![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Lcy02g016730 (gene) Sponge gourd (P93075) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTAATTTTCTTTCGATTTCTTTCCCAATTTCCTGTTTCTCGTTAATTGATTTGGTCGTTTTCTTTTCCGGAGGGGTTTTGTATTTTTTTGGTTTGAATTTGATCTGATTTGCGATTTTGAGGTCTTTCTGTGGATCTTATCTGTTTATTTCTACCTACGCGGTTATGTATGTGTAAATCGGGTGCTGTATTTGCTCTGCTGATGTTTTGGAACCGATTGATGATGTTCTTGCAGTTTTGAGAAAGGTTACTATGTTGTTTGAGATCGTCTTGCTTTGATAATTTGTTTTCATGAATAAGAAGTTTCTTTTGGGTGGAGTATTTTAGTTTTTTACCAATTTTATGGTTTTCTCCCTAATTGCTTCCGGTTTCTTTTCTTTTGAAGGATTTCAATGGTATGTTAGCTGCTTGGGGTATAATTTGATTGATTTGGTAGCTGCTGAAAATGGGGAAAAGGAGCCACTTGTACAGGATGACTGCTGACTGCAGACAACGGTATTGTCTGCTCGGATCTTATTTTATTACCTTAAGATTAGACCATTGTAATTTAGAAATGTTTTGGAAAATTATGTTTTATGCTGTTCCTCCTCTTTCTTTTGTTTTGACAAATGACAAGAAAAAGGTTTCGCGGAACTAGACCTTATCAGCTATGTAAGTGGTTCGGTGCTTTCCTCAAGAGCTTGATACCTTATGGCATAAGATTATTATGAGAGAATATGGGCCCCATCCTTTTGATTGGTTATCGAGTAGGTCTTGAGAGTTCCTAGAAATTTGTGGAAAGCTATCTTTGATGGGCTTCCTTTCTTCTCTTAGGTTGGGTACATATTCTTGGGGGGATAAGTGGTTGAACTAGACCCCTTTGCTTGTTGTTTCCTCGTTTATATTACCTGTCTACCATGAAATATCATTATATGGCTTATATTCTTCCAACCTCTTGGAGCTCATCCTCATTTTCCCTTGGTTTTCACCGGCCTTTCTTTTTTTGATAAAGAACCAACCTCTTGTTGAGAAAAAAAAAAGGATTACATAGGAACTAGGAAGTTATGTGCCAGGAGTCGACATATATCATGGTTCTGGATCTTTTTTTGAGGGGAGATGGGATCTTTGTCTTTGGAATTGTAATCCTTTTGAAGGGTTCTCTTGCAACTCTTTCTTTTGATGTTTGGTGAGCCCCTCCCCTTCCCCTTCCCCCTCTAGTATTCCCATTTTTTCGTCACTCTAGAAGATTAAAATTCCGAGAGATAAAGTTTTTTTTTGTGTGACAGATCATTCATGGCAGAGTAAATACCCTAGATAGTGTTTTAAAGAAATTCGTCTCGGATAGGTCCTCGGTGTTGTATCCTTTATGGGGGGTAGCTAGAGACCTTGATTTGATCATCTCGTGCACTTGTGATTTTGCATGCTTGGGGTGGAGTTTTTTTCTTGAGATGTTCAATTTTAGTTTTAGCTTGGCCCATCCTAGAGGGTATAGTTCTATGGAACCTGAATCACTGGGATTGGATTGAGTTAGGTAAATTCTTGATTTGGTTTGGGTTGGAAATTTAAGATTTAACTGGGAGGTTTGGAACAGTTTGTAGTTGCAAAAAATTAAAATTCGTTCAACTTGAATTGAAATGATCAAGCCTCCCTATATTCTCCCTCCCTAGGCCGACAGTGACAGTCCCTAATGTTCTCCCTCCCTCCCTTCCTCCCTCTAATGCCGAACACTTAAGGCCTTTTGCAGGTGAAGCACCAGTAGTTGTTGCTCATTGCCTCATCAACGCCAACATTCATCAATTGCAATAGCAACATTGGAGCTTTAATCAATCTATATTCACGGGTGATGCTTTAACATTCGACTACAAATCGTAGCAGTAAGATTCACCCACACGATGTTTGCTAGTAGGGGTGAGGAAAAAATCCCCGAAAACCGAGTCGGTTCGGTCGGCTCATCTAGTAGAGCGAAAACCGCTCAAACCGACCGACATTAAATAAATATATAAATATATATAAAAAAAGAAAGTAGTCACATGTCACGCTGCAGCCCATTAATGGGCCTCCAACATTGGGAAGACCATCAGCTGATGGTCTTCCCAAGATTTTATTAAAAAAAAAATTATTTATTTTTTTTCAAAATTTCTCCACTGATTCATTTTCCTCTTTCCCATTTCTTCTCTCCATCTTCTTTCTCTTCTTCCTCTCTTCTATTCTCTGCAACTTTGTTCTTCTTCTTCTTCTTTAATTTTTTCATTTCTTCTTTCTTCCTTTTCTATTTTTCCGTTTTTTCCTTTTTCTTTCTTCTGATGATCACCCCTATTTGCTAGTGGCCAACAATTTGCAGCAGTCGCGCCACCATTTGTCGCCTACCCTCATCATTAGTAACTTGTCTCTTCTCTTTTTTGTTCTCCTAAGTAATTCTAGTCTTCAGTAAAACCTGAATGACTAACCTGACCCAACCTGTAATTGTGAGGGTTGGGTTGGATTCCCACTATTTTCGGGTTGGGAAATTGACCAACTTGGATTTTTCGGTCGGTCCAAAAAGTCCCCCTAACCTGCCCAACCCAACCCATGTACAACCCTAGGAGGAGCGGAGGAACTTCTTCTTCATCCTCCCTTTTGTGAAAAGGGTTGCTTCTTGTTGGTTACTTGATTTTGTGCTTTTTTGTGGGGTCATTGGGGGAAGAAACAACATAATTTTTAGAACAATTGGGGGGATCTTGGGTTGAGGTGGGGTCCTTTGTTAGGTTTCATATCTCTTTTTGGTCTCAACTCAATGTGTAAGCTTTTTTGTAATTACCCTTTAACTCTTATTTTTCTTGATTGAAGCTCATTTTTATGTTAGTTTGGCTCCTTCGGTTGGTTTTTTTTCTTTTATTTTTCTTTCTCACCCTCTTTTCTTTTCATTCTCTTGTATTCTTTGTTTATTCTCGATGAAAGCTTGGTTTCTTATATGAAAAAAAGTATTATAAGGCTAAAAGTCTATAGCTTAGAACTAAAATTGAATGTAGTCTTGGATTTCCCATCTTAGGTCTCTTATCTTTGTTAGGAAGGGTTAGTCTTTGACCGGATAGGAGGGATGTTTGTTACTGGAGTCCTAATTCCTCTGGGGGCTTCTCTTGTCGTTCTTTCTTTTCAATTCATGTTAAATCCATTTCTAGTTAGTGAGTTTGTTTTTCTGCGTCTTTGGAATATTAAAGTTCCAAAGAAAGTTCAGTTCTTCGTTTGACAAGTCATCCTCAGCAAGGTTAACACTCTTGATAGGTTGTCAAGAGTTATTTCCCCTTTGGTTGGCCCCTTCTACTGCAATCTTTGTCGGAAGGAAGAGGAAGATCTTGATTTTTTGTTGTGGGGTTGTGATTTTGTTCGCTCAATCTGGAGCCTCTTCTTCGAGGTTTTTGATTTCTAGTTTGCTGGTCATCGTTGATACGGAGAGATGATCGAGAAGTTCTTTCTCCATCTGCCTTTTTTGGAGAAAGGGAGGTTTTTATGGCTTGTTGGTGTTTGTGCTATTCTTTGGGGCTTATGGGGGGAGGGGAATAATAGAATTTTTGGAGGGATTGAGAGTTTGCTTGGTGAGGTTTGGTCCAATGTTTGATTCTATGTTCCATTATGGGCCTCAGATTGTAAGACACTTTTTAATTATCTGTTTGATATCATTTTGCTTGATTGTGGAATCCCTTTCTGTAGATGGGACCTTTTGGTGGGGGCTTGGTTTTTTGGACGGCCTTGTATTTTTTCATTTTTACTCAATGAAAGTTCGGTCTTTATAAAAAAAGAAAAAGAAGCATGAATCCATTAAGCTGTTGAAAGTAGAATAATGGATGATAGTTTTTTGTTTTTTTTTTTTTTGGCCTCGGTGGTTCCTGGATTCATGCTCTTGGTTTATTATTGTTGTTATTTTTTTAGATTCAATTCTCCCTTCGCAGTTTGTCCTTCATGCGATCACTTAGTTAAACGAGTCCCTTATTGTTGGTTTATATGATCTTTTTATTTATTTCTGCATTCTTTTGGCAAAATGAAGTCTATCATCGAGGTTGACATGCACGTCTTTGCCTTGAATTGGTTCCTTTTCTTATTTTGGATACAGATGTGGTCTACAGGATTAGTTGGGCCATGCACATTAATTCTGTAGATATTTTAGTAAAAGGACGGGTCTTTTTCATCTCATTAAAACTCAACATCTATATTGCAATTACAACTATTAAATAAAGGACATTGATTTTCCTTGATCAATGAGAGCATAAGATATAATCTTACTGAGAAGTATAAAAAATAATTTTAACCATCTATTATAAATAATTAAAAACAGACCAGCACTAAAAATATTTCATATTGATAAAACACATTAAACAAAGAGGCCAGCGGCATCCCACCCTAGTAGCAAAAAAAAAAAAAAAAGGATCTAAAAAAAGAAGAGTTATGATCATTAAGTAACTTGGATAAAGTCCATTAGTAAACTGAGAAAAACTAGATCACGAAAGAATTGGAGCTGCCTTAGAAACCTTCAAAAAACCATACTCATATAGTAGCCCATTACTGAGTTGACAGAAGAGAAACAAATTATTCAAAGACTTGGTGTCACATTTATACATAATAAACGGAGGTTACACAAAAACATCGGGTCTTTTACTTTGTGTGAGAATGAGATCACCCGAACTTTTACCTTCTAATGGCCTGAGAACCATGTGATTTTCTGACTAGATTAATTTAAGTGATAAATATTAAGATTAGAAAGGAGATTTTTTTTTTTTTTGGATAGGAAACTATCAAACTTTGATAAGGAGGAAATACTGGAAAAGGAAAAAGGCTGAAGAGACATTACCTTAACCCAAAAAAATTTTCTCCCAATAGTGCTGATAAAATAAGTCATATTTACAAAAGAATTATTTAGAGAGCACTAAAGTGAAGTCCCATAATGAACAGGAACCTCAACAAAGATGGTGAAAAGTTATATTCTTTTTTTTTTTGTCCAAGTATCCTAAAGAAGACTTTTAATGGATAAGTCCTTCCCCCTTTGTTTGAAATAGTGGCCAAGCAATAATTGAGTCAAGCCTTGGAGGATGAAAAGGGAAGGCACACTACTGAACATTAAAAGTATCCAAAGACGACACCATTAAAATTGAGGGCAAGAACAATATATGAAGAGGTGATCTTGAGATTATGAACTTCTAGGACAAAGAGGGCAACAATTAGGTGAAGTATAACGATGGGGATTCCTTCATTTTCTGTTGTCTCATAGAACATAATTCCAAAGGAAAGAAAGAGATCTTTGTGCTTCTTGGCTCCCTTTACTTTACCTTTTTGTTCATATATCGTCTTAATTGCTTATGAGTTATGATGGATTATAACATGATACAGATTTAAAGCGGTGTTAAGAAGTTTTTTTATACTATTGTCCAAACTATTTACTTAAAGCAGTGGATCTTATTCTTGTTTTGGAATCGTATTTAGATTGGACAGATGGCACTCCAATGTCCAATTTTGTAAAATCTGTGGAAGGCTGGGTCTTGAATCTATTATTCATTTTCTGGACTTGTTGAATGGTGAATGAGCAGAACAGAACTGAACAGATACAGAAAACAATTGTGTAAAAATTGGTGAAGAGAACAGAAGAATATGTATGGAATTCTATTGGTATAGGTATCAGTGAACTAGACGGATCACATCAGATGGTGTAGATATGAGTGAACAAGAAACAGGAAAATAGTGTGGAGATCTTCGTTGATATTTCATCTATGGTGTACCGACTTATAAGCTGGACTATAATATTCTATGTACCATGGCATTTGTGAAGCCAAGGAGCTGTCAAATGGTTCTTTTGTGGTTTTTATAGAACAGAATCTCACCTTTCATTTGTCTGCGGAGGGCTTTGAAGACCATGCCAATTGTTTTATTACAAATTTATTGCGTAGGGAAAGCATGGATCTATTGACAAGCTAAAAACTGTTGCCGGTATTCTGACTCATTGTGGAGGAGCTATGAAGACAGTGATACCTTTCATTTGAATATTATCCAAACTGCTCCATCAGCTGGAACTTACTGTATATTGACATTGAGATTTCTGGTCCAGGGAAGAAGTTTGCTATGATGAAGATTGCTTTTGTGTTTTTCCATTCAATGTCTTTTTATAAACATCATCCCTTGCTTTCAGTTATTTTTCAGTATGGGATTATTTTTGTTCTCTTATTTGCTACTCTGCATGCTCCTCTTTTAGTTTTGCTATATTCCTCAAGCCTGCTCATGAAATTGTTCAAATTGAGATATTTCTTGCCTTTTACAGGACGCATAAAAGTTGAGTACTTTCTGTTTTTGCAATAATGCTATACTATGGGCTCCTGTAATGCAGAAAATTGTCTTTACAACACTTGGAATAATTTCAATTGTATCTTCTTTAAACTGTGTGTGCCAAGATAATATATTTACACTAGTTCTGTAGTCTAATTTTATATTTCCTTTTGCTAGTCATTTGATGTTCTCCTGCAAAACATTTCTTATCTGGAAGTTCTTGAATGTGCCAAGTAATTTTCTATAAGATATTGATGCTCATCTTTGGAGCATTATTGTAATTTTTCAGACCAAGAATCTGCAAGATAATAAATTGATAGTTAAACAACTAAATTTGTTTTGCAGGTTTTATGAATTTTCTCAATTGCATGGTTTATCTAACCCCTGGATAGTGAAGAGGAGATTTGTAAATATTCTAATAGTTGATCTTTAGGATATAGTTTGTAGATAAGGATTGTGTTCTTGTAGATGAATATGGAAACAAAATTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGTTGGAACTGGCTACAAAGCATTTTTGTCCAAGTTGACCTCATCTAGGAATAAACATGCCAAGTGCAAGAGACTCGATGACTGTGAAGTCAGTTGTGGGTCAAACTCAAGAAGATCTTTTCTTAGAAACTATAAAAATTTTAGCAGAAGTGGACTTCCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAGATAATTGTCGAGTTGATTAGGAAACAGTTTCAGATTAAAAATGCAGCAATTGAAGTGGAACTTAATGGTCGTCATTTGCTGCTAGATGCTCTGTATATGATCCAAGTGGAACTGAAGACAGCTATTCAGCAGCACATTGCCTGGATTGATGACAATGGTCGATGTTTCTTTCCAGAATTTTACTCGGATGATAGTGTGATGCATCAGTTCCACCAGAATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGACCATACAGGATTCAGAGAGATCAATTTGCATCTTGAAATTGGATTGACTGAAGCAAATAGTTCTCAATCAGAAGAGTATTTTGAAGAGTCAAATAGAGATAACAAGATACCTGTAATCAAAGAAAAATCTTGTGATATTGGTGGGGATTGGGAAGGCAGTGAAACTAAAAGTCAGAAACCAGTTGCTGAAATGCAAGAGGCTGCTGGAGGAATTAAAGAGATCAATTGTTATATGACACCTCAGAATGAACTAAAGCATTCAACTGTGGATTCTGAGGATGTAAAAAATATTTTCTTAATGGGCGTCGGATCTATTAAGAACCACATCGAAGTACTTGAGGTCAAACCCTGGTCTAGTCATCTAATGCAGGATAGACTGGATCTGTTTCAAAAACAAATAGACATAACCAGGAATTGTCGTGGGAATGCCAATGTTCAACATGGTTGGCTAGCTGCGAATAAGGATATCTTATCTGGTAGCATGCTATATGGGGTAGGTCATTCTGGACTGACGCTTACATCCTCATATGGTGTTCACCTTTCACCTACGAGCTGCGCACATATTAGGTATGCATTTCATCCTTAGTCAGTTAAATAGTGTGTGGATTTTTTTTTTGGATAGTAAATAATTTCATTGGTTAAATGGAATGATACAAAAAATGTATGAAATTGAATGGCAGTTTATTGTAAAGATCAGATAATAGGCTAATAGCTTCCTTATTATGAGTTTATGAGTTTTAGACCTTGCAACCCTTGCAAGGATAAGGAATACTAATTCTGGTCGTGATTTTAAACCCTCACACCTCATGTTAAAGAAAATCACCTCCTCTTCCATTCTCTTTTTGCACCATATAGTCGTGTAAAAGGAATTGGTCATCACAATACTGAAACAGTATATTATGAACAAATGCAGTATATTATTTTTAGCTTTAGCTGTATGGATAACTCTTTTGTTCTGCTTTATTACTCATGGAGATCAACTTCTGCATTGGTTTAGTGCAAGACATTGTGATGATGATGAAAAAGGGGTTAGATACATAGTGTTCTGTCATGTCATTTTGGGAAATGTGGAAGTTGTCTCTCCTGGATGTGGACCATATCGTCCCAGTTCTGTAAACTTTGACAGTGGAGTAGATGACCTTCATAATCCAAGTCAATATATAGTTTGGAATATGAACATGAAAAGCCACATTTTCCCGGAGTATGTTGTCAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGTAAGTTCTCTTTTGGTTGCTATTGCTCATTTCTTGTTTATGGGATCACAATTTTCTTTTAATCTCGTATGGCACATGGTGGATCTTAAAGAAAAATTTGAACTGATCAGGATGCATGAACGGCATGGTGTTTTTTTTTTCTTTTTTATTATTTATATATTATATATTTTCCCCTCTCCTCCCCCTTTTTTTGGTTTGGAATTCTGAGTTACTATTTTAATTTATTTTTTTTGTTACTTCTTTATTCTTAGATTTTATTAAAGAGGTTTTTGGTTTATGTTTTATTTGTTCAAGGGGTTTCGGCTTTTGAAGGGCTTCGGGACCAATGGCAATTCAATTGCTCTTCGATTGAATCAGTAAGCCGTCTCTTATGGGCTCTAATATTATGTTCTATGTGGGGTTTTCTGAGGTTCTAATTCTAAAATAACCAGGTTTAATTGCCACTCTTGTAAGGTGTGGACTTGTGAACCTACGATTATGACACCTATTATTTATGCAATATGATTTAAACTTGATTTTGGGCCAGCATAGACTTCCCAAGGTTGCCTCTAATCTCGTTCCATCAAAGCTTTTATTCCTATGCATAGTTAAGCTAATTTGTTTTCAGTTCCTCCCTGACCACCTTTACTTCAATATTTGGATGACCTGCCTTTGAGGATTTTTCACATTCGCAAATTCTAAAATTAATTGCCACCTTATTCGCATTCAAAATTCCTTGTTTTGATGTCCGGCTGGAGTCAGTTATGTTTCCTACTCACTTTTTAAAGTACATATTACTTCAATATTTGGATGACCTGCGTTTGAGGATCCATTGTTTCTAAATTTTAAGTTCAGGCTTCACCAGCCAAATTACATTTTCCCTATGATTATCATACTATTTACGTTGCTCTTTAACTATTTCAATTGGCACATTACTTAGCATTCTGGACAAGCCAGATTATTGGGTTTTTTTCTAGGAAGGCCGAGGAAACAATCTTGTTTTATCAATGTCCTTGTAGTCAAAATTGTAAGCACTCTTTTTCGGACCTTTGGATGCTGTTGGTTTTCAATGGGAAATTTAGAAATTTGGAGCACTTATGCCGTCATAAGTTTAGAAGAAATGAAAACTTTTAAACTGAAAGTGTTTTTTGTTTCCACGAAGAAAAAAAAGTTTTGTGAAAGAGCTAAAAGAAATCCTCTTTAGACCACACAAGACAAACATGAGAATAGAGAAGAAAGTTTCGGGCGCTCAAATCATTAAAGCAAGATTGTACTTTTTTCCTTCCATCTCTAATATTGAGGGAAGTTTTTTGCTTTTAGGAGGATTGTGTGTCCTCGCCAGCTCCTGAAAAGAGATGCACAGAAAAGCCTGACCATGGATCTAGCTCCCTGAAGACTCCAAAGTCCCCCTGGATGCCCTTTTCAATGCTGTTTAATGCCATTTCAAAAGAAGTTTCTCTTAATGACATGAAATTGGTGAACGGTCACTATGGCTTATTTAGAGTAAGTGAAAGTGTCTATAAGTGCTTTCAGGTAATTTTATTTGTATAGTCGATAATCTTGATATTTATTTCTTTGTTATGTATTAGGAAAAGAAGATCAATAGGGACGAATTCATCAGAAGGCTGAGGTCCATTGTTGGGGATCCGTTACTGAGGTCTACATTAACGAGTCTCCAGTGCAAGGTATGTTTTATGTTTGATCTTTATTGTTCAGTTCTTGTATGGTGTAGAATCGTTTGGTTGTATTGTGAAAGACTGGCATTTCAACATGGATTATGCGCTGCACAGATGGTCAACATATACTTACAATTTTCTTTTCCATGTGAAAGGCTATTTGTTTGATTAAAACGATAAAAGGAAATGTATTGCAGACGGTTGCCATAAAAGCTAAAGAAGCTGCAAAAGCATTAGATCTGTCCTCCTCCTTCCCCTCACCAAACGCACGCACACCAAAGAGCCCTGCGGTTACAGAGAGGAGTCCTAATTGGCCATAATTTGTGCAGGATCATAGACTAAAAAAACTTGGAGAGAGAACACCATATAGAAGCGAAGAGTTTAATTGATTCCCAAAATAAGAAGAAATTTCCTCTTTGAAGAACATCTGAGTCCTCTCAAACCAAACTCTCCAAAGGGTAGCCGTCACTGCAGTGGCCCAGAGAATTCCAGCCCAACCCTTTCAAATGGAGTGCTAGTAATAATCTGAATGAGAGCTGCATCACTATTATATGCGAACTAATACCAAAGCATTTTAAGATTTAAACCAAATAGGAGCAACAAAGGGGCATTGGGAGAAAAAGATGCGGATGTCTTCCAAATCTTGGTTGCACATAACACCTCCGTGAAAAAGAGAACTTTGGGTTTATTTTTGTTGCAAATCGCAAGTATTCAACTTACCTTGGATGAACATCCAAAGGATAACTTAAAACTTTCTAGACATATCCACCTGCCAAATAATCCCCATCAAAGCATGGTCAAGAGGCTTCTAATATAATGGGAGGGCCGGAGCAGGGAGCTTACCGTGAAGCACCCACTGTTATGGAGGGTTCACCATTTAGGCACATAGCGATAGTGCCTTGAATCAAGGTCAATCTCTTCCCTTTGCAAAACTTAGAAACCTTTGGATCAGTCGTCCTCTTCCAAAATAAAGTATCGTCCTGTTCGTTTTCAGGTTAATGGATTCATTTCCTTGAGTTCTATCATATGGAGGGTGGTTATTACCTTATTTTCATTATTGTGCTATGTCTAGTTTCTTTATGGGCTTCTCTGCTTTGAATCTGTGTGTCTTCTCCTCAGGCTTTATTTTTTTTCCTCACTCCCTTGGGGGTTTGTATCTTTTGAGTGGTAGTCTCTTCATTTTTTTCAATGAAAGTTTGGTTTCTTGTTCGAAAAAAGAAAGAAAGAAAGAAACCTTTTTCGTGATTCATTGAAGCCTCATAAATATGTAGTGAGTTAATTTATATCTACAATGAATGTTCCTTCAACTTTGGGTACTGCATTCATCCTCATTATACATCTATCAGAAGGAAGAATGGTGATTTATGCCTTAGTCATTGAAGTTTAAGCCCAAAAATGGATTGTGATGGGAATAAGAATTTTTTTGTCATCTAAGAAACAGTAGAACGGATGAGAGTTGAGCTAAACACAACCTTTCATTCTCACATTCAACTATTGGAAGTCCCTGAATTGATCTTCAAAAGTGATTCTAAACGAAGACTCCATTATGTATTTTGTCTTCTGATAGAAATGTCATTAGACGGAAATTAATTGTTACCTTTCATTCTCACATTCAACTATTGTTATGTTCACTGCTCAATTCTCATATCCCGTGGACTTTTGATTTTTTAGTGAATCAGATCTTGAGAATACTGTCTTCTTCTACCCTTCATTCTTGTTGAGTTTTACTAAGGAAAAAAAATCCTTCGCTTGCAGCCTGTTAAAAGCTTCTTCGTGTTTATGGCTTGAGAGTTGAGAGGAACAATAAATTCTTCAACATGAAAGAAACCCTTCCTTTTTATTATTTATTAAAAAAAATTAAATCTTCAAAAGACAAAAGATTGCAAGCAAGTATGATCTTTGAAAACAGAATGAAAATTGAAAACTATAACTGCTATTGAACGGGCCACTTGATGTTGGTTGTTGAATATAAATATGTTTTCTTTTTTAACCTTGAATAAAAATGTAAAACATGGACTGGGAAATTGTTAAGTATTCTTTTCTTGTTTCAGCTACCTCCGAAGTCTCCATGTGCTTTCAAAGTTCCGAAGGAGGAGAAAGAATGTTGAGGCTGTTGGTAAGAGTCTGTATTTAGGTGCTTTCCATCATGAGGGCTACTATGTACATGCTGTCTTACTCTTATTTTGTCTTTGAATTTGTCGACCTGATTAGTCAACATCTCCATAGAAGCTATTTGAGACAGTTGCTATTTTATTATATTTGTGAACATCTCAGTTAATTGCTTATTTATATATAATACTCAAGTCAATTGTTCCTGTTCTTATCTTACCTTTTGTTTTCCAATTTTCTACATTCTTTTTGCTATACATTGTTCATGTTGTAAATGGAAAATCTCGATAAACTCTCACATAGGAACTGTAAATTGTGCTCAAGACTGTTTTCAAGTATTCACACTGAAATAGAAGTAGATCTCGTTTCACGATTTTGCTTAGTATCGATATTGTTGGAATCTATGGTCTTTATAACTATGTAAATATTAGTTGGCAATATTTAATCGGTCTTTCTCCTATAAAAGAGGACCTAGATAGCATATATTTGAATAACATAAGATTATTATTCTTACAAATTTAGCATAGTATGAGAGCAGTAGATCTTGTATTCAAATCCTTTTCTTTTCGATTAATATTGATTTTCAGTTTTTCACTTATTGGGCTTTTCATGAATTTCCAAGGCCAACACGTGAGAGGGAGAGTCTTGAAGTAACTTTTGGGTTTATTGGTGATTTAATTGATGTATTTTTAAAGAATTGTTTAGCCTGATCG GTAATTTTCTTTCGATTTCTTTCCCAATTTCCTGTTTCTCGTTAATTGATTTGGTCGTTTTCTTTTCCGGAGGGGTTTTGTATTTTTTTGGTTTGAATTTGATCTGATTTGCGATTTTGAGGTCTTTCTGTGGATCTTATCTGTTTATTTCTACCTACGCGGTTATGTATGTGTAAATCGGGTGCTGTATTTGCTCTGCTGATGTTTTGGAACCGATTGATGATGTTCTTGCAGTTTTGAGAAAGGATTTCAATGGTATGTTAGCTGCTTGGGGTATAATTTGATTGATTTGGTAGCTGCTGAAAATGGGGAAAAGGAGCCACTTGTACAGGATGACTGCTGACTGCAGACAACGATTGGACAGATGGCACTCCAATGTCCAATTTTGTAAAATCTGTGGAAGGCTGGGTCTTGAATCTATTATTCATTTTCTGGACTTGTTGAATGGTGAATGAGCAGAACAGAACTGAACAGATACAGAAAACAATTGTGTAAAAATTGGTGAAGAGAACAGAAGAATATGTATGGAATTCTATTGGTATAGGTATCAGTGAACTAGACGGATCACATCAGATGGTGTAGATATGAGTGAACAAGAAACAGGAAAATAGTGTGGAGATCTTCGTTGATATTTCATCTATGGTGTACCGACTTATAAGCTGGACTATAATATTCTATGTACCATGGCATTTGTGAAGCCAAGGAGCTGTCAAATGGTTCTTTTGTGGTTTTTATAGAACAGAATCTCACCTTTCATTTGTCTGCGGAGGGCTTTGAAGACCATGCCAATTGTTTTATTACAAATTTATTGCGTAGGGAAAGCATGGATCTATTGACAAGCTAAAAACTGTTGCCGGTATTCTGACTCATTGTGGAGGAGCTATGAAGACAGTGATACCTTTCATTTGAATATTATCCAAACTGCTCCATCAGCTGGAACTTACTGTATATTGACATTGAGATTTCTGGTCCAGGGAAGAAGTTTGCTATGATGAAGATTGCTTTTGTGTTTTTCCATTCAATGTCTTTTTATAAACATCATCCCTTGCTTTCAGTTATTTTTCAGTATGGGATTATTTTTGTTCTCTTATTTGCTACTCTGCATGCTCCTCTTTTAGTTTTGCTATATTCCTCAAGCCTGCTCATGAAATTGTTCAAATTGAGATATTTCTTGCCTTTTACAGGACGCATAAAAGTTGAGTACTTTCTGTTTTTGCAATAATGCTATACTATGGGCTCCTGTAATGCAGAAAATTGTCTTTACAACACTTGGAATAATTTCAATTGTATCTTCTTTAAACTGTGTGTGCCAAGATAATATATTTACACTAGTTCTGTAGTCTAATTTTATATTTCCTTTTGCTAGTCATTTGATGTTCTCCTGCAAAACATTTCTTATCTGGAAGTTCTTGAATGTGCCAAGTAATTTTCTATAAGATATTGATGCTCATCTTTGGAGCATTATTGTAATTTTTCAGACCAAGAATCTGCAAGATAATAAATTGATAGTTAAACAACTAAATTTGTTTTGCAGGTTTTATGAATTTTCTCAATTGCATGGTTTATCTAACCCCTGGATAGTGAAGAGGAGATTTGTAAATATTCTAATAGTTGATCTTTAGGATATAGTTTGTAGATAAGGATTGTGTTCTTGTAGATGAATATGGAAACAAAATTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGTTGGAACTGGCTACAAAGCATTTTTGTCCAAGTTGACCTCATCTAGGAATAAACATGCCAAGTGCAAGAGACTCGATGACTGTGAAGTCAGTTGTGGGTCAAACTCAAGAAGATCTTTTCTTAGAAACTATAAAAATTTTAGCAGAAGTGGACTTCCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAGATAATTGTCGAGTTGATTAGGAAACAGTTTCAGATTAAAAATGCAGCAATTGAAGTGGAACTTAATGGTCGTCATTTGCTGCTAGATGCTCTGTATATGATCCAAGTGGAACTGAAGACAGCTATTCAGCAGCACATTGCCTGGATTGATGACAATGGTCGATGTTTCTTTCCAGAATTTTACTCGGATGATAGTGTGATGCATCAGTTCCACCAGAATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGACCATACAGGATTCAGAGAGATCAATTTGCATCTTGAAATTGGATTGACTGAAGCAAATAGTTCTCAATCAGAAGAGTATTTTGAAGAGTCAAATAGAGATAACAAGATACCTGTAATCAAAGAAAAATCTTGTGATATTGGTGGGGATTGGGAAGGCAGTGAAACTAAAAGTCAGAAACCAGTTGCTGAAATGCAAGAGGCTGCTGGAGGAATTAAAGAGATCAATTGTTATATGACACCTCAGAATGAACTAAAGCATTCAACTGTGGATTCTGAGGATGTAAAAAATATTTTCTTAATGGGCGTCGGATCTATTAAGAACCACATCGAAGTACTTGAGGTCAAACCCTGGTCTAGTCATCTAATGCAGGATAGACTGGATCTGTTTCAAAAACAAATAGACATAACCAGGAATTGTCGTGGGAATGCCAATGTTCAACATGGTTGGCTAGCTGCGAATAAGGATATCTTATCTGGTAGCATGCTATATGGGGTAGGTCATTCTGGACTGACGCTTACATCCTCATATGGTGTTCACCTTTCACCTACGAGCTGCGCACATATTAGTGCAAGACATTGTGATGATGATGAAAAAGGGGTTAGATACATAGTGTTCTGTCATGTCATTTTGGGAAATGTGGAAGTTGTCTCTCCTGGATGTGGACCATATCGTCCCAGTTCTGTAAACTTTGACAGTGGAGTAGATGACCTTCATAATCCAAGTCAATATATAGTTTGGAATATGAACATGAAAAGCCACATTTTCCCGGAGTATGTTGTCAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGGGTTTCGGCTTTTGAAGGGCTTCGGGACCAATGGCAATTCAATTGCTCTTCGATTGAATCAGAGGATTGTGTGTCCTCGCCAGCTCCTGAAAAGAGATGCACAGAAAAGCCTGACCATGGATCTAGCTCCCTGAAGACTCCAAAGTCCCCCTGGATGCCCTTTTCAATGCTGTTTAATGCCATTTCAAAAGAAGTTTCTCTTAATGACATGAAATTGGTGAACGGTCACTATGGCTTATTTAGAGAAAAGAAGATCAATAGGGACGAATTCATCAGAAGGCTGAGGTCCATTGTTGGGGATCCGTTACTGAGGTCTACATTAACGAGTCTCCAGTGCAAGACGGTTGCCATAAAAGCTAAAGAAGCTGCAAAAGCATTAGATCTGTCCTCCTCCTTCCCCTCACCAAACGCACGCACACCAAAGAGCCCTGCGGTTACAGAGAGGAGTCCTAATTGGCCATAATTTGTGCAGGATCATAGACTAAAAAAACTTGGAGAGAGAACACCATATAGAAGCGAAGAGTTTAATTGATTCCCAAAATAAGAAGAAATTTCCTCTTTGAAGAACATCTGAGTCCTCTCAAACCAAACTCTCCAAAGGGTAGCCGTCACTGCAGTGGCCCAGAGAATTCCAGCCCAACCCTTTCAAATGGAGTGCTAGTAATAATCTGAATGAGAGCTGCATCACTATTATATGCGAACTAATACCAAAGCATTTTAAGATTTAAACCAAATAGGAGCAACAAAGGGGCATTGGGAGAAAAAGATGCGGATGTCTTCCAAATCTTGGTTGCACATAACACCTCCGTGAAAAAGAGAACTTTGGGTTTATTTTTGTTGCAAATCGCAAGTATTCAACTTACCTTGGATGAACATCCAAAGGATAACTTAAAACTTTCTAGACATATCCACCTGCCAAATAATCCCCATCAAAGCATGGTCAAGAGGCTTCTAATATAATGGGAGGGCCGGAGCAGGGAGCTTACCGTGAAGCACCCACTGTTATGGAGGGTTCACCATTTAGGCACATAGCGATAGTGCCTTGAATCAAGCTACCTCCGAAGTCTCCATGTGCTTTCAAAGTTCCGAAGGAGGAGAAAGAATGTTGAGGCTGTTGGTAAGAGTCTGTATTTAGGTGCTTTCCATCATGAGGGCTACTATGTACATGCTGTCTTACTCTTATTTTGTCTTTGAATTTGTCGACCTGATTAGTCAACATCTCCATAGAAGCTATTTGAGACAGTTGCTATTTTATTATATTTGTGAACATCTCAGTTAATTGCTTATTTATATATAATACTCAAGTCAATTGTTCCTGTTCTTATCTTACCTTTTGTTTTCCAATTTTCTACATTCTTTTTGCTATACATTGTTCATGTTGTAAATGGAAAATCTCGATAAACTCTCACATAGGAACTGTAAATTGTGCTCAAGACTGTTTTCAAGTATTCACACTGAAATAGAAGTAGATCTCGTTTCACGATTTTGCTTAGTATCGATATTGTTGGAATCTATGGTCTTTATAACTATGTAAATATTAGTTGGCAATATTTAATCGGTCTTTCTCCTATAAAAGAGGACCTAGATAGCATATATTTGAATAACATAAGATTATTATTCTTACAAATTTAGCATAGTATGAGAGCAGTAGATCTTGTATTCAAATCCTTTTCTTTTCGATTAATATTGATTTTCAGTTTTTCACTTATTGGGCTTTTCATGAATTTCCAAGGCCAACACGTGAGAGGGAGAGTCTTGAAGTAACTTTTGGGTTTATTGGTGATTTAATTGATGTATTTTTAAAGAATTGTTTAGCCTGATCG ATGAATATGGAAACAAAATTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGTTGGAACTGGCTACAAAGCATTTTTGTCCAAGTTGACCTCATCTAGGAATAAACATGCCAAGTGCAAGAGACTCGATGACTGTGAAGTCAGTTGTGGGTCAAACTCAAGAAGATCTTTTCTTAGAAACTATAAAAATTTTAGCAGAAGTGGACTTCCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAGATAATTGTCGAGTTGATTAGGAAACAGTTTCAGATTAAAAATGCAGCAATTGAAGTGGAACTTAATGGTCGTCATTTGCTGCTAGATGCTCTGTATATGATCCAAGTGGAACTGAAGACAGCTATTCAGCAGCACATTGCCTGGATTGATGACAATGGTCGATGTTTCTTTCCAGAATTTTACTCGGATGATAGTGTGATGCATCAGTTCCACCAGAATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGACCATACAGGATTCAGAGAGATCAATTTGCATCTTGAAATTGGATTGACTGAAGCAAATAGTTCTCAATCAGAAGAGTATTTTGAAGAGTCAAATAGAGATAACAAGATACCTGTAATCAAAGAAAAATCTTGTGATATTGGTGGGGATTGGGAAGGCAGTGAAACTAAAAGTCAGAAACCAGTTGCTGAAATGCAAGAGGCTGCTGGAGGAATTAAAGAGATCAATTGTTATATGACACCTCAGAATGAACTAAAGCATTCAACTGTGGATTCTGAGGATGTAAAAAATATTTTCTTAATGGGCGTCGGATCTATTAAGAACCACATCGAAGTACTTGAGGTCAAACCCTGGTCTAGTCATCTAATGCAGGATAGACTGGATCTGTTTCAAAAACAAATAGACATAACCAGGAATTGTCGTGGGAATGCCAATGTTCAACATGGTTGGCTAGCTGCGAATAAGGATATCTTATCTGGTAGCATGCTATATGGGGTAGGTCATTCTGGACTGACGCTTACATCCTCATATGGTGTTCACCTTTCACCTACGAGCTGCGCACATATTAGTGCAAGACATTGTGATGATGATGAAAAAGGGGTTAGATACATAGTGTTCTGTCATGTCATTTTGGGAAATGTGGAAGTTGTCTCTCCTGGATGTGGACCATATCGTCCCAGTTCTGTAAACTTTGACAGTGGAGTAGATGACCTTCATAATCCAAGTCAATATATAGTTTGGAATATGAACATGAAAAGCCACATTTTCCCGGAGTATGTTGTCAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGGGTTTCGGCTTTTGAAGGGCTTCGGGACCAATGGCAATTCAATTGCTCTTCGATTGAATCAGAGGATTGTGTGTCCTCGCCAGCTCCTGAAAAGAGATGCACAGAAAAGCCTGACCATGGATCTAGCTCCCTGAAGACTCCAAAGTCCCCCTGGATGCCCTTTTCAATGCTGTTTAATGCCATTTCAAAAGAAGTTTCTCTTAATGACATGAAATTGGTGAACGGTCACTATGGCTTATTTAGAGAAAAGAAGATCAATAGGGACGAATTCATCAGAAGGCTGAGGTCCATTGTTGGGGATCCGTTACTGAGGTCTACATTAACGAGTCTCCAGTGCAAGACGGTTGCCATAAAAGCTAAAGAAGCTGCAAAAGCATTAGATCTGTCCTCCTCCTTCCCCTCACCAAACGCACGCACACCAAAGAGCCCTGCGGTTACAGAGAGGAGTCCTAATTGGCCATAA MNMETKLTKVLHNGQKIVVGLKRKRANQGTAHVGTGYKAFLSKLTSSRNKHAKCKRLDDCEVSCGSNSRRSFLRNYKNFSRSGLPQRFLYYEDGDWVDYPQIIVELIRKQFQIKNAAIEVELNGRHLLLDALYMIQVELKTAIQQHIAWIDDNGRCFFPEFYSDDSVMHQFHQNELEDASAVALSDHTGFREINLHLEIGLTEANSSQSEEYFEESNRDNKIPVIKEKSCDIGGDWEGSETKSQKPVAEMQEAAGGIKEINCYMTPQNELKHSTVDSEDVKNIFLMGVGSIKNHIEVLEVKPWSSHLMQDRLDLFQKQIDITRNCRGNANVQHGWLAANKDILSGSMLYGVGHSGLTLTSSYGVHLSPTSCAHISARHCDDDEKGVRYIVFCHVILGNVEVVSPGCGPYRPSSVNFDSGVDDLHNPSQYIVWNMNMKSHIFPEYVVSFKISSSPLERGVSAFEGLRDQWQFNCSSIESEDCVSSPAPEKRCTEKPDHGSSSLKTPKSPWMPFSMLFNAISKEVSLNDMKLVNGHYGLFREKKINRDEFIRRLRSIVGDPLLRSTLTSLQCKTVAIKAKEAAKALDLSSSFPSPNARTPKSPAVTERSPNWP Homology
BLAST of Lcy02g016730 vs. ExPASy Swiss-Prot
Match: Q8RY59 (Inactive poly [ADP-ribose] polymerase RCD1 OS=Arabidopsis thaliana OX=3702 GN=RCD1 PE=1 SV=1) HSP 1 Score: 331.6 bits (849), Expect = 1.8e-89 Identity = 212/584 (36.30%), Postives = 318/584 (54.45%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy Swiss-Prot
Match: O82289 (Probable inactive poly [ADP-ribose] polymerase SRO1 OS=Arabidopsis thaliana OX=3702 GN=SRO1 PE=1 SV=2) HSP 1 Score: 310.1 bits (793), Expect = 5.7e-83 Identity = 204/588 (34.69%), Postives = 315/588 (53.57%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy Swiss-Prot
Match: Q9ZUD9 (Probable inactive poly [ADP-ribose] polymerase SRO2 OS=Arabidopsis thaliana OX=3702 GN=SRO2 PE=1 SV=1) HSP 1 Score: 150.6 bits (379), Expect = 5.8e-35 Identity = 87/292 (29.79%), Postives = 140/292 (47.95%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy Swiss-Prot
Match: O64592 (Probable inactive poly [ADP-ribose] polymerase SRO3 OS=Arabidopsis thaliana OX=3702 GN=SRO3 PE=1 SV=2) HSP 1 Score: 131.0 bits (328), Expect = 4.7e-29 Identity = 84/302 (27.81%), Postives = 145/302 (48.01%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy Swiss-Prot
Match: Q9STU1 (Probable inactive poly [ADP-ribose] polymerase SRO4 OS=Arabidopsis thaliana OX=3702 GN=SRO4 PE=2 SV=2) HSP 1 Score: 124.4 bits (311), Expect = 4.4e-27 Identity = 84/291 (28.87%), Postives = 143/291 (49.14%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy TrEMBL
Match: A0A6J1K3U5 (inactive poly [ADP-ribose] polymerase RCD1-like OS=Cucurbita maxima OX=3661 GN=LOC111491440 PE=4 SV=1) HSP 1 Score: 975.7 bits (2521), Expect = 8.9e-281 Identity = 486/581 (83.65%), Postives = 520/581 (89.50%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy TrEMBL
Match: A0A6J1ET05 (inactive poly [ADP-ribose] polymerase RCD1-like OS=Cucurbita moschata OX=3662 GN=LOC111437458 PE=4 SV=1) HSP 1 Score: 974.2 bits (2517), Expect = 2.6e-280 Identity = 487/581 (83.82%), Postives = 519/581 (89.33%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy TrEMBL
Match: A0A6J1E4V0 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111026079 PE=4 SV=1) HSP 1 Score: 960.3 bits (2481), Expect = 3.9e-276 Identity = 483/580 (83.28%), Postives = 520/580 (89.66%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy TrEMBL
Match: A0A6J1E0N0 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111026079 PE=4 SV=1) HSP 1 Score: 960.3 bits (2481), Expect = 3.9e-276 Identity = 483/580 (83.28%), Postives = 520/580 (89.66%), Query Frame = 0
BLAST of Lcy02g016730 vs. ExPASy TrEMBL
Match: A0A6J1HJF2 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111464106 PE=4 SV=1) HSP 1 Score: 925.2 bits (2390), Expect = 1.4e-265 Identity = 472/572 (82.52%), Postives = 503/572 (87.94%), Query Frame = 0
BLAST of Lcy02g016730 vs. NCBI nr
Match: XP_023534562.1 (inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 988.4 bits (2554), Expect = 2.7e-284 Identity = 492/581 (84.68%), Postives = 524/581 (90.19%), Query Frame = 0
BLAST of Lcy02g016730 vs. NCBI nr
Match: KAG6606273.1 (Inactive poly [ADP-ribose] polymerase RCD1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 986.5 bits (2549), Expect = 1.0e-283 Identity = 493/581 (84.85%), Postives = 521/581 (89.67%), Query Frame = 0
BLAST of Lcy02g016730 vs. NCBI nr
Match: XP_022996125.1 (inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita maxima] >XP_022996126.1 inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita maxima] >XP_022996127.1 inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita maxima]) HSP 1 Score: 975.7 bits (2521), Expect = 1.8e-280 Identity = 486/581 (83.65%), Postives = 520/581 (89.50%), Query Frame = 0
BLAST of Lcy02g016730 vs. NCBI nr
Match: XP_022931211.1 (inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita moschata] >XP_022931212.1 inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita moschata] >XP_022931213.1 inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita moschata]) HSP 1 Score: 974.2 bits (2517), Expect = 5.3e-280 Identity = 487/581 (83.82%), Postives = 519/581 (89.33%), Query Frame = 0
BLAST of Lcy02g016730 vs. NCBI nr
Match: XP_022159740.1 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 [Momordica charantia] >XP_022159741.1 inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 [Momordica charantia]) HSP 1 Score: 960.3 bits (2481), Expect = 8.0e-276 Identity = 483/580 (83.28%), Postives = 520/580 (89.66%), Query Frame = 0
BLAST of Lcy02g016730 vs. TAIR 10
Match: AT1G32230.2 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 332.4 bits (851), Expect = 7.6e-91 Identity = 217/589 (36.84%), Postives = 322/589 (54.67%), Query Frame = 0
BLAST of Lcy02g016730 vs. TAIR 10
Match: AT1G32230.3 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 332.4 bits (851), Expect = 7.6e-91 Identity = 217/589 (36.84%), Postives = 322/589 (54.67%), Query Frame = 0
BLAST of Lcy02g016730 vs. TAIR 10
Match: AT1G32230.1 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 331.6 bits (849), Expect = 1.3e-90 Identity = 212/584 (36.30%), Postives = 318/584 (54.45%), Query Frame = 0
BLAST of Lcy02g016730 vs. TAIR 10
Match: AT2G35510.1 (similar to RCD one 1 ) HSP 1 Score: 310.1 bits (793), Expect = 4.0e-84 Identity = 204/588 (34.69%), Postives = 315/588 (53.57%), Query Frame = 0
BLAST of Lcy02g016730 vs. TAIR 10
Match: AT1G23550.1 (similar to RCD one 2 ) HSP 1 Score: 150.6 bits (379), Expect = 4.1e-36 Identity = 87/292 (29.79%), Postives = 140/292 (47.95%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06 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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