Lsi03G001650 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: five_prime_UTRCDS Hold the cursor over a type above to highlight its positions in the sequence below.TACATTTTCCCCAAAATCAAAAATTGATCTCCAAACTCAGAAATTAATCTCACTCACGATTTCTTCTGTTCTTTTGTTGTTACCGATTTTTCAAGCTATTTCTTCAAGGTTTCATTTACAACATGGTACATTTCGATCCTTCTCATTTTTTGCGAGTTTTTTTGTTTGAAGATTTTTTTTATGTATGTTTAAAAATCATGGATTCTTCTGTTGTTTAAATGAGGTTTGCATGTTTAAAATCCATGTTTATATTCACTACGTTGATTTTTTCACTATTTTAAGCTAGGATTTTTTTTTGTATCTAAATTTGACCGAAAAATCTTACCTTTTGAGTACTTTCTGCATTTAAAATACATTTTCGGTGTTGTCTAAATATTTTGGGTGTATTTAGTTTGATTTTTGACAAAAAAAAAAATGAAACATTTTCATTGTGTTTCCATGATGCCCGATCGGGCTTCATACAAAGCTCACCGGGTCAAAACCGGGTGCGTACTTGGGGAAGAAGATGGGTTTTTGCCCGGTCGGGCCTTCACCAAGTGACGACCGGACTAAGGCGTATAGGTTTGAAGCCCGGACGAGTCTTCACCGGGTGACGTTCGGGTAAGTTGTGAGAAGTAGATGAGTTGTGAGAATAAGGTGATTTGAGAGAATTAGGTGAGTTGAGAGAATTAGGTGAGTTGTGGATGTGTATGTTTTGATTTTTGTTAAAATAATTAATGGGTGTTTGATGGTAGGTAAAAAGGTTGTTTGACTTAAATGTTGGTTGGTTAGGTGTAATAAGTAGGAAATGGTATAAAAGAGTATAATTTGAAAAACTATTTTACATGTTAAATTAAAAATAAAATACTTTGGTTTGTAGATAATTAAGTGTAATTATATTAAAAATATATATAAATTAAAGGAAGAGGATAAATTATATTAAAAATTAAATAAACAAAGACAAAATACAGTGAGAACCTAGTCCGGGGTGCACTAGGTGAAAGCTCGGCCGGGTATGGCCAAATTAAAACACACATTCGATTACCTGGTTGAGGCCCAACCGGGCCTCCACAAATATTACCTAGTTTATTTGTTTTTTTTTTTTGGAATTATTATAATCTCTCACCAAACGAGATTAGTCGGAAAAAAAAAAAGGTAATTGTCACTAAAAAATAAAATTATCGTACTAAAACATGATATCTTTAACAAAATTGGGAAAAAATGTTAAAGGAAGGAAATACATACCTTTTGTACGTGTGTGAAGAGAGATATGAGTGGTAGAGAGTTGTGAGAATTTTAAGAGGGGAGAAGAGTATAATTTTGAGAGGAGAATTGTGAAGAGATGGTTGTGTGCAGTTAAAAGGGGTTGTTGGATGTAATAAATTTGGATAGAGTAGAAAAATTAATTTTGTGGGTAAACTAATTTATTTGTTAGGACAACAATTAATTTTGTGGGTAAATTAATTAATTTGTTAGGACAACAATTAATTTTGTGGGTAAATTAATTAATTTATTAAAAACCCAATTAATTTTGTGGGTAAAATAATTAATTAAATTAAGAAAATAATTATTTTTGGTAGGTTAAATAATTAATTTATTAAAAAAAATAATTAATTTTGTAGGTAAACTAATTAATTGGGTTGTTAATTACATATAATAAAGGTATTAAGTAGTGGGAGGGCAAAAAGGTAATTTTACATATAAAGTTTTATGGGAAATTGACAAAAATAGCTTATTTAAACATTATTTTTATAAAAATAGCCTAAAAAAAAGTTTTTTTGGACCCCTTGATGATGAAAATGATATAAGCAAGAGAAAACTTTGTATGTAAAATTACTTTTTTGCCCTCCACTATTTAATAAATTTATTATATGTGATTAACAATCCAACTAATTTAATTAGTTTACCCACAAAATTAAATGTTTTTCTTATAAATTAATTTAACCCACCAAAAGTAATTATTTTTATTATTTAATTAATTACTAAACCCACAAAATTAAATTTTCTATTCTATCCAAACTTATTACATCCACCAACCCCTTTAACTACACACAACCACCACACACAACTCTCTACCACTCATCTCCCTCTTCACACAAAATTTTCTCTCAACATTATACTCTCCTCTTCTCCTAAAATTCTCACAACTCTCTACCACTCATATCTCTCTCCACACAATTCAAAAAATGTATGTATTTTCTTCATTCAACTACATTATTTTCTTTAATTTTGTTAAATATATCATGTATTAGTACAATTTTTACTACTGGCAATTTTAGTACAATTTTTATAATCTATTTTGTTCTAACCCACAACCCTAAAAAACACTGTAGAGGCCCGGCCGGGCTTCTTTCCAAGGGTCGGGCCTCCGCCGGGCTTTCCTAATTAGTGGTTCAAATTAGGACACGTCAACTCTCTGCGCCCGGCCGAGTTTCCACCTGGTGCACCAGGGACCGGGTTCTCACCAGGTTTTAGGGTTTAAATGTAGGTATATACTGTAGGCCCGGCCGGGCTTCTTACCATAGGACCGGGCCTCCACCGGCTTCACCAGGGGGACGAATTGGTGGTTTAAAATTGGACACGTATGCAGCTAAGCCCGACCGAGTGTCCACCTGGTGCACCAGGGACCGAGTGGGAACCGGGTTTTTTCTTTTCTATTTAACTTTTATTTAATTTTTAATATAATTTATCATCTCCCTTTAACATATATATGTTTTGTTTAATATAATTTTACAAATTATACCTTTTTAAAATAGTTTTAATACAAATTATACCTTCTTAACATAGATTTTCAAATTATACCATTTTAGATCATTTCCAACTTATTACACCTACCCAACCAACATTTAACTCTCGTACCACATTTTTACCTACCATAAAAAACCCATTAATTATTTTAACAAAAATCAAAACATACACATCCACAAACTCACCTAAATCACATAATTCTCTCAAATCACCTTATTCTTACAACTCATCTACTTCTCACAACTCACCTAATTATTCACAAGACTACTCAAAGTTTGGTGAAGGTATGTATTTCATTTATTTAACATGTTATTTATTGATAAACCTCTTTCAACGTTAGAATCAAATACTACTAACGATTTAGGGTTTCTCACGATTGACTGATTTTGATTCTACTACTTTTTGGTGAGATACATGCATTTTAATTGATCCAAAATTATTGTTTATATTCATCTAACATTTCCACAAGAAGTAGTTGAGGTTTGAGAAAATAGAGAAAATAGGAAATAGTTCTTTTTGTGTTGAAGCCCGGCAGGGCTTCTCCGGGTTTAGATCGAGTCAGGTGGCCTGGTGCAGCCCGACCATGTCATTACTCGGGATACGCCCGGCCGGGCGTAACCCAGACAAGGTATGGCCCAGGGTTGACCCCGGGAGGAGCCCGGTCGGGCGTACACAGCTTTACCCGTGACCGAGCCCACCCGAGAGGGATACCCGGTTACAGCCCGGCCGGGGCAATGTAATATATTTTTTTTCATTTTCCTCTCCTAATTTTGTTTCATCTTATTTGTTGTTACAGGTATGCCTCGCATTTGGGTTTGCTTTGGTGGTGTTTGGTATGAAAAGGAAAAGGATTACGATGGAGGAGAGATGAGGGGATTTGACATAGAGATTGGAATGACGTATGGTGAATTCTTGGCTGAAGTTTACCGAATAAGTAGTATAAATCCAGGTCAATACAATCTTGTGATCCGTTGTATACTCCAATTGAAGTCCAAAGCTCCTGCATTTGTCATTCATAATGACGAAGATCTTCACACATTCTTGACATGGAAAGAGGTGTCGGTAATACCTATCTATGTATCAACAGTTCCACGATCTTCAAGTACTGAAGTATTACCTCTGCATAATCCCTCGAATAGACACATTGAAGAAATTCCATCAACGTCTAGGCAAGTCTCTTGCAAGACTGAACCCACATTTTTTTATCCAAACCCACCAATTACTTCGTTGGGGATGATGTAGATCAAAATCAATATCTCAATGATTGGGATTGGAAGGAGCCAAGTGATGGTGGATACGAGGTTGAGGGCGAACCCAGTGAATATGCTGAAGAAGAACCTACTCAAGATGCAATATGTTCTCATAACTTGTCCCACCGATCTAGTAGTACAACGGTCATGCCAGGTTAGTGTTACTCTTCTGAGGATGTAGAAGTTGGTGATATATTCTTATCTAAAAAAGATTTGAAACTTCGATTATCTATATTAGCAATTAGAGGTAACTTCCAATTTAGGGTGAAGAAGTCGAATACGCAATTATACAAAGTTAGATGCATTGTAGAAGAGTGTGAAGGGAGACTAAGAGCCGTTAGAATGAAAAGTTGTGAAATATTTAAGATTTCAAAATACGATAATGTACACATATGTAAGCCATTAGAATGATAATGTACACACATGTAAATGGTTATCGGGACTTATTTTTAGTACCAAATCCATCCTGCATGATATACATAGTCAAACAGTTGAAGTATAAAAATGTAAATCCTGGTCTAGGCCCGGCCAGGGCCAGCACTGGGCCAAAAAATAGAAACCCCTAAATACATTACACCCGGTCTAGGCCCGGCCAGGGCCAAAAAACAGAAACCCCTAAAAATGTTACCTCCGGTCTAGGCCCGGCCAGGGCCAGGGCCAGAATCGGGCCAAAAAACAGAAGCCTCTAAAAATGTTACCCCTGGTCTAGGCCCAGCCAGGGCCATGACCGGGCCAAAAAACAGAAGCATCTAAACCCTAAACACCCGATATAGGCCCGGGCCAAAAAACAGAAGACCCTAAACCTTAAAGACCCGGTCTAGGCCCGGCTAGGGCCAGAATTGGGCCTACATCCAGAAACTGTACCTCGGTCTTGGCTCGGCCAGGGCGCCCGATCTAAGCCCGGACCGGGCCAAAATCAGTAGCTCCAACCCGATCCAGACCCCCCCATGGCCTTCCCGGGCCAACATCCACAAACCCTACCTTGGTCTTGGCTCGGCCAGGGCGCCCAGTGTAGGCCCGGCCCGGGCCAAAATCCAGAACCCCAACCCCAACCCGTTCTTACCTAACCCGGTTATGGCCCGCCCGATGTGGACCTGGTGAAGGCCTAACCGGGTATTTACCTCTTCTTCCCCAAATTTCCCACCCTGTGCAGGCCCGATGAGAATCGTATGAAGCCCGGCCGGGCCTAATCTATACATAGACTGAACAGATTTCGTTTTTTGTGGCAAAAATCAAAATAAACACTACAAAAGTATTCAGACAACACCGACAATGTATTTTAAATGACGAAATAACCCAAAATGTAAGATTTTTCGGTCAAAATCTAGAGCCAATAAAACCCTAACTGAAAACAGTGAAAAAAACCATCCTAGTGAATACATATGTGGATTTTAAACATGCAAAACTCATTGAGACAGTAGAAGAATCCCTCATTTTTAAAAATGAATCAAAAAATCATCAAACAAAAAAAACCTGTGAAAAATGAGAAGGATCGAAATGTACCTTGAATGAAACCTTGAAAAATCGTTAACGGAAAATGGAGAAAGCAACTCGTGAGTGATTTTTGAGTTTGAAGATCAAAGATTTTGGAGCAAAATCTGAGTTAGAAGAGAAGAAATGTGAAGAGATAGGAAGAGAAGGAAGGTGAAGAGGTGGGAGAAGGAAGGTGAAAAGGTGGGAGAAGAAAGAGTGAGATTATTTGAAATTTTGAGGATAAAATGGTAATTTCACAAATAAGGGTATAATGGTAATTTTCTTAGTTTGGGTAAAATGGTAATTTTATATTTTGTAAAAAGTAAAAAGAGTTTAAAATGAAATAAAAAAGTTGAGGGGGTTATTTGTAAAAAAAAACTTGTGAAAGGGTTAAAAATGTGAAATACCCAAGTTTTATTATGCTTACCCATCTTCGTCATCAAGGGGTCCAAAAAAAATTTATTATTTAAAAAGAAGCTATTTTTCTAAAAATAATGTATGAAGAGGCTATTTTTGTTAATTTCTCAAAAGGATTTGGATGGATGCATGGAAGATATGAGAGAGGAAAGTAAAATTGGGAGAGAAAGTTAAGTAGACTCCAACTATTTAAATGTCATTTACGGCGAATTTAATTTAAATTTATATAATAATTATTTAGTATTTAATTGCAGATGACATGCTTTGTAAATTTTGAATTTGACTAAGGATAATATAGATTTAAAAAGTTTTTTTAAAAATGGTAGCTTTTTAATAGATTATAGATATAGATATTTTGCTTTTAACGATGGTAGGCATAAACTAAGTGAGGGAGAATAATGATATATGAAGGACAAACTTTTGATTTTCTCCACGGCTTTTATTTTATAGTTACAAGGTAATATTAGGTAATATCATCCTCGTAATTTTAGTAATATCAATACATATTGAAATAGCATATCAAACTTTTATAAAAAAAAAAAATGATATTTTAAAAATGGGCAACACATGAAAATCAAATCCCACTGATATAGCAAAATAATAATAATAAATAAATAAACAAAAACAAAACAATTTAGATTTTTTTTTAGTAAATCTCTAAAAAAAACTAACTGATTCAACAAAAAAAAAATCAAATCTATTTTAACAAGAATCAATAACTTTAGAAACTGAACTAAAATGCAACATTGATAATTTGGGAAAATGAGTTTGTGCAAAGGTATTAGATTAAATGTGTGAGAAAATGAGTTTAACATCATTCAATTCAACACAATAATTGAGCAATCAAATCAAAATATAAAATATAAAAGAATAATTGGACAATCAAATCAAAATAAAAAAATGAAATCTTTTAGAAATCAAAATATCTACCCATGTCCTTGACTAAAGTTTGCAACATCAATAGATTCTGATTGTATCTATCACACCTATTTAAAAATTTGACTATTTTGTGTAAATAGTTTTCTTTATTTTTCTATTTTTAAAAATTTCCCTTATATTTATTTATATACTCTCATTTTAAATGGATAGATTTTACTATATTTGCAATTTTTTAAAAATATTATTATATATGCTAATACTTTGAATGAGATTGTTATATTTGCAGCTATCCCTTCTAAATTTTTGTATATTAAATTAAAATGATTTGAATATTGATGTTAATTATTAGGTTTTCTTACCTAAAAAATAGGAGTCTTTTCAAAAATAGAAAAAAACCAAAACTAATTACACATATAGAAAAAAACAGTGAAAAATAGAAAAGCATGGGTGGGACTTTTTTCTATATGTATAATTAGTTTTTTTTTTTTTCTATACACAACAATTTTCCAAAAAAATATTAGGTTTTCTTTGTCTAGGATCCCAACTAAATTGTGATTACCAAAATAATAAAATAATCCAAATACTTAATTATTAAATCAAATAATTAAAAACAAAATTTAGATAACAATTTTAATCGTAGGTTTATCTTCTCATCCTGATTCAATTGTGTTGATAAAATAACAAAACACTTGCGCCCCTTTTAGTGATTTAACAAAAACCTTTATATCCCAACTGGGTTTTTATTAACAAAATAATATGATAATTCAAATACTTATTTATTCATTAAATTAAATAATATTCTCTACTATCGCTGACGAAATTTTGATTATTAAAATAATAAAATACTTTATTTTAATGATTTTCTTTTATTGTGAAATAAAATATAGTTTTTTTAAAAAAAATATATATATTATAATCACAAATTTGTTGCAAATTAAGAAAAAATCTAAAATCCTACCGCGTGGAAATGTGAAAAATTCAAATTGAAATTACGTTGAAATAATCATTAAAATATTCCTTTAGAAATCAATTATATTTTTAAAATTAATAATACACATGCACGTAGTAATAAACTAGTAGTTAAAAAAGCTAAAAGCTTGATTACAAGCTCTATGATTATAAGTTCTAAAAATGTAGATAAATTATCTCCATGAACAAAGAAGGCAAGGAAAGTACCAGTAAATAGTATAAAATACCAAAGGAAAGAAACAAGAAAAAGCTCTATCTCATCATCTATCCCTCCTAAAAGTTAATAAGAATAATTAATAAAAGAAGAAGAACCGTTCCAACACAACTTTTAAAGAAAACAAAGAAAGAAAGAAAAAGATGAAACATAGAAGTGAACAGATCAACATCATAATAGCTTCCACTTGCAACATAGTGCTAATTCTACCTTAGCTTAAAGTTAATAAACCTAAAATTTTATAGTTCAAACTTGGAATTTTCTCCTGGGAGGATTGGTATAATCTACAGAGAAAACGTCACTCCTGTGGAGTTAAACTCTCCATGGCCATTAGAACTCTAAGCCTGCCTGAATCTTAAATAATACAGCATACAAATCCAAGAAAAGAAAGTAAAACAAGAGAGTAAAAACATTAATAAACTTTTCTAAACAGAATCAGTCAATAACAAATTGGAAACCAATACCAAAAGGTAGATGGTGAATATAAACAACAATGAGATATAACCAATGCCAGCTTACCATCATATACAAAAATGACAAAGTGGCTAGACTATAGACATAAAAGAGAAATAAATTTACAATTGTTTATCTTGGTATCAACAATTGCAACATGTTGAATGAAGAATCTGGCGCATACACGCAGAGACAATTCCATTTGTGGTTGTGTATATATAGTCATATATTGAAGCTTAGAAGCTGCAACCCATTGGAAAGAAAGTAAAATTTAGATTACAGAAGCAAAATGGGCAGTGGGCACATCTTGGCCATACCTTATCCAGCACAAGGCCATGTCATCCCCTTATTGGAAATCTCCTTGTGCTTGGCCAAACATGGGTTCGAAATCACGTTCGTGAACACAGAGTACAATCACAAACGTGTCGTGGATGCTCTAGGAGAAACAAATCATACAGGGGATGGTCATATTCATCTAGTTTCACTCCCTGATGGCATGAAACCTGGGGAGGATAGAAACGATCTTGGTAAATTAACTGAAACAATGTTGCAAGTCATGCCCATGAAGTTAGAAGAGCTGATAAACACAATCAATGGATTTGGTGGCAATGAAATTACCAGTGTTATTGCTGATGAGAATCTTGGGTGGGCTCTAGAAGTTGCTGAGAAGATGAGAATCCGGCGAGTCGCCTTCTGGCCAGCAGCTGCGGCATTGTTGGCTATGCAATTTAGCATCCCAAAGCTGATTGAAGAAAAACTAATTGATTCTGATGGTAAGATGGGTTTCAACTGTTTATTAATCGAAGTTAATGAGTGCATCCACAAGTTTTTTTATTCAGACAAAATCAATCATATGTCAAACTTAGTCGTTCATTGACTTAACCTTAGCTATGAGATTAAACTAGGCAAGCCAGACAAACAAAATCACTTTCTTAGCCCCATAAAGAATTTGAAACAATCTAATCAATAGGCACATTATCAACATAGAATTTGTTCATAACGCTTGAAGATTAGCAGTTTTTGATTAGTTTCAATATCAACAGGTACCTTACTGAAAAGCGAGGAGATCAAATTAGCAGCATCAGTACCCACAACCAGAACGGAAAGATTGGTTTGGGCATGCGTTGGCGACAAAGAGACAGAGAAAATTATATTTCAAGTTTGCTTAAGAAATAACAAAGCAGTAGAAGTGGCAGATTGGGTTATCTGCAATACAGTATATGACCTTGAAGGAGAAATCTTCAGCTTAGCTCCTTGCATTCTCCCAATTGGCCCACTCTTAGCAAGCAATCGACTCGAAAATTCCATTGGGCACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTCGACCAGCAATCTCCATGCTCAGTCATTTACGTTGCATTTGGAAGTTTCACTGTTCTAGACAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACAGAAGAAAACCCTAACAATGTCTTCCCGTTAGGGTTTCAAGAGAGGGTAGGATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAGAGGGTTCTTAATCATCCCTCGATCGCTTGCTTTGTGAGCCACTGTGGATGGAATTCAACCCTTGAAAGCCTCACCAATGGCGTCCGATTCTTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATTTGTGATATATGGAAGGTGGGTTTGAAATTGAAGAAAGACGAACATGGAATCATTACAAGAACAGAGATTAAAGAAAAGGTGGAGAAGCTCCTCGCAGATGAGGATTTGAAACACAGAATTCAAAAATTGAAGAAAACAGTCGTGGAGAGTGTGGAAGAAGGCGGTCGATCTTATAATAACTTCAACAATTTCATAAAACTGGTTGAAAACATAACATGTTTTAATCTAATTTCAATAAAGGAACTACTATATGCCAAAGAAAGCTTACCTCAACAGTAATTGGCATAACCTTCCTTATTAGAGGCCGAAGATTTGATCCCCATCTTTGCAATTGTTGTACTAAAAAAAAACTCCTATATGTTTGTTGCTAAAGATATGATTCTCTCCGTATTAATATTATCTCTGCCAACATGAGCATGGCTCAACGGGCATAAACTTATACCATCAACTTCGAAGTCTTAGATTCGATTTGCAACATTTACATTTTATTTTCTTGCTTTCAAATATCTAAGAATGGATGGATTAAAACCAACAAAATGAGTCTAAAGTATTTTTTTTGAAACCTCATAGACCAATTAGACATCAACCATAAACCTTAGAAAAATTTTGATCTTATACTTTATATTTAATGCGTACCAAGTTTTTTCCGTTTAGGAAAAAAGGCTTAAGTTTTTTAACCATATTAATGTAAAATGTAAACATTTTTTACTATGCTACAAGTAAAGGTATGCCATTTTATTTGTGTGAGTTTGACATATCGTCTAATAATTTAACCAAACACTACCAATTGAAAACAATGCATTTAATCTTTCATAAGCCAGCATGTAAGCACTTCAAAAGGCATACCAAACTCACATTCAAACATATATTATAGTTCAAAACATTTTGACAATAAACTTTAATGGGTTGTTTTCAAATATAGAAAAATGAGCCAAACTATTTATAAATATAGAAAAATTTCATTGTCTATCAGATAGAATGTGAAATTTTTCTATAAATAGTTTGATATTTATTCTGTTCATAGTAATTTCCCAACTTTAATAGGTAAGATGTTTTAGTTTTATTTTAGTTCTTGAAGTTCTAAGTATTCAGTTTTGATCGTTAAAATTTTTACATGCCCATTTTATGTTCAACAGCTTCAAAATTACAATCATTTTGAACAGTATCATTATTCTGTTTTCGATTATTTAATAGTGGAATGAACTACATAGCTAGAACTACAAGAAAAATATTTTTTATTTTTTTTAATTATCTTACCAAATAAAATTCCTGCTTCAAATATCTTTTTTCTATTTTTCCAAAGTCAAACTGTTCTTAAAACACTTTAAATAAACCTTTAATTTCATTTAATCTTTACTAACTTTAAAGATGCTGTTTTAAAACAATAAAAAAAAGTTTAAAAAGAACGTTTGAAATGTCATTTTATAAAAAATATGAATTTTATAATTAAACAGATTAGTAATTAGAAAAATCTATTAATTTTATAATAAATTTCCTTGTCAGCAAATTGTTCCAATTGATTTCAAACAATGATGATGTAATCAATCTACTCTATGATTACAACTCACACGTAACAAACAATTTCTATTTACTTTATTTATAATAAATAAAAAAAAAAATTTAAAAAAAATTACACCTACTATAGTTCTGAAAATTTAGAACATGATTAACGAGTAAATAGTGTCAACTACCCTGGAATAAAAGCGTACCTAATTTCTTTCTAATAAATTCTTCCAATTCAATTGATAAATAAAACCAGTAAAAAAATAAGAATTAGTCAATGCACCCAATAATTCAGCTAGATTGGCATAACATTAACATCCTCCTCATGATGTAATCCATCTTAAAATATTATTTATTAAAGATTCCACATGAAAAAAAAAAATTATAAAAACAATAGAATAATTCAAAAGGGCGGCATATATAAATATATAAGATGTCTACTATAGGTATCATCTAAAAGTTAAGGTTAATTAGTTATAAAAAGGAGAGCATCACGGGCACAAGTAAAAAAAAAAAAAAAGAACAATAAGACTTTTTCCAACCAGAGGATTAGAACCTCAAACCGTTTGGTTGAGGATATATATTTTATGTTAGTTGAACTATGCACACTATGGCAACAATAAGACTTTTTGAAGTGTACAAATCACAATTGCTTGTACTGTGACACAGTTCTAACTAAGTTATAATTTTAATAACTTAGTTAAAAAAAAAAAAACTAAGTTATAATTTTAATAACCTAAAACTTGTATAGTTCAATCTTGAAAGTTTCTTCTGGGAGGATTGGTATGATCTATTGAGAAGTAACATCACTCATGTGAAGTTCTGTAGCATTTATTTAAAGGAACTCTAAGCCAGCCTAAATTTCAAATATCACAGCATATAAAGCCAAGAAAATGAAGGGAGAGAAAAAAAAGGGATGGGATATTAAGAAAAGTTCCCAATAACAAGTCAAGACAAATTGAAGATAATTAATACCAGAAGAAGGTGAAGACAAAGACAAAGAACAATTAACAATTAGGAACTAGATATAACCAAAGTTAGGTTAGTTTCACATTATGAAATGACAAGGGCAGTGGCTTAAAGATTCAAGAGAAGAAGATTCCTCTGCTAATCATTTTGCCTGTGGTGTGTGTTGTATATATAGTGATAAATTGAAGCTCAGAGGCAACAATCAATTAAACAGCAATTAAATCCTAATTACAGAAGACAAATGGGTAGTGGACACATTTTAGCCATACCTTATCCAGCACAAGGCCATGTGATCCCCCTGTTAGAATTCTCTCTGCGCTTAGCCAAACAAGGGTTTGAAATCACGTTTGTGAACACAGAGCACAATCACAAACGTGTAATGGGTGCTCTAGCAGAAACAGATCATATAGGGGATGCTAATGTTCACCTAGTTTCACTCACAGATGGCATGGAACCTGGTGCAGATAGAAATGATCTTGGTAAATTAACTGACACAATGTTAGATGTCATGCCCATGAAGCTTGAAGAGCTCATAAACACAATCAATGAATTGGGTGGCAATGAAATTACCAGTCTTATTGCTGATGAGAGTCTTGGGTGGGCTCTGGAAGTTGCTGCAAAGATGAGAATCCGACGAGCCGCCTTCTCCCCAGCAGCAGCTGCATTGTTGGCTATGTTATTCAATATCCCAAAACTGATTCAAGAGAAACTAATTGATTTTGATGGTAAGATTAACAGCAAAAGTTTCTTGATCAAGTTAGTCGGCCTTACAATAAATTGTTCGATTCATACAAAAGCTTATGTTAAACTCATTGCTTTATTGACTTAAATCTTAGCTGTGAGATTAAACTAGGCAACAAAATCAAACAAATTCACTTTCTTAGCCAAATAAAGAATTTGAAACAATATAAAAACAGAATTTGCTCAAGATGCTTTAAGATTAGTAGTCTAATAGTTAATTAGTTTCCATTATCAACAGGAACTTTACTGAAAAGCGAGGAGATTAAGTTAGCGCCATCAGTACCTACAGCCAGAACGGAAAGCTTGCCCTGGGCATGTTTTGCCGACGAAGAGACAAAGAAAATCATATTTCAAGCTTGCTTAAGAAACAACAAAGCAGTGGAAGTGGCAGATTGGCTTATATGCAATACAGTTTATGAACTTGAGGTAGGAATTCTCAGCTTGGCTCCTCACATTCTCCCAATCGGCCCATTATTAGCAAGCAGTCGACTGGGAAATTCCATCGGACACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTTGACCAACAATCTCCATGCTCCGTCACTTACGTCGCATTCGGAAGCTTCACTGTTCTAGAAAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACTGAAGAAAACCCTAACAATGTTTTCCCGTTAGGGTTCCAAGAGAGGATAGAATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAAAGGGTTCTTAATCATCCCTCGATTGCTTGCTTTGTGAGCCACTGCGGATGGAATTCAACCCTTGAAAGCATCAGCAATGGCGTCCGATTCCTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATCTGTGATATATGGAAGGTGGGGCTGAAATTGAAGAAAGACGAACATGGAATCGTTACAAGAACAGAGATTAAAGAAACAGTGGAGAAGCTCCTCGGAGATGAGGAATTGAAACAGAGAATTCAAAAACTGAAGAAATCAGTCTTGGAGAGTGTGGAAGAAGGCGGTCAATCTTACAACAATCTCAATAATTTCATCAATTGGTTGAAAACTTGA TACATTTTCCCCAAAATCAAAAATTGATCTCCAAACTCAGAAATTAATCTCACTCACGATTTCTTCTGTTCTTTTGTTGTTACCGATTTTTCAAGCTATTTCTTCAAGGTTTCATTTACAACATGGTATGCCTCGCATTTGGGTTTGCTTTGGTGGTGTTTGGTATGAAAAGGAAAAGGATTACGATGGAGGAGAGATGAGGGGATTTGACATAGAGATTGGAATGACGTATGGTGAATTCTTGGCTGAAGTTTACCGAATAAGTAGTATAAATCCAGGTCAATACAATCTTGTGATCCGTTGTATACTCCAATTGAAGTCCAAAGCTCCTGCATTTGTCATTCATAATGACGAAGATCTTCACACATTCTTGACATGGAAAGAGGTGTCGGTAATACCTATCTATGTATCAACAGTTCCACGATCTTCAAGTACTGAAGTATTACCTCTGCATAATCCCTCGAATAGACACATTGAAGAAATTCCATCAACGTCTAGGCAAGTCTCTTGCAAGACTGAACCCACATTTTTTTATCCAAACCCACCAATTACTTCGTTGGGGATGATGTAGATCAAAATCAATATCTCAATGATTGGGATTGGAAGGAGCCAAGTGATGGTGGATACGAGGTTGAGGGCGAACCCAGTGAATATGCTGAAGAAGAACCTACTCAAGATGCAATATGTTCTCATAACTTGTCCCACCGATCTAGTAGTACAACGGTCATGCCAGAGACAATTCCATTTGTGGTTGTGTATATATAGTCATATATTGAAGCTTAGAAGCTGCAACCCATTGGAAAGAAAGTAAAATTTAGATTACAGAAGCAAAATGGGCAGTGGGCACATCTTGGCCATACCTTATCCAGCACAAGGCCATGTCATCCCCTTATTGGAAATCTCCTTGTGCTTGGCCAAACATGGGTTCGAAATCACGTTCGTGAACACAGAGTACAATCACAAACGTGTCGTGGATGCTCTAGGAGAAACAAATCATACAGGGGATGGTCATATTCATCTAGTTTCACTCCCTGATGGCATGAAACCTGGGGAGGATAGAAACGATCTTGGTAAATTAACTGAAACAATGTTGCAAGTCATGCCCATGAAGTTAGAAGAGCTGATAAACACAATCAATGGATTTGGTGGCAATGAAATTACCAGTGTTATTGCTGATGAGAATCTTGGGTGGGCTCTAGAAGTTGCTGAGAAGATGAGAATCCGGCGAGTCGCCTTCTGGCCAGCAGCTGCGGCATTGTTGGCTATGCAATTTAGCATCCCAAAGCTGATTGAAGAAAAACTAATTGATTCTGATGGTACCTTACTGAAAAGCGAGGAGATCAAATTAGCAGCATCAGTACCCACAACCAGAACGGAAAGATTGGTTTGGGCATGCGTTGGCGACAAAGAGACAGAGAAAATTATATTTCAAGTTTGCTTAAGAAATAACAAAGCAGTAGAAGTGGCAGATTGGGTTATCTGCAATACAGTATATGACCTTGAAGGAGAAATCTTCAGCTTAGCTCCTTGCATTCTCCCAATTGGCCCACTCTTAGCAAGCAATCGACTCGAAAATTCCATTGGGCACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTCGACCAGCAATCTCCATGCTCAGTCATTTACGTTGCATTTGGAAGTTTCACTGTTCTAGACAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACAGAAGAAAACCCTAACAATGTCTTCCCGTTAGGGTTTCAAGAGAGGGTAGGATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAGAGGGTTCTTAATCATCCCTCGATCGCTTGCTTTGTGAGCCACTGTGGATGGAATTCAACCCTTGAAAGCCTCACCAATGGCGTCCGATTCTTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATTTGTGATATATGGAAGGTGGGTTTGAAATTGAAGAAAGACGAACATGGAATCATTACAAGAACAGAGATTAAAGAAAAGGTGGAGAAGCTCCTCGCAGATGAGGATTTGAAACACAGAATTCAAAAATTGAAGAAAACAGTCGTGGAGAGTGTGGAAGAAGGCGCACAAGGCCATGTGATCCCCCTGTTAGAATTCTCTCTGCGCTTAGCCAAACAAGGGTTTGAAATCACGTTTGTGAACACAGAGCACAATCACAAACGTGTAATGGGTGCTCTAGCAGAAACAGATCATATAGGGGATGCTAATGTTCACCTAGTTTCACTCACAGATGGCATGGAACCTGGTGCAGATAGAAATGATCTTGGTAAATTAACTGACACAATGTTAGATGTCATGCCCATGAAGCTTGAAGAGCTCATAAACACAATCAATGAATTGGGTGGCAATGAAATTACCAGTCTTATTGCTGATGAGAGTCTTGGGTGGGCTCTGGAAGTTGCTGCAAAGATGAGAATCCGACGAGCCGCCTTCTCCCCAGCAGCAGCTGCATTGTTGGCTATGTTATTCAATATCCCAAAACTGATTCAAGAGAAACTAATTGATTTTGATGGAACTTTACTGAAAAGCGAGGAGATTAAGTTAGCGCCATCAGTACCTACAGCCAGAACGGAAAGCTTGCCCTGGGCATGTTTTGCCGACGAAGAGACAAAGAAAATCATATTTCAAGCTTGCTTAAGAAACAACAAAGCAGTGGAAGTGGCAGATTGGCTTATATGCAATACAGTTTATGAACTTGAGGTAGGAATTCTCAGCTTGGCTCCTCACATTCTCCCAATCGGCCCATTATTAGCAAGCAGTCGACTGGGAAATTCCATCGGACACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTTGACCAACAATCTCCATGCTCCGTCACTTACGTCGCATTCGGAAGCTTCACTGTTCTAGAAAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACTGAAGAAAACCCTAACAATGTTTTCCCGTTAGGGTTCCAAGAGAGGATAGAATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAAAGGGTTCTTAATCATCCCTCGATTGCTTGCTTTGTGAGCCACTGCGGATGGAATTCAACCCTTGAAAGCATCAGCAATGGCGTCCGATTCCTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATCTGTGATATATGGAAGGTGGGGCTGAAATTGAAGAAAGACGAACATGGAATCGTTACAAGAACAGAGATTAAAGAAACAGTGGAGAAGCTCCTCGGAGATGAGGAATTGAAACAGAGAATTCAAAAACTGAAGAAATCAGTCTTGGAGAGTGTGGAAGAAGGCGGTCAATCTTACAACAATCTCAATAATTTCATCAATTGGTTGAAAACTTGA ATGGGCAGTGGGCACATCTTGGCCATACCTTATCCAGCACAAGGCCATGTCATCCCCTTATTGGAAATCTCCTTGTGCTTGGCCAAACATGGGTTCGAAATCACGTTCGTGAACACAGAGTACAATCACAAACGTGTCGTGGATGCTCTAGGAGAAACAAATCATACAGGGGATGGTCATATTCATCTAGTTTCACTCCCTGATGGCATGAAACCTGGGGAGGATAGAAACGATCTTGGTAAATTAACTGAAACAATGTTGCAAGTCATGCCCATGAAGTTAGAAGAGCTGATAAACACAATCAATGGATTTGGTGGCAATGAAATTACCAGTGTTATTGCTGATGAGAATCTTGGGTGGGCTCTAGAAGTTGCTGAGAAGATGAGAATCCGGCGAGTCGCCTTCTGGCCAGCAGCTGCGGCATTGTTGGCTATGCAATTTAGCATCCCAAAGCTGATTGAAGAAAAACTAATTGATTCTGATGGTACCTTACTGAAAAGCGAGGAGATCAAATTAGCAGCATCAGTACCCACAACCAGAACGGAAAGATTGGTTTGGGCATGCGTTGGCGACAAAGAGACAGAGAAAATTATATTTCAAGTTTGCTTAAGAAATAACAAAGCAGTAGAAGTGGCAGATTGGGTTATCTGCAATACAGTATATGACCTTGAAGGAGAAATCTTCAGCTTAGCTCCTTGCATTCTCCCAATTGGCCCACTCTTAGCAAGCAATCGACTCGAAAATTCCATTGGGCACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTCGACCAGCAATCTCCATGCTCAGTCATTTACGTTGCATTTGGAAGTTTCACTGTTCTAGACAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACAGAAGAAAACCCTAACAATGTCTTCCCGTTAGGGTTTCAAGAGAGGGTAGGATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAGAGGGTTCTTAATCATCCCTCGATCGCTTGCTTTGTGAGCCACTGTGGATGGAATTCAACCCTTGAAAGCCTCACCAATGGCGTCCGATTCTTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATTTGTGATATATGGAAGGTGGGTTTGAAATTGAAGAAAGACGAACATGGAATCATTACAAGAACAGAGATTAAAGAAAAGGTGGAGAAGCTCCTCGCAGATGAGGATTTGAAACACAGAATTCAAAAATTGAAGAAAACAGTCGTGGAGAGTGTGGAAGAAGGCGCACAAGGCCATGTGATCCCCCTGTTAGAATTCTCTCTGCGCTTAGCCAAACAAGGGTTTGAAATCACGTTTGTGAACACAGAGCACAATCACAAACGTGTAATGGGTGCTCTAGCAGAAACAGATCATATAGGGGATGCTAATGTTCACCTAGTTTCACTCACAGATGGCATGGAACCTGGTGCAGATAGAAATGATCTTGGTAAATTAACTGACACAATGTTAGATGTCATGCCCATGAAGCTTGAAGAGCTCATAAACACAATCAATGAATTGGGTGGCAATGAAATTACCAGTCTTATTGCTGATGAGAGTCTTGGGTGGGCTCTGGAAGTTGCTGCAAAGATGAGAATCCGACGAGCCGCCTTCTCCCCAGCAGCAGCTGCATTGTTGGCTATGTTATTCAATATCCCAAAACTGATTCAAGAGAAACTAATTGATTTTGATGGAACTTTACTGAAAAGCGAGGAGATTAAGTTAGCGCCATCAGTACCTACAGCCAGAACGGAAAGCTTGCCCTGGGCATGTTTTGCCGACGAAGAGACAAAGAAAATCATATTTCAAGCTTGCTTAAGAAACAACAAAGCAGTGGAAGTGGCAGATTGGCTTATATGCAATACAGTTTATGAACTTGAGGTAGGAATTCTCAGCTTGGCTCCTCACATTCTCCCAATCGGCCCATTATTAGCAAGCAGTCGACTGGGAAATTCCATCGGACACTTCTGGCCAGAAGATTCAACTTGCCTGAAATGGCTTGACCAACAATCTCCATGCTCCGTCACTTACGTCGCATTCGGAAGCTTCACTGTTCTAGAAAAAACTCAATTCCAGGAATTAGCCCTAGGGCTTGAGCTCACAGGCAAGCCATTTCTCTGGGTGGTGAGGCCAGACATTACTGAAGAAAACCCTAACAATGTTTTCCCGTTAGGGTTCCAAGAGAGGATAGAATCCCGCGGGAAGATTGTGGGTTGGGCTCCTCAACAAAGGGTTCTTAATCATCCCTCGATTGCTTGCTTTGTGAGCCACTGCGGATGGAATTCAACCCTTGAAAGCATCAGCAATGGCGTCCGATTCCTGTGTTGGCCGTACTTCGCCGACCAGTTTCTTAATGAGAGCTACATCTGTGATATATGGAAGGTGGGGCTGAAATTGAAGAAAGACGAACATGGAATCGTTACAAGAACAGAGATTAAAGAAACAGTGGAGAAGCTCCTCGGAGATGAGGAATTGAAACAGAGAATTCAAAAACTGAAGAAATCAGTCTTGGAGAGTGTGGAAGAAGGCGGTCAATCTTACAACAATCTCAATAATTTCATCAATTGGTTGAAAACTTGA MGSGHILAIPYPAQGHVIPLLEISLCLAKHGFEITFVNTEYNHKRVVDALGETNHTGDGHIHLVSLPDGMKPGEDRNDLGKLTETMLQVMPMKLEELINTINGFGGNEITSVIADENLGWALEVAEKMRIRRVAFWPAAAALLAMQFSIPKLIEEKLIDSDGTLLKSEEIKLAASVPTTRTERLVWACVGDKETEKIIFQVCLRNNKAVEVADWVICNTVYDLEGEIFSLAPCILPIGPLLASNRLENSIGHFWPEDSTCLKWLDQQSPCSVIYVAFGSFTVLDKTQFQELALGLELTGKPFLWVVRPDITEENPNNVFPLGFQERVGSRGKIVGWAPQQRVLNHPSIACFVSHCGWNSTLESLTNGVRFLCWPYFADQFLNESYICDIWKVGLKLKKDEHGIITRTEIKEKVEKLLADEDLKHRIQKLKKTVVESVEEGAQGHVIPLLEFSLRLAKQGFEITFVNTEHNHKRVMGALAETDHIGDANVHLVSLTDGMEPGADRNDLGKLTDTMLDVMPMKLEELINTINELGGNEITSLIADESLGWALEVAAKMRIRRAAFSPAAAALLAMLFNIPKLIQEKLIDFDGTLLKSEEIKLAPSVPTARTESLPWACFADEETKKIIFQACLRNNKAVEVADWLICNTVYELEVGILSLAPHILPIGPLLASSRLGNSIGHFWPEDSTCLKWLDQQSPCSVTYVAFGSFTVLEKTQFQELALGLELTGKPFLWVVRPDITEENPNNVFPLGFQERIESRGKIVGWAPQQRVLNHPSIACFVSHCGWNSTLESISNGVRFLCWPYFADQFLNESYICDIWKVGLKLKKDEHGIVTRTEIKETVEKLLGDEELKQRIQKLKKSVLESVEEGGQSYNNLNNFINWLKT
BLAST of Lsi03G001650 vs. Swiss-Prot
Match: U83A1_ARATH (UDP-glycosyltransferase 83A1 OS=Arabidopsis thaliana GN=UGT83A1 PE=2 SV=1) HSP 1 Score: 443.4 bits (1139), Expect = 6.0e-123 Identity = 222/447 (49.66%), Postives = 313/447 (70.02%), Query Frame = 1
BLAST of Lsi03G001650 vs. Swiss-Prot
Match: U85A8_STERE (UDP-glycosyltransferase 85A8 OS=Stevia rebaudiana GN=UGT85A8 PE=2 SV=1) HSP 1 Score: 251.1 bits (640), Expect = 4.4e-65 Identity = 152/465 (32.69%), Postives = 239/465 (51.40%), Query Frame = 1
BLAST of Lsi03G001650 vs. Swiss-Prot
Match: U85A1_ARATH (UDP-glycosyltransferase 85A1 OS=Arabidopsis thaliana GN=UGT85A1 PE=2 SV=1) HSP 1 Score: 250.4 bits (638), Expect = 7.5e-65 Identity = 153/453 (33.77%), Postives = 238/453 (52.54%), Query Frame = 1
BLAST of Lsi03G001650 vs. Swiss-Prot
Match: U85A5_ARATH (UDP-glycosyltransferase 85A5 OS=Arabidopsis thaliana GN=UGT85A5 PE=2 SV=1) HSP 1 Score: 248.1 bits (632), Expect = 3.7e-64 Identity = 148/443 (33.41%), Postives = 235/443 (53.05%), Query Frame = 1
BLAST of Lsi03G001650 vs. Swiss-Prot
Match: U85A2_ARATH (UDP-glycosyltransferase 85A2 OS=Arabidopsis thaliana GN=UGT85A2 PE=2 SV=1) HSP 1 Score: 247.7 bits (631), Expect = 4.8e-64 Identity = 148/447 (33.11%), Postives = 236/447 (52.80%), Query Frame = 1
BLAST of Lsi03G001650 vs. TrEMBL
Match: A0A0A0KUF9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G638465 PE=4 SV=1) HSP 1 Score: 830.5 bits (2144), Expect = 1.9e-237 Identity = 394/444 (88.74%), Postives = 421/444 (94.82%), Query Frame = 1
BLAST of Lsi03G001650 vs. TrEMBL
Match: A0A0A0KXK4_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G638455 PE=4 SV=1) HSP 1 Score: 823.2 bits (2125), Expect = 3.1e-235 Identity = 391/444 (88.06%), Postives = 419/444 (94.37%), Query Frame = 1
BLAST of Lsi03G001650 vs. TrEMBL
Match: A0A0E0KJ76_ORYPU (Uncharacterized protein OS=Oryza punctata PE=4 SV=1) HSP 1 Score: 807.7 bits (2085), Expect = 1.4e-230 Identity = 419/916 (45.74%), Postives = 563/916 (61.46%), Query Frame = 1
BLAST of Lsi03G001650 vs. TrEMBL
Match: A0A0E0KJ75_ORYPU (Uncharacterized protein OS=Oryza punctata PE=4 SV=1) HSP 1 Score: 806.2 bits (2081), Expect = 3.9e-230 Identity = 419/920 (45.54%), Postives = 563/920 (61.20%), Query Frame = 1
BLAST of Lsi03G001650 vs. TrEMBL
Match: A0A0E0D714_9ORYZ (Uncharacterized protein OS=Oryza meridionalis PE=4 SV=1) HSP 1 Score: 783.9 bits (2023), Expect = 2.1e-223 Identity = 412/924 (44.59%), Postives = 574/924 (62.12%), Query Frame = 1
BLAST of Lsi03G001650 vs. TAIR10
Match: AT3G02100.1 (AT3G02100.1 UDP-Glycosyltransferase superfamily protein) HSP 1 Score: 443.4 bits (1139), Expect = 3.4e-124 Identity = 222/447 (49.66%), Postives = 313/447 (70.02%), Query Frame = 1
BLAST of Lsi03G001650 vs. TAIR10
Match: AT1G22400.1 (AT1G22400.1 UDP-Glycosyltransferase superfamily protein) HSP 1 Score: 250.4 bits (638), Expect = 4.2e-66 Identity = 153/453 (33.77%), Postives = 238/453 (52.54%), Query Frame = 1
BLAST of Lsi03G001650 vs. TAIR10
Match: AT1G22370.2 (AT1G22370.2 UDP-glucosyl transferase 85A5) HSP 1 Score: 248.1 bits (632), Expect = 2.1e-65 Identity = 148/443 (33.41%), Postives = 235/443 (53.05%), Query Frame = 1
BLAST of Lsi03G001650 vs. TAIR10
Match: AT1G22360.1 (AT1G22360.1 UDP-glucosyl transferase 85A2) HSP 1 Score: 247.7 bits (631), Expect = 2.7e-65 Identity = 148/447 (33.11%), Postives = 236/447 (52.80%), Query Frame = 1
BLAST of Lsi03G001650 vs. TAIR10
Match: AT1G22380.1 (AT1G22380.1 UDP-glucosyl transferase 85A3) HSP 1 Score: 246.9 bits (629), Expect = 4.7e-65 Identity = 148/450 (32.89%), Postives = 240/450 (53.33%), Query Frame = 1
BLAST of Lsi03G001650 vs. NCBI nr
Match: gi|659118926|ref|XP_008459382.1| (PREDICTED: UDP-glycosyltransferase 83A1-like [Cucumis melo]) HSP 1 Score: 836.6 bits (2160), Expect = 3.9e-239 Identity = 400/444 (90.09%), Postives = 421/444 (94.82%), Query Frame = 1
BLAST of Lsi03G001650 vs. NCBI nr
Match: gi|700197332|gb|KGN52509.1| (hypothetical protein Csa_5G638465 [Cucumis sativus]) HSP 1 Score: 830.5 bits (2144), Expect = 2.8e-237 Identity = 394/444 (88.74%), Postives = 421/444 (94.82%), Query Frame = 1
BLAST of Lsi03G001650 vs. NCBI nr
Match: gi|778707412|ref|XP_004141583.2| (PREDICTED: UDP-glycosyltransferase 83A1-like [Cucumis sativus]) HSP 1 Score: 823.2 bits (2125), Expect = 4.5e-235 Identity = 391/444 (88.06%), Postives = 419/444 (94.37%), Query Frame = 1
BLAST of Lsi03G001650 vs. NCBI nr
Match: gi|836021161|ref|XP_004981712.2| (PREDICTED: UDP-glycosyltransferase 83A1-like [Setaria italica]) HSP 1 Score: 799.7 bits (2064), Expect = 5.3e-228 Identity = 406/894 (45.41%), Postives = 554/894 (61.97%), Query Frame = 1
BLAST of Lsi03G001650 vs. NCBI nr
Match: gi|1002849533|ref|XP_006650616.2| (PREDICTED: UDP-glycosyltransferase 83A1-like [Oryza brachyantha]) HSP 1 Score: 773.1 bits (1995), Expect = 5.3e-220 Identity = 395/881 (44.84%), Postives = 554/881 (62.88%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
|