Lsi10G002030 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi10G002030
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionAlcohol acyl transferase
Locationchr10 : 3334387 .. 3353056 (+)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGTTGTTCACTGGGTGGTATAAAATTCAAATCCCCTTATCGTCGTTTCTCTTTGAGACACAAATAAATCAGAGAAAGGCTGAGCAATTTAAACAATAGTTGAATTTCAAAGGTGTAAGAACTGTATAAAATTTTCATCCGCATCTCGATATTTTACATTTTTGTGGGTACAATATCGACCTAATGAGTAAATTAGATATTTTTATTATAGAGTAAAAATACACAAAACATAAAACAATAAGCAATAAAATGTCACTAATATAAATATATTATAAATAATAAAATGTTAACTTGTTTAAAAATGGTTAAAGTATTATTTTGGTCCTCATATTTTGAAGTTTGTTCAATTTTAGTCCCTATACCTTCTATTATCCAATTTTTAGCCCCCGTACTTTTAATAAATCTTAAATTTAGTCCCTCAAAGATAATTTTTACCTTCTTTATCTTCTAATCAATTTTTAACTGTAATTTTGGAAGTGGTTCAACGAATTAAATTCAGATGTCAACACAACACATCTTGGCACAATCAAAGACAACAATAAAAGAACAACAAACAGTAAAACAAATATAAACACACGAGAATTGGTAACCGAGTTCGGTGAGTACCACTTACGTATTGGAGCAGTGTGCCCGGAAAAGATGATCCACTAATATGTAAAAGTTGAGTGATTATATAATGTTGTACCTATTTGTAAATAGCAAAGATTATAGTGACACCCCCATAGAGTCCAACTTAGCTAATCACCTATACTCCCCCTAGATGCGAGACTCCTTCTCTCTTGAACTTACTCCCCTAAATGTGTGAATATTAGTGGTGTAACACTTTGGCTCCTCCTAAGTGTGTGAGATTCCCTCTCGCTTGATGTTATCTTTCCTTCTTCTAGTGAGCCGCCTTCACTGGGGAACTTAGACTTCCCCTAAGTCTTGAGAACTCCTTCTCAATCAAATGGAATTGTCTTAGGCTCCCCCTAAGACTGAATGACTTTGCAATGCTGAAACATTCTCACAAAAACACAATGAAAAACACACCGCCACAAACAAAAACTCAATTGCTCTTCTTTGATGAACACACAGAATACAAACTCTGATTCACAAATCTCAATATGAATAAAGCGGCAACCCTAGCAAACAAAATTCTTAGGCTTATAAAAACACAATGAAAAGATAGAAAATATTCCCACATATAATCAACAAAGCACCAAAAAGGAAAACATCTCAGAAAGAATAATCTGCAAAATAATTTAAATAAGGAAATATTTTGCAGAATCAGCAACTTGAATGATAACTTTTGAGACAAGTCCCACCATTGAGACATAATCTGATAGCTGCCCAAGAAACAATGGGCTTAACATTAATTTTGAAGATCTTTGAACCGCTTATCTCAACAACTTTTTCTGTCTTTCCTTTGATTTACATGCTATTTTCTAACACCTAAATGAAGCAATTATCATATTGAGATTATAAAACCACTAATATTATATTAAGTAATTGTTGGATGCAAATGGGAAAATGTTCAATTAGTGTAAGAAATTCACTATTTTAATTTGGGGATAGAGACTTGAGATAGTGTTTGTATTGAACGAGATTTACAAACACTTCAAGTGCTGCCAATTTTGGGTCCAATTAATACCTAAAATAGAATTACAGATGTTGGAAATTAAATCTTGAGAAGCTTTTCGAATAGATCTTCAAAATCTTTGCCTCTCATATAAACAAGGTTCTAATTTGAATAGCATTACAAATTGCAGTATTTGGTACCTGATGTAAGCCAAGTTCATATGTTAATTTGAAACCAAGCTCTCCCAAACAAGTGTAACAAAATCCAATAGAAATTTTCAACTTGCATTTTGAGGAATTAACTACATAGCAGCACAATGTCAACCATCCTATTCTCCCCACAATTTCGGCCACAACATTCTCTTACTTATTATCATTATTTTCTAATTGTTATCCTCCTTTTATATTTTTCTCTTAATTCTTTAATTCCTTTTCCAAATTTACTTTTTATTCTATTTTATTTTATCTTACTTTTACCAAAGAGATTTTTAATTGGTTCTTATACTAGAACTTAATGTGGTTGATTAATATGTTTAAGATGCTTTACATCTAGATATATTTGTTATTTAGTTATTATGGACTTCCGTTCAAGAGTACTAAATGTGTTGACAAAACATAGGCAATAATAGAAGTATATATTTAGCATGTAGTCGATGATCAAGCAAGCAATTCCGGATATCTCTCTTACACTTTACATTCCACATTTTTTTTCCATGCTTACTTCTTGAACCACACAAAATTCCCATTTCCATTTTAATTAAAGAAACTAATCTTTGTGCTTCCTTGCGAATCGATCTTGAACGTCCAATGGTAGAGCAACAAATCTTAGTGACAAAGTGAGTGGCCTTAAACGTCAATGCACTAAGTTAACTTTCTTGGTTGATCAAATGGTGGGATGGAATTTGCAACAAGCAGAGGTGTGTAAGAATTGCTCAGTCGAGGGTCACCCTATGCAAGCATGCCCGAAGTTGTAGTAGAGACTAATGCCACATGGCTACATGAGGAAAGAGTGCCCTAGTCATTTGGATTATTAGCCCCATCATCTAGATAGGAGGAGTCCTTTTGCTATGGATACCAAGGATGACAGCTAGGCCCGTACTACCAAGATTACACTACACCCCGAGAGTTGATGCAAGCTTAGTTTGTTGGCTCAAGGAAGTCTCTTGAGGTGTTGGTTATGAGGATTGCTAATAACTCTTTTGAGTTTGCATAGGAAAATCTACGAATGTAGTAAGAATTATTGCGCTTACAGCAGGAAAGTCTATGTTCTAGAGCGGAGGCTAGAATTGATATGCAAAGTTTGAGTGATTAGTTGCTCGACTTGTAGCATTAGTTGAGAGGCAAGATGTGACATCGTTGCCGTACCACTCTTCAGAATTTATCGAGGTTCAGGGTCATGAGATAATCCATTCAAGCTTTAGGCCAAGGTATGACATTAGAGTTTATAGATTCTAAACTTGCTAATAGTGCTTTTAAGTTTCACCAAGAGACCAAAGCCTAGCTGCAAGAAATGGTTGACCACGTCGCCTAACTAGCTAATTTCGTGTACAGGTTGGAGAGTCTATCAGAGCAGTCCATTAACCGTACTACTATGGCTGAGTTCCTCGAGGAGTGTTATCCTTTCAGTGACGATGAGGAGCTCATGCCATGCTTATCTGTTTTGTGAGGTGGGGGAGGATCCTGGGCCTAAACCAGACAATATCCAAGCGACAGAGTTAGAGACTGAAAGACCTTGCCCTGTTCTAGCCTCTGGTATTTCGTTTATTTTTTAATATTCTTCTTTTCGTTCTCACAAGTCTGTTACGTCTTTTATTTCTTTGAACTCGTTTGAATCCATTGAGTCTATTAATTCTATCTTTTTATCTTTTCCAGATAACAAAAAATCCAAAATTGATCTCTCCGTCTGCCTTCAAAAACAGGGATGCTTGTTCGGTTGGAATGTTATATTAGTTTAAGCAAGAAGGGGCCAAAGAAATACGAGAATTTCTTCGTACCTTGACCAGACGGGTTACGTCGAGCAATCAACGTTAAAAATTTGCGCTTTGTGGACGCTGCCAGACATTTAAATTTAATTTCTTTCTAGTTTAGCTTGTTTTTTTTTTCCTAACGCTCAATTCTACCTCAAAATTGTTCAATACCTATTAAATTACCAATTAAACACATTAAATAGCATAAAAATCTTGAGTTAAGCTGAGGAAATAACACATTTAGGTGTTATCAAATCATCCCCAACTTAATTCTTGATCGTCCTCGAGCAAGGAAAAAATATAAATCAAAATAAAATATTCACTAAGCAGCAAGATTCACAACTCTAGTCTCAATGCATTTCAAGAACAATGTTTACAAGTAGGAAAGTCATACAAGTTTATTCAATCCATGGGACCAATTTAAAAACATTCTTAACCTATTCATGCAAGAGTAAATGTAAAGCCTTTCTTTTTAAATCATAATGAACCCGAAAAAGCTTTATATGACCCTCGATTCGTTTTCTCCATACTCTGCCCAGAATATTGGCTCTATGGGAGTACTAACTGGTCATAGCAAAGGTAGCTCTTTCTGTCCCTAGTCATGCAAACACATTATACGTTTATATTTTTCTCATTCTTTTGATTTTTTTTTTCTCTTTTGATTTCTTTTGAGCTCTGATGTAAGCACAAGTGCATGCGTCAAGTAATAGTATAGTTAAAATGACTTTAACTGAGTATCGTCCTTAGGGAATTGGTTTGATAACCCTTTAGCTATTTTAAAGATCATTCCGATTTTATTTAGACGATCGACTTGTGATGCAAATTAATTAAACTAAACTAAGAAAGCAATAAAAGTGATCAAGCATGGAGAATTTCAACAAAGAGGCGTTCTATGGAATAGAGTTCATCAATGGAAAAACTAAATTCAATTGTTTTAACTCTTGAACCAATTAACACAACACCTAGATCTAGAAGTCTTTTATCCGGATTGCTTATTTCGAAAACAATCTTATTCTCGACTTTTTATTATTACGATTTTACCCCCATTTATTTATTAGCAGATATATCCGATATACTTTATATTTGGTATATCAATCAATCAAAATATTTTATTGAAAGAATATCATTTATACAACTGATATATCATGACTTTAATTGTGCTATGGTCGATGTTGTTTGTTTGATTATGGTAAATATTATTTTTATTTTGATATAGAGTTATTTTCATCCGATTAGTTCAATTGATGTCGATGATACATATTAAATGCATTGATTTTGTCAAATGATATACTAAATATAAATTATATTAGCTAATCTGTTTTATTTTCAATTTTTTTTTATATGATTTGATACATAAGTTATATTTAATTTGGTATATCAATTGTATAACAAGTATTTCATACTACATATATTAATTGATTGATATACCTGATTTAGAGAGAGAGAAACATATCAGCGATATTGTTGATATACCAAATATGAAGTATATCATTTAGAAGGATACTTAAATGTATAACACTGACTTTTCAATTGTGTAATAGTACTGATTCTTTTTCTTTTTTAAGGTTGTATAATAGTACTAATTCAAAATATATTGCAAGTAGGTCACTGGTATATTAATAGTATATCATAATGGGTTCAAAATCCAATACTAAGTATTTGGTTTATGAACAGTTATTCAAATTTTATTTAAACTGCAACATGGATGTATCAATTGTATATCAGTAGTCATTAAAAATTCATTTCATATACATTTTTAGTGTATAAATAGTATATCGCTCATGATTTAAATCCATTTTAAGTATTGTATTGGTGTATCAGTAGTTTATCAACACTCATTCAAATGTTATTTAAATTGTAACACAGATGTATCAATAGTATATCAATAATCATTAAAAATTCATTTCATGTACATTCTTAGTGTATCAATAATATATCACTTATGATCAAAATATATTTTAAGTATTGTATTAGTGTATCAGTAGTATATCGATACTCATTCAAAATTCAATTTCAAGTATATAGATTGTTAGTGTATTAGTAGTTATAGTTAGACACTTACTCAAAATTCATTTAAAGTATAAATTAGTTTTTATCAATATTGATCAATGCTCATAAAAAACTAACTTCAAGTATATCATTAGTATATCAACAATTATTCTAAATAAAATTTTAAGTATAACATTAGTGTATTAGTATTATATCAACCTCAAAATTTCATTTCAAGTATAAAACGACGTTGGTGTATCATTAATATATCAATACTTCTTAAAAATACATTTGTTCAAGCATATCAATAATATATCAACACATGTTAAAAATTTAATTTTGAGTGTAACATTGGTGTAGCAAGGGTTTATCAACATTCATTCAAAAGGGTTATAACATAACAGGTTGAATAATTATAAACTGATTATAATGTACTAGAAATATAATATTCTATAATAGACAATAAGAATTAAAATTAAGTCCATGAATGATAATAAATGAACAAGTATTTCTTGAATGATCAATATGATTTGTGAATGATAAATTTGGTATATCTATTGAACTTATATACTTTATGTTTGGTGTATTAGTCAACTGTATGACTTATATACTAAATATAAAATATATCAAGTATATTACAGATACACATGTTGATACACCAATAAGGATAAATTTGGAATAATAAAAAATAGAAACCTACTTCACTTATTTTTTTTGTCATATTTGTAAAATTTAAAAAACCATTGCTAAATTTATAATTTTTAAATATTTTTTTTTTGTTATTTTTGCAAGTGCTCCTAAATACTTCGTAGCGGCAGTTATTTTTATATGGTTAAATTTCATTTAAACTTTTTTTTTTTTTTTTAACTATACATCATAATCCCCCATTTTCTTTTCCAAGGGATTGATTTCACAATTTCTTCGAAAACAAATTTTTGTGCGTTTTAAAGCGTTTTTTCCCCTTTCATTTGTTCCTTGAAGTGATTAATTTTGAGACCACAATTTCCTTTTCTGTATTTGTGCTTTGAAGTATTTGATTTTGAGACCACAAATTCCTTTTTTTACCTATTGTTTGAAAAGTTCAATTTTACGAAAAAATCATTTTTTATCAGTTTAAAGCAAATTCTTAGGCTCCAAACATTGACTAATACGGTGGTGATTATTTTAAAAAATATATAACATTAGAAATACAAGGGTGGACATAATTTGAACCCTAACGTATTGAAATGTTATTAATACCTTGACTAGTGTATGGTTTCATACTAATATATTTTTCGAGAGAAAAAAAAGTGAAGATTAAAATGTACGATTAGACCTTAAATATTGTGGAATTATTTTATGAAGACTTCGATAACTACTAAATTAAGATGGTAATAAGTTTTTATCTATTGAGTTGTGCTTCGATTGGAACCAAGATCTACTTTAAATTTTGATTTTAAAATATAAACCATAATGCTTTTAGAGTTGTTTTTAAATATATAAAAATGAGTCAGACTATTTATAAATATAGAAAAATTTTATTGTCTATAAACAATAGACCACAATAGAATTCTATCACTTGAGCGATAGATAGCGATAGACTTTTATCCATGTCTAAACAGTGAAAATTTTCTATATGTGTAAGTAGTTTGATATTTTTTTCTGTTTATAGTAATTTCTCCTACTTTTTTATAGTTTTGGTTTGGTGTCACTACTTTAAGAGGTGGTTAATATTCTAAAAATAATGATTAACTTTTATCTTCCAATAAAATTCTCAAATTAGTGATCTCATGATTAAATGTTTGTTAAAATATCATATTCTGGTCTCTATACTTTTGAGTTTCTTCAATTTTAATTAGTATATGCATTTTTAAATGTCCAATTTGAGTGTCGGTCGTTTCAATAAATTTAAGATCACTAATTTGACATTTAAAAGTACAATGACTAAAATAGACATTTAAAAATATATAAATTAAAATTGAATGAACCTCAAAGTTTAGGGACTAAAATGATATTTTTAACCCAAAAGTTCTAATTCATTTTTAACTTCAAGGTGTTGGTGGAAGGGAACAAGTTAGAAATATGTAGAAGATTTTATGTAGAACTAATTAAGAGACGTAGAGAGATGGGAATAAAATGCGTACATACTTTTCCTTATTGAAATTTTATGTTTGTCTTATTTTATTCCACAAATTTTAAAAGTGAATTTTTAAAAATGTTAAAAATAAGAGAAACTATTTACACAATATAGCAAAATTTTTAGATAGTTGTGATAGACACTGATAGAAATCTATAAGAGTCTATCAGTGATAGAAACGATAGAAATCTATCTAGATGCTAATAGAAGTTTATCAATGTCTATCAGTGTCTTTTTTTTTACTATTTTCTATAAATAGTTTGACATTTTTTCTATCGGTGAAAATTTTTCAATTTTAAAATGTCTACTTCATTTAACCTTTTTTTTCCATGTTTTTTTTAAGAAAAAACCATTACGATTATTTGTTAATATTCACATCCACCAAACCTATGTGACTCTAATGTAAACTCATAAACTACATTATTCATATATTGTTTTAAAAAAAAGATATATGACCAAAATTACTATTTTGTTAAGAGTCAAAGGATCAAAACACTTTTTAATAGTATAGAGAAAGAATTGAGCAAACCTAAAGGTTGACACAAAAAAGAGAACTTGAACGTTGAGAAAAAAACTTAAAGCTAATAAATCATTAAGCCCGTTTATGATAATTATTTGAATTTTTAAAATTAATCATATTTTAATTCACTCTCAATTTCTAACAACTGTTTGCATCTTTCTTAAAAGTAAAAGAGTTGAATTCTTAGCCAAATTTCAAAACAAAAACAAAATTTAAAAAACTACATCTTTTAGTTTTCAAAATTTGGACTGGTTTATAAAAATATTTGTAAAAAGTAAATAACTAAGCCAAATTAAACCTATGTCATTTCCTTCCTATTTAATATTTATTTTTCCTTATTTGGGCATTTAAGTATTGCCATAATTGAATTTAAGGGGCAACTAAATAATAACCATATTTAATTAGACATTTAGTGGAAAAAAGGGGAATTTTAAAATATAAAAAAAAAAAAAGGAAAACTATTTACACAAAATTAACAAAATTTTAGATAGTTGTGATAGAGATGATAGAAGTCTATCACTGATAGATGCTGATAGAAGTCTATCAATGTCTATCCGTATTTTTTTTATTATTATTATTTTTTTGCTATTTTCTGTAAATAATTTGACATTTTTTTTGGAGAATTGCATTGGGTATCAAAATTTGATTATACATTAGCATCCATATCATCAACTTTAAAAATATTTTAAATATGTCAAAATATATTGATAACAACATAGATGGTAAAAAGATCACGCTTGATTTGATTTTTATGTGAAAATATATTCCAAAATTACCCTCATATCTCCAAAAATAGAAAATTATCATTTGATATTCCTCCCAAGCGCGTTTCTTAATCTCTTCGACCTTCTCCTTCCCATGCGTTTCTTCATCTCTTCGACATTCTCCTTCCCACGCGTGTCTTCTTCCTCAGTGCTCTCCAAGTTTTTGCAACAACAAGATTCTTCAATCTCCAATATTCTTAGATTCTCCAAGATTTGAAGTACAAGATTTGAATTGCACAGATTTTTTTTCCAAATCTTGTTTTGATTTCGTTAGCTAAACCCACAGCTTCAAAATCACGATTTCTTCTTGAAACCACGGTTTATTTTTTATTTTTATTTTTTTTGCTTGAATTTCGTTCCCACCTCTCTCATTCACGATTGTAAACACAATTTTACTGGTTTTGATTTCGTCAGTCAGAGATTTCTTGAAGCCAATTTCGAAAGTTTTCAACCATTTGATTTTTTTTTGTTGAAATTCGTCCTTACAATTGTGCTCAGGTCTGATATGAGTTTTCTTGTGGTTGCTTTGTTATTTGATAGTATTTAGTTTGTGATTGTCATTTGATTATCATCTAATTGCTATTCGATTAGTATTTGATACTTAGTAGTTTGTGATTGCTATCTGATTTATTTTCATTTGATGGCTATCTTATATTTAGTTTTTATATTTTTGCAGTATTTTGCAGTTATGGTTAAACTTCCAATATTTATTTTCCATAGTGGTCATTGGAATGATCGACAGTGCTATGTAGATTACAAAATTATTGGTGTTTTGGTTGACGAGGCGATCCATTTTGACTCTTTTGTTAACTTTATACAAAAGGAAATTGAACTTCATTCATCTATTGAACTTTCATTTTTATTAGATTTAGGTAGTACTGGGGTCCAACATGTTGTCAAGATTCTTGAAGATAAAGATGTATGTTGGTTTTTTACTGTGGTTAAGGATCAATTTACAAAATATCCTGTTGCTTCTTCTTCTTCTATAGTTGAGGCTGATTTTGAAGGTGACATAGAAATTTTTAGAAATGTTCATATTAACAAAATGTCTTCTACATTATTGTCTTTGAAGAATAAGGATTTGTTTGCTAGTAAGAAATTTTTGTTGAATTCGTTTCATTTTATAGCGGTAAAGAATAATTTTGAGTTTAGGACGTTGAGATCAAATCCAAAATCTGTTGAGTTGGTATGTACACAACATGGTTGTCAATGGTTTGTTAGAGCATCACGTTATAAAAGTAGCGAATTATGGATGATTCAAAAGTATGTTAGCAATCATAATTGTTCTTTGATGGTTTGTGCTTCTCATAAGCAAGCATCTTCAGAATTTATTAGTCATTGTATGGTTGAGAGTTTAAGATACAACTATGATCATTTGACTCTCAAAGATATTATACATCATATGCGGATGAACCTTGAACCCATGTGATGGAATGTCCTGTTCAAGTATATCGACACTATATTAGTTTCTAATAATGAGTGTAACAAACATTAATCACTAATTACATGAAGCAAACATGAGTTAATCAATAGGACAATCTAACAATGTGGTAAGATGCTCTTCAGTATTTTTTTTGTTCTTTGTTCTTTTGTTTTTTTGTTGAAGATTCTCCCTTCTCAAATTTCATTGGTCTTTTTTTCCTTTTTTTTCATCTGTCTTGTTCTTCCTATTTTTTGCAATAAAAAACAAGCAATTATATGACATTGGACAAAAGATAAAAAGAAGGCAATCAGAAGTCAATTAAATGACAATCATAAAGTAATCATATAGTAATCACATGTCAATCAGTTGACTATAAGAAACTATTAACTATCAAATGGAAATCAGCAGGAAATCATATAGTAACCAAATAGAAATCAACAGACAACCTAAAATCCGCAGACAACCCCATATGGAAATCAACATGAAATCATATAATAATCAAATAGAAATCAACAGACAACCCCCATATGGGAATCAAATGGAAATCAACAAGAAATCATATAGTAATCAAATAGAAATCAGCAGACAACCCCATATGAAAATCAAATGAAAATTAGCAGGTTATCATATAGTAATCAAATGGAAATCAGCAAACAATACCCATGTGGAAATCAAATAGAAATCAGCAGAAAATCATATTGTAATCAAACAGAAATCAGTAGACAACCCGAAATTAGCAGACAACCCCATATGGAAATCAAATGAAAATCAACAGTAAATCATATAGTAATCAAATGGAAATTAACAGACAACCCCATATGGAAATCAAATGGAAATCAGCAGAAAATCATATAGTAATCAAATGTAAGGGTATTTTTTACTTTTTCTATCAACGAAATTGGGCTGTGCTTATGAACTTTGACATTTTTGCAAAACCATAAAACATAAAGAGAAATTGGAGGAAATGACAAAATTCAGGAGGTCTTTTTGATTTTTGTCAAAAATTAGAAATAATAAGAATTTTGGCAAAATAGCTCACATGACAAACACTTTTATAATTCCAAAGTTGCCCCTGGTATGGTCGAATAACAACATTTTCAAATACAGTGTAATTGCTATACCGTGTATCAATTATGAATAGAAATATAGTGTAAATGGGAAGAGTCAGCTATGAGATTCCATCCTAACGGATTCAAGAGATAAAGGGCAGATTTTTTGCCCAATTTGAATTTTGAATTGGTTGTTTAATATAAGATTTGCTTTGATATAACCACTTTTCGAAAATAAATACAGAGTAAGTGTAGAGCTTCATAAATAACTGAGATATAAATACAGTGTAAGTGAACAACTTGATAATAATTGAGATATAAATACAGTGTAATTAGAAGCTTGATTAATTACCGAATTAATCATATTATAATCTAACAGATTCAGTTTCAAAACTGAAAAAGATTTTTGCCTACTTTGGAATTCGAATTTGTTTTTAATATTCAAATTAGATTTTAAAAACTACTTTACGAATTGATTCAAACTAAACCCATATCTTCCTTATTTTTTCTCCCCTAATTGATTTAACTAATCTTGATTTTATTTTTGTAATTACAGTAAGGGCTCTTTTCAAATATAGAAAAATAAGTCAAACTATTTACAAATATAGAAAAATTTTACAGTCTATCACTGATAGATCGCGATAGAATTCTATCGCTTTCTATCGCTCAGGTGATAGAATTTATTTGCTTGAGCGATAGAAAGCGATAGAATTCTATCGCGGTCTATCACTGATAGAATGAATTTTTTCTATATTTGTAAATAGTTTGATATTTTTTCTGTTTATAGTATTTTCCCTTAAAGTAAAGTTAAATAGCTATTTTCCATCCACTCAAATTTATTTATGGATTTTGTGTTTGTTATTTGTTTTTGGAATAAGTGGTGGGTTGGATCAAATCAAAATTTGGCTTATTTGGGGTTTAATAAATGTTTGAGATCTAATAAATTAGATTTACAATAGATGAAATTAAAATACTTTAGTTTTCAAAATTTTGAATTTGAGATTTTGAAGGTAAGTTTCATAATCTTGGAAGTTTAATGTATTTCTTTTGATTTTGAATTTATAGAGTCAAACTTAAGTTTATTGGAGAAAATAATTATTTATAAAAGATATGGAAAAGGATATTTAGATATTTGGAATTTAAGATATAGAATAAAATTTTTGCATAATATATATATAACATTTTGTGAGTTAAAATGACATTAAAAAAAAGAAACCTAAGTTTTAGGTTACCAATGCCCCACATAGTTGCCCAAAATATATATATATATATGTATATATATATATATATATATATATTAAAAAAAATTATATTTAATTAAGTTTTTATAAGTTAAAATAACATTAAAAAAAGAAAAATAAAGAAACCTAAGTTTCTACCGTGTCGCACAAAGCCACCACCCTTCCCTTCCTTCACGAGCTTTCTCCTTTGCATGAAGAGCAACATCGTCATTTGTGCCATTCTGCTCTACTGCAATTTACCACGAGCTATTCCGCTACACCCATCGACTGCCTCACGCTGGTGTTTGTGTCGAGACTGACTCTATCATGGAGTATAGCAACGATAAGTACCATGGATCTTCCTCTCTCATTCACCTTCTCCTCGTTTTTTTCTCGATATCTTTTTTGTCTCTGCCCAACAATATCTAGACGAGTATCAGAGTTGTTTTGTGGGTTTTAGTTAAAGTTTTGTATTATGTGATATGGTTGAGGATTATTTTGGAGTTTGGTGGGAATTTTAGCTGCTATCGAGCAAGGGGTGTTTGACGAAGTTCAATGTAAATGTAATGCAATAGTGTAGTGTATTTGCGCTTTTCTGAATTTGTTTTAGCATGAAAGGTTTGGTTTTATCGAGTTTAGTGTGTAGGGGTAGTTTTGATATTTGTTAATTAGAATTTTTTATTTTTAAAATTTTTTTTGATATTTTTATGATTTTGAAATTTTTCTGCTATTTTTCCAAATGTAACTTCGAAATTTGCTATTTGTCTTGTCCGCCCAAACATAAACTATAGGGCCTAATTTTAAGAAATGTTTTTGACATGGCTGCAACTGGCTCTTTTTTTTTATCCATAAAAATTTCCCAAAAAAACCAATCCCATTTTCTTTTTTGAAAAATGGTTAAATCCGAAATTTTAAACATACTTTAGAAAGAATTAATTGACTAAATTACTTTTCATCCAAAATCAACAAATTACTCCCTAAAATAAAGAAATCTTAAACAAATCAAAGAAGATGAAGGCTAAATCAATCTAAATACTAAAACGTATGAAATCAGGAAACGATACTTGTGGCTCAAAATTAGATAATTCTATAAAGAAATCTAAAATTACATAAATAGCAAATGAAAAAAAAAAATCATGTTTACTATAAAAGTTAATATTGTCAACATAAATATGTTTTGTGATTTGACTACTAAATACTTTGTGGTTGGAGGAAGAAAAAGAAGAAACGTTAACCTAAAATGTTAACCTAACATGTGAAGTAACATGCTAGTATTCTTCTGCCTACAATATATCAAATTATAACTCCAAATCCTCATTCGTTTATATGTAATAGATTTTCAAAATAATATTTAATTGCTTACACACAAATCAAAAGAAAAATAAAAAGATATTAGCCAAAAATAGAACCTCTGATCCAGTGAGCGAGATTGAGGATTTTACTGTCAAGTTCATTTAAATATAATTTTAAATTTCTTTAAATAATTTTATGTTAGAGCACAACCTTATTTTTATACTTTAAACCCTTCGAGATTATTACTTAAACATGATCCACTTGTATGTCAACCACATATTACTTAACATTATATATAATAACCTCGAATTTTTCTCAATATTGGATTATATTATGCAACAAAATGAAATTAAAACTTATTTTATTAATTAACAAGAAAATGTTTATTACAAATCTACGAGCTTTATGACATAAAACACAATAATCTCCTACTTGCACTAAAGCTTGTGGGACTTATAATAGGGACAATTGCAAAAAAGTCAAATTGATTTGTTAAAATTAGACCCATATATAATGTATTATGATTTTGCAAAAAAGTCAAAATCTTTAAGCTCATCCCAATTGAAATGTCTGTATGACCAAAATGCCCTTCACAGTTAAAAATGTGTGACTATATCTGATTGCTCACTAATTACTATCTGATTGCTATATGATTACTATATAATTGTGAATGATACTAATTCCTATCTGATTGTTGTCTTATTATTGTTTGACTGTTATTAAGTGTTAATGATACTTATTGTTGTTTGATTGTTATTTGATATTGATTGTAATATAATTGTCAATGATACCGTTGTTATCTAATTGTTCTCTAATTACTATATGATATTGATTGTCAAAGATGTCGATTGTTATCTGATTGTTGTCTGATTATTATCTGATACTAATTGCCAATGATACTGACAGTTGTCTGATTTGTTGTTTGATTAATATCTAAAATGGGTTGTCAATGTGATACTAATTTTTATTTGATTACTATCTAATTATGATTGTCAATGATATGTGATTGCTATCTGATTTTCATTTGATATTGATTGTTATATGATTGTTATTTGATTACTGATATACTAATTATCAATGATTACCTGATTGTTGTCAACAATAAATTGCTAAAATAAGGTATTATATATTGTACTTACATAAAAACAAATGATTAACAAATATATCTTTGATGTCCACAATATGATTATTCAAATAGATACAAATTATTTACATGTTTTTCTATTATGACTAACATGCTTACGACAACTACAATTCACATGCTTTGCCAATTCACCAATTGAAGGAATTCTTTGCTTTTTAGGTCTTCGTACTTGACGAGGGTTGTTCACCTCTAAAATACAAGTAGTAAAAAATCAAACATCAATCACATGACAATTAAATATAAATCACAAAGTACTTAATATCTAATGAAAATCATATGGGAATCAGATAGCAGTGAGATATCAATCATGTGACAATCAAATAGAAATCACAAAGTACTTAATATCTATGAAAGTCACATGGTAATCAATGACAATCAGATATCACTCAGATGATAGTCACATGTTAATCAAATAGAAATCACAAAATACTTAATATCTAATGAAGATCACATGACAATCAAATATCAATGATATGACAATCACATGATAATCAAATAGATATCAGACACAAATTAGATATCAATTATATAGTCATATTCGATTTCTCTATGCTTAAAAAATTCACCCACACTTCTAATTTTTAATTTAATTTCCACATCTTATATAACATATCTAACTAGCATTTTGCAAGCTACAACAATTTTTTGTGGGTTATCATTAATGATCAATGGTCTTAAGCTTGACTCCATAGACTGGCAAATGAAATTAATTGCTAACCATCCTCTCAAAAGAATGTTCAAGTAAAATATTGGGGGAAGAAAAATACAAGAAAAATAATGTAAATGGAAATAAACAGCCAGATATTCCTATGGGAACCCAAAGGAGTCCTTTTCACATCAGACCTAATAATTATGGCTCTCCAAAGTATAACAATAACACATGAATTTTTCTCTTACCCACGTTGCAACTCCCCTCCTTTCAATTCCTCAATATACATAGCCTCAAATAAAAAATCCGTAAAATCAAACTACAATAAATATAATAACCAAAGAACACAAATTATCTCGAATACAAACCAACAATCTATACCCATGATTATACACAAATAATTAACATCCCCATTCTAAAAACCTAACATTCATTCCTAAAAAAAAAACTCTAGTAATGGAAAAATCGGAGAACATCTTGACGAAATCGAAACCAATAAAATTGTGGGTGCAATCGTGAATGAGAGAAGGTGAGGACGAAATTCAAGCAAAAAAATCGAATACAAACTGTGGCTTCAAGAAGAGAAATCCTCAAGAAAGGAGATTTTGAAACCGTGTGTTCAACTAATGAAATCAAAACAAGATTTCGTAAGAAAAAAATGCGCAATTGTGTGCATAAAAATAAATTTCGTATTTCAAATCTTCGAGAAATCGTGAATATTGGAGAAGATCGAAGAATCTTAAGTTGTTGCAGAAATGTGGAGAATATTGAGGAAGAAACCGCGCGTAAAGGAAGGATAATATCAAATTTACTAATTTTTTATTTCTTAAGAGATGACGGTAGTTTTGGAATATTATTTTCACATAAAAAATCAAATAATGTGATTTTTAACCATCTATATTATTTTCAATATATTTTACCATATTTTTAATATTTTAAAAGTTGATGACATGGATACTAATATATAATCAAAATTTGATACCCAATGCAATTCCCTCTTATAATAACTTAGGACATACCAATATACCCAACATTTTCTCCCACTTGCCTTAGACAAAGTGAGATAAATCTCATAGACCTCGACTTTCTAGATGACCCTCAAACACTTTAGCCTGGAGAGCTGTTGTAAACGAATCAACACAGTTGTCTTTATATGTCATATTTTTGTGACAATCACGTCTTCTCTTTGCAAAATCTCTCTAATAAAGTGGTATTTCTCTCTATATGCTTCTCTCTTTTATGACTTTTGGGTTATTTGAAGTTTGCCACATCACCATTATTATCACAATAAAGTGTGGTAGGCTTATTCATATTTGGAATTACCTCCAAATCTGTTAAGAACTTTTCTAAGCCACACACATTTTCTTTGGCTACTTCACACGTAGCTACGTGAAACGCACCTAAATTGTGCGTTTATTACTCTTTATTTAGAAGTATTTTTGGTAGATTTAATATGTTTGCTAGTGTATTTCAGGTTATAATGAAGAAAAATGAGTTTCTGAAGCAAAAGAATCGAACCGAGTTAAAATCGGATAAGAATAGCTCAAAACCCTAAAAAAACAGGGCAGCGTAGAGCAAGAGCATCGCTACGCTGCCCCTTTATGCTCAAGACCCGAGAGCACCTAATTTTGGCACAATTGAGAGCGTAGCTATGCTCCTCAAGAGCGTAGTGACGCTGAGGTAGTGTCGCGACACCCACTCGCAGCGCAACGCTCCACTGCGATGAAATCAAGCCAGTGTCGCGACACTACCATTCCTTTTCCATTTAGGAGAAGATTTTTTAAAATCATTTTCTATAAATTGGGAGGTTCTCAACAGCCCTAATCATCAGATTTTGGAGTATTGAAGACCTAGAGAGAGAGTTTAGAGCAAAGTATGAAGGTTCCATGATGTCGAAAGATTCAAGGATCGTTGGAAGGCCAAATCCATCCAGGAGATGAGCTTAGAAGCCGGATAACTTCTCTTCCCTTTCTTTACTCTTGGTTTATTTGCTGTATTTTGTTATTCTAATGTGGATTTTGTGTATGAAAGCCATGTTAGGCTAAAACACGAAAGTCACAATTAATTTGACTTTTTACTTCTTTTATTGGTCATGTAAGTGACACGACTCAAGTGTGGGAGTTTCATTTTCGCTATTTGTGTCAATCATACAATGGCAGATGCTTTTGGCATTGCGCAATTCATGAAGGCTATAGCAAGGATAACTCGTGGAGATTTTGCTCCATCACTTATCGCCACTATCAATACGACCAAGTTGTTAACAGTAAGGGCATTATCAGTTTAATCAACAACATGGTCGATTGCTTCTTCTTTTTTAGCCCACTTCAAATCTCCACCCTTCGTCAAACTTTACCTACTCATCTTCGCGATTGTTCCACCTTTGAGCTCATCATAGCCTACGTTTGGCGCCTTCGTACCATAGCCCTTCAACTTAGCCCAGATGAGGAACTGCGGTTTCTTTGCTTCGTGAATCTACGCTCCAAGTTCAACTTACCATTAAGGTATTACGGTAATGTTTTATTTGTTCCTGCAACACTCACCACCTCTGCAAAGCTTTGTGGGAACCCACTTGGTTATGTTGTAGAATTGATTAGGAAGGCTAAGGCTACGACAACCAAAGAGTATATAAGGTTTATGATGGATCTTTTAGTGATTAAAGGACAACCATCTTTCACTGCAGATGGATCATACACGATTTCAAATCTAACAAGAGTTGGGTTTGGAGAGGTTGACTTTGGACGGGGAAAGATCATTTGTGGAGGACCTATAACAGGGAAGTCTGGAATGATACCAGGTATGATAAGCTTTTGTATACCTTTCATGAATAAGAAGGGAGAAAAGGGAATTGTGGTACCTCTATGCTTGCCTGCTCCAGCCATTGATAGATTTATCGAAAATGTTCAAGCATCATTGCAAGTGAAACAAATGGCTGATGAAATTGATAGCCATAAGCAAACCATCATTCCATCTACTTTGTAA

mRNA sequence

ATGTTATGCTTTTGGCATTGCGCAATTCATGAAGGCTATAGCAAGGATAACTCGTGGAGATTTTGCTCCATCACTTATCGCCACTATCAATACGACCAAGTTGTTAACAGTAAGGGCATTATCAGTTTAATCAACAACATGGTCGATTGCTTCTTCTTTTTTAGCCCACTTCAAATCTCCACCCTTCGTCAAACTTTACCTACTCATCTTCGCGATTGTTCCACCTTTGAGCTCATCATAGCCTACGTTTGGCGCCTTCGTACCATAGCCCTTCAACTTAGCCCAGATGAGGAACTGCGGTTTCTTTGCTTCGTGAATCTACGCTCCAAGTTCAACTTACCATTAAGGTATTACGGTAATGTTTTATTTGTTCCTGCAACACTCACCACCTCTGCAAAGCTTTGTGGGAACCCACTTGGTTATGTTGTAGAATTGATTAGGAAGGCTAAGGCTACGACAACCAAAGAGTATATAAGGTTTATGATGGATCTTTTAGTGATTAAAGGACAACCATCTTTCACTGCAGATGGATCATACACGATTTCAAATCTAACAAGAGTTGGGTTTGGAGAGGTTGACTTTGGACGGGGAAAGATCATTTGTGGAGGACCTATAACAGGGAAGTCTGGAATGATACCAGGTATGATAAGCTTTTGTATACCTTTCATGAATAAGAAGGGAGAAAAGGGAATTGTGGTACCTCTATGCTTGCCTGCTCCAGCCATTGATAGATTTATCGAAAATGTTCAAGCATCATTGCAAGTGAAACAAATGGCTGATGAAATTGATAGCCATAAGCAAACCATCATTCCATCTACTTTGTAA

Coding sequence (CDS)

ATGTTATGCTTTTGGCATTGCGCAATTCATGAAGGCTATAGCAAGGATAACTCGTGGAGATTTTGCTCCATCACTTATCGCCACTATCAATACGACCAAGTTGTTAACAGTAAGGGCATTATCAGTTTAATCAACAACATGGTCGATTGCTTCTTCTTTTTTAGCCCACTTCAAATCTCCACCCTTCGTCAAACTTTACCTACTCATCTTCGCGATTGTTCCACCTTTGAGCTCATCATAGCCTACGTTTGGCGCCTTCGTACCATAGCCCTTCAACTTAGCCCAGATGAGGAACTGCGGTTTCTTTGCTTCGTGAATCTACGCTCCAAGTTCAACTTACCATTAAGGTATTACGGTAATGTTTTATTTGTTCCTGCAACACTCACCACCTCTGCAAAGCTTTGTGGGAACCCACTTGGTTATGTTGTAGAATTGATTAGGAAGGCTAAGGCTACGACAACCAAAGAGTATATAAGGTTTATGATGGATCTTTTAGTGATTAAAGGACAACCATCTTTCACTGCAGATGGATCATACACGATTTCAAATCTAACAAGAGTTGGGTTTGGAGAGGTTGACTTTGGACGGGGAAAGATCATTTGTGGAGGACCTATAACAGGGAAGTCTGGAATGATACCAGGTATGATAAGCTTTTGTATACCTTTCATGAATAAGAAGGGAGAAAAGGGAATTGTGGTACCTCTATGCTTGCCTGCTCCAGCCATTGATAGATTTATCGAAAATGTTCAAGCATCATTGCAAGTGAAACAAATGGCTGATGAAATTGATAGCCATAAGCAAACCATCATTCCATCTACTTTGTAA

Protein sequence

MLCFWHCAIHEGYSKDNSWRFCSITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYVWRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEIDSHKQTIIPSTL
Homology
[Close]
BLAST of Lsi10G002030 vs. Swiss-Prot
Match: BEBT_TOBAC (Benzyl alcohol O-benzoyltransferase OS=Nicotiana tabacum GN=HSR201 PE=1 SV=1)

HSP 1 Score: 254.2 bits (648), Expect = 1.6e-66
Identity = 121/239 (50.63%), Postives = 169/239 (70.71%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           +T  H++YD+V ++KG I  +++MV   FFF P ++S LR+ +P HLR CSTFEL+ A +
Sbjct: 211 VTCTHHEYDEVRDTKGTIIPLDDMVHKSFFFGPSEVSALRRFVPHHLRKCSTFELLTAVL 270

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFN--LPLRYYGNVLFVPATLTTSAKLCGNPLGY 143
           WR RT++L+  P+EE+R LC VN RS+FN  LP  YYGN    P  +TT+AKL  NPLGY
Sbjct: 271 WRCRTMSLKPDPEEEVRALCIVNARSRFNPPLPTGYYGNAFAFPVAVTTAAKLSKNPLGY 330

Query: 144 VVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIIC 203
            +EL++K K+  T+EY++ + DL+V+KG+P FT   ++ +S++TR GFGEVDFG GK + 
Sbjct: 331 ALELVKKTKSDVTEEYMKSVADLMVLKGRPHFTVVRTFLVSDVTRGGFGEVDFGWGKAVY 390

Query: 204 GGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMAD 261
           GGP  G  G IPG+ SF IPF NKKGE GIVVP+CLP  A++ F++ +   L+V    D
Sbjct: 391 GGPAKGGVGAIPGVASFYIPFKNKKGENGIVVPICLPGFAMETFVKELDGMLKVDAPLD 449

[Close]
BLAST of Lsi10G002030 vs. Swiss-Prot
Match: BEBT_CLABR (Benzyl alcohol O-benzoyltransferase OS=Clarkia breweri PE=1 SV=1)

HSP 1 Score: 236.1 bits (601), Expect = 4.5e-61
Identity = 116/245 (47.35%), Postives = 168/245 (68.57%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCST-FELIIAY 83
           +T+ H +Y++V  +  I +  +++    FFF   +IS +R+ +P HLR CST  E++ A 
Sbjct: 210 VTFNHREYEEVKGT--IFTPFDDLAHRSFFFGSTEISAMRKQIPPHLRSCSTTIEVLTAC 269

Query: 84  VWRLRTIALQLSPDEELRFLCFVNLRSKFNLPLR--YYGNVLFVPATLTTSAKLCGNPLG 143
           +WR RT+A++ +PDEE+R +C VN RSKFN PL   YYGN   +PA +TT+ KLC NPLG
Sbjct: 270 LWRCRTLAIKPNPDEEVRMICIVNARSKFNPPLPDGYYGNAFAIPAAVTTAGKLCNNPLG 329

Query: 144 YVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKII 203
           + +ELIRKAK   T+EY+  + DL+V  G+P FT   +Y +S++TR GFGEVDFG G+ +
Sbjct: 330 FALELIRKAKREVTEEYMHSVADLMVATGRPHFTVVNTYLVSDVTRAGFGEVDFGWGEAV 389

Query: 204 CGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMAD 263
            GGP  G  G+IPG+ SF IP  N++GEKGIV+P+CLP+ A++ F E +  +L  K++  
Sbjct: 390 YGGPAKGGVGVIPGVTSFYIPLRNRQGEKGIVLPICLPSAAMEIFAEALNNTLNGKEI-- 449

Query: 264 EIDSH 266
           EI  H
Sbjct: 450 EIAKH 450

[Close]
BLAST of Lsi10G002030 vs. Swiss-Prot
Match: ACMAT_VITLA (Methanol O-anthraniloyltransferase OS=Vitis labrusca GN=AMAT PE=1 SV=1)

HSP 1 Score: 206.8 bits (525), Expect = 2.9e-52
Identity = 104/231 (45.02%), Postives = 150/231 (64.94%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLI--NNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIA 83
           IT  H++Y++V N+KG +  +  N++V   FFF   +I  LR  LP  L  CSTFE+++A
Sbjct: 210 ITRIHHEYEKVTNTKGTLMAMDENSLVHRSFFFGREEIRALRNRLPASLGACSTFEVLMA 269

Query: 84  YVWRLRTIALQLSPDEELRFLCFVNLRSK--FNLPLRYYGNVLFVPATLTTSAKLCGNPL 143
            VWR RTIA  + PDE +R  C +N+R K  F LP  YYGN    PA++T +  LC NPL
Sbjct: 270 CVWRCRTIAFAVDPDEVVRISCIINMRGKHGFELPPGYYGNAFVTPASITKAGMLCKNPL 329

Query: 144 GYVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKI 203
            + + L++KAKA  ++EYI+ + DL+VIKG+P FT  G++T+S++TR G GEVDFG GK 
Sbjct: 330 EFAIRLVKKAKAEMSQEYIKSVADLMVIKGRPLFTQPGNFTVSDVTRAGLGEVDFGWGK- 389

Query: 204 ICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQ 251
               P+ G       +ISF + F N KGE+G V+P+ LP P ++RF + ++
Sbjct: 390 ----PVYGGVARACPIISFRMLFRNSKGEEGSVIPIWLPPPVMERFEQELK 435

[Close]
BLAST of Lsi10G002030 vs. Swiss-Prot
Match: CHAT_ARATH ((Z)-3-hexen-1-ol acetyltransferase OS=Arabidopsis thaliana GN=CHAT PE=1 SV=1)

HSP 1 Score: 167.2 bits (422), Expect = 2.6e-40
Identity = 91/238 (38.24%), Postives = 140/238 (58.82%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           +T+ H +YD  V    +++  + +V   FFF   +IS +R+ LP  L + S FE + +++
Sbjct: 219 VTHTHREYDDQVGID-VVATGHPLVSRSFFFRAEEISAIRKLLPPDLHNTS-FEALSSFL 278

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKF-NLPLR--YYGNVLFVPATLTTSAKLCGNPLG 143
           WR RTIAL   P+ E+R  C +N RSK  N PL   YYGNV  +PA + T+  L   PL 
Sbjct: 279 WRCRTIALNPDPNTEMRLTCIINSRSKLRNPPLEPGYYGNVFVIPAAIATARDLIEKPLE 338

Query: 144 YVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGR-GKI 203
           + + LI++ K++ T++Y+R +  L+  +G+P F A G+Y IS+L     G++DFG  GK 
Sbjct: 339 FALRLIQETKSSVTEDYVRSVTALMATRGRPMFVASGNYIISDLRHFDLGKIDFGPWGKP 398

Query: 204 ICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQ 258
           + GG       + PG +SF +PF NKKGE G VV + LP  A++ F+  +   L V +
Sbjct: 399 VYGGTAKAGIALFPG-VSFYVPFKNKKGETGTVVAISLPVRAMETFVAELNGVLNVSK 453

[Close]
BLAST of Lsi10G002030 vs. Swiss-Prot
Match: HLTT_LUPAL (13-hydroxylupanine O-tigloyltransferase OS=Lupinus albus GN=HMT/HLT PE=1 SV=1)

HSP 1 Score: 149.4 bits (376), Expect = 5.6e-35
Identity = 87/250 (34.80%), Postives = 139/250 (55.60%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           +T+ H +Y +  +     + I  +    FFF P ++  +R+ LP H    +T +++ A++
Sbjct: 210 VTFIHNEYQKPPHDNNNNNFI--LQHSSFFFGPNELDAIRRLLPYHHSKSTTSDILTAFL 269

Query: 84  WRLRTIALQL-SPDEELRFLCFVNLR---SKFNLPLR--YYGNVLFVPATLTTSAKLCGN 143
           WR RT+ALQ  +P+ E R L  +N R     FN PL   +YGN    PA ++T  KLC N
Sbjct: 270 WRCRTLALQPENPNHEFRLLYILNARYGRCSFNPPLPEGFYGNAFVSPAAISTGEKLCNN 329

Query: 144 PLGYVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTAD--GSYTISNLTRVGFGEVDFG 203
           PL Y +EL+++AK+  T+EY+  + DL+VIKG+PS+  +  G   +S+LT+  F +VDFG
Sbjct: 330 PLEYALELMKEAKSKGTEEYVHSVADLMVIKGRPSYFYNDVGYLEVSDLTKARFRDVDFG 389

Query: 204 RGKIICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQV 263
            GK + GG   G    I       + + N KG +GI+    LP  A++RF + +    + 
Sbjct: 390 WGKAVYGGATQGYFSSI-----LYVSYTNSKGVEGIMALTSLPTKAMERFEKELDDLFKT 449

Query: 264 KQMADEIDSH 266
           K  +  + SH
Sbjct: 450 KDKSQILRSH 452

[Close]
BLAST of Lsi10G002030 vs. TrEMBL
Match: Q8W3L7_CUCME (Alcohol acetyltransferase OS=Cucumis melo GN=GeAAT-1 PE=2 SV=1)

HSP 1 Score: 328.2 bits (840), Expect = 9.7e-87
Identity = 158/247 (63.97%), Postives = 193/247 (78.14%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  PA +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPAVITTIAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. TrEMBL
Match: Q8SA67_CUCME (Putative acyltransferase OS=Cucumis melo GN=AT2 PE=2 SV=1)

HSP 1 Score: 328.2 bits (840), Expect = 9.7e-87
Identity = 158/247 (63.97%), Postives = 193/247 (78.14%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  PA +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPAVITTVAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. TrEMBL
Match: B1A9J8_CUCME (Alcohol acetyltransferase OS=Cucumis melo GN=AAT PE=2 SV=1)

HSP 1 Score: 326.6 bits (836), Expect = 2.8e-86
Identity = 157/247 (63.56%), Postives = 192/247 (77.73%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  P  +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPTVITTVAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. TrEMBL
Match: P93094_CUCME (Putative uncharacterized protein (Fragment) OS=Cucumis melo PE=2 SV=1)

HSP 1 Score: 325.5 bits (833), Expect = 6.3e-86
Identity = 154/246 (62.60%), Postives = 192/246 (78.05%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT+RHY+YDQVV+ K  +  +N+ +D  FFFS LQISTLRQTLP HL DC +FE++ AYV
Sbjct: 205 ITFRHYEYDQVVDMKSGLIPVNSKIDQLFFFSQLQISTLRQTLPAHLHDCPSFEVLTAYV 264

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIALQ  P+EE+RFLC +NLRSK ++PL YYGN + VPA +TT+AKLCGNPLGY V
Sbjct: 265 WRLRTIALQFKPEEEVRFLCVMNLRSKIDIPLGYYGNAVVVPAVITTAAKLCGNPLGYAV 324

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  T EYI+  +DL+VIKG+P FT  GS+ +S+LTR+G   VDFG GK I GG
Sbjct: 325 DLIRKAKAKATMEYIKSTVDLMVIKGRPYFTVVGSFMMSDLTRIGVENVDFGWGKAIFGG 384

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           P T  + +  G++SFC+PFMN+ GEKG  + LCLP PA++RF  NV ASLQVKQ+ D +D
Sbjct: 385 PTTTGARITRGLVSFCVPFMNRNGEKGTALSLCLPPPAMERFRANVHASLQVKQVVDAVD 444

Query: 264 SHKQTI 270
           SH QTI
Sbjct: 445 SHMQTI 450

[Close]
BLAST of Lsi10G002030 vs. TrEMBL
Match: A0A0A0LN52_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G429070 PE=4 SV=1)

HSP 1 Score: 322.0 bits (824), Expect = 7.0e-85
Identity = 156/247 (63.16%), Postives = 191/247 (77.33%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT+RHY+YDQVV++K  +  +NNM+D  FFFS LQISTLR+TLP HL DCS+FE+  AYV
Sbjct: 65  ITFRHYEYDQVVDTKSTLIPVNNMIDQLFFFSHLQISTLRKTLPAHLHDCSSFEVFAAYV 124

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIALQ  P+EE+RFLC VN+RSK ++PL YYGN + VPA +TT AKLCGNPLGY +
Sbjct: 125 WRLRTIALQFKPEEEVRFLCVVNIRSKIDIPLGYYGNAVVVPAVITTVAKLCGNPLGYAI 184

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  T EYI+ M+DL+VIKG+P  T  GS+ +S+LTR+GF  +DFG  K I GG
Sbjct: 185 DLIRKAKAKATAEYIKSMVDLMVIKGRPCLTTVGSFIMSDLTRIGFENMDFGWEKAIFGG 244

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PITG SG+I G+ SFCI FMN+ GEKGIVV LCLP PA+ RF E    SL      DE+D
Sbjct: 245 PITGGSGIIRGVTSFCISFMNRNGEKGIVVSLCLPPPAMGRFREIFYTSL------DEVD 304

Query: 264 SHKQTII 271
           SH QT++
Sbjct: 305 SHMQTLL 305

[Close]
BLAST of Lsi10G002030 vs. TAIR10
Match: AT5G17540.1 (AT5G17540.1 HXXXD-type acyl-transferase family protein)

HSP 1 Score: 169.1 bits (427), Expect = 3.8e-42
Identity = 97/257 (37.74%), Postives = 157/257 (61.09%), Query Frame = 1 

Query: 24  ITYRHYQYDQV-VNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCST-FELIIA 83
           +T+ H +YD++      + S  +N+V    FF P ++S +R+ LP +L + ST  E++ +
Sbjct: 208 VTHAHREYDEMPAIGTELGSRRDNLVGRSLFFGPCEMSAIRRLLPPNLVNSSTNMEMLTS 267

Query: 84  YVWRLRTIALQLSPDEELRFLCFVNLRSKFN---LPLRYYGNVLFVPATLTTSAKLCGNP 143
           ++WR RTIAL+   D+E+R +  VN RSK     LP  YYGN    P  + T+ +L   P
Sbjct: 268 FLWRYRTIALRPDQDKEMRLILIVNARSKLKNPPLPRGYYGNAFAFPVAIATANELTKKP 327

Query: 144 LGYVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFG-RG 203
           L + + LI++AK++ T+EY+R + DL+VIKG+PSF++DG+Y +S++ R+ F ++DFG  G
Sbjct: 328 LEFALRLIKEAKSSVTEEYMRSLADLMVIKGRPSFSSDGAYLVSDV-RI-FADIDFGIWG 387

Query: 204 KIICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQ 263
           K + GG  T     +PG  SF + F  + GE GIVVP+CLP  A+ RF+E ++     + 
Sbjct: 388 KPVYGGIGTAGVEDLPG-ASFYVSFEKRNGEIGIVVPVCLPEKAMQRFVEELEGVFNGQV 447

Query: 264 MADEIDSHKQTIIPSTL 275
           + +        +I S+L
Sbjct: 448 VFNRGSKSSNKLIMSSL 461

[Close]
BLAST of Lsi10G002030 vs. TAIR10
Match: AT3G03480.1 (AT3G03480.1 acetyl CoA:(Z)-3-hexen-1-ol acetyltransferase)

HSP 1 Score: 167.2 bits (422), Expect = 1.5e-41
Identity = 91/238 (38.24%), Postives = 140/238 (58.82%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           +T+ H +YD  V    +++  + +V   FFF   +IS +R+ LP  L + S FE + +++
Sbjct: 219 VTHTHREYDDQVGID-VVATGHPLVSRSFFFRAEEISAIRKLLPPDLHNTS-FEALSSFL 278

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKF-NLPLR--YYGNVLFVPATLTTSAKLCGNPLG 143
           WR RTIAL   P+ E+R  C +N RSK  N PL   YYGNV  +PA + T+  L   PL 
Sbjct: 279 WRCRTIALNPDPNTEMRLTCIINSRSKLRNPPLEPGYYGNVFVIPAAIATARDLIEKPLE 338

Query: 144 YVVELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGR-GKI 203
           + + LI++ K++ T++Y+R +  L+  +G+P F A G+Y IS+L     G++DFG  GK 
Sbjct: 339 FALRLIQETKSSVTEDYVRSVTALMATRGRPMFVASGNYIISDLRHFDLGKIDFGPWGKP 398

Query: 204 ICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQ 258
           + GG       + PG +SF +PF NKKGE G VV + LP  A++ F+  +   L V +
Sbjct: 399 VYGGTAKAGIALFPG-VSFYVPFKNKKGETGTVVAISLPVRAMETFVAELNGVLNVSK 453

[Close]
BLAST of Lsi10G002030 vs. TAIR10
Match: AT5G41040.1 (AT5G41040.1 HXXXD-type acyl-transferase family protein)

HSP 1 Score: 91.3 bits (225), Expect = 1.0e-18
Identity = 66/230 (28.70%), Postives = 116/230 (50.43%), Query Frame = 1 

Query: 28  HYQYDQVVNSKGIISLINNMVDCF--FFFSPLQISTLRQTLPTHLRD-----CSTFELII 87
           H +++++ +   I SL       +  F F P +I  L+     +        C++FE + 
Sbjct: 231 HQEFEEIEDKSNINSLYTKEPTLYRSFCFDPEKIKKLKLQATENSESLLGNSCTSFEALS 290

Query: 88  AYVWRLRTIALQLSPDEELRFLCFVNLRSKF--NLPLRYYGNVLFVPATLTTSAKLCGNP 147
           A+VWR RT +L++  D++ + L  V+ R+KF   LP  Y+GN + +  ++  + +L   P
Sbjct: 291 AFVWRARTKSLKMLSDQKTKLLFAVDGRAKFEPQLPKGYFGNGIVLTNSICEAGELIEKP 350

Query: 148 LGYVVELIRKAKATTTKEYIRFMMDLL-VIKGQPSFTADGSYTISNLTRVGFGEVDFGRG 207
           L + V L+R+A    T  Y+R  +D   V + +PS ++  +  I+  +R+GF   DFG G
Sbjct: 351 LSFAVGLVREAIKMVTDGYMRSAIDYFEVTRARPSLSS--TLLITTWSRLGFHTTDFGWG 410

Query: 208 KIICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIE 248
           + I  GP+      +   +S      + +  + I V L LPA A+D F E
Sbjct: 411 EPILSGPVALPEKEVTLFLS------HGEQRRSINVLLGLPATAMDVFQE 452

[Close]
BLAST of Lsi10G002030 vs. TAIR10
Match: AT3G48720.1 (AT3G48720.1 HXXXD-type acyl-transferase family protein)

HSP 1 Score: 80.5 bits (197), Expect = 1.8e-15
Identity = 62/231 (26.84%), Postives = 116/231 (50.22%), Query Frame = 1 

Query: 24  ITYRHYQYDQV--VNSKGIISLINNMVDCFFFFSPLQISTLRQTL--PTHLRDCSTFELI 83
           I + H ++D++  ++  G I     ++   F F P ++  L+       +    STF+ +
Sbjct: 204 IEFPHNEFDEIEDISDTGKIYDEEKLIYKSFLFEPEKLEKLKIMAIEENNNNKVSTFQAL 263

Query: 84  IAYVWRLRTIALQLSPDEELRFLCFVNLRSKF--NLPLRYYGNVLFVPATLTTSAKLCGN 143
             ++W+ R  AL+  PD+ ++ L   + RS+F   LP  Y GN + +   +T+S +L GN
Sbjct: 264 TGFLWKSRCEALRFKPDQRVKLLFAADGRSRFIPRLPQGYCGNGIVLTGLVTSSGELVGN 323

Query: 144 PLGYVVELIRKAKATTTKEYIRFMMDLL-VIKGQPSFTADGSYTISNLTRVGFGEVDFGR 203
           PL + V L+++     T  ++R  MD   V + +PS  A  +  I++ +++   ++DFG 
Sbjct: 324 PLSHSVGLVKRLVELVTDGFMRSAMDYFEVNRTRPSMNA--TLLITSWSKLTLHKLDFGW 383

Query: 204 GKIICGGPITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIE 248
           G+ +  GP+    G+    +   +P  +    K I V L LP  A++ F E
Sbjct: 384 GEPVFSGPV----GLPGREVILFLP--SGDDMKSINVFLGLPTSAMEVFEE 426

[Close]
BLAST of Lsi10G002030 vs. TAIR10
Match: AT5G63560.1 (AT5G63560.1 HXXXD-type acyl-transferase family protein)

HSP 1 Score: 77.0 bits (188), Expect = 2.0e-14
Identity = 52/187 (27.81%), Postives = 96/187 (51.34%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINN--MVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIA 83
           I + H +++ + +  G   L ++  +V   F F P ++  L+    T     +TF+ +  
Sbjct: 205 IEFPHNEFEDLEDISGTGKLYSDEKLVYKSFLFGPEKLERLKIMAETR---STTFQTLTG 264

Query: 84  YVWRLRTIALQLSPDEELRFLCFVNLRSKF--NLPLRYYGNVLFVPATLTTSAKLCGNPL 143
           ++WR R  AL L PD+ ++ L   + RS+F   LP  Y GN +     +TT+ ++  NPL
Sbjct: 265 FLWRARCQALGLKPDQRIKLLFAADGRSRFVPELPKGYSGNGIVFTYCVTTAGEVTLNPL 324

Query: 144 GYVVELIRKAKATTTKEYIRFMMDLL-VIKGQPSFTADGSYTISNLTRVGFGEVDFGRGK 203
            + V L+++A       ++R  +D   V + +PS TA  +  I++  ++ F   DFG G+
Sbjct: 325 SHSVCLVKRAVEMVNDGFMRSAIDYFEVTRARPSLTA--TLLITSWAKLSFHTKDFGWGE 384

Query: 204 IICGGPI 206
            +  GP+
Sbjct: 385 PVVSGPV 386

[Close]
BLAST of Lsi10G002030 vs. NCBI nr
Match: gi|17351914|dbj|BAB78588.1| (alcohol acetyltransferase [Cucumis melo])

HSP 1 Score: 328.2 bits (840), Expect = 1.4e-86
Identity = 158/247 (63.97%), Postives = 193/247 (78.14%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  PA +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPAVITTIAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. NCBI nr
Match: gi|18652312|gb|AAL77060.1|AF468022_1 (putative acyltransferase [Cucumis melo])

HSP 1 Score: 328.2 bits (840), Expect = 1.4e-86
Identity = 158/247 (63.97%), Postives = 193/247 (78.14%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  PA +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPAVITTVAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. NCBI nr
Match: gi|661902804|ref|NP_001284403.1| (benzyl alcohol O-benzoyltransferase-like [Cucumis melo])

HSP 1 Score: 326.6 bits (836), Expect = 4.1e-86
Identity = 157/247 (63.56%), Postives = 192/247 (77.73%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT RHY+YDQVV++K  +   NNM+D  FFF+  QISTLRQTLP HL DCS+FE++ AYV
Sbjct: 212 ITVRHYEYDQVVDTKSTLIPANNMIDRLFFFTQRQISTLRQTLPAHLHDCSSFEVLAAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIA QL P+EE+RFLC VNLRSK ++PL +YGN +  P  +TT AKLCGNPLGY V
Sbjct: 272 WRLRTIAFQLKPEEEVRFLCVVNLRSKIDIPLGFYGNAIVFPTVITTVAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  TKEYI+ M+D +VIKG+P FT  G + +S++TR+GF  VDFG GK I GG
Sbjct: 332 DLIRKAKAKATKEYIKSMVDFMVIKGRPRFTEIGPFMMSDITRIGFENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           PI G  G+I GMIS+ I FMN+ GEKGIVVPLCLP PA++RF  NV ASLQV Q+ D++D
Sbjct: 392 PIIGGCGIIRGMISYSIAFMNRNGEKGIVVPLCLPPPAMERFRANVHASLQVIQVLDKVD 451

Query: 264 SHKQTII 271
              QTI+
Sbjct: 452 RDMQTIL 458

[Close]
BLAST of Lsi10G002030 vs. NCBI nr
Match: gi|1843440|emb|CAA94432.1| (unknown [Cucumis melo])

HSP 1 Score: 325.5 bits (833), Expect = 9.1e-86
Identity = 154/246 (62.60%), Postives = 192/246 (78.05%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT+RHY+YDQVV+ K  +  +N+ +D  FFFS LQISTLRQTLP HL DC +FE++ AYV
Sbjct: 205 ITFRHYEYDQVVDMKSGLIPVNSKIDQLFFFSQLQISTLRQTLPAHLHDCPSFEVLTAYV 264

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIALQ  P+EE+RFLC +NLRSK ++PL YYGN + VPA +TT+AKLCGNPLGY V
Sbjct: 265 WRLRTIALQFKPEEEVRFLCVMNLRSKIDIPLGYYGNAVVVPAVITTAAKLCGNPLGYAV 324

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  T EYI+  +DL+VIKG+P FT  GS+ +S+LTR+G   VDFG GK I GG
Sbjct: 325 DLIRKAKAKATMEYIKSTVDLMVIKGRPYFTVVGSFMMSDLTRIGVENVDFGWGKAIFGG 384

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           P T  + +  G++SFC+PFMN+ GEKG  + LCLP PA++RF  NV ASLQVKQ+ D +D
Sbjct: 385 PTTTGARITRGLVSFCVPFMNRNGEKGTALSLCLPPPAMERFRANVHASLQVKQVVDAVD 444

Query: 264 SHKQTI 270
           SH QTI
Sbjct: 445 SHMQTI 450

[Close]
BLAST of Lsi10G002030 vs. NCBI nr
Match: gi|659125710|ref|XP_008462821.1| (PREDICTED: benzyl alcohol O-benzoyltransferase-like [Cucumis melo])

HSP 1 Score: 325.5 bits (833), Expect = 9.1e-86
Identity = 154/246 (62.60%), Postives = 192/246 (78.05%), Query Frame = 1 

Query: 24  ITYRHYQYDQVVNSKGIISLINNMVDCFFFFSPLQISTLRQTLPTHLRDCSTFELIIAYV 83
           IT+RHY+YDQVV+ K  +  +N+ +D  FFFS LQISTLRQTLP HL DC +FE++ AYV
Sbjct: 212 ITFRHYEYDQVVDMKSGLIPVNSKIDQLFFFSQLQISTLRQTLPAHLHDCPSFEVLTAYV 271

Query: 84  WRLRTIALQLSPDEELRFLCFVNLRSKFNLPLRYYGNVLFVPATLTTSAKLCGNPLGYVV 143
           WRLRTIALQ  P+EE+RFLC +NLRSK ++PL YYGN + VPA +TT+AKLCGNPLGY V
Sbjct: 272 WRLRTIALQFKPEEEVRFLCVMNLRSKIDIPLGYYGNAVVVPAVITTAAKLCGNPLGYAV 331

Query: 144 ELIRKAKATTTKEYIRFMMDLLVIKGQPSFTADGSYTISNLTRVGFGEVDFGRGKIICGG 203
           +LIRKAKA  T EYI+  +DL+VIKG+P FT  GS+ +S+LTR+G   VDFG GK I GG
Sbjct: 332 DLIRKAKAKATMEYIKSTVDLMVIKGRPYFTVVGSFMMSDLTRIGVENVDFGWGKAIFGG 391

Query: 204 PITGKSGMIPGMISFCIPFMNKKGEKGIVVPLCLPAPAIDRFIENVQASLQVKQMADEID 263
           P T  + +  G++SFC+PFMN+ GEKG  + LCLP PA++RF  NV ASLQVKQ+ D +D
Sbjct: 392 PTTTGARITRGLVSFCVPFMNRNGEKGTALSLCLPPPAMERFRANVHASLQVKQVVDAVD 451

Query: 264 SHKQTI 270
           SH QTI
Sbjct: 452 SHMQTI 457

The following BLAST results are available for this feature:
BLAST of Lsi10G002030 vs. Swiss-Prot
Match NameE-valueIdentityDescription
BEBT_TOBAC1.6e-6650.63Benzyl alcohol O-benzoyltransferase OS=Nicotiana tabacum GN=HSR201 PE=1 SV=1[more]
BEBT_CLABR4.5e-6147.35Benzyl alcohol O-benzoyltransferase OS=Clarkia breweri PE=1 SV=1[more]
ACMAT_VITLA2.9e-5245.02Methanol O-anthraniloyltransferase OS=Vitis labrusca GN=AMAT PE=1 SV=1[more]
CHAT_ARATH2.6e-4038.24(Z)-3-hexen-1-ol acetyltransferase OS=Arabidopsis thaliana GN=CHAT PE=1 SV=1[more]
HLTT_LUPAL5.6e-3534.8013-hydroxylupanine O-tigloyltransferase OS=Lupinus albus GN=HMT/HLT PE=1 SV=1[more]
BLAST of Lsi10G002030 vs. TrEMBL
Match NameE-valueIdentityDescription
Q8W3L7_CUCME9.7e-8763.97Alcohol acetyltransferase OS=Cucumis melo GN=GeAAT-1 PE=2 SV=1[more]
Q8SA67_CUCME9.7e-8763.97Putative acyltransferase OS=Cucumis melo GN=AT2 PE=2 SV=1[more]
B1A9J8_CUCME2.8e-8663.56Alcohol acetyltransferase OS=Cucumis melo GN=AAT PE=2 SV=1[more]
P93094_CUCME6.3e-8662.60Putative uncharacterized protein (Fragment) OS=Cucumis melo PE=2 SV=1[more]
A0A0A0LN52_CUCSA7.0e-8563.16Uncharacterized protein OS=Cucumis sativus GN=Csa_2G429070 PE=4 SV=1[more]
BLAST of Lsi10G002030 vs. TAIR10
Match NameE-valueIdentityDescription
AT5G17540.13.8e-4237.74 HXXXD-type acyl-transferase family protein[more]
AT3G03480.11.5e-4138.24 acetyl CoA:(Z)-3-hexen-1-ol acetyltransferase[more]
AT5G41040.11.0e-1828.70 HXXXD-type acyl-transferase family protein[more]
AT3G48720.11.8e-1526.84 HXXXD-type acyl-transferase family protein[more]
AT5G63560.12.0e-1427.81 HXXXD-type acyl-transferase family protein[more]
BLAST of Lsi10G002030 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|17351914|dbj|BAB78588.1|1.4e-8663.97alcohol acetyltransferase [Cucumis melo][more]
gi|18652312|gb|AAL77060.1|AF468022_11.4e-8663.97putative acyltransferase [Cucumis melo][more]
gi|661902804|ref|NP_001284403.1|4.1e-8663.56benzyl alcohol O-benzoyltransferase-like [Cucumis melo][more]
gi|1843440|emb|CAA94432.1|9.1e-8662.60unknown [Cucumis melo][more]
gi|659125710|ref|XP_008462821.1|9.1e-8662.60PREDICTED: benzyl alcohol O-benzoyltransferase-like [Cucumis melo][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0016747transferase activity, transferring acyl groups other than amino-acyl groups
Vocabulary: INTERPRO
TermDefinition
IPR023213CAT-like_dom_sf
IPR003480Transferase
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008150 biological_process
cellular_component GO:0005575 cellular_component
molecular_function GO:0016747 transferase activity, transferring acyl groups other than amino-acyl groups
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Lsi10G002030.1Lsi10G002030.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003480TransferasePFAMPF02458Transferasecoord: 74..249
score: 2.2
IPR023213Chloramphenicol acetyltransferase-like domainGENE3DG3DSA:3.30.559.10coord: 46..250
score: 5.1
NoneNo IPR availablePANTHERPTHR31642FAMILY NOT NAMEDcoord: 24..254
score: 3.8
NoneNo IPR availablePANTHERPTHR31642:SF9(Z)-3-HEXEN-1-OL ACETYLTRANSFERASEcoord: 24..254
score: 3.8

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Lsi10G002030Bhi10G001207Wax gourdlsiwgoB069
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Lsi10G002030Cucumber (Chinese Long) v3cuclsiB105
Lsi10G002030Watermelon (97103) v2lsiwmbB054
Lsi10G002030Cucumber (Gy14) v1cgylsiB071
Lsi10G002030Cucurbita maxima (Rimu)cmalsiB507
Lsi10G002030Cucurbita maxima (Rimu)cmalsiB548
Lsi10G002030Cucurbita moschata (Rifu)cmolsiB491
Lsi10G002030Cucurbita moschata (Rifu)cmolsiB533
Lsi10G002030Cucurbita pepo (Zucchini)cpelsiB220
Lsi10G002030Cucurbita pepo (Zucchini)cpelsiB589
Lsi10G002030Wild cucumber (PI 183967)cpilsiB092
Lsi10G002030Cucumber (Chinese Long) v2culsiB094
Lsi10G002030Melon (DHL92) v3.5.1lsimeB053
Lsi10G002030Watermelon (Charleston Gray)lsiwcgB055
Lsi10G002030Watermelon (97103) v1lsiwmB068
Lsi10G002030Cucumber (Gy14) v2cgyblsiB087
Lsi10G002030Melon (DHL92) v3.6.1lsimedB054
Lsi10G002030Silver-seed gourdcarlsiB870