Lsi08G012970 (gene) Bottle gourd (USVL1VR-Ls) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.CAAAAGCCTTTCAACAAAGCTACACATATAAATAACATCACAAATTAATATAATGTCACACAAAATTTGACATCAAACTTCACAATGTCTCTACTCCACCTGACAAAACCTCCTCCTCCTTCTTCTTCATTCAAACTCAACGTTTTTCAATGTCTACAACTTCTTTTGATTCTCCAACCTGCTAGTGCTGCTATAAAGATTCCTCCCGGTTACTCGGTTCCTGCCGTTTTCGTCTTCGGGGATTCGATTGTCGATACCGGCAACAACAACGATCTCATTACTCAAGCTAAGTGTAACTATCCACCTTACGGTCGAGATTTTCCTGGCGGACGCCCAACCGGCCGATTTTCCAACGGCAGGGTTCCCTCTGACCTAGTAGGTATAAATTTCAATAATTTCTTCTTTTTTTAAAAAAAAACTGAATGTAACGTTATAATTGTGAAAGTAGAGATTCAAACCTTTTTTTTTCTTTTCGTTAGCTGATGTGCTAGGTATCAAAGCGTTCTTGCCACCGTATGTGAACACAAATCTTCAACCTGAAGACCTAATCACTGGCGTCAACTTTGCTTCTGGTGGAGCTGGATTTGATCCTTTAACCTCTAAGACCGCGGTATATCATTAAACTCGGCTTTAATTTTTTTTTCCATCTAAACTTACTATATTTCTTTGAAATTTTTTTAAATTATATATATTCGCATATTTTAAAATGTTAGCTTTTAATTAACGCGTCATAGAAATTTCAAAGTGTATTTATTTATTTAATAAATCATAGGTCACTATCACGACAACTTTTTGTCAATTTAACAATTACTTGACTAATTGATGACAGAATTCAAATTTTTTTTATTAGATAACATAAAATTCCACTTCAGAACCAATTTGTTAACAAGAGAAGTAACTTATTTATTTTATAAAAATCGTGAGGTCTCTTGATTTTTTCAATGTGAGATCTTCAACATGCTCTCTCGATATAATGCCTCTTTGAGTTCACCATTTTTGTTTTTGGACTGAATGTCCATTTGGGGCTTCATGGACTCTGATACCATTTTAGATAACATGAAGTTCCATCTCAAAACTAATTAGCTAGGAGAGAAGTAACACATTTATCTTATAAAGATTGTGAGGTCGTCCCTTGATTTTTTTAATGTGAGATCCTCAACGTTTTTGTAAGGTATGTAAAGTCGTTTTCCCAACTAACGAAATTGTACAAATTTTGAGATTTCAGCCAGCAATATCACTTGAAGCTCAATTAGCAATGTTTAGAGAATACAAAAAGAAGCTAGAAGGGCTAGTAGGAGAAGAAAGAGCCAAATTCATAATAGACAATAGCCTTTACTTGGTTGTGGCTGGAAGCAATGACATTGCCAACACATTTTATCTTGCACGAATAAGACAAGTTCATTACAACATCAATACTTACACGGATTTCATGGTCCAATCTGCTTCTACTTTTGTCAAGGTACACTCTAAATTAATTTACATCCGTTTAAAATTATAAATTTAGTCTCTAAACTTTTATGTTTCGTAGGAATTATACGCAGCCGGTGGACGGAGGATCGGGTTTTTCGGGACTCCACCACTCGGATGTGTACCGTCACAGAGAACTTTGGCAGGAGGGATTGAAAGGGCATGTGTGAATGAGTATAACAAGGCTTCAGAGCTTTTCAATGGGAAATTGCATTCCACTTTGGATTACCTTCAAACTATACTGCCTGATAGTAGAGTGGTTTACGTGGATATTTACAACCCTCTACTTGATGTCATCCAAAACTATGTAAAATATGGTATTTATTTCTCCTTCTCTCTCTACTTTTCTCTCACATGCTTCGTCGGTAGGATTAAATTATGAAAAATACTTACGTGCATCTCAAGTAGCACTTATTTTTGTGCATTCCACCAAATTATCTAATCATACTTTGACACGTGGCAAATTCTTCTGATTTATTTTTTGTAATATTTTAATTATTTTTTAGTATCAGTGATGATAGTGAGATACATAGAGATAGATGCATCTTGGGATATACCTAAGTATTGCTCTTAAATTATCTCTATATTTTTTTAAAAAAATATTTGGGTATATTTCGGGTTGCATTCTTAGCTTTGAGCTTCCCATTCAAGTACCTAATATTTACAATTTGTCACGTCACAAATTTTTTTTTTAAATGATATATTTGTTATATTTTTTTTCCTTTGTTATTAAAAGGGGTGCATGGAGATGTGGGCCTGCACCGAAGTATTATTTTTTTAAAAAAATGTTACAATATTATTACCCAATATCTTTGATAAAGGTTTTTCAAAAGTATTCTTCGAGTAGAAAATTATTTAGAATTTAATTTTCAATTAAAATTCGGGATATGAAAATGATTGTGGCGATGGTGACCTCAAACAGTGTGACGATTGAAATTTTAATTTTAGATCACCGCTACATCGTTAATTTGTAAATTCCAAGATTCTATCTTGAATTCTACACAAGTTACATTGTACTGAATGTGAGTAATACGTAGGTGCAATTCATCTCCTATTGCCCCCATCCAATTACATAGAATTATTTTTTAAAAAAAGAAAAGTACTTAGAAAACAAGTGTCGGGATACACCAAGTATTTTTTAAAATTAAATATCAACGGTAGAAAAAAAAACTTGAGTGCATCTTAGACTTCACATTTTTTCTATTGTTTTTTGCAACTCACTTAGTTGGTCCAAATCACGAATTTACTATATGACAAACTCCTTTTTTTTTTCCTTAAACATGTTTAAATTTTTTGTATCATGTGATTGATGTGGTCGGTAAAAAGATAAGTGCAGTTCATAATGTTGATACGTTTGATGATAATTTTCAGGATTTGAAGTAGCTGATAGGGGGTGTTGTGGAAGCGGGACAATTGAGGTGACATTTCTTTGTAATAAACATGTGAAGACTTGCCCTGAAACCACCAAATATGTGTTTTGGGATAGTTTCCATCCTTCACAAGCTACTTACACTTTGCTTGTTGCTCCAATCATCCAAAGATATATTTCTAGCTTCCTATAGTTCATTTAAATTCCTCAACTTTTGAACAAATTCACTTCTTAATTTCCAATTTGTAACATTCTATTTCAATAAAACACATGCTATATTTACATATCTAAATGTCATTTTTGTTATATTATAAGTTTAGTCGTCTCATCTTCACGTTTGTGTCTCAAAAATCTCTGCCTACACTTTCAATTTTGTGTATAATATGTCTACGATAGATATATTTTCGTAATTTTTAAAAAATTAACTAATATATTAGGTATAAAATTGAATTTTCAATTTTACGTACAGTAAATTCATGAATTTCTTTTTTGATGTCAAATAAGTCGGTGACTTGTTTTAGACACAAAACTTAAAATATGATCTATTGAACACAAAATTGAAAGTATTTTAAGAATCATATTATATGATTTTAAAGTTAAAGAATTTAATATAGACACAAATATGAAAGTTTAGAAATTTAACGATTAGACACTTTTTTTTTAAGTTCAATGACCATAAATAGACAAAAATATAAAATAAAATCGACACTAAACGTGTGATTTAATCTATTTTATATGAATACTTTTAATTAAATCATTAATTTTATCTATCTTGCATGTGATTAGAATAACATATTACCTGAGTGTAATCTTACAAGTCAAATCTTTTAGACAATGTTTTTGTAAAATAATAAATCGAACATTGATTGTTCACAAAAATATATATTTCTTTCACGCCCATCAAAACATATAGTATATCAAAGAATCATATATTTAAATAATTAATTTTTTTTAATTATTAATTAAAAGTACTTTTTTTGGATAATTATTAATTAAAAGTACTTTTTTTTGGATAATTCAAAAGCACTTATAAATGGTGCCAACCAAATTAAGTATAATTCAAGTTGTTGTTAAAAGTAAAACATTCATAATATCACACCTCCTTAAAGGTGGTACGGTTTACAATCTATGTCATTAAGTTTAAATCTGATATTCTTAAATGTCAATTTTTTTTTTCCGTAAAGAGTCATTTAATTAATTGGCTTTATCAAGTATTATACTCTTTCCATAATTACTAATTATCTTGTTAGTTGTACAATACTTTTTCGATAATTACTAATTATCTTGTTAATTACTAATTAATATTCTTCCTCCTCTTTCTCTCACTAGCTTTTCTCTCTATGTATTTCCCTCACCAACCTTCTCTCTTTACTCACAATTTCCAAACTCTTAAGTATTTATAGTCTTTTATAACTATTTTAGGTAATTGTTTTAAATGTAAAACTGTCTGAAATATTTATTTTTCAAATAGATAAATAGTGATAGACTATTATCATTTATTACTGTTTATCAGTAATATACATCTATCAATGTCTATCTATCACTGATAGACAGTGATAGACTACTTTTTGTTATTTTGTTATATTTGTAAATAAATTAGTTCATTTTGCTATATATAAAAATAACTATTTTATTTTATATTTTCTATTTTTTAAAATTAAGTCTATAACGATTAGTATTCTACTTATAATTTTCTTGTTTTATTCCTTATTTTTAAAAAAATATTTTTAAAAAACCGAATCAAAATTTTAAGGTTTAAAAGTTGTTTTTGTTTTTTCGAATTTGTATTAAGAAAATCAAATATTTCTTTTAAGAAAAAATATTAAAACCCATTGTAAGAAGTCAAATTTCTATCAAATGGGATCTAAATAGTTTCTCAAACCAATTTTTTTTTTTTGCACGTTTTTTTTTCCTAATCTACTTAACTTGAGTTGTTTTCAAGAGCAAATAATGTTCTAGATAAATTATTAAAAAAAACTATTTTATGTCTGGTATGCTCTTTATTTCACCGTTCTTATAATTAAATAGACCAACAAAAAAAAAGGTGCATCCGGTATTATCAGTATTAACTATCACCTTTTATTTCAATGCTCTTATAATCAAGTTATACCATCACACTTCTTCTTTTAAATATAAAATTAAAAATAAAATAAAATAATGCGAAGCATTTATTATATACTAAATACATTTAAAATTTAGAATTAGACACTTAAAAAGACTAAAGATTTTTGTAAATCATTATAGAAAAAGAAAACAATGACTTGTAACTACTTTGAAAAGATGACACAAATAGTTGATGTAATCTAATACTGCCCAACTGTATGCCAAATTGAAATTGATATATGCTTCATTTGAATATATCTTTAATTGGGTATCAATTATGGTAGCTAGTTGGCAGGTAAACATTCACTCGACTTCCTTTTCTTGTTTTTAATTTGAATTATATAAAGGTTTTATATCAAAAAAATTAATTACATAAAGTTTGGAAAAGAAAAAAAAAACCTATTTAGAATGAATCAATAATTCGTGTCCAGTATTGCATCGTTTGGAAATTATAGATCACACTTTTATTATTATTTTTTTGGTTCGAGTTTAGACAACATATCATGTGAGAATTTGAATTTGGATCGAGAATATATACTTAGCTATGTTTAGCAGTTCACCACTTTTTTCTTGTTCAAAATATAGAAAACACGAATTCTAACGAATATGGTCTCCTATAATTACCATTTAAACACTGTTTGATAATAATTTAGGTCATGTTTGGTAACCATTTAGTTTTTTATTTTTAATTATGTTTTAAAATTAAGCGTATAAATACTCATTCCACTTCTAAAATTCTTACAGCTTTGTTATATACATAACACTAATGTTTTCAAAAACTAAACCAAAAGTAATTTTTAAAAAACGTGTGTTTTGAAATTTGACTAAGAATTCAAGTCTTTTGCTCAATAAAAATGAAAGCATTGTAGGAGATTGAGAGGAAATAAACGTAATTTTAAAAAAACAAAAAATCATATAGTTATCAAATGAGGCCTTAGTTTTTGAAAATTTAGTCTATAAACACTACTTCCACCTATTGATTTATTTGTTTTGTTGTCTATATTTAAAGGATGATTTTAAAATCTAGGGTAAGTTTTAAAAACTAAAAAAATGATTTTTTTTTTGTTAACTATGATTTTTTTATTTTTTTTTATTTTAATCATATACATGATTTTTTATTTAGAAGTTATGAAAGCCACCCTTAAAAAATGGTAAGAAAACAGTCACAACTTTCAACAACAAAAAGTCAAATGGTTATTATCAAACTTTGAAAATCATTTCGTTTGTTTTTTATTTAAAAAAAAGCTTATAGACTCTATTTTTACCTCTAAATTTATATATTGTGCAATCCACTTTCTACCAATAGTTTAAAAAATACAAGTTAATTTTTTAAAAAACTAAAAGTTATAATTGTTAAAAACTTGTTTTCATTTTTAGATTTTGACTAAAAATTCAAATATTTATTTAAGAAAAGTAAAAATTGTGGTAAGAAAATTATGAGAAAACAAGCATAAATTTAAGGAACAACAAACTAAAAACGAAATGGTTATCAAACAAGATCTTAGGCCACATTTGGTAACCATTTAGTTTTTTATTTTTAATTTTTAAAAATTAAGCTTACAAATACTCTTTTCACCTCTAAATTCTTTGATTTCTTATCTATTTTGTAGCCATGGTTTAAAAAACCAAGTTAAATTTTGAAAACAACAAAAAAAAAATAGTTTTTAAAAACTTGTTTTTGTTTTTTGAATTTGGCTAAGAATTCAACTATCTTACCCAAGAAAGATGCAAATCATTATAAATAAATATAAGGAATTGGACGTAATTTTAAAAAAAAAAAAAAAAAAAAATTACTAAATGTGGCCTTAATTGTTTGTTTCTTGCTTTTTAAAATTATTATGCTTAGTTGTCTCACTATTCATTCACAATACATATTATTTTTTTTAAAAAAAAAGAAAACTAGTTTTCAAATTTAAAATTTGAAAATATTTACTAAAGAAAAACTAAAGAAAGGAATTCTTAACCATAAGTAGTACTAATAAGCTTATTTTCGAAAACTCAAAATAACAAATGAAGGTCCATTGACAATAATTTTATTTTTAGTTTTCTATTTTTAAAATTTATATTTGTCTTTTCCTAAATTTCATATTATTGTTCTCCATTTTTTTTAAAAAAAAAACTTGAATTTTTACTCAAATTTCATATTATTGTTCTCCATTTAAAAAAAATCTTGAATTTTTAGTCAAATTATGATAACAGGAGCAAAATTTTGAAAAATATTTTTTTATTTTTAAAAATATGAGTGGAAAGTGAAAAATAAAACAAAGAAACTAAAAGACAAAATATGTATGCACTTTAACAATTCTAAAAATTTTCGTTATAAAGTAACCATCATTCTGGATTATTCTAAAGATTTTTTTTTTAAAGAATTCTAAAGATAATTTTGATACATTTATAAGAGATGTAATATTTTAATTTTTGAAAGCGAAGTGATTTTTTTTTAATCAGTAAATTTTTGTTTATAATTTATTAAAAAAAAAGTCATAGAATTTGATCAGCTTTTATTATTACTATTATCATTTTAAATTCTTGATTAGGTTACATCTTAGCAACCTAATTGATTGGTAAATTGCCGCCCATCTTTCAAATTCAGAGCTTCAACTCGCTTGGCGAAATCGAATTCATTCAATTGTTTGAAGATCACAAAGAAAACCCTAGAAATAGTCTTCTGGTCGGTTCAAGCAACTGGTCTTCAGGTTCCCCCAATCATGGAGCCTGCTACATTCGTTGTCGATAAATTAAAAGGTTTTGGGACCGCAACCCAGAATTTCTTTGATGGCTTAGTTCATCGCCGCGAAAAATCATCTCGCCGCAGTCCGGTAATGGGTTTGCTTTTTCTGATGTGATGTCACAATATGCGTTTCTTCTCGTCTGAATTTTGACGGTTCTTTTTGTCCCTATGATGCAGTTTTTGTATTTAGATCAGCAGGACTTCGATTTTACTGGCTCGTTTTCTATAGCAAGTTTTAATCTCCAAAATTTGATGGTTTTGTGTTAACATTGTTGTAGGTTGCCCTATGACTCTCCTTTAGATGAACCTTTTGGCTGAATTTTTATTAAATACTCTTAATTTGGCTTTGGAAATTGATACAATAGTGTAAATGACTCTGTTTATAACTCTGTATGTTAGTCAACTAGTAACTACTGGGTGGTTAAGGAGAAATCCACGATGTGGCTGACAGTTTCTCACTGTTGGATGTATGAGAAAGAAGTAACTCGAATTTATACTAGTGGTTATTAAGGGCAGAGATTATTATTAGTGGTTGCCCCATTAAATGATTTGTCGTGGTCAAGGTATATTGTCCTACCATCTTTTCCCAAAACGAATTTCTGGCCCATGGAAATCATCTAAAGTGAATTCTCGTTTTCTCTTGCCATGTATTTTAGCAGACAAGATATTGAACTGATCTGATTTCTTTTCAAGCGGTCCAGTTTCAATCATAAATTTCTGCAACTTGATGATTTCATTGGTGCCATAAATGTCTGTGGCATGGTAATTAAAAATTATTGCTGTTCATTATTTCAGATTGAAATTCTGAAGCGGCTACAAAGGGAAGCATTTTCAGATTTAATGAGACTCAGGGACAGACAAGACAAGGTAGAGAAGGTACTATCCTTTTATAATACACAGAGGAGTAGCCCATTCCAAGAAAATGCCACCCATGTAAAAGGAGAGGTTAACATATTGGGCGCATTGCTATTGATGAGTGTTGTTGATAATCATAGCTTCAATGCACTTCGTAGAGCAGGAATCTCAACAGGAATTCACTCAAGATTGACTTTTGAAACAACTGTAAGAGAGAATGATTCTCTTGTTGCAGAGTTTGTAGCCAATCAGAAAGGCAAGGTGGATTTTGGTGTTGATTCTGGAAGTGAACTTACTCTATCTAAAGTTTTTTACAAGGCTAGGGTGAGAGATTGGATGTCTGCAATTGTAGTTCCTGTTGGAGCTCGATGTAGGGATGTTGCTGTTATTGCAAATCCTTCTCATCAGGTATATTTGATTGCAATGACGACTTTCTATCTAGTGTAAGCATGTGCTGTATGCTTATGAAGTTCTTTATGAGTTGATTGGAGTAGCATGTAATTTCATGCGTTGTTTTCAGGTTAAGGCAATTCTGAAATAGTCAGGATGAAGTAACCAACCCATTAAATGCATATATAGCCGGATTATTTTGGAGAGAATGTGTTCAAATAATATGATGGTTTCCTATGTAAATTATAAAAATTTTTGGAGAATGTTACAGAGTCGAGTGGTTGTCTTGTGAGATTAGTTGAAGTGTGCACAAATTGGTTCAAACACTCACAAGTACAGAAATATAGTGAGGGCAATAAACCTCTCTCTCTTTGGAGTTATTTGGGTAGGGGACAAGGACATTGCCCCTCTGATACAAATTTTAGTAGGTTTCATGTAAGAGTTGTTTCGTGGAGAGAAAGAGAGAGTGTGAAGTAGACTATGTCTATGTGAGATATATTATATGATTCTCTTGTAATCTTCTTCCATCCGAATGACAGTTGCTTTAGATAAAAAAAAGAAGTCAATGTCGCTCAAATTGAATAGACCACTATAATTTTTGGTGTCATTCTCTTTGGATTTAATGCATATTCCTTTCAAATGATATGATGGTATAGGAGTGCTTGTTATATATTTAATATCAGTGTTGATTTTGAATTCAAATTATTTGGTGGTATTTTTGGTTGTGTAAAATATTTCCCGAGCCCAGTTATTATGTATGTATTTAATATTAATACCAATTCCAACCACCTAGTTGTGCTTGTGGATGCTCCCCGGTATTTTTATCTAAGAGTGCGTTAGCTATATGGTTTATAAATTATGAAGTTAATGTAAATGGTGCTTCTATGTGGTAGGAAAAGGGTCTCACTGATACTTCATCTTTTGGACCACCCCTTTTGGATCACCCTAATGGTGGTGCCATTGGTTTAACAGTGAGAAAATCTAATGTCACTGCTTCCTTAGCTCAATTTATTTCTTCAGAGAGAATTCAACCAAGTTTTGATCGGATTCAACATTACTTTGGTACTTTTGGCCAACTGGTGTGTCAACTTCCAAGAGGAACAAAATTATCGGTTCTGGGTCTTCTCCAAGCAACAAAATTATCTAATCAACATGTCAATCTTGGAGCTCTTACAATTCCAGTGTGTCTTAGTCGACATAAATCTGCTGAAACAGTTGAGGCATCTGATCCACGTTTGTTAACAGTTTCAGGGGAAGCTATTTCAAGGGGATCTCTTGCTTTACTGCTGGAGTCAGAACTTGATGAAGTAACCAGAATTGGAGGTTGGGTTGAGCTGAGCCAATCAAATCCCAAATATTTGCAATGGGCTGTGTCAATGTCTGATAATAATAATGAAGATGTCTTAGGTTGGGGAATGAGTTTAAGTGGGATTCTTGGAGGCCCATTAGATGGGGATCAGTTTCAGGTTGAATCTTATGTCAAACTGAACATGAGTAAGAGATTCAGCTTAAAGCCAGGAATTGCATATGTCACAGACGGCAATGCCAAAATGATGGCCTTTGTGGTTCGGTCTAATTGGTCTCTCTGA CAAAAGCCTTTCAACAAAGCTACACATATAAATAACATCACAAATTAATATAATGTCACACAAAATTTGACATCAAACTTCACAATGTCTCTACTCCACCTGACAAAACCTCCTCCTCCTTCTTCTTCATTCAAACTCAACGTTTTTCAATGTCTACAACTTCTTTTGATTCTCCAACCTGCTAGTGCTGCTATAAAGATTCCTCCCGGTTACTCGGTTCCTGCCGTTTTCGTCTTCGGGGATTCGATTGTCGATACCGGCAACAACAACGATCTCATTACTCAAGCTAAGTGTAACTATCCACCTTACGGTCGAGATTTTCCTGGCGGACGCCCAACCGGCCGATTTTCCAACGGCAGGGTTCCCTCTGACCTAGTAGGTATCAAAGCGTTCTTGCCACCGTATGTGAACACAAATCTTCAACCTGAAGACCTAATCACTGGCGTCAACTTTGCTTCTGGTGGAGCTGGATTTGATCCTTTAACCTCTAAGACCGCGCCAGCAATATCACTTGAAGCTCAATTAGCAATGTTTAGAGAATACAAAAAGAAGCTAGAAGGGCTAGTAGGAGAAGAAAGAGCCAAATTCATAATAGACAATAGCCTTTACTTGGTTGTGGCTGGAAGCAATGACATTGCCAACACATTTTATCTTGCACGAATAAGACAAGTTCATTACAACATCAATACTTACACGGATTTCATGGTCCAATCTGCTTCTACTTTTGTCAAGGAATTATACGCAGCCGGTGGACGGAGGATCGGGTTTTTCGGGACTCCACCACTCGGATGTGTACCGTCACAGAGAACTTTGGCAGGAGGGATTGAAAGGGCATGTGTGAATGAGTATAACAAGGCTTCAGAGCTTTTCAATGGGAAATTGCATTCCACTTTGGATTACCTTCAAACTATACTGCCTGATAGTAGAGTGGTTTACGTGGATATTTACAACCCTCTACTTGATGTCATCCAAAACTATGTTCCCCCAATCATGGAGCCTGCTACATTCGTTGTCGATAAATTAAAAGGTTTTGGGACCGCAACCCAGAATTTCTTTGATGGCTTAGTTCATCGCCGCGAAAAATCATCTCGCCGCAGTCCGATTGAAATTCTGAAGCGGCTACAAAGGGAAGCATTTTCAGATTTAATGAGACTCAGGGACAGACAAGACAAGGTAGAGAAGGTACTATCCTTTTATAATACACAGAGGAGTAGCCCATTCCAAGAAAATGCCACCCATGTAAAAGGAGAGGTTAACATATTGGGCGCATTGCTATTGATGAGTGTTGTTGATAATCATAGCTTCAATGCACTTCGTAGAGCAGGAATCTCAACAGGAATTCACTCAAGATTGACTTTTGAAACAACTGTAAGAGAGAATGATTCTCTTGTTGCAGAGTTTGTAGCCAATCAGAAAGGCAAGGTGGATTTTGGTGTTGATTCTGGAAGTGAACTTACTCTATCTAAAGTTTTTTACAAGGCTAGGGTGAGAGATTGGATGTCTGCAATTGTAGTTCCTGTTGGAGCTCGATGTAGGGATGTTGCTGTTATTGCAAATCCTTCTCATCAGGAAAAGGGTCTCACTGATACTTCATCTTTTGGACCACCCCTTTTGGATCACCCTAATGGTGGTGCCATTGGTTTAACAGTGAGAAAATCTAATGTCACTGCTTCCTTAGCTCAATTTATTTCTTCAGAGAGAATTCAACCAAGTTTTGATCGGATTCAACATTACTTTGGTACTTTTGGCCAACTGGTGTGTCAACTTCCAAGAGGAACAAAATTATCGGTTCTGGGTCTTCTCCAAGCAACAAAATTATCTAATCAACATGTCAATCTTGGAGCTCTTACAATTCCAGTGTGTCTTAGTCGACATAAATCTGCTGAAACAGTTGAGGCATCTGATCCACGTTTGTTAACAGTTTCAGGGGAAGCTATTTCAAGGGGATCTCTTGCTTTACTGCTGGAGTCAGAACTTGATGAAGTAACCAGAATTGGAGGTTGGGTTGAGCTGAGCCAATCAAATCCCAAATATTTGCAATGGGCTGTGTCAATGTCTGATAATAATAATGAAGATGTCTTAGGTTGGGGAATGAGTTTAAGTGGGATTCTTGGAGGCCCATTAGATGGGGATCAGTTTCAGGTTGAATCTTATGTCAAACTGAACATGAGTAAGAGATTCAGCTTAAAGCCAGGAATTGCATATGTCACAGACGGCAATGCCAAAATGATGGCCTTTGTGGTTCGGTCTAATTGGTCTCTCTGA ATGTCTCTACTCCACCTGACAAAACCTCCTCCTCCTTCTTCTTCATTCAAACTCAACGTTTTTCAATGTCTACAACTTCTTTTGATTCTCCAACCTGCTAGTGCTGCTATAAAGATTCCTCCCGGTTACTCGGTTCCTGCCGTTTTCGTCTTCGGGGATTCGATTGTCGATACCGGCAACAACAACGATCTCATTACTCAAGCTAAGTGTAACTATCCACCTTACGGTCGAGATTTTCCTGGCGGACGCCCAACCGGCCGATTTTCCAACGGCAGGGTTCCCTCTGACCTAGTAGGTATCAAAGCGTTCTTGCCACCGTATGTGAACACAAATCTTCAACCTGAAGACCTAATCACTGGCGTCAACTTTGCTTCTGGTGGAGCTGGATTTGATCCTTTAACCTCTAAGACCGCGCCAGCAATATCACTTGAAGCTCAATTAGCAATGTTTAGAGAATACAAAAAGAAGCTAGAAGGGCTAGTAGGAGAAGAAAGAGCCAAATTCATAATAGACAATAGCCTTTACTTGGTTGTGGCTGGAAGCAATGACATTGCCAACACATTTTATCTTGCACGAATAAGACAAGTTCATTACAACATCAATACTTACACGGATTTCATGGTCCAATCTGCTTCTACTTTTGTCAAGGAATTATACGCAGCCGGTGGACGGAGGATCGGGTTTTTCGGGACTCCACCACTCGGATGTGTACCGTCACAGAGAACTTTGGCAGGAGGGATTGAAAGGGCATGTGTGAATGAGTATAACAAGGCTTCAGAGCTTTTCAATGGGAAATTGCATTCCACTTTGGATTACCTTCAAACTATACTGCCTGATAGTAGAGTGGTTTACGTGGATATTTACAACCCTCTACTTGATGTCATCCAAAACTATGTTCCCCCAATCATGGAGCCTGCTACATTCGTTGTCGATAAATTAAAAGGTTTTGGGACCGCAACCCAGAATTTCTTTGATGGCTTAGTTCATCGCCGCGAAAAATCATCTCGCCGCAGTCCGATTGAAATTCTGAAGCGGCTACAAAGGGAAGCATTTTCAGATTTAATGAGACTCAGGGACAGACAAGACAAGGTAGAGAAGGTACTATCCTTTTATAATACACAGAGGAGTAGCCCATTCCAAGAAAATGCCACCCATGTAAAAGGAGAGGTTAACATATTGGGCGCATTGCTATTGATGAGTGTTGTTGATAATCATAGCTTCAATGCACTTCGTAGAGCAGGAATCTCAACAGGAATTCACTCAAGATTGACTTTTGAAACAACTGTAAGAGAGAATGATTCTCTTGTTGCAGAGTTTGTAGCCAATCAGAAAGGCAAGGTGGATTTTGGTGTTGATTCTGGAAGTGAACTTACTCTATCTAAAGTTTTTTACAAGGCTAGGGTGAGAGATTGGATGTCTGCAATTGTAGTTCCTGTTGGAGCTCGATGTAGGGATGTTGCTGTTATTGCAAATCCTTCTCATCAGGAAAAGGGTCTCACTGATACTTCATCTTTTGGACCACCCCTTTTGGATCACCCTAATGGTGGTGCCATTGGTTTAACAGTGAGAAAATCTAATGTCACTGCTTCCTTAGCTCAATTTATTTCTTCAGAGAGAATTCAACCAAGTTTTGATCGGATTCAACATTACTTTGGTACTTTTGGCCAACTGGTGTGTCAACTTCCAAGAGGAACAAAATTATCGGTTCTGGGTCTTCTCCAAGCAACAAAATTATCTAATCAACATGTCAATCTTGGAGCTCTTACAATTCCAGTGTGTCTTAGTCGACATAAATCTGCTGAAACAGTTGAGGCATCTGATCCACGTTTGTTAACAGTTTCAGGGGAAGCTATTTCAAGGGGATCTCTTGCTTTACTGCTGGAGTCAGAACTTGATGAAGTAACCAGAATTGGAGGTTGGGTTGAGCTGAGCCAATCAAATCCCAAATATTTGCAATGGGCTGTGTCAATGTCTGATAATAATAATGAAGATGTCTTAGGTTGGGGAATGAGTTTAAGTGGGATTCTTGGAGGCCCATTAGATGGGGATCAGTTTCAGGTTGAATCTTATGTCAAACTGAACATGAGTAAGAGATTCAGCTTAAAGCCAGGAATTGCATATGTCACAGACGGCAATGCCAAAATGATGGCCTTTGTGGTTCGGTCTAATTGGTCTCTCTGA MSLLHLTKPPPPSSSFKLNVFQCLQLLLILQPASAAIKIPPGYSVPAVFVFGDSIVDTGNNNDLITQAKCNYPPYGRDFPGGRPTGRFSNGRVPSDLVGIKAFLPPYVNTNLQPEDLITGVNFASGGAGFDPLTSKTAPAISLEAQLAMFREYKKKLEGLVGEERAKFIIDNSLYLVVAGSNDIANTFYLARIRQVHYNINTYTDFMVQSASTFVKELYAAGGRRIGFFGTPPLGCVPSQRTLAGGIERACVNEYNKASELFNGKLHSTLDYLQTILPDSRVVYVDIYNPLLDVIQNYVPPIMEPATFVVDKLKGFGTATQNFFDGLVHRREKSSRRSPIEILKRLQREAFSDLMRLRDRQDKVEKVLSFYNTQRSSPFQENATHVKGEVNILGALLLMSVVDNHSFNALRRAGISTGIHSRLTFETTVRENDSLVAEFVANQKGKVDFGVDSGSELTLSKVFYKARVRDWMSAIVVPVGARCRDVAVIANPSHQEKGLTDTSSFGPPLLDHPNGGAIGLTVRKSNVTASLAQFISSERIQPSFDRIQHYFGTFGQLVCQLPRGTKLSVLGLLQATKLSNQHVNLGALTIPVCLSRHKSAETVEASDPRLLTVSGEAISRGSLALLLESELDEVTRIGGWVELSQSNPKYLQWAVSMSDNNNEDVLGWGMSLSGILGGPLDGDQFQVESYVKLNMSKRFSLKPGIAYVTDGNAKMMAFVVRSNWSL Homology
BLAST of Lsi08G012970 vs. ExPASy Swiss-Prot
Match: Q94CH8 (GDSL esterase/lipase EXL1 OS=Arabidopsis thaliana OX=3702 GN=EXL1 PE=2 SV=1) HSP 1 Score: 307.0 bits (785), Expect = 5.7e-82 Identity = 156/291 (53.61%), Postives = 204/291 (70.10%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy Swiss-Prot
Match: Q94CH6 (GDSL esterase/lipase EXL3 OS=Arabidopsis thaliana OX=3702 GN=EXL3 PE=2 SV=1) HSP 1 Score: 302.8 bits (774), Expect = 1.1e-80 Identity = 151/288 (52.43%), Postives = 204/288 (70.83%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy Swiss-Prot
Match: Q9FHW9 (GDSL esterase/lipase At5g42170 OS=Arabidopsis thaliana OX=3702 GN=At5g42170/At5g42160 PE=3 SV=2) HSP 1 Score: 291.6 bits (745), Expect = 2.5e-77 Identity = 142/265 (53.58%), Postives = 185/265 (69.81%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy Swiss-Prot
Match: Q94CH7 (GDSL esterase/lipase EXL2 OS=Arabidopsis thaliana OX=3702 GN=EXL2 PE=2 SV=1) HSP 1 Score: 284.3 bits (726), Expect = 4.0e-75 Identity = 147/302 (48.68%), Postives = 199/302 (65.89%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy Swiss-Prot
Match: Q9LH73 (GDSL esterase/lipase At3g14820 OS=Arabidopsis thaliana OX=3702 GN=At3g14820 PE=3 SV=2) HSP 1 Score: 279.3 bits (713), Expect = 1.3e-73 Identity = 133/258 (51.55%), Postives = 187/258 (72.48%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy TrEMBL
Match: A0A5J5ADW3 (Uncharacterized protein OS=Nyssa sinensis OX=561372 GN=F0562_036125 PE=3 SV=1) HSP 1 Score: 790.8 bits (2041), Expect = 4.8e-225 Identity = 402/706 (56.94%), Postives = 515/706 (72.95%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy TrEMBL
Match: A0A1S3BBY0 (uncharacterized protein LOC103488388 OS=Cucumis melo OX=3656 GN=LOC103488388 PE=4 SV=1) HSP 1 Score: 751.9 bits (1940), Expect = 2.5e-213 Identity = 383/425 (90.12%), Postives = 397/425 (93.41%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy TrEMBL
Match: A0A0A0LQH7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G346070 PE=4 SV=1) HSP 1 Score: 733.8 bits (1893), Expect = 7.0e-208 Identity = 373/426 (87.56%), Postives = 393/426 (92.25%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy TrEMBL
Match: A0A6J1CSD9 (uncharacterized protein LOC111013892 OS=Momordica charantia OX=3673 GN=LOC111013892 PE=4 SV=1) HSP 1 Score: 696.0 bits (1795), Expect = 1.6e-196 Identity = 360/425 (84.71%), Postives = 386/425 (90.82%), Query Frame = 0
BLAST of Lsi08G012970 vs. ExPASy TrEMBL
Match: A0A6J1KDN4 (uncharacterized protein LOC111492305 OS=Cucurbita maxima OX=3661 GN=LOC111492305 PE=4 SV=1) HSP 1 Score: 684.5 bits (1765), Expect = 4.9e-193 Identity = 352/421 (83.61%), Postives = 381/421 (90.50%), Query Frame = 0
BLAST of Lsi08G012970 vs. NCBI nr
Match: KAA8528770.1 (hypothetical protein F0562_036125 [Nyssa sinensis]) HSP 1 Score: 790.8 bits (2041), Expect = 1.0e-224 Identity = 402/706 (56.94%), Postives = 515/706 (72.95%), Query Frame = 0
BLAST of Lsi08G012970 vs. NCBI nr
Match: XP_038884063.1 (uncharacterized protein LOC120075002 [Benincasa hispida] >XP_038884064.1 uncharacterized protein LOC120075002 [Benincasa hispida] >XP_038884065.1 uncharacterized protein LOC120075002 [Benincasa hispida]) HSP 1 Score: 787.7 bits (2033), Expect = 8.4e-224 Identity = 395/424 (93.16%), Postives = 411/424 (96.93%), Query Frame = 0
BLAST of Lsi08G012970 vs. NCBI nr
Match: XP_008445322.1 (PREDICTED: uncharacterized protein LOC103488388 [Cucumis melo]) HSP 1 Score: 751.9 bits (1940), Expect = 5.1e-213 Identity = 383/425 (90.12%), Postives = 397/425 (93.41%), Query Frame = 0
BLAST of Lsi08G012970 vs. NCBI nr
Match: XP_031737106.1 (uncharacterized protein LOC101215602 [Cucumis sativus] >KGN62266.1 hypothetical protein Csa_018590 [Cucumis sativus]) HSP 1 Score: 733.8 bits (1893), Expect = 1.4e-207 Identity = 373/426 (87.56%), Postives = 393/426 (92.25%), Query Frame = 0
BLAST of Lsi08G012970 vs. NCBI nr
Match: XP_022144126.1 (uncharacterized protein LOC111013892 [Momordica charantia]) HSP 1 Score: 696.0 bits (1795), Expect = 3.3e-196 Identity = 360/425 (84.71%), Postives = 386/425 (90.82%), Query Frame = 0
BLAST of Lsi08G012970 vs. TAIR 10
Match: AT1G11320.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: mitochondrion, plastid; EXPRESSED IN: 7 plant structures; EXPRESSED DURING: C globular stage, F mature embryo stage, petal differentiation and expansion stage, E expanded cotyledon stage, D bilateral stage; Has 46 Blast hits to 46 proteins in 14 species: Archae - 0; Bacteria - 2; Metazoa - 0; Fungi - 0; Plants - 44; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 376.7 bits (966), Expect = 4.2e-104 Identity = 193/425 (45.41%), Postives = 274/425 (64.47%), Query Frame = 0
BLAST of Lsi08G012970 vs. TAIR 10
Match: AT1G75880.2 (SGNH hydrolase-type esterase superfamily protein ) HSP 1 Score: 311.6 bits (797), Expect = 1.6e-84 Identity = 156/290 (53.79%), Postives = 204/290 (70.34%), Query Frame = 0
BLAST of Lsi08G012970 vs. TAIR 10
Match: AT1G75880.1 (SGNH hydrolase-type esterase superfamily protein ) HSP 1 Score: 307.0 bits (785), Expect = 4.1e-83 Identity = 156/291 (53.61%), Postives = 204/291 (70.10%), Query Frame = 0
BLAST of Lsi08G012970 vs. TAIR 10
Match: AT1G75900.1 (GDSL-like Lipase/Acylhydrolase superfamily protein ) HSP 1 Score: 302.8 bits (774), Expect = 7.7e-82 Identity = 151/288 (52.43%), Postives = 204/288 (70.83%), Query Frame = 0
BLAST of Lsi08G012970 vs. TAIR 10
Match: AT1G75890.2 (GDSL-like Lipase/Acylhydrolase superfamily protein ) HSP 1 Score: 293.1 bits (749), Expect = 6.1e-79 Identity = 147/289 (50.87%), Postives = 199/289 (68.86%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (USVL1VR-Ls) v1
Date Performed: 2021-10-18
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.
|