAGGTAGGCACTTCTCTCCCCCTTTTTCTTCTGATTGCCTTTCGAATTCTTTCTTCAATCTTGTCTTATACATCTATTTGGTTTGAATTTTATAGAGCACTTTAAATCTCTGCTCTGATGAAGATTGCAAGCCCCTTCCCATTGAGAAAAGTCTGATTGCTCATAAAGATGGGGACATTGAAAGCAGCAGCTCTGGGAAATATGTTACTTGCCCAGTTTGCAGCAGCAGAGTAAATGGGGAAGACTCCATTATTAACTCCCATCTGGGTAATTATTATCTTAACCCTTTTCCAGTAACATTTGTCATTATTCAATGATGTAAAGTAATCTCATCCCAGGCGACCCATGGCTGAGCAAAGGACGCAGGAAGGAAGTAATAGTGCCTCTTTGTTGATTCTAGATTAAAAAAATTGTATCAAAAGTTAAAATGTTCAGTTTTCAGAATTTAACGTTTTCTTCTTTTTATGTATAGATTTATTTATTTATTTATTTTTTTTTTATAAAGAACCGAGCTTGCATTGAGAAAAAAATGAAAGAATACAACGACATACAAAAAATCAAGCCCACCAATGGAACCTAACTAAAGGAAGGGTTTCCAATCAATCAAAATGAGACCTAGCGGATAATTACAAAAAGCCTTGGTAACCGAGGTTCATAAAGAGACAGAAAATCTAATATTAGCCCAAACCTAACCATGCTGCCTCTCATTCCCTCTAAAAATCCTATTATTCCTTTCTTTCCCCCATAAACCCCACAAAATAGCACAAATCCCAGCGAGCCAAAGGAACCTTCCTTTCTCACGAAACGGCGGATGGAGGAGGAACTCCTCAATCATCTCCCTGCAGTAACGCCGCCCAACCAATTGAAACTCAAAGACCTCAAAGAAGAGACTCTAGACTGAGCGAGCAAAATCACAACCCCACAACAAATGATCAAGATCTTCCAACGCCTTCCGACAAAGAATGCAACAAAAAGGCCAACCATGGGGACCTTCACTCTCGAAAGCCTATCAAAAGTGTTAACACGACCCAGGATGACTTCCCAAACGAAGAACAGGACTTTCTTTGGATTTTTAACCTTCCACATGCATGAAAAGATAGACTCTCTAACTGGGGAGGGACCAACTAGGAAATGAAAGAATGAGCTGCAAGAGAAACCCCAGAGGGGTTGAGACTCCAAAAGTGAACGTCCCTCCTATCTGGTCTAAGGCTAACCCCCTCTAGCAAAGATAAGAGGGCCAAGATATTTGTGGTTTCTCTATCAGATAATAGGCGATGAAAACCAGAGGAGAACGAAATGGAACTCCCCATAGTGCCAAGGACATCAGCCACAGTGCGATTTTTCATCGACGATAAATGATACAAACATGGAAATAAGGAGCAGAGGGCACAATCCCCCGTCCAGAAGTCCTCCAAAAAATAAATGTCCCTCCCATCACCCACAGTGCACTGGACTAAGGAAGAGAAAGAGGGGAGCTCGAGGGAAATGTCTTTCCAAGGATTTCTGAAGGTGCCTTTGACCCCATCCGAAAGCCACACGAAGGGGTGTTGTCCATATTTACTCACTATAATCCTAACCCAAAGAGAATTGAGTTCAAGGTGAAATTGCCAAAGCCACTTAGCAGCAGGGCCCTGTTACGAGTTCTCAAATTGCCTAGCTCTAAACCTCCCATGCTCACAGTTTTCCAATTGCCTTCCAACTCACTAAGTGAGCACCTTTCCCTTCATCAACTCCTTCCCATAAAAAAATAAAAAAAATAAAAAAAATAAAAAAAAAAATCTTCTTTTTAAGTATAGAATTGAAATCATATATAGAGAAAGTTTGCACGTAAACTTGCCCAGCCCTCCCTATGAAAAGTTATGCTTCTGACCTGTGCATCAATACATCACTGAGGAATTTCAATGTGCATCAATACATCTGATGAAATATATAGCTTTCTATTAGGTTCTATTCTTTTTTGTTGTACATGTGTCATTAAATACTGTATGAGGCAATAATCATCCTACCTTTCAAATTTCGAGAATCAGCTAGCTGAAAGAAACTAATCTCCGCCATAACAATCAGATTAGAGTTTCAAATATCCGTTTCTTATAATTGGGTACTTACTTTTGGGAGGATAATTGGGTAGGGGATTGTTCCCTTTGCTCTAAGTTTCCTAATCTCTATCGATTTTCCTTCATGAAGAATAGGGGATTTCTGATGTCATTAACGTATCTGGGGGTTCTCACTCTTGTTCTTTGGGGTTCAAGCTCTCTTTGACCGATAGGGAGGCGGTGGAGGTCATGGCTCTCTTGTCTTTGATCAGAGAGTTTCAGTTTAGGGAGGGAAGAGACATTCGTAGTTGGAGCCTTAGCCCTTCCAAGGGTTTCTCGTATAGTTCCTTTTTTCAGTGGCTGCTCAATCCTTCTCCCCGTAGAAAGTCTATTTTTTCTATTCTCTGAAGAGTGAAAATTCCTAAGAAGATAAAATTCTTTATCTGGCAAGTTATTCATGGAAGAGTTAATACGTTCGACAATATTATGAAAAAGAGGCTTTCGTTGGTTGGGCCATTTTGTTGTATTTTGTGTTGGAGGGCGAAGGGAGATTTGGATCACATCATGTGGAGATGTGTTCTTTCTCGTTCTGTCTAGAGTATATTTTTTGAGGCGTCCAGGTTACAGGACAAGAGATTCAGTCACAAGGAGATGAACAAAGAGTTCCTCCTCCATCTGCCATTCAGAGAGAAGGGGAAGGAGTTATAGCTTGCAGGCATGTGTGCAGTTTTGGAGAGGTCCCCGTCTAATGTGTGGGCCCTCACCAGATTTCATGTTTCTCTCTGGGCTTCGGTTATGAAGGCCTTTTGAAATTATTCGTTAGGTCTTATTAATCTTTGATTGGAGCCCCTTCCTTTAGCGAGGTTCCCTTTTGTGGGCTGTCTTTTTTGGATGTCCTTGTATTCTTTCCTTCTTTCTCAAAGCTGGTTTTTTTCCCCCAAAAAAAAAAAAAACTGTTTCTTATAAAGGAGGTAATTTTTAATATTTTCCAACCTCCTTCTGTTGCAATAATATAAAATTCAATCTTAAGTATCTTGTAGGTGCTGCAAGTAAAGTTTGCACTTCTTTTTCGTGATGATTTCTGAGAATATGATAATTTACTTTTTCAACCTTATCCTTAAATGGGATGGATATATGAAAGGAAAGGAGTGTTAATGCATATTATCAATTGTGAACCATAGGCATTATTGAGATTTGAAACCTTGTACCAACTGTTTCTGGAACCTTTTTTACATTTAAAAGGTGCCATTAAGACTAAAGACCTCTCAAAAATAATCAACTGTTATTACTGCTGTATTTGTTTAATTATGTCTCCTTTGATTTTTATAATGACTGGAGTTTGTGGTTTCCAGATGCATGCTTATCTAGAGGAACAAAGCGGAAGTTGACACAGAGCACTCTTCTTCAATTAAACTTCTATTCACGACCAAAAGTTCAACATCAATCTCATGTTCTGAAATTAGAGAAAAATGAGTCTTCTTTGGGTCCCGACGACAGTGTAATGCACGGTATTGTCAATAGATTGCCTAAAGATGCATCTTATAATGAAAATGACAAAATTATATGTGAATCGTTGGAAGAATGTCCAATACAGCCACAAAGGGACGGTGCTACTGAAAATTTTTCTCCCAAGAATAAAGGAATTACATCTGGGATGGTTACTACCAAGGATGATTTTTCTGGCATGATTCTTGAAACCTTTATTGTTGGTCGTAAGTTTAGTGATGAAAAGGAGTTAAATCTTGGAGCAAGCATCTCTCTTGAAAGAGATCCTACTAATGTAAAGGATTCCAATGCCATCAAGGTCCATTTCTTCTGCCATTTTCCCTCTTACATTAATGCTGGAAACATATAACCTCCAATTTACTTGCTTAATTAAAAAAAAGTTCTGGAGATTGGCTACTTAAATACAGAAGCGTTTCAATTTTTTATCAGTAAGCCTATAATGGTATTAACTGCTGTAAATGCATCCTAATAGAACCCAAAGTATTGCTGTACTATAACACACTGGAACGAGATAAAAATGAACTTCCAAACCTTGAGAACTCCTACCAGGAAAATTTGGAAATGTACATCTGGAAAATAAATCCAGTAGGGAAGCCAAAAAAAAAAAAAAAAAAAAAAAGAAATTCATACTCCTGGCTGCTGGAAAATTACTGAGCTTCAATAACCCCCCTCATTTGGCATGTAGATATCATCCATTCCAACTCTGAGCATGTTAAAACAGTTTTTATAGTGAACTTTTGGTCATTATATTAGCTAATCTTTACCTGTTTGAACATAAGGTATCGCAACTATAGCCTCAAATATAGATTATGTTATCGTGAGCAAACCATAGGTATGAGAACATGTCAAGATGACACATGATAGGTCGACTGCAAGCTACGTTCAGAGTCGTGACCAAGAAAGTATTTATCCCACAAGGAAAATGACTTCCCTACTTTTGATACACTAAAATGTCTGAAAATGTAATATAGGGTGGATGATATTAACTCTCCGTTGTCCTGGTATTGGGGCCTAAGTCTCTTGTCGTATGTAATGTGCCATGATGTGAGAAAGGGATATGGGACAAGCTGTTTTCTGATGGCAGTTAGAACTATTTGGCAGTCAAGTGCATCAGTGTTGCAGTTTCTCCTACCTACTGGAAGGTTTTCATAGGGTGTAGTCTCTGAGCAAGTACGAAGTATGTAGCCCATGTATAAAGTAGTTTTGTTGTCAAATTATCTCAAAGAACCTTTGTTTTTAATTTTTGTATCAATGCAGACTAATCACATGGTTCTATTAGGTCCGTCATTATGTTAGTTCAATTCTCTTTTCTCTTATCCTCATTAAAGATCTCTCGTTTGCAAAGATTAGGAGCTTGTGGAACAATTCATGCTTCTTGATCACTCATGACCTGTTAATAACCCTTTGAGATAAAACAAGGATAGTGTGTTTTAAACCCTCTTAAGCTGGAGAATGTCAAAGTCCAACTCAATTCTCGTATAGTATATTTCTTGATAGAGAGAAATTCCATAGAAGTCTTATAAATATACCCTTGGCTGATTTCTGGCTCCATGTACTTTACTGGCCACACCATGAGCTTATATCCAGTGTCCCAATTATGAGTCATTCTTGTAAATTTGAGCAGATTTCTTGTCCTTGAAGCCCAGCTATGTTCATGAAAACTGCACAGATTAGGCCGACTACAAGGTCTCTTCATTCAGCTTAGGAGTCATTCTTTAAATGGAGGATCCTCATTGCTATAGCTCGACCACCTGCAACACTAGTATACTCTCTTCCTATAATTCCAACTGTCTGATACTGTGCTTACTTTTTTTGGTTAAAAGAAAAATGTAGGAGATTGACTACTTGAGTATAAGACATATTCGTAATAATTAAAGCAAACAAACTGACTGCTAACAGGTCTAGGAGAACTGCTGAACCTGTTTAACACTTGTAATGAAACCTTAAAACTAGGAATACTAAAACACGCTTGGATAAGGAAAGAAACAATAACCATGCAACTCTTAGTGTCAAGAGGAAGTCATCTGTAAATCTATATCTTATGAATGAATCTGGAAGAGGATTTTAAAGCACTAGGAAACAAAGAAGACTTATACTCATAACAGCTAGAAGAACTCTGACTTTTAACAATGTACCTACTACCTTCTATATTTTCTTTATTCATTAAAATAATAGCTGTCCTCTTGATATAGGTTATTTCTGCAGATTCTGAATGTTGTAAGATGCTTGGATTTCTCCCACGTGAATTAGCTAAGTTTTTGTCTCCCCTAATTGAGAAGTATTGCCTAAGCTTCAAGGTACTTCTTTGGCCTACTTTAACACTTGACTGTTCTCATGCATAGAAATTGTGATGTATTTTCAATTAGTTTCCAGTATAATACTCTAATATGCAGAGGACAAGATTTTCGAATAAGGGAGAAAAGAAAGGTAGCAAAGTAATACAATGATTATTTCTTTGTTGAAATACTAGTATGAATTTTTAAATAAGTTACCTCATTATTATTAAGCCAATACTTTTTTCCTTCATGATCTGCTAATCAGGGAGAATGCTATTAATACCAACCTTTGTAGGTAATTTTGAAAATTAAATTCCCAAAGCAATGTAAGGTTTTTTGCCCTGCTGTTCCTTTGCCTTAGAGATGTGAACATTAATGACAAAGTTAAATAAAATAACTCATCTAGAGCTGTGGCAATCAGTTTTTGTATAATTGAGTGAAATTTCTATTACTATTATTGTGTGTTTCTTTCTTCCCTATGTGGATTTGGCCTTTGTTTTTATGACATTTTCCTATACTCTTATTTATCTGAATGAAAGCTAGTCTTGTTGTAAAAGAAAAATCATTCTGCTTTTCCAAGATGTAATTGGGAACTTTATCATCCCAATGACAAAAACAATTAATTATACCTCTTTTGATATACAAGCCACTTGGTTAGTTTTCTGTGACTCTGGCTAGCTTTGGAGGATGTATTTTGGCTATCAAGATGCTGACATCATATTCTTTTGACTTTTCTATTTTTTTTTTTTTTACATCATAAGCTGCTGCCTGAAAAAGGATGGGAAAATGAGTTTTTTTACTTTGATTTCTTTCAGGGATTTGTGACAATTGCTCCCAGAAGTTCTGATGACGTTGTACCCATAGAGGTCATGTGTGACAACATCAAATTATTTCATGAAAATAATTGTGATATTGAGGAGTTCAACAATTTGTGGACAAGCGTTCAGCAAGCAATTGATTCAATGAAAAAATTCACACCTAATGCATTGAAATATCAGAAGAACTTTTGTCTTTTGATACAAGAAATTTTACAGGGTTATTCCCATTTGTTGTCCGATGATGAAAATCATTTTCTAGGTATCTGATCAAAGTTACTTATTATCAGCTATCCAGTTTCTTGCAAGCTTTTTCTTGTCTTTTATGGATTCCACTTTGGACAGGTTTATTCAATTCGTTATCAGATGATAGTCAGAGGCTTTTTATCCGGCTCTATATGCGTAAAGGTTTGTTTCCTTCTAGTTTTCTTTGTATTTTACAATCATTTTCAATTTGCATGTGATTCAATTTAGCACACAAGAGTACTATACGGGATAAATTTATGATGCATAACAAGAATTTTTACAAGTAAATAGAACCATTATGGTTCATGGAGCCTGAAAATAGTAACTGGCTTAGAGGGAATAAGTTCAAATCCTAGTGGCCACCTACCTAGGATTTATTATCCTACCAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTGACAATCAAATGTCGTAAGATCAAACGATTGTTCTATGAGATTTATGGAGGTGTGCAAATGTTGCAACCCTCATGGTTAACCTTCTAGTTCGTACCTGATAAGGTTAACATATCAGGGAGTAGCTAGGATTAAGTTAGACTTCTGTATAGCTTAGACAATATTTTAATTAACTTATGTTAATTTTGCAATTGTACTAGGCTAATGCTTGTGGTTGGTCAGCCTTATTTACAAAAGAATTTCTCTGTTTTTACCATGACATCTTTAGTAGTTTGTTGCTTTTATGGATAATTTATTTAATCGTGCATTAGTGCCCTTCCAAAGGACCCCACACATCTTTCCTCCTTTTGGGCCACCCTTTTAAAGACACAAAGGAAATACTTTGGCAGAATCTGGTTCGGGCATTCTTATGGTCGGTTTGGATTGAAAGAAACTACATAACTCCAAGGAAAAGACATATTCGATCTTCTTTGACACCGTTCTGCTCCTTGCTTTGTCTTGATGTAAACTAAATTCTCTTTTTTCCTCTTATAGTAGTTCTTCACTTTTGACCAATTGGAGATGTTTATTGTAACTCCTTTAGTTTGGGGCATTCTCTCTCTCTCTCTTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTTGAAAATTTCATACATCAATGAAATTGTTTTAAAAAAAGAAAAGATTTTCTGCTGTCGGACTATAAGATCATAAATGGAGTGAAGGACCTTTAAGCCAATTAGTATAGTTATATTTCACCAGCAATTTTTGGGAATAGCATTCTATCAGTAACATAATGGCACAGATACCATTATGAAACGGGATAACTGCTCTCATTTTCTTTTGGTTATTGACTGTTAATTTACAAAAAGGGATAGATTGGCTATTGTTTTGTTCTATAGGCATGGTTTCTCTGTGTAAGTGACTCCAATTACATCATCTTACAAATTTTTCCATAACTTTCACTTATCTATTTACTTTTCTTCATGTCCAAAATATTTATTTCCTTGTGTTGTTATTTTGTTTTTAGGACCATGGTTTCGGATGTCTTGTATTTCTTACAAAGAAATATTGGATCCTAAGCAGGCAGTCAAGGAGCTTTCAGGTAAATTGTTTTCACCCATATACACAATCATCCTTGTAACTTGTAAGTCTTGAATCTTGATATTGAGTTTTGGGATCGCACCCCTTCCCCTTCCCCTTCCCCTTCCCCATCCCCTTCCACCTCCAGAAGCAGGTTATCTATGTTGCTTCGATACAAATGAAGCTGATAACACTGACATGATCCAGATTTTGAATCTTCTCACTGTCTCTGAGTTACGTGAAGCTATGTGCACACTTAAGAAGGTTTGCTAATATTAGTGTTCCTTTTCTCTATAACCGTTAGTGGGTGCATCCTAGTCATTTAAAGAGTTGAATTGCACTGTAAGTTCAAAATGTTATTTGGAAGTTTACATAGGCCATTTGAACAGGTCCACAAGGGGTAACTAGAATCAAAGGTTTAAGATCTTCATACTTCATTAGAGCAACAGTATTGATGTTTTGTGTAAGGATAATTGTAATGGGTGGCAAAAGTTGAGAGGTTAATGGCAAATATAGCAACTTTTATAAAATATTGCAAATATGACAGTTTTTAAATCTTCATTTTGTCTCTGTTTTGGTTTTGATTCTATCACTGATAGAATCTATCAGTAACAGTGATAGTTTCTATCAGTCATGTTGGAGACAAACTTTATTGATTCTAATTTACTGATTCTATTATGAATTGATCATTATAAGTTATTGTCTGAGTTGCTGTGTATTGATTTTGAGATTAATTTCAGGATGTAGAGGAAAAATGGTAGAAAAAAAAGTTGGTTTTGATTATCAGTGATAGAAAATCTTTCTATCATTGATAGATTGGTAGAAAATCTTCTTCATTGTATCAGTTATAGAAGATTTCTATCACTTGATAGAATCTATGAATGATAGAAAATCTTTCTATGATAAAAATCTTCTATCACTGATAGATTCTATCATTGATGAAGTCTACCAGATTTCTATCCCTAATAATCTATCAATGGTAAAAGGTTTCTATCACTGATAGATTCTATCAGTGATAGAAACTTAGAAAGGGTATTTTGGTAATTTAAATGGCCCGAAGAAAATATTTTTCCATTTTTGCAATTTTTTTTGTGGGGTGCTATATTTGCCAATATTTTGGCCCTTTTTATTATATATGTAACTGGACCTTTGTGTAATGTGTATTATCTATTGCTTTCACATTGTATGAACTTGTTAAGTTATCCAAAACTCCACCACATCAAAGTGATCATCTATGGATAAAGAGCTTCCCTTTTACGAGCTCTTTGATATTGTCATTTACAATGCTATTTGTTATGACGAAAACAGTAACAACGTAACAAGAACGAAAGGGCGAAGAGAAACAACACACAGATATACGTGGTTCACTAACGGTGTGTTAGCTACGTCCACGGGCAGAAGGAGAGAACGATCTTATTATGTGAGGAGTATTCAGAATACAGAGATTAGGGCAAAAATAGGTTAAGAGGGTTTATATATGGCACCACTCTTAACCCTAACATAAAAGGCCCAAATAAAAGCCCAAAACGGAAATATCATATCTAATCCCTATACATAATTTAGCTTAGGGGGCGTTGCCCCCGAACCCCCATCGGGCGCTTCCCGTACTGGGTCGTTCGGAGCGCTTCATATCAGATTCAAGGCATATCAACACTATTTATTGGTATAAATCTTCTAGTATATTTGCTTCATACTCATATGTTTCCCTTTTAACCAATTGGGAAAGCTTTTTGTAATCATCATGGATTAATCATCTTTTTTGTAAATTTCATATATCAACGAAATTGTTTCTTATCAAAAAAAAAAAAATCTATAAATTTTGAGTTAACGGAACCCTATTTTTTCTAAAAAAAAAAAGGAAACATTAACTTTCTTCGATCATTGAAAAGTTACAAAAAAAAAGATAAAGTTTCTCTTCTTGCATATTACAACAAAGCACCCCAACAAAAAGAAAAACCCTTGAAGAATGTTTCAGAAACACGCCCCTTTTAGAACTATTACCACATGAAAAATCTAACCCTTTAGACAGAAAACCCTCAATCACACAATACTACAAGTTCCTCCTAGCGGACACCATGAAAACTTCAAAAAGAATTGAAAAATCTTTCTCCTAAAACTTCGAGTCCTCCAAACTTTCAAGAAGAGGCCTGGAAATTTTGGACTCTATAAAAGTAAGAGAAAATGAAGGTCTTGAGCATTTACAAAAAGACGCCTGAACTCCAAACCGCAAACCGGAAAACTCAAACATTCTTATACTACTCCAAGAAGCCTGAACCTTCACCTGAAGCCCAAAAACTCTAAAACTAGAGCCAACTTCAATTACCCTTGTAAACCAAGAAGATAATAAAAGCCAATTTATTCCACCAGTAAGAAGTTTCAAATCAAACCGTTGAAGAGGTGATTGAACTAATAGCAAGAAGTTGGATCACTTCAGTTTGAAATGGGTAACCGTTGAATTCGGGCTGGTCATACCTACTATCAGTTCGTTCTCTAGACTTGTGTTTTGCATGTTTATCTGATGTTTCTCCCATACTTATTGTCGAGGTCCCAGAATTGTAGTAGCAGCATGAGAAAGGATGATCTTATTGCCTCTCTTTTATCCCCTTACGAAGATGGACTGTGGTATTATGCCTTTATTATTTTTATTTTTATTTTTGTGTCCAAGACATCAACTATGTTGTATAATTAGAAATCTGAAAATTTTCTTTCACCATTATTTCTGTAGTCGACTACTTCCAGATCTAATTTTGGGCATAACTGGTATCTGCGTTAGGATATCATCTAAAGCCGAATTGCTTATCTGGCGCACTGAGGTAGCTTTGTGTTTTTAAATTTTCATCTTTGACATAACTTTTGTTGGAAGATTTTTGGTGTAGCCCATTCCGTGTATTTTATTTAGTTTCTATTTTATGTGTTCATGTGCCAAGCACATGTGTATTTAGTTAGTTAGTTAGCCTCCTTGCCTATTTAAAGGATGGAGTTCTTTATTTTAGGCATTATTCATTCATTCTAATAAAAGAGTATTTACGGCTACACCAAGTTTGGTATCAGAGCGATAAGATTTTGGGCAATCTTATGGCAACCAAGAAAGTGTCGACCAACGTTATGGGCGACTCTTCCTCGGTTGGAAAAGAGACGGAACCTACCACCGTCCTCTCACCACGATCAACAACTGTACGCTTGCTGTCAGTTGAACAAGATATGAAAGTAGTGAAAAACGATGTGGGCGAGATTAAGAAAATTTTGGAAATGATCTGCGAAAGGATGGGCTGCAGTTCGGATCAGCAAATGTTCGAACCAAGATTTCACGCAAATGCAGAGAGGAAACAGCAAGATCATCAAGGGGAAGACTTCAGAAAGCAAGTTGAACCAAGACAATGGCAAGAAAGGCAAGCTATGGAGCAGAGATTCGTTCAAGAAACAAATTTTGCACCAAGATCCTATCAAGAACGTCGCACGGGGCAGCAAGAAGTCAAATACAATCCCTTATTCTGAATGTTAAGAGGAAGAGAAAGCTTGGTCCGATTGGTTGGGAAACGGAGGCGCTTCCTTCCTAATCGTCTTGCTCTTCTCTCCTCTCCGGTCGAGAGCACTTTAAATCTCTGCTCTGATGAAGATTGCAAGCCCCTTCCCATTGAGAAAAGTCTGATTGCTCATAAAGATGGGGACATTGAAAGCAGCAGCTCTGGGAAATATGTTACTTGCCCAGTTTGCAGCAGCAGAGTAAATGGGGAAGACTCCATTATTAACTCCCATCTGGATGCATGCTTATCTAGAGGAACAAAGCGGAAGTTGACACAGAGCACTCTTCTTCAATTAAACTTCTATTCACGACCAAAAGTTCAACATCAATCTCATGTTCTGAAATTAGAGAAAAATGAGTCTTCTTTGGGTCCCGACGACAGTGTAATGCACGGTATTGTCAATAGATTGCCTAAAGATGCATCTTATAATGAAAATGACAAAATTATATGTGAATCGTTGGAAGAATGTCCAATACAGCCACAAAGGGACGGTGCTACTGAAAATTTTTCTCCCAAGAATAAAGGAATTACATCTGGGATGGTTACTACCAAGGATGATTTTTCTGGCATGATTCTTGAAACCTTTATTGTTGGTCGTAAGTTTAGTGATGAAAAGGAGTTAAATCTTGGAGCAAGCATCTCTCTTGAAAGAGATCCTACTAATGTAAAGGATTCCAATGCCATCAAGGTTATTTCTGCAGATTCTGAATGTTGTAAGATGCTTGGATTTCTCCCACGTGAATTAGCTAAGTTTTTGTCTCCCCTAATTGAGAAGTATTGCCTAAGCTTCAAGGGATTTGTGACAATTGCTCCCAGAAGTTCTGATGACGTTGTACCCATAGAGGTCATGTGTGACAACATCAAATTATTTCATGAAAATAATTGTGATATTGAGGAGTTCAACAATTTGTGGACAAGCGTTCAGCAAGCAATTGATTCAATGAAAAAATTCACACCTAATGCATTGAAATATCAGAAGAACTTTTGTCTTTTGATACAAGAAATTTTACAGGGTTATTCCCATTTGTTGTCCGATGATGAAAATCATTTTCTAGGTTTATTCAATTCGTTATCAGATGATAGTCAGAGGCTTTTTATCCGGCTCTATATGCGTAAAGGACCATGGTTTCGGATGTCTTGTATTTCTTACAAAGAAATATTGGATCCTAAGCAGGCAGTCAAGGAGCTTTCAGAAGCAGGTTATCTATGTTGCTTCGATACAAATGAAGCTGATAACACTGACATGATCCAGATTTTGAATCTTCTCACTGTCTCTGAGTTACGTGAAGCTATGTGCACACTTAAGAAGGGGGCGTTGCCCCCGAACCCCCATCGGGCGCTTCCCGTACTGGGTCGTTCGGAGCGCTTCATATCAGATTCAAGGCATATCAACACTATTTATTGGTCCCAGAATTGTAGTAGCAGCATGAGAAAGGATGATCTTATTGCCTCTCTTTTATCCCCTTACGAAGATGGACTGTGTCGACTACTTCCAGATCTAATTTTGGGCATAACTGGTATCTGCGTTAGGATATCATCTAAAGCCGAATTGCTTATCTGGCGCACTGAGAGCGATAAGATTTTGGGCAATCTTATGGCAACCAAGAAAGTGTCGACCAACGTTATGGGCGACTCTTCCTCGGTTGGAAAAGAGACGGAACCTACCACCGTCCTCTCACCACGATCAACAACTGTACGCTTGCTGTCAGTTGAACAAGATATGAAAGTAGTGAAAAACGATGTGGGCGAGATTAAGAAAATTTTGGAAATGATCTGCGAAAGGATGGGCTGCAGTTCGGATCAGCAAATGTTCGAACCAAGATTTCACGCAAATGCAGAGAGGAAACAGCAAGATCATCAAGGGGAAGACTTCAGAAAGCAAGTTGAACCAAGACAATGGCAAGAAAGGCAAGCTATGGAGCAGAGATTCGTTCAAGAAACAAATTTTGCACCAAGATCCTATCAAGAACGTCGCACGGGGCAGCAAGAAGTCAAATACAATCCCTTATTCTGA ATGTTAAGAGGAAGAGAAAGCTTGGTCCGATTGGTTGGGAAACGGAGGCGCTTCCTTCCTAATCGTCTTGCTCTTCTCTCCTCTCCGGTCGAGAGCACTTTAAATCTCTGCTCTGATGAAGATTGCAAGCCCCTTCCCATTGAGAAAAGTCTGATTGCTCATAAAGATGGGGACATTGAAAGCAGCAGCTCTGGGAAATATGTTACTTGCCCAGTTTGCAGCAGCAGAGTAAATGGGGAAGACTCCATTATTAACTCCCATCTGGATGCATGCTTATCTAGAGGAACAAAGCGGAAGTTGACACAGAGCACTCTTCTTCAATTAAACTTCTATTCACGACCAAAAGTTCAACATCAATCTCATGTTCTGAAATTAGAGAAAAATGAGTCTTCTTTGGGTCCCGACGACAGTGTAATGCACGGTATTGTCAATAGATTGCCTAAAGATGCATCTTATAATGAAAATGACAAAATTATATGTGAATCGTTGGAAGAATGTCCAATACAGCCACAAAGGGACGGTGCTACTGAAAATTTTTCTCCCAAGAATAAAGGAATTACATCTGGGATGGTTACTACCAAGGATGATTTTTCTGGCATGATTCTTGAAACCTTTATTGTTGGTCGTAAGTTTAGTGATGAAAAGGAGTTAAATCTTGGAGCAAGCATCTCTCTTGAAAGAGATCCTACTAATGTAAAGGATTCCAATGCCATCAAGGTTATTTCTGCAGATTCTGAATGTTGTAAGATGCTTGGATTTCTCCCACGTGAATTAGCTAAGTTTTTGTCTCCCCTAATTGAGAAGTATTGCCTAAGCTTCAAGGGATTTGTGACAATTGCTCCCAGAAGTTCTGATGACGTTGTACCCATAGAGGTCATGTGTGACAACATCAAATTATTTCATGAAAATAATTGTGATATTGAGGAGTTCAACAATTTGTGGACAAGCGTTCAGCAAGCAATTGATTCAATGAAAAAATTCACACCTAATGCATTGAAATATCAGAAGAACTTTTGTCTTTTGATACAAGAAATTTTACAGGGTTATTCCCATTTGTTGTCCGATGATGAAAATCATTTTCTAGGTTTATTCAATTCGTTATCAGATGATAGTCAGAGGCTTTTTATCCGGCTCTATATGCGTAAAGGACCATGGTTTCGGATGTCTTGTATTTCTTACAAAGAAATATTGGATCCTAAGCAGGCAGTCAAGGAGCTTTCAGAAGCAGGTTATCTATGTTGCTTCGATACAAATGAAGCTGATAACACTGACATGATCCAGATTTTGAATCTTCTCACTGTCTCTGAGTTACGTGAAGCTATGTGCACACTTAAGAAGGGGGCGTTGCCCCCGAACCCCCATCGGGCGCTTCCCGTACTGGGTCGTTCGGAGCGCTTCATATCAGATTCAAGGCATATCAACACTATTTATTGGTCCCAGAATTGTAGTAGCAGCATGAGAAAGGATGATCTTATTGCCTCTCTTTTATCCCCTTACGAAGATGGACTGTGTCGACTACTTCCAGATCTAATTTTGGGCATAACTGGTATCTGCGTTAGGATATCATCTAAAGCCGAATTGCTTATCTGGCGCACTGAGAGCGATAAGATTTTGGGCAATCTTATGGCAACCAAGAAAGTGTCGACCAACGTTATGGGCGACTCTTCCTCGGTTGGAAAAGAGACGGAACCTACCACCGTCCTCTCACCACGATCAACAACTGTACGCTTGCTGTCAGTTGAACAAGATATGAAAGTAGTGAAAAACGATGTGGGCGAGATTAAGAAAATTTTGGAAATGATCTGCGAAAGGATGGGCTGCAGTTCGGATCAGCAAATGTTCGAACCAAGATTTCACGCAAATGCAGAGAGGAAACAGCAAGATCATCAAGGGGAAGACTTCAGAAAGCAAGTTGAACCAAGACAATGGCAAGAAAGGCAAGCTATGGAGCAGAGATTCGTTCAAGAAACAAATTTTGCACCAAGATCCTATCAAGAACGTCGCACGGGGCAGCAAGAAGTCAAATACAATCCCTTATTCTGA MLRGRESLVRLVGKRRRFLPNRLALLSSPVESTLNLCSDEDCKPLPIEKSLIAHKDGDIESSSSGKYVTCPVCSSRVNGEDSIINSHLDACLSRGTKRKLTQSTLLQLNFYSRPKVQHQSHVLKLEKNESSLGPDDSVMHGIVNRLPKDASYNENDKIICESLEECPIQPQRDGATENFSPKNKGITSGMVTTKDDFSGMILETFIVGRKFSDEKELNLGASISLERDPTNVKDSNAIKVISADSECCKMLGFLPRELAKFLSPLIEKYCLSFKGFVTIAPRSSDDVVPIEVMCDNIKLFHENNCDIEEFNNLWTSVQQAIDSMKKFTPNALKYQKNFCLLIQEILQGYSHLLSDDENHFLGLFNSLSDDSQRLFIRLYMRKGPWFRMSCISYKEILDPKQAVKELSEAGYLCCFDTNEADNTDMIQILNLLTVSELREAMCTLKKGALPPNPHRALPVLGRSERFISDSRHINTIYWSQNCSSSMRKDDLIASLLSPYEDGLCRLLPDLILGITGICVRISSKAELLIWRTESDKILGNLMATKKVSTNVMGDSSSVGKETEPTTVLSPRSTTVRLLSVEQDMKVVKNDVGEIKKILEMICERMGCSSDQQMFEPRFHANAERKQQDHQGEDFRKQVEPRQWQERQAMEQRFVQETNFAPRSYQERRTGQQEVKYNPLF Homology
BLAST of Lag0039736 vs. NCBI nr
Match: XP_038889850.1 (fanconi-associated nuclease 1 homolog isoform X2 [Benincasa hispida]) HSP 1 Score: 827.8 bits (2137), Expect = 6.9e-236 Identity = 425/546 (77.84%), Postives = 454/546 (83.15%), Query Frame = 0
BLAST of Lag0039736 vs. NCBI nr
Match: XP_038889849.1 (fanconi-associated nuclease 1 homolog isoform X1 [Benincasa hispida]) HSP 1 Score: 827.8 bits (2137), Expect = 6.9e-236 Identity = 425/546 (77.84%), Postives = 454/546 (83.15%), Query Frame = 0
BLAST of Lag0039736 vs. NCBI nr
Match: XP_022949023.1 (fanconi-associated nuclease 1 homolog [Cucurbita moschata]) HSP 1 Score: 825.5 bits (2131), Expect = 3.4e-235 Identity = 431/547 (78.79%), Postives = 454/547 (83.00%), Query Frame = 0
BLAST of Lag0039736 vs. NCBI nr
Match: XP_022998073.1 (fanconi-associated nuclease 1 homolog [Cucurbita maxima]) HSP 1 Score: 825.1 bits (2130), Expect = 4.5e-235 Identity = 432/547 (78.98%), Postives = 454/547 (83.00%), Query Frame = 0
BLAST of Lag0039736 vs. NCBI nr
Match: XP_023524722.1 (fanconi-associated nuclease 1 homolog [Cucurbita pepo subsp. pepo]) HSP 1 Score: 823.9 bits (2127), Expect = 9.9e-235 Identity = 431/547 (78.79%), Postives = 452/547 (82.63%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy Swiss-Prot
Match: Q5XVJ4 (Fanconi-associated nuclease 1 homolog OS=Arabidopsis thaliana OX=3702 GN=FAN1 PE=2 SV=2) HSP 1 Score: 308.1 bits (788), Expect = 2.4e-82 Identity = 206/535 (38.50%), Postives = 290/535 (54.21%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy Swiss-Prot
Match: Q5SNL7 (Fanconi-associated nuclease 1 homolog OS=Oryza sativa subsp. japonica OX=39947 GN=Os06g0171800 PE=3 SV=1) HSP 1 Score: 306.2 bits (783), Expect = 9.1e-82 Identity = 195/565 (34.51%), Postives = 288/565 (50.97%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy Swiss-Prot
Match: Q55FW8 (Fanconi-associated nuclease 1 homolog OS=Dictyostelium discoideum OX=44689 GN=mtmr15 PE=3 SV=1) HSP 1 Score: 67.8 bits (164), Expect = 5.5e-10 Identity = 42/133 (31.58%), Postives = 69/133 (51.88%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy Swiss-Prot
Match: Q9Y2M0 (Fanconi-associated nuclease 1 OS=Homo sapiens OX=9606 GN=FAN1 PE=1 SV=4) HSP 1 Score: 59.7 bits (143), Expect = 1.5e-07 Identity = 40/151 (26.49%), Postives = 78/151 (51.66%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy Swiss-Prot
Match: D2HNY3 (Fanconi-associated nuclease 1 OS=Ailuropoda melanoleuca OX=9646 GN=FAN1 PE=3 SV=2) HSP 1 Score: 57.4 bits (137), Expect = 7.4e-07 Identity = 47/194 (24.23%), Postives = 89/194 (45.88%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy TrEMBL
Match: A0A6J1GAX8 (Fanconi-associated nuclease OS=Cucurbita moschata OX=3662 GN=LOC111452490 PE=3 SV=1) HSP 1 Score: 825.5 bits (2131), Expect = 1.7e-235 Identity = 431/547 (78.79%), Postives = 454/547 (83.00%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy TrEMBL
Match: A0A6J1KFS7 (Fanconi-associated nuclease OS=Cucurbita maxima OX=3661 GN=LOC111492828 PE=3 SV=1) HSP 1 Score: 825.1 bits (2130), Expect = 2.2e-235 Identity = 432/547 (78.98%), Postives = 454/547 (83.00%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy TrEMBL
Match: A0A6J1DNS1 (Fanconi-associated nuclease OS=Momordica charantia OX=3673 GN=LOC111022365 PE=3 SV=1) HSP 1 Score: 799.7 bits (2064), Expect = 9.7e-228 Identity = 413/547 (75.50%), Postives = 446/547 (81.54%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy TrEMBL
Match: A0A1S3CAT9 (Fanconi-associated nuclease OS=Cucumis melo OX=3656 GN=LOC103498718 PE=3 SV=1) HSP 1 Score: 760.0 bits (1961), Expect = 8.5e-216 Identity = 400/547 (73.13%), Postives = 434/547 (79.34%), Query Frame = 0
BLAST of Lag0039736 vs. ExPASy TrEMBL
Match: A0A1S3CAQ8 (Fanconi-associated nuclease OS=Cucumis melo OX=3656 GN=LOC103498718 PE=3 SV=1) HSP 1 Score: 673.7 bits (1737), Expect = 8.0e-190 Identity = 367/547 (67.09%), Postives = 400/547 (73.13%), Query Frame = 0
BLAST of Lag0039736 vs. TAIR 10
Match: AT1G48360.1 (zinc ion binding;nucleic acid binding;hydrolases, acting on acid anhydrides, in phosphorus-containing anhydrides ) HSP 1 Score: 308.1 bits (788), Expect = 1.7e-83 Identity = 206/535 (38.50%), Postives = 290/535 (54.21%), Query Frame = 0
BLAST of Lag0039736 vs. TAIR 10
Match: AT1G48360.2 (zinc ion binding;nucleic acid binding;hydrolases, acting on acid anhydrides, in phosphorus-containing anhydrides ) HSP 1 Score: 308.1 bits (788), Expect = 1.7e-83 Identity = 206/535 (38.50%), Postives = 290/535 (54.21%), Query Frame = 0
BLAST of Lag0039736 vs. TAIR 10
Match: AT1G48360.3 (zinc ion binding;nucleic acid binding;hydrolases, acting on acid anhydrides, in phosphorus-containing anhydrides ) HSP 1 Score: 308.1 bits (788), Expect = 1.7e-83 Identity = 206/535 (38.50%), Postives = 290/535 (54.21%), Query Frame = 0
BLAST of Lag0039736 vs. TAIR 10
Match: AT5G05130.1 (DNA/RNA helicase protein ) HSP 1 Score: 43.5 bits (101), Expect = 7.8e-04 Identity = 25/72 (34.72%), Postives = 43/72 (59.72%), 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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