Lag0001238 (gene) Sponge gourd (AG‐4) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGCTTTCACGTTCTCAGAGCCCCTCCTTTCTCTTCCTCCACAACCATAATCTTCAAACCCACTTCTTCCGCTTCGTTTCTCTTCAAATTTGGTTATGCTCTCTACTCTTCACCCTTCTCCAAATCTTCTTCCTCCACTAGGACCTACTTCCGAGCTTCTTCAGCCAAATATGTTGCTTCTCCCGCCACTGCGATTCCGCTTTCTGGGTCTTTTTCTCAGAGAACTCGTAGTTTTCGTGGTGGGTTTATTGCAGCTACAGCTGCACCTGGCTCGGTCCACAAATCCGAGGAATTGAGGCCTTCCATTTCGCCTGAGCCATCTTGGGTTCAGAGGCAAAATGGGACTGAGTAAGACTGTAAACTTCCTTACAAATGCTTACTCGCATTTCCTTCTGTTTGTTTATTTTATTTTCCTTCTGAAATTCTGAAGTGGCATAGAATTTATATGTATATATATTGTGTGTATGTTGTAATTGGAAGGCCTAGAAGCTTTGCTTCAAAAGGTTTATGTTGTTAGATGCAGAAATTTGGAGTTCGATAAGCTGCTTAAGTGTAATTGAAATGTCGATCATTATTTATATCTAGGCGGACATTGTGTTTCACTCTGATAACCCATTTTGAAATTTATGCCGTTAACTTGGTATAATTCTTATGTACAAATTTAGGCTGTTTAAGACATCAAGTTCTATCAGCTTGTTAGTTTATCCATATTGTCTCCTGTTGCTGGTAGTTGGAGGGCTTTGTCTAATTTGTGGCTAAAGTTAGTAAGGACCTAATAGTTGCACACTCCCTCAGATGCTTCTATATTACATCATGAATTGTTGTTTTCCAATTTAGTTGCTCTTTTCTGCTAATGCTAGGGGCCAGTAGGCTAAATTGGACGCCCACAATTATTAAGATACCTCTGCCAATGTATGGTTTGTCAACTATCTATGGAGGGCCGAAAACCTTCCATCTAGTTTGGCGGCAACCTGTGAGAAAGAAAAGGATCATTGAGTGTTTTACTTGCTTTATTATGGTGTTTGCCAAAGGGACTTTATGATTAACTTAGGAGGTTGTGATGACCAATGTGGGGATTTTTTTTTGGTAAGAAATTGAGCTTTCATTGAGAAAAATGAAAGAAGACAAGGACATATGGAAAACAAACCCGGACAAAAGGAGTCCGAAACAAATTACATAATGGAACTTCAATCCAAAAGGACAAGACCAAGATGATAATAATAAAAATGCCAAGTGATCAAGGCCCAAGGGAGGCGTTAAACCTAGCCACCCCACCTCCCATACCTCATCATCCAATCTCTCTACCTCTCTAAAAATTCTTTTGTTCTTTTTCAACTAAATACCTCACAAAACAGCAAAGAAGCTAGCTTACCATGGGACTTTGCCGCTTTCCCTAAAAGGGGGATTCAAAAGCACCAACACTTAACCTAGTACATCTATGAGAATGGTATATATAGACATGGAAGCTGAATATGATTGTATCTATTATGGGATGAATGGGGGTCTTGTCTTGCTTCATTTCTTTGCCTCACAGTTACCAACGCCCAACCTTCCATTTTCATAAGCCGAATGTACCATTTTCAAACTTCACAGTTTCCCAATAACATTACATTGCCATTGAAGAAGCATGACTCCATCTTCTAGGACTTGGGATCTCAATTGCTGCAAATACTTTAAAGACGAAGAGATTATAGAATGGGCCTCTCTCCCACCTATTCTCTTCAATCATCTAGCAGATCCGAAAATTTAGAATGGCGTTTGGAGTCCTCCAAATTCTTTATGGTGAGATTTCTCTCTACCTTCCTTAGCAAAAATTATGGTACCAAGTTCTCTAATAGGGTCGGCTGTTTACTAATTGGAACTGGTTTTTGCTCATTGACATGATTGTATGAGATCAGAATTCACCCAACTTGGTCATCGGGGGTCAACAAGGATTGGGACTTGGATGTGGTTGCTCACACATTTTGTGCAATCGCTTCTAATTTAGTAGTGTCCATATCTCTGGCATATTTTCCAGTCTTGTTTAGAGTCTTCTAGAACTACAAAATGGTTCAGGAAAACAAGCGATAGAAGGCTTTTATCGAAGGTTAATATTATTATTTTTTTGATAAAACTGAAGGTTAATATTATTGAAGATTTTAACATAGTTGACTCTTTGAATGGTACAGGAACTCTTCTTTCTTTGGTAGCAGTCGATGCCCTTGGTTTAGAAATAAAGGTGTTTGGAATAACTTTTGAAAAAAATGCGTTTTAAATAAAATTACTTTTTCTATGCTCACCTTTGAAAAAATTACTAATTTAATATGTGTTTAGTTTGGATGTTCTCAGTAGGATGATCTCTAAAGGGGTGGAGGGAGGGATTATCGAGGGTTTCAAGGTGGGTAAGGAAGGAGTTTCTTTGTCTCATCTTCAATTTGTCGATGATACAATATTCTTCTATTCGGGCAAGGAGGAGTCTTTCCTACTCTTGAATCATATGCTAGTATTCTTTGAGATGATGTCTGGGCTAAACATTAATAGAAGTAAATGTCAGGTGTTGGGATTGAACTGTGAGCGTTCCAAGGTGGGTATGATGGCTTCTTTGGTGGGGTGCAATATGGGTGATTTTTTGCTGACCTATTTAGGTCTTCCTCTTGGTCCTAACCCTAGGAATTTCTCTTTTTGGAGTCCAGTGGAGGATAAGGTGAGAAGAAGATTGGCCTCCTGGAAGAGGAGCTTATTCTCTAAGGTGGTTAACTCTATTTGTTCAGTGTTGAGTGAGGTTCCAACTTATTTCTTTTCCTTGTTTAGAGCTCCTTAGGCAGTGTGTAAGAGATAAGTGGGTGGGGGATAGACCCCGTTGCATCACGTTTCCTCGTCTTTTTTGTTTATCCCCCATGAAAAATGGATCGGTGTCAGATGTCTTGTTTCACTCAGGGAGTTCCCCTTGTTTTCATTTGGGTTCATAGGGAAACGACGGATGTTACATCTCTTCTGTCTTTGATCGAGGAGTCCGAGTTCAAATTGGAAAGGAGAGATATCCAATGTTGGAGCCTTAGACCTTCTGATGGATTTTCTTGTAGTTCTTTCTTTTGGTGGTTGTTGCATCTGTCTCCCCAAGGTGAGTCTATCTTCTCTCTTTGGTGGAAGGTGTATCAAGATTAGATTCTTTATGTGGCAAGTTATCCATGTTAGAGTTAATGCCTGCATTAGGCTTTTGAGAAGGATGCCTTACCTGGTTGGCTTGTTCTGTTGCATTCTTTTTCGGGAGGCAAAGGAAGATCTGAATCACATTCTTTAGAGTTGTGAATTTGCTCGTCTGTTTGGAGTTGTTTCTTTAGGACGTTTTGGTTGCAGGGGACGAGTTATTCGGATCATAGAGAGATGATCAATGAGTTCCTCCATTCGTCGAGTCGCGAGAAAGGGAGATTTTTGTGGCAAACTAGGATGTGTGCGTTGTTATGGAGTCTATAGGGGGAAAGAAATAATAGAGTGTTTAGGGGGTTGGATAGGGGCTCAGATGATGTTTGGTCCCTTTTGTGGAGCCAGTTTGGCTCCCTTTTGTGAGCTCTATTTTTGTATGCCTTGTATTCATTCATTTTTTTTTTTCAGAATAAAAGTTTGGTTCTTCATAAAATATGTATATACGTATGTGTATGTATATATATATATATTAGATTTTGGGAGGTCCTTGGATTGACAATGTTACTCTTGGTTGATCCTACTCTAGACCTTTCTCTTTGATCAAGACTTCGAAGTGTTGGAATTGGAGACTTTGATGTCCAGGTTCTTAATTTTAAGACACCTCACCTTGATAGAGAAACGAATAACTTGCCTCCTCTCCGTTATGTGAACGGTAAACTGTAAACTCTGAATATTAGAAAATTGAAGTTGATTAAGTCTGAGGTTTTCCTGCACATCGTTATCACTTCACCTCTTTAATAGCAGGACTAATGTTCCTCTTGATCTGGGCAAGTTTATTTGGTTCTAAGAAGCTCGAACACTCTATTTTAGGCCGAGTGTTTGTATTGGATATGTGTTGGATATGGATTCGTCTGGACATGCATCGGACACGTGTTCGACACGCAAAAAAATGTGCCCAATATTTTATCATTATTTTTTTTCTCTTGGACACGTCTGAGACACATTTGGGATACACTTGAAAATTGAAAGTCATTCTCAAAAAGATTAAAAGACAAGCCCATTAAGCCCAACATAAAAAGGAAAAAAAAACCACAAACTTTTAAGGGGCAGTTGCATAGATGGCAAATTGGACCAAATTAATAGCAAATATAGCACAATTGCAAACTAATTGCAAATATAGCAAAATTAATTGTACAAGACCAAAAAGCTGTTGTCAGATTCTATCCATGTCTATCACTGATAGACTCTGATTATTCAAAGTATATCAGTGCCTATCGCTGATAGACTTCGATTAATCAAAATCTATCAGTGACTATCACTGATAGACTTTGATTAATCAGAGCTTATTAGTGATAGTCACTGATAGATTTTGATTAACCAAAGTTTATCAGCGATAGACACTGATAGACTCTGAATAATCGGAGTCTATTAGTAGACTGATAGATTCTGATTAATCAGAGTCTATCGCTGATAAACTCTGATAATCGAAGTCTATCAGATAGACTCGGATAGATTTTGCTATATTTGCAAGTTTTTTTACATGGTGCTATATTTGCTATTAATTTGGTCCAATTTGCCACCCACTGCAATTTTCCAACTTTTAAATGGTAAGCTTGGAAAGTAAAAACCATCGTAAGAGATGGTGGGTGGGGATTTGAAATCCACTGCCCACTTTGCCAACCGCAGGAGACCCACTCCACCACCACTCATTTCGTCACAGGCTATAGCAACTGTAAGGTTTGGTTTTTGGTTTTTTTTTTTTTTTTTAAAATTTTTATTTATTATTATTATTATTATTATTTTTTAATAAAAAACTTCACAACAAATGAAAGGTACAGAAGACCTCTAAATTCTAATCTTTCCAACAAATCATATATATTTGTATATGTCAGTAGAAGACATCTTCAATCTCTAAACATAACTGTAGCTAATAAAATCCTTTGAGCTTTAGTAATGTTGAAAATAAATCAATATATACATATATTCCATTAAAAATAAAGTGTCCCCGATTGTCCGTGTCCTACTTTTATAGAATTTGATGTGTCGCCTTACTTCTTAGATTTGGATAGGAACCATTTCAGAGAGTTCTTATTGAACTCTAGCTTTTCAAAGCATTGATGATTGTGATAGAATTAACGCTGTTAATTTCAAATTAAATGGGTTCTCACTGGCCTGTTGATGTAGGAAGATTGGGGATCTTTTCTCACTTCTCTTTCTCTAGTAAATGGTATATTTTCAGCAGTTCTATAATCACTTGGTGTGCTCTTTAACAGCTTCAAAGACCATGTATCAAATTCTGTTTGGCAACGTTTTTGTAGACAAAGGGTGCGGGGGACCCTTTGATTCAATCATATGAAGGTTTTATGTAGTACAAATTGGTTGCATAGGAATGTGACAATATCTTAAGGACTTTAAAGTGTTTATTTGGGAGGTCTTGGAGCATATGCGTTGTAGTTGTAGCCTTAAATTGGGATTCTCTAGCTAGGGACTTTGTATCTACAGTTATAATTAATGACTTAATGTCATGCCTCTTGTGAATACTTTTTGTAATCTCTTTTGGCTTTAACGACTCATTTTATTTCTCTCTATTCTGTATCGTTTATAATGAACGTGAATACTTCCCCCCTCCCCTAGAAGGAAAAACAAGTGAGAAAAAGATAATGTCTGATGAAGCTTGTCTGTCTCCAGTAATACAATATTGAGAATTATGTGCCAAATCTGAATGTTCCTTTTATACTTATCCTTGACCAGATCCTTACCAGCATCTGAAGTGCCTTTAAGAGGTCGTATTTATCATGAAACTTATGGGTGTCAAATGAATATTAATGATATGGAGGTTGTTCTATCAATCATGAAAAATGCTGGATACAGTGAAACCGTTGACATTCCCGAGACTGCAGAGATCATTTTTATCAACACCTGTGCTATCAGGGACAATGCCGAACAGAAGGTGTGGCAGAGACTAAATTACTTTTGGTTTCTGAAGAGACATTGGAAAAGCAATGTTGCTATCGGAAGGTCACAGTCTCGGCACCCTCCAAAAGTAGTTGTCTTGGGGTGCATGGCTGAGAGGTTGAAAGATAAAATACTAGATGCAGACAAGATGGTTGATGTGGTTTGTGGACCTGATGCTTACAGAGACCTGCCGCGATTATTGGATGAAGTAGATTATGGTCAAAAGGGAATAAACACACTTCTTTCCCTCGAAGAAACTTATGCTGATATAAGTCCAGTACGAATATCCAAAAATTCAGTCACTGCGTTTGTATCTGTGATGAGAGGTTGCAACAATATGTGCTCATTCTGCATTGTTCCTTTCACTAGGGGGAGAGAGCGGTCACGTCCTGTGGAATCAATTGTGTGTGAGGTCAGAGAACTTTATAAAGAAGGTGTGAAAGAGGTAACTCTTCTTGGTCAGAATGTTAACAGCTATAATGATACCACTGGGAATGCAGACGTAGAACCAGGAACTAATTGGAAACTCAGTGATGGATTTTCCAGCATAGCCAAGGTAAAGAAAATGGGTTTGCGTTTTTCTGATCTCTTAGATCGTCTATCCACAGAATTTCCTGAGATGAGGTTTAGATACACGTCTCCTCACCCTAAAGACTTTCCCGACGAATTCCTTTATTTAATGCGAGATAGACACAACATTTGCAAAAGCATCCATTTACCTGCTCAGAGTGGGAATAGCACAGTTCTTGAAAGAATGCGTAGGGGATATACCCGAGAGGCCTACTTAGATCTTGTGCACAAGATTCGATCAATCATTCCGGACGTGGGAATAACTAGTGATTTCATTTGTGGTAAGTGGCCTTTTCAACTTCTATAATATTTTGGATTCAATATTGGTTATTATGCATACGATACATTGGTATACCATTTAGTAGTAGTTAGTCTTAAAGATAGGTTAAAAATCACTTTTAGTCCTTAAACTTTCATGAAAGTGACATTTTAGTCCCTGAACTTTGATTTGTAACGATTTAGTCCCTATACTTTCAATTTTGTAACGATTTAGTCCTGTACTTTCAATTTTGTAACAATTTAGTCCCTGAACTTTAATAAGTAACAATTTAGTCCCTCTACTTTTCAAATTTGTAACGATTTGGTCCCTATCGTGAAAAATTAATGTAAAGATTTAATGAAATTTTTTACCAAGATAGATCAATAAACTAATTTGGGACTCAATATGTTAATAAGCTACAAAGTTTAATCATTAAATAATAAAAATCGACATTTAATTTTGATGATTTTTTTTGCAACCAGGATTAAATTGTTACAAATTTGAAAGTATAGGGACTAAATTGTTACAAATTTGAAAGTATGGGGACTAAATTGTTACTTATTAAAGTTTAGGGACTAAATTGTTGCAAAATTAAAAGTACATGGACTAAATCGTAACAAATCAAAGTTTAGGGACCAAATTGTTACTTTCATGAAAGTTTAGGGACCAAAAGTGATTTTTAACCTAAAAGATAATTCCTTAGAAGTGCCCAGCTAATGGCAATGGTGATCGGATTATGGATATAGAACTTTGTCTGTGATATCCTTTTTTTTTAAAAAAAATATTGTTATTATTATTATTATTATTATTTAAATCTAGGTATGATAAAACGTTTGCACCGGGAATCAGATTGCAAATTGTGTGAGAACAGTCTAAATTTCATCTGAAATACTAGAGGATTTGTTAGTCAGTTAACCAGTTAATGCTTGTTCTTTCATTCAATTTCTCTCCTCGTTGCTTTTCCTCTGTCATGAATTGGATTCATCAACTATCGTTTTGATCCCTATACCATTCACTCTCTTTTTTTTGATCTTATAACTTCTAAAATATATCTCTAAAATTCTGAACTTTTGTTACATTAACCTTGATAATATATAAATTTTTTATAAGAAACAAGAAAAGGTTCCTTCAAAAGAGGAAAACAAAGTACACCCTCGCAGGCAAAGGGACAAGGAGTCCCTTCCCCAACAAAATTACAAGAACACCTTCCAATCTAAATTAGTGAGGAAGGTAGAGTGATTAAAAAATAAAAAAAAATTGTGTTAGCTACTCCAATGGGAGGCCATGAACTGTAATGCTGATATAGACGCTTAAATAAGAAACGCATCTGTGACATTTGATTTAGTAAATGATGGTCACTATGTTATTCACATAACGCACAACATATATCGCTTCCATTTTGATTTAGTAAACAATTGTCATGGTGGGATTGTAGTAAGGGATTTTGAACATTCTTCTTTCTCTGTTAAAGAACGTTGTCAAATTCTTGTATGGGAGATGACATGTGATACTCGGTTGGATACCGACTGTCACAGAGCTTGCTGAGTTGGATCCATGTCATTCTATTTTTCAGCAAAGTAGCTCGCGCTAATACTAGAGGGATTATGTGGTTAATGCAAACCGTAGCATTTAAATCAAAATTTTTTTTCCTCAACTTTTTTCTTCTCTTTGCTTCTATATCCATGGAGATTAGAGATTGTTTTTCTATTTCCCTCAAAGTTGAGGGATGAAAGTAGTGCTTAGCCTTCTATGACCTATTCTTGAAGCAAAAGTACATTCCCCTATAATATCACAGTGGTTTCAAATTGCAAACAAATGTCTCTCTTTTCATTTTTTCTCTAATGTAGTACACATGGTGGTATTACTCTCTCGATGCATCATTCTTCATTCCAATTTACAGGTTTCTGTGGGGAGACCGAAGAGGAACATGCAGACACTCTAAGTCTGATTAATGAAGTCGGCTACGATATGGCTTACATGTTTGCATATAGCATGAGAGAAAAAACTCATGCCCATCGGAACTATGTTGATGATGTTCCAGAGGAAGTGAAGCAGAGAAGACTTACTGAACTCATCGAAACTTTTCGAAATAGTACAGGTCGATGTTATGATTCACAAATTGGCAGTGTTCAATTGGTGCTTGTAGAAGGACCAAACAAGAGGGCTCCAGAGACAGAGCTGATTGGCAAGAGTGACAGAGGTCATAGAGTTTCATTCGTAAATGTAGCAGTTCCACATCGAGATGGCGATTATGATGGACAGCGGAAAGCAATGGTTGGTGACTTTGTGGAAGTCCGTATATCAAAATCGACACGAGCGTCGTTGTTTGGAGAGGCACTTGCTATTACAAAACTGAGCTCATTTTTCAACAGTATGGATGAATCAATTGCCTGTGTGAGTTGAAGTTCTAATGAATTTAGATGATTTTGATTTTTGATAAAATGTTGCTTTAGTCTTCAACTACCTCTATAATACATGAGGGGTGCTTTAATAATTTTATTTTTGTTTTTACTATTCAAGGTGTAAAAATATCATTGTATCTGGGTTATAGCTGTCAAATGTTCTTCGACGCTTGTGATTTACAGAAATTTTGGTAGGTTGTTTTCAAATTCATATTTCTCGAATGTCTAAGGTTCTCACCTCAAAGGGCCCGAGTGAGGCATCGGTCTAATAAACTCTAATGGTGGAAGTCAATGATCTGAAAGGAAAGGACTTGGGAGCATTAAATCAAGGACAGGGAAACCTGTGTACTGTCTGTCACCCAAGGTAGACCACTTCTGCATGATGATGCAAGTTCAAAACTTTTAGCACTTCAAATAATATTTTGAAATAGATAGCAATTTTGCAAATATAACAATTTTTTTTTTAAAAAATAATAGAATAGAATAATCAATCAGTAATAATTGTCATTGTGATTAAAGTTTATTGTTGATAGATTTCTATCATTAATAGATTTTAATTTTGTTATATTTGTAAATAGTTTTGACAAGTCTATCAGTGATAGACTTCAATCACAATGCATGAAGTTTATCAATAATAGACTACAATCATTGGTAAAATAGTCTATCTAGGATAATTACACTTGTGATTGAAGTCTATCGTTGATAGAATTCAATTTTGCTATATTTGTAAATAGTTTTAAATTTTTCTATATTTGCAATTATTTGGTTAAAAATCACTTTTAGTCCAACTTTCATGAAAGTAACAATCTAGTCCTTGAACTTTGATTTGTAACAATTTAGTTATTGTGCTTTTATTTGTAAAGTTCAAGGATTAAATTGTTATAAAATTAAAAGTACAGGGATTAAATCGTTACAAATTAAAGTTCAGAGACCAAATTGTTACTTTCATAAAAGTTTAGGGACTAAAAGTGATTTCTAATCCAATTATTTTTAATCTATTTGCTATTTGTGCAAACAACCCTAATGATAAAAGGAAAAGGTGAGGACTCTTCGATTGAGATGGGAAAGAGAGAAATTGGTGGTTGGAAGGAGAAAAGTAAGAATAAATTCAATAGGAAAATGGGAGAATGGTAACTTTGTGATAAATGAAGAGAGAAAGGAGAAAAGAGTGTATGGGAGAGAATTGGCTCATTTGGAAAAGAAAAAAAAAAAAAAAGAAGAGAATATTTAATGGGAGTTAAAGACAATACTTTAAGATAGGGAATGGAAAAAGAGTTTATGGAATAATTTAAGTATATAATGTAACGTCATTTAAATTGAATAGGAACTCATATATTGATTTAATTAATATTTCAAGTAAAGCGGAGATTGGAGTAATATATGACCTGAAAGCATCTCACAATAGTAGTTGTGAGTGGTTTGTTTTATAAATTATTTTACGTTGTTAAAAGTTTTTTTTTGATATCTGTGAGTGTCTGGGCCAGCTTACGCGCACTCGACTAATCTCACGGGACAACCGCCTGACCTTACTACATTTGGTTGCCAAGAAAACTCGTAGGATATTAAATATCCTAGGTAGGTGGCCACCATGGATTGAACCCGTTGTTAAAAGTATTATTATTATGAAATTCGAAAAAACCATAGTTAAGTATGATTTTAAAGAAATGTGTTTAGTTTCCTTGATTTTATGGTTTTAATTGGAATGTGTTTCTGGAACATTTTAAGATATCATGCGATTATTTGAGAATTTTGAAATGTCTTATGATTCATGTAAAATTTGCTCGAGCTTATGAAATGTTATTTTATAGTGAGAAATTGGTTTTAGATAAGTTTGTGGATAGTGAGTTTTCTGTTGAAAAGTAGTTTTCAAATCACTAGATCCGTGTACCCTTGGTGATTATCCATGAGCTATGTGAATGTGTTTTCATAGTACATAGAGAGTGAGGTTCTTGAGTCATGAGTACGGATCCCAAGAGCATCCCTCTAATTCGTAAGTTCACGTGATAGGTATAGGGTTTAAATCGGTATTTGTGATCAAATTCGACTTTTCCTATTTAATTGTGAGTATTCTAGCTTAGAGCACCATTTAATTAATTCATTAATCACGATCGGATTAGTTTGTTAATTAATTGGATGTTAGTTCGACGGATTAGTAGGATTAACACTCTAGGGGTATCTTGTCCTTAATGCGATTATCTGATTGATTAATCTTGACGGGTTAGTAGGATTAATTAATTAATAATTAGTTATTTGTTCGATGTGGGGTGGGATCGAGTCAATTTATCTCAGGATACCAATTAGACATCATGCATTTAAATCACTATTTTGGTAATCGATGAATGAAAACAAATGTACCGAACTCCAAGTGTCTCGAATTACAGTAATCACCGAGGTGAGATTAACCAACCCATCTTTTATTTTTTTGTCATTTATTTTTCCGTATTTTATTTTCCCCCTTTTAATTCCTTTCTTCATCCAAACCCCCTCCAATTACCCATAAACACAAAAGAACTTAGGAGTAAACCAGCTGTTCCCTGTGATCGACCCCGACCATTACTGCTGCAAAGTAGTTTAGTAGTCGGTGATTATAAATTTATTTGACACCCGAAGCCTCGACAACTTCGACCCATCTAATTGGAGCCGTTGCCGGGGAACACGATGCTTTATTTCTACTTTCGTTTGTGTTTTTCACATTTTTCTTGATTCTTGTGTTTTTAGTTTGTTTCTTACAAGATCCAATGACAAATCTTTGCAAGGGCAAACACAATTTCTACCAAGAAGAAAGGAGGAGTATTTGAGCTTCATGGATATCTGGAAAATTCTCGACCCGTTGTCTGCTGAGATAGAAAGGACCGAGAATGCAGTGCAAGTCTTCTTTTCAGCTCCTAAATATCCTCTGCCTCCCTGCATTGTCAATCCTGAAGAAGGTAATTCTGTGCCCCTAGCTGAATTTATTTTCTCAGTTCCTTCATTTTATGGTGATTCAAGAGCAGAAGCCTATTGTCATGTGCTTGAATTTTACTCGGGTTGCTCCGAGAGGAAACCCCCAGAGATGTCTGAAGATCAGTTTAAGTTGAGGGTGTTTCCATATTCACTACAAGAGGGAGCTAGAACGTGA ATGGGCTTTCACGTTCTCAGAGCCCCTCCTTTCTCTTCCTCCACAACCATAATCTTCAAACCCACTTCTTCCGCTTCGTTTCTCTTCAAATTTGGTTATGCTCTCTACTCTTCACCCTTCTCCAAATCTTCTTCCTCCACTAGGACCTACTTCCGAGCTTCTTCAGCCAAATATGTTGCTTCTCCCGCCACTGCGATTCCGCTTTCTGGGTCTTTTTCTCAGAGAACTCGTAGTTTTCGTGGTGGGTTTATTGCAGCTACAGCTGCACCTGGCTCGGTCCACAAATCCGAGGAATTGAGGCCTTCCATTTCGCCTGAGCCATCTTGGGTTCAGAGGCAAAATGGGACTGAATCCTTACCAGCATCTGAAGTGCCTTTAAGAGGTCGTATTTATCATGAAACTTATGGGTGTCAAATGAATATTAATGATATGGAGGTTGTTCTATCAATCATGAAAAATGCTGGATACAGTGAAACCGTTGACATTCCCGAGACTGCAGAGATCATTTTTATCAACACCTGTGCTATCAGGGACAATGCCGAACAGAAGGTGTGGCAGAGACTAAATTACTTTTGGTTTCTGAAGAGACATTGGAAAAGCAATGTTGCTATCGGAAGGTCACAGTCTCGGCACCCTCCAAAAGTAGTTGTCTTGGGGTGCATGGCTGAGAGGTTGAAAGATAAAATACTAGATGCAGACAAGATGGTTGATGTGGTTTGTGGACCTGATGCTTACAGAGACCTGCCGCGATTATTGGATGAAGTAGATTATGGTCAAAAGGGAATAAACACACTTCTTTCCCTCGAAGAAACTTATGCTGATATAAGTCCAGTACGAATATCCAAAAATTCAGTCACTGCGTTTGTATCTGTGATGAGAGGTTGCAACAATATGTGCTCATTCTGCATTGTTCCTTTCACTAGGGGGAGAGAGCGGTCACGTCCTGTGGAATCAATTGTGTGTGAGGTCAGAGAACTTTATAAAGAAGGTGTGAAAGAGGTAACTCTTCTTGGTCAGAATGTTAACAGCTATAATGATACCACTGGGAATGCAGACGTAGAACCAGGAACTAATTGGAAACTCAGTGATGGATTTTCCAGCATAGCCAAGGTAAAGAAAATGGGTTTGCGTTTTTCTGATCTCTTAGATCGTCTATCCACAGAATTTCCTGAGATGAGGTTTAGATACACGTCTCCTCACCCTAAAGACTTTCCCGACGAATTCCTTTATTTAATGCGAGATAGACACAACATTTGCAAAAGCATCCATTTACCTGCTCAGAGTGGGAATAGCACAGTTCTTGAAAGAATGCGTAGGGGATATACCCGAGAGGCCTACTTAGATCTTGTGCACAAGATTCGATCAATCATTCCGGACGTGGGAATAACTAGTGATTTCATTTGTGGTTTCTGTGGGGAGACCGAAGAGGAACATGCAGACACTCTAAGTCTGATTAATGAAGTCGGCTACGATATGGCTTACATGTTTGCATATAGCATGAGAGAAAAAACTCATGCCCATCGGAACTATGTTGATGATGTTCCAGAGGAAGTGAAGCAGAGAAGACTTACTGAACTCATCGAAACTTTTCGAAATAGTACAGGTCGATGTTATGATTCACAAATTGGCAGTGTTCAATTGGTGCTTGTAGAAGGACCAAACAAGAGGGCTCCAGAGACAGAGCTGATTGGCAAGAGTGACAGAGGTCATAGAGTTTCATTCGTAAATGTAGCAGTTCCACATCGAGATGGCGATTATGATGGACAGCGGAAAGCAATGGTTGGTGACTTTGTGGAAGTCCGTATATCAAAATCGACACGAGCGTCGTTGTTTGGAGAGGCACTTGCTATTACAAAACTGAGCTCATTTTTCAACAGTATGGATGAATCAATTGCCTGTAGAGTGAGGTTCTTGAGTCATGAGTACGGATCCCAAGAGCATCCCTCTAATTCTTTGTTTCTTACAAGATCCAATGACAAATCTTTGCAAGGGCAAACACAATTTCTACCAAGAAGAAAGGAGGAGTATTTGAGCTTCATGGATATCTGGAAAATTCTCGACCCGTTGTCTGCTGAGATAGAAAGGACCGAGAATGCAGTGCAAGTCTTCTTTTCAGCTCCTAAATATCCTCTGCCTCCCTGCATTGTCAATCCTGAAGAAGGTAATTCTGTGCCCCTAGCTGAATTTATTTTCTCAGTTCCTTCATTTTATGGTGATTCAAGAGCAGAAGCCTATTGTCATGTGCTTGAATTTTACTCGGGTTGCTCCGAGAGGAAACCCCCAGAGATGTCTGAAGATCAGTTTAAGTTGAGGGTGTTTCCATATTCACTACAAGAGGGAGCTAGAACGTGA ATGGGCTTTCACGTTCTCAGAGCCCCTCCTTTCTCTTCCTCCACAACCATAATCTTCAAACCCACTTCTTCCGCTTCGTTTCTCTTCAAATTTGGTTATGCTCTCTACTCTTCACCCTTCTCCAAATCTTCTTCCTCCACTAGGACCTACTTCCGAGCTTCTTCAGCCAAATATGTTGCTTCTCCCGCCACTGCGATTCCGCTTTCTGGGTCTTTTTCTCAGAGAACTCGTAGTTTTCGTGGTGGGTTTATTGCAGCTACAGCTGCACCTGGCTCGGTCCACAAATCCGAGGAATTGAGGCCTTCCATTTCGCCTGAGCCATCTTGGGTTCAGAGGCAAAATGGGACTGAATCCTTACCAGCATCTGAAGTGCCTTTAAGAGGTCGTATTTATCATGAAACTTATGGGTGTCAAATGAATATTAATGATATGGAGGTTGTTCTATCAATCATGAAAAATGCTGGATACAGTGAAACCGTTGACATTCCCGAGACTGCAGAGATCATTTTTATCAACACCTGTGCTATCAGGGACAATGCCGAACAGAAGGTGTGGCAGAGACTAAATTACTTTTGGTTTCTGAAGAGACATTGGAAAAGCAATGTTGCTATCGGAAGGTCACAGTCTCGGCACCCTCCAAAAGTAGTTGTCTTGGGGTGCATGGCTGAGAGGTTGAAAGATAAAATACTAGATGCAGACAAGATGGTTGATGTGGTTTGTGGACCTGATGCTTACAGAGACCTGCCGCGATTATTGGATGAAGTAGATTATGGTCAAAAGGGAATAAACACACTTCTTTCCCTCGAAGAAACTTATGCTGATATAAGTCCAGTACGAATATCCAAAAATTCAGTCACTGCGTTTGTATCTGTGATGAGAGGTTGCAACAATATGTGCTCATTCTGCATTGTTCCTTTCACTAGGGGGAGAGAGCGGTCACGTCCTGTGGAATCAATTGTGTGTGAGGTCAGAGAACTTTATAAAGAAGGTGTGAAAGAGGTAACTCTTCTTGGTCAGAATGTTAACAGCTATAATGATACCACTGGGAATGCAGACGTAGAACCAGGAACTAATTGGAAACTCAGTGATGGATTTTCCAGCATAGCCAAGGTAAAGAAAATGGGTTTGCGTTTTTCTGATCTCTTAGATCGTCTATCCACAGAATTTCCTGAGATGAGGTTTAGATACACGTCTCCTCACCCTAAAGACTTTCCCGACGAATTCCTTTATTTAATGCGAGATAGACACAACATTTGCAAAAGCATCCATTTACCTGCTCAGAGTGGGAATAGCACAGTTCTTGAAAGAATGCGTAGGGGATATACCCGAGAGGCCTACTTAGATCTTGTGCACAAGATTCGATCAATCATTCCGGACGTGGGAATAACTAGTGATTTCATTTGTGGTTTCTGTGGGGAGACCGAAGAGGAACATGCAGACACTCTAAGTCTGATTAATGAAGTCGGCTACGATATGGCTTACATGTTTGCATATAGCATGAGAGAAAAAACTCATGCCCATCGGAACTATGTTGATGATGTTCCAGAGGAAGTGAAGCAGAGAAGACTTACTGAACTCATCGAAACTTTTCGAAATAGTACAGGTCGATGTTATGATTCACAAATTGGCAGTGTTCAATTGGTGCTTGTAGAAGGACCAAACAAGAGGGCTCCAGAGACAGAGCTGATTGGCAAGAGTGACAGAGGTCATAGAGTTTCATTCGTAAATGTAGCAGTTCCACATCGAGATGGCGATTATGATGGACAGCGGAAAGCAATGGTTGGTGACTTTGTGGAAGTCCGTATATCAAAATCGACACGAGCGTCGTTGTTTGGAGAGGCACTTGCTATTACAAAACTGAGCTCATTTTTCAACAGTATGGATGAATCAATTGCCTGTAGAGTGAGGTTCTTGAGTCATGAGTACGGATCCCAAGAGCATCCCTCTAATTCTTTGTTTCTTACAAGATCCAATGACAAATCTTTGCAAGGGCAAACACAATTTCTACCAAGAAGAAAGGAGGAGTATTTGAGCTTCATGGATATCTGGAAAATTCTCGACCCGTTGTCTGCTGAGATAGAAAGGACCGAGAATGCAGTGCAAGTCTTCTTTTCAGCTCCTAAATATCCTCTGCCTCCCTGCATTGTCAATCCTGAAGAAGGTAATTCTGTGCCCCTAGCTGAATTTATTTTCTCAGTTCCTTCATTTTATGGTGATTCAAGAGCAGAAGCCTATTGTCATGTGCTTGAATTTTACTCGGGTTGCTCCGAGAGGAAACCCCCAGAGATGTCTGAAGATCAGTTTAAGTTGAGGGTGTTTCCATATTCACTACAAGAGGGAGCTAGAACGTGA MGFHVLRAPPFSSSTTIIFKPTSSASFLFKFGYALYSSPFSKSSSSTRTYFRASSAKYVASPATAIPLSGSFSQRTRSFRGGFIAATAAPGSVHKSEELRPSISPEPSWVQRQNGTESLPASEVPLRGRIYHETYGCQMNINDMEVVLSIMKNAGYSETVDIPETAEIIFINTCAIRDNAEQKVWQRLNYFWFLKRHWKSNVAIGRSQSRHPPKVVVLGCMAERLKDKILDADKMVDVVCGPDAYRDLPRLLDEVDYGQKGINTLLSLEETYADISPVRISKNSVTAFVSVMRGCNNMCSFCIVPFTRGRERSRPVESIVCEVRELYKEGVKEVTLLGQNVNSYNDTTGNADVEPGTNWKLSDGFSSIAKVKKMGLRFSDLLDRLSTEFPEMRFRYTSPHPKDFPDEFLYLMRDRHNICKSIHLPAQSGNSTVLERMRRGYTREAYLDLVHKIRSIIPDVGITSDFICGFCGETEEEHADTLSLINEVGYDMAYMFAYSMREKTHAHRNYVDDVPEEVKQRRLTELIETFRNSTGRCYDSQIGSVQLVLVEGPNKRAPETELIGKSDRGHRVSFVNVAVPHRDGDYDGQRKAMVGDFVEVRISKSTRASLFGEALAITKLSSFFNSMDESIACRVRFLSHEYGSQEHPSNSLFLTRSNDKSLQGQTQFLPRRKEEYLSFMDIWKILDPLSAEIERTENAVQVFFSAPKYPLPPCIVNPEEGNSVPLAEFIFSVPSFYGDSRAEAYCHVLEFYSGCSERKPPEMSEDQFKLRVFPYSLQEGART Homology
BLAST of Lag0001238 vs. NCBI nr
Match: XP_038887766.1 (CDK5RAP1-like protein isoform X2 [Benincasa hispida]) HSP 1 Score: 1217.6 bits (3149), Expect = 0.0e+00 Identity = 606/635 (95.43%), Postives = 623/635 (98.11%), Query Frame = 0
BLAST of Lag0001238 vs. NCBI nr
Match: XP_038887765.1 (CDK5RAP1-like protein isoform X1 [Benincasa hispida]) HSP 1 Score: 1206.8 bits (3121), Expect = 0.0e+00 Identity = 606/652 (92.94%), Postives = 623/652 (95.55%), Query Frame = 0
BLAST of Lag0001238 vs. NCBI nr
Match: XP_008449427.1 (PREDICTED: CDK5RAP1-like protein [Cucumis melo] >KAA0057321.1 CDK5RAP1-like protein [Cucumis melo var. makuwa] >TYK13413.1 CDK5RAP1-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 1178.3 bits (3047), Expect = 0.0e+00 Identity = 586/633 (92.58%), Postives = 602/633 (95.10%), Query Frame = 0
BLAST of Lag0001238 vs. NCBI nr
Match: XP_022927671.1 (CDK5RAP1-like protein [Cucurbita moschata]) HSP 1 Score: 1176.8 bits (3043), Expect = 0.0e+00 Identity = 583/633 (92.10%), Postives = 601/633 (94.94%), Query Frame = 0
BLAST of Lag0001238 vs. NCBI nr
Match: XP_004140101.1 (CDK5RAP1-like protein [Cucumis sativus] >KGN47915.1 hypothetical protein Csa_002940 [Cucumis sativus]) HSP 1 Score: 1176.4 bits (3042), Expect = 0.0e+00 Identity = 584/633 (92.26%), Postives = 600/633 (94.79%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy Swiss-Prot
Match: Q8H0V1 (CDK5RAP1-like protein OS=Arabidopsis thaliana OX=3702 GN=At4g36390 PE=2 SV=1) HSP 1 Score: 830.5 bits (2144), Expect = 1.6e-239 Identity = 429/617 (69.53%), Postives = 491/617 (79.58%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy Swiss-Prot
Match: Q2R1U4 (CDK5RAP1-like protein OS=Oryza sativa subsp. japonica OX=39947 GN=Os11g0592800 PE=2 SV=1) HSP 1 Score: 829.3 bits (2141), Expect = 3.6e-239 Identity = 406/538 (75.46%), Postives = 463/538 (86.06%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy Swiss-Prot
Match: Q9JLH6 (Mitochondrial tRNA methylthiotransferase CDK5RAP1 OS=Rattus norvegicus OX=10116 GN=Cdk5rap1 PE=1 SV=1) HSP 1 Score: 516.2 bits (1328), Expect = 6.7e-145 Identity = 280/544 (51.47%), Postives = 373/544 (68.57%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy Swiss-Prot
Match: Q8BTW8 (Mitochondrial tRNA methylthiotransferase CDK5RAP1 OS=Mus musculus OX=10090 GN=Cdk5rap1 PE=1 SV=2) HSP 1 Score: 512.7 bits (1319), Expect = 7.4e-144 Identity = 273/530 (51.51%), Postives = 365/530 (68.87%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy Swiss-Prot
Match: Q9VGZ1 (CDK5RAP1-like protein OS=Drosophila melanogaster OX=7227 GN=CG6345 PE=2 SV=1) HSP 1 Score: 508.4 bits (1308), Expect = 1.4e-142 Identity = 258/496 (52.02%), Postives = 342/496 (68.95%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy TrEMBL
Match: A0A5D3CNB2 (CDK5RAP1-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496G00300 PE=3 SV=1) HSP 1 Score: 1178.3 bits (3047), Expect = 0.0e+00 Identity = 586/633 (92.58%), Postives = 602/633 (95.10%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy TrEMBL
Match: A0A1S3BLE1 (CDK5RAP1-like protein OS=Cucumis melo OX=3656 GN=LOC103491318 PE=3 SV=1) HSP 1 Score: 1178.3 bits (3047), Expect = 0.0e+00 Identity = 586/633 (92.58%), Postives = 602/633 (95.10%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy TrEMBL
Match: A0A6J1EIA8 (CDK5RAP1-like protein OS=Cucurbita moschata OX=3662 GN=LOC111434491 PE=3 SV=1) HSP 1 Score: 1176.8 bits (3043), Expect = 0.0e+00 Identity = 583/633 (92.10%), Postives = 601/633 (94.94%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy TrEMBL
Match: A0A0A0KDY2 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G411190 PE=3 SV=1) HSP 1 Score: 1176.4 bits (3042), Expect = 0.0e+00 Identity = 584/633 (92.26%), Postives = 600/633 (94.79%), Query Frame = 0
BLAST of Lag0001238 vs. ExPASy TrEMBL
Match: A0A6J1JMU5 (CDK5RAP1-like protein OS=Cucurbita maxima OX=3661 GN=LOC111486642 PE=3 SV=1) HSP 1 Score: 1173.3 bits (3034), Expect = 0.0e+00 Identity = 582/633 (91.94%), Postives = 601/633 (94.94%), Query Frame = 0
BLAST of Lag0001238 vs. TAIR 10
Match: AT4G36390.1 (Methylthiotransferase ) HSP 1 Score: 830.5 bits (2144), Expect = 1.1e-240 Identity = 429/617 (69.53%), Postives = 491/617 (79.58%), Query Frame = 0
BLAST of Lag0001238 vs. TAIR 10
Match: AT1G72090.1 (Methylthiotransferase ) HSP 1 Score: 147.9 bits (372), Expect = 3.4e-35 Identity = 131/528 (24.81%), Postives = 227/528 (42.99%), 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
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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