Lsi11G009370 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi11G009370
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionLecithin:cholesterol acyltransferase 3
Locationchr11 : 13772090 .. 13792320 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AAAAAAATTGTTTTAAATAAAAAATAATTAAACTATTTACTAATATAGCAAAAAACATACATTAAAATGAGTAAACTTTTTGCTATATTTGTAAATAATTTTATTATTTTATTATTTACCAAAAAAAACCCCTAAAAATGACCTAAATCAAACATAATTTAAAAATTCAACCGTACCAAATACGGTTTCTACACCTTCTACAAAAAAATCACTTTCTTCTTCATTCTTCCACCCGTCTCCATCTCAGAGGAGCTTCTAGTAACCAGCATCCAAATTCACAGCCTCCTTCAGCTTAGCTGAACAGAAAGAAGCTCACTTCACTTCTGGGAGCCATGCTTGGAGGAGGCGGAAGAGGATTTCTCCCTCTTCCATGTTTCGGGTCCCGAAAGCCCGAATCCGAACCCGATCGCGACCCGGTCCTGCTCGTCACCGGCATTGGGGGCTCCATTATTCACGCCAAGAACAAGAAATTCTTCGGCTTACAGACCCGTGTATGGGTACGAATCTTCTTGTCCGACCTAATGTTTCGTGAGAAGCTCATTTCCCTCTACAATCCCGACACAGGCTATACAGAATGTGTGGATGATAACATTGAAATTTTGGTCCCTGGTGATGATGATGGCCTGTATGCGATTGATATTTTAGATCCATCTGCGGTGGTAAAATGCCTCCATGTGGATGATGTGTATCATTTTCATGACATGATCGACATGCTTGTTGGATGTGGGTACAAGAAGGGAACCACGTTGTTCGGTTTTGGTTATGACTTCCGGCAGAGTAATCGAATTGGCAAGGCTATGGATGGTCTTAAAGCGAAGTTGGAAACTGTCAGTAAAGCTTCTGGTGGTAGAAAATTGGTTGAATGTCCTTCAATTTATGAGATGCTGGCAAATCTAGGATTCAATTGGCATGCGCAACCACAGATCCAAGTTTGGCAAAAGAGTTCTGTAGATGGGAAAACTTCTGTTGATTTGAAGTCGTATGGACCAACTGACAGTATTGCTTTGTTCGAAGAAGCATTAAGAAATAATGAGATAAAATTTCATGGAAAGACCATTCCTCTGCCTTTCAACTTTGATATTCTCAAATGGGCTACTGGTACTCGCCAAGTAATTGATAGTGCAAGACTACCAGATGGAATCTCCTTCTATAATATTTATGGAACATCAATTGATACACCTTTTGATGTGTGCTATGGCACAGAGTCATTGCCGATTGAGGACTTGTCTGAAATCTGCCAAACTCTGGATGTTAAATTTATCTTCATTACCCCAGTTTCTCCTTGGAATGCAACCGTAATT

Coding sequence (CDS)

ATGCTTGGAGGAGGCGGAAGAGGATTTCTCCCTCTTCCATGTTTCGGGTCCCGAAAGCCCGAATCCGAACCCGATCGCGACCCGGTCCTGCTCGTCACCGGCATTGGGGGCTCCATTATTCACGCCAAGAACAAGAAATTCTTCGGCTTACAGACCCGTGTATGGGTACGAATCTTCTTGTCCGACCTAATGTTTCGTGAGAAGCTCATTTCCCTCTACAATCCCGACACAGGCTATACAGAATGTGTGGATGATAACATTGAAATTTTGGTCCCTGGTGATGATGATGGCCTGTATGCGATTGATATTTTAGATCCATCTGCGGTGGTAAAATGCCTCCATGTGGATGATGTGTATCATTTTCATGACATGATCGACATGCTTGTTGGATGTGGGTACAAGAAGGGAACCACGTTGTTCGGTTTTGGTTATGACTTCCGGCAGAGTAATCGAATTGGCAAGGCTATGGATGGTCTTAAAGCGAAGTTGGAAACTGTCAGTAAAGCTTCTGGTGGTAGAAAATTGGTTGAATGTCCTTCAATTTATGAGATGCTGGCAAATCTAGGATTCAATTGGCATGCGCAACCACAGATCCAAGTTTGGCAAAAGAGTTCTGTAGATGGGAAAACTTCTGTTGATTTGAAGTCGTATGGACCAACTGACAGTATTGCTTTGTTCGAAGAAGCATTAAGAAATAATGAGATAAAATTTCATGGAAAGACCATTCCTCTGCCTTTCAACTTTGATATTCTCAAATGGGCTACTGGTACTCGCCAAGTAATTGATAGTGCAAGACTACCAGATGGAATCTCCTTCTATAATATTTATGGAACATCAATTGATACACCTTTTGATGTGTGCTATGGCACAGAGTCATTGCCGATTGAGGACTTGTCTGAAATCTGCCAAACTCTGGATGTTAAATTTATCTTCATTACCCCAGTTTCTCCTTGGAATGCAACCGTAATT

Protein sequence

MLGGGGRGFLPLPCFGSRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKLVECPSIYEMLANLGFNWHAQPQIQVWQKSSVDGKTSVDLKSYGPTDSIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDSARLPDGISFYNIYGTSIDTPFDVCYGTESLPIEDLSEICQTLDVKFIFITPVSPWNATVI
Homology
[Close]
BLAST of Lsi11G009370 vs. Swiss-Prot
Match: LCAT3_ARATH (Phospholipase A(1) LCAT3 OS=Arabidopsis thaliana GN=LCAT3 PE=1 SV=1)

HSP 1 Score: 233.0 bits (593), Expect = 4.5e-60
Identity = 115/171 (67.25%), Postives = 136/171 (79.53%), Query Frame = 1 

Query: 8   GFLPLPCFGSRKPESE---PDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLM 67
           G++P PC+G+   E+     DRDPVLLV+GIGGSI+H+K KK    + RVWVRIFL++L 
Sbjct: 2   GWIPCPCWGTNDDENAGEVADRDPVLLVSGIGGSILHSK-KKNSKSEIRVWVRIFLANLA 61

Query: 68  FREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDM 127
           F++ L SLYNP TGYTE +DDNIE+LVP DD GLYAIDILDPS  VK  H+ +VYHFHDM
Sbjct: 62  FKQSLWSLYNPKTGYTEPLDDNIEVLVPDDDHGLYAIDILDPSWFVKLCHLTEVYHFHDM 121

Query: 128 IDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
           I+MLVGCGYKKGTTLFG+GYDFRQSNRI   + GLK KLET  K SGGRK+
Sbjct: 122 IEMLVGCGYKKGTTLFGYGYDFRQSNRIDLLILGLKKKLETAYKRSGGRKV 171

[Close]
BLAST of Lsi11G009370 vs. Swiss-Prot
Match: LCAT4_ARATH (Lecithin-cholesterol acyltransferase-like 4 OS=Arabidopsis thaliana GN=LCAT4 PE=1 SV=1)

HSP 1 Score: 151.8 bits (382), Expect = 1.3e-35
Identity = 78/159 (49.06%), Postives = 111/159 (69.81%), Query Frame = 1 

Query: 17  SRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISLYNPD 76
           +++P  +P+ +PVLLV GI GSI++A + +  G + RVWVRIF +D  FR K+ S ++P 
Sbjct: 22  NQEPYVDPNLNPVLLVPGIAGSILNAVDHEN-GNEERVWVRIFGADHEFRTKMWSRFDPS 81

Query: 77  TGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCGYKKG 136
           TG T  +D    I+VP D  GL+AID+LDP  +V     + VY+FH+MI  ++G G+++G
Sbjct: 82  TGKTISLDPKTSIVVPQDRAGLHAIDVLDPDMIVGR---ESVYYFHEMIVEMIGWGFEEG 141

Query: 137 TTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
            TLFGFGYDFRQSNR+ + +D    KLETV KASG +K+
Sbjct: 142 KTLFGFGYDFRQSNRLQETLDQFAKKLETVYKASGEKKI 176

[Close]
BLAST of Lsi11G009370 vs. TrEMBL
Match: W9REW4_9ROSA (Phospholipase A(1) LCAT3 OS=Morus notabilis GN=L484_005588 PE=4 SV=1)

HSP 1 Score: 411.8 bits (1057), Expect = 7.9e-112
Identity = 201/338 (59.47%), Postives = 242/338 (71.60%), Query Frame = 1 

Query: 13  PCFGSRKP--ESEPDRDPVLLVTGIGGSIIHAKNKKF-FGLQTRVWVRIFLSDLMFREKL 72
           PCFG+ +   +++ D DPVLLVTG+GGSII++K K      +TRVWVRIFL+DL FR+K 
Sbjct: 9   PCFGNNRSSDDADVDLDPVLLVTGMGGSIINSKCKALGISFETRVWVRIFLADLEFRKKA 68

Query: 73  ISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLV 132
           +S+YNP TGYTE ++ + E++VP DD GLYAIDILDPS+VVKCLHV ++YHFHDMIDMLV
Sbjct: 69  LSVYNPKTGYTEAIEKDTEVVVPDDDYGLYAIDILDPSSVVKCLHVTEIYHFHDMIDMLV 128

Query: 133 GCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRK--------------- 192
            CGYKKG TLFG+GYDFRQS RI K MDGLK KLE+  KASGGR+               
Sbjct: 129 KCGYKKGATLFGYGYDFRQSIRIDKLMDGLKTKLESAYKASGGRQVSIITHSMGGAPGSI 188

Query: 193 ----------------------------LVECPSIYEMLANLGFNWHAQPQIQVWQKSSV 252
                                       L+ECPSIYEMLAN  FNW  QPQI VW+K S 
Sbjct: 189 NDSLLTGLQFVEGFESFFFVSRWSMHQLLIECPSIYEMLANPEFNWKKQPQIHVWRKKSK 248

Query: 253 DGKTSVDLKSYGPTDSIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDSARL 305
            G+TSV+L++Y  T+ I LFEEALRNNE+++ G  I LPFNF ILKWA GTRQV++ A+L
Sbjct: 249 GGETSVELENYDSTECITLFEEALRNNELEYDGNKIALPFNFAILKWAAGTRQVLNKAKL 308

[Close]
BLAST of Lsi11G009370 vs. TrEMBL
Match: A0A0D9XFJ8_9ORYZ (Uncharacterized protein OS=Leersia perrieri PE=4 SV=1)

HSP 1 Score: 362.1 bits (928), Expect = 7.2e-97
Identity = 181/342 (52.92%), Postives = 226/342 (66.08%), Query Frame = 1 

Query: 16  GSRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISLYNP 75
           G  + E E  R+ V+LV+G+GGS++HA+ +       RVWVRI  ++  F++ L SLYNP
Sbjct: 38  GGGEEEEEGGREAVVLVSGMGGSVLHARRRSNPRFDLRVWVRILAANAEFKKYLWSLYNP 97

Query: 76  DTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCGYKK 135
           DTGY E +DD++EI+VP DD GL+AIDILDPS  V+ LH+  VYHFHDMIDML+ CGYKK
Sbjct: 98  DTGYVEPLDDDVEIVVPEDDHGLFAIDILDPSWFVEILHLSMVYHFHDMIDMLIDCGYKK 157

Query: 136 GTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRK--------------------- 195
           GTTLFG+GYDFRQSNRI K M GL+AKLET  KASGG+K                     
Sbjct: 158 GTTLFGYGYDFRQSNRIDKVMVGLQAKLETAYKASGGKKIFAKYVNKWICIACPFQGAPG 217

Query: 196 ------------------------------LVECPSIYEMLANLGFNWHAQPQIQVWQKS 255
                                         LVECPSIYEML N  F W   P +QVW+K+
Sbjct: 218 CINDSLLTGLQFVYGFESFFFVSRWVMHQLLVECPSIYEMLPNPKFKWKEAPIVQVWRKN 277

Query: 256 -SVDGKTSVDLKSYGPTDSIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDS 306
              DG   V+L  Y  TD ++LFEEALRNNE+K++GKT+ LPFN  + KWAT TR+++D+
Sbjct: 278 PEKDG--VVELVLYEATDCVSLFEEALRNNELKYNGKTVALPFNMSVFKWATETRRILDN 337

[Close]
BLAST of Lsi11G009370 vs. TrEMBL
Match: A0A0A0LHR5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G093800 PE=4 SV=1)

HSP 1 Score: 323.2 bits (827), Expect = 3.7e-85
Identity = 152/175 (86.86%), Postives = 164/175 (93.71%), Query Frame = 1 

Query: 1   MLGGGGRGFLPLPCFGSRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFL 60
           M+GGGG   L LPCFGSRK E EPDRDPVLLV+GIGGSI+H+KNKK FGLQTRVWVR+FL
Sbjct: 1   MVGGGG--LLSLPCFGSRKSEPEPDRDPVLLVSGIGGSILHSKNKKLFGLQTRVWVRVFL 60

Query: 61  SDLMFREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYH 120
           SD++FR+ LIS+YNP TGYTECVDDNIEILVP DDDGLYAIDILDPS++VKCLHVDDVYH
Sbjct: 61  SDIVFRQNLISIYNPHTGYTECVDDNIEILVPDDDDGLYAIDILDPSSMVKCLHVDDVYH 120

Query: 121 FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
           FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLET SKASGGRK+
Sbjct: 121 FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETASKASGGRKV 173

[Close]
BLAST of Lsi11G009370 vs. TrEMBL
Match: A0A103Y8B1_CYNCS (Lecithin:cholesterol/phospholipid:diacylglycerol acyltransferase OS=Cynara cardunculus var. scolymus GN=Ccrd_017330 PE=4 SV=1)

HSP 1 Score: 320.1 bits (819), Expect = 3.1e-84
Identity = 167/322 (51.86%), Postives = 214/322 (66.46%), Query Frame = 1 

Query: 14  CFGSRKPESE-PDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISL 73
           CF  R    +  D DP+LLV+G+GG+I+++K K +FGL TRVWVRI L+DL FR+++ SL
Sbjct: 8   CFSDRSSGDDVADLDPILLVSGVGGTILNSKPKSWFGLTTRVWVRILLADLEFRKRVWSL 67

Query: 74  YNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCG 133
           YNPDTGYTE +DD+ +I+VP DD GLYAIDILDPS  +KCLH+ DVYHFHDMIDMLV CG
Sbjct: 68  YNPDTGYTEALDDSSDIVVPQDDYGLYAIDILDPSFWIKCLHMTDVYHFHDMIDMLVKCG 127

Query: 134 YKKGTTLFGFGYDF--------------RQSNRIGKAMDGLKAK------------LET- 193
           YKKGTTL     D               R+ N I  +M GL               LE+ 
Sbjct: 128 YKKGTTLIDQAMDGLKEKLETAYKAAGGRKVNLISHSMGGLLVSCFISLHSDFVEGLESY 187

Query: 194 --VSKASGGRKLVECPSIYEMLANLGFNWHAQPQIQVWQKSSVDGKTSVDLKSYGPTDSI 253
             VS+ S  + LVECPSIYEML N  F W  QP+I VW+  S +G+ SV L+SY P+ S+
Sbjct: 188 FFVSRWSMHQLLVECPSIYEMLPNPEFKWKKQPKIVVWRNYSENGEDSVKLESYDPSGSL 247

Query: 254 ALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDSARLPDGISFYNIYGTSIDTP 306
                       +++ KTIPLPFN  I  WA+ TR ++++ +LP GI+FYNIYGTS++TP
Sbjct: 248 ------------EYNKKTIPLPFNSSIYAWASSTRDMLNNVQLPLGIAFYNIYGTSMETP 307

[Close]
BLAST of Lsi11G009370 vs. TrEMBL
Match: M7YYF4_TRIUA (Phospholipase A(1) LCAT3 OS=Triticum urartu GN=TRIUR3_07992 PE=4 SV=1)

HSP 1 Score: 279.3 bits (713), Expect = 6.1e-72
Identity = 144/292 (49.32%), Postives = 184/292 (63.01%), Query Frame = 1 

Query: 38  SIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISLYNPDTGYTECVDDNIEILVPGDDDG 97
           S++HA+ +       RVWVRI L+DL F++ L SLYN  TGY E +DD++EI+VP DD G
Sbjct: 7   SVLHARRRSDTKFDLRVWVRILLADLEFKKYLWSLYNAQTGYVESLDDDVEIVVPDDDHG 66

Query: 98  LYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMD 157
           L+AID+LDPS  V+ LH+  VYHFHDMIDML+ CGY+KGTTLFG+GYDFRQSNRI KAM 
Sbjct: 67  LFAIDVLDPSWFVELLHLTMVYHFHDMIDMLLDCGYEKGTTLFGYGYDFRQSNRIDKAMA 126

Query: 158 GLKAKLETVSKASGGRK------------------------------------------- 217
           GL+AKLET  KASGG+K                                           
Sbjct: 127 GLRAKLETAYKASGGKKIFSKYVNKWICIACPFQGAPGCINDSLLTGLQFVYGFESFFFV 186

Query: 218 --------LVECPSIYEMLANLGFNWHAQPQIQVWQKS-SVDGKTSVDLKSYGPTDSIAL 277
                   LVECPSIYEML N  F W  +P +QVW+K+   DG  +V+L  Y  TD ++L
Sbjct: 187 SRWAMHQLLVECPSIYEMLPNPNFEWKEKPFVQVWRKNPEKDG--TVELVLYEATDCVSL 246

[Close]
BLAST of Lsi11G009370 vs. TAIR10
Match: AT3G03310.1 (AT3G03310.1 lecithin:cholesterol acyltransferase 3)

HSP 1 Score: 233.0 bits (593), Expect = 2.5e-61
Identity = 115/171 (67.25%), Postives = 136/171 (79.53%), Query Frame = 1 

Query: 8   GFLPLPCFGSRKPESE---PDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLM 67
           G++P PC+G+   E+     DRDPVLLV+GIGGSI+H+K KK    + RVWVRIFL++L 
Sbjct: 2   GWIPCPCWGTNDDENAGEVADRDPVLLVSGIGGSILHSK-KKNSKSEIRVWVRIFLANLA 61

Query: 68  FREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDM 127
           F++ L SLYNP TGYTE +DDNIE+LVP DD GLYAIDILDPS  VK  H+ +VYHFHDM
Sbjct: 62  FKQSLWSLYNPKTGYTEPLDDNIEVLVPDDDHGLYAIDILDPSWFVKLCHLTEVYHFHDM 121

Query: 128 IDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
           I+MLVGCGYKKGTTLFG+GYDFRQSNRI   + GLK KLET  K SGGRK+
Sbjct: 122 IEMLVGCGYKKGTTLFGYGYDFRQSNRIDLLILGLKKKLETAYKRSGGRKV 171

[Close]
BLAST of Lsi11G009370 vs. TAIR10
Match: AT4G19860.1 (AT4G19860.1 alpha/beta-Hydrolases superfamily protein)

HSP 1 Score: 151.8 bits (382), Expect = 7.4e-37
Identity = 78/159 (49.06%), Postives = 111/159 (69.81%), Query Frame = 1 

Query: 17  SRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLISLYNPD 76
           +++P  +P+ +PVLLV GI GSI++A + +  G + RVWVRIF +D  FR K+ S ++P 
Sbjct: 22  NQEPYVDPNLNPVLLVPGIAGSILNAVDHEN-GNEERVWVRIFGADHEFRTKMWSRFDPS 81

Query: 77  TGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGCGYKKG 136
           TG T  +D    I+VP D  GL+AID+LDP  +V     + VY+FH+MI  ++G G+++G
Sbjct: 82  TGKTISLDPKTSIVVPQDRAGLHAIDVLDPDMIVGR---ESVYYFHEMIVEMIGWGFEEG 141

Query: 137 TTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
            TLFGFGYDFRQSNR+ + +D    KLETV KASG +K+
Sbjct: 142 KTLFGFGYDFRQSNRLQETLDQFAKKLETVYKASGEKKI 176

[Close]
BLAST of Lsi11G009370 vs. TAIR10
Match: AT3G03370.2 (AT3G03370.2 FUNCTIONS IN: molecular_function unknown)

HSP 1 Score: 53.5 bits (127), Expect = 2.8e-07
Identity = 28/50 (56.00%), Postives = 35/50 (70.00%), Query Frame = 1 

Query: 79  YTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDML 129
           YTE +DDNIE+LVP DD GLYAIDILDPS  V     +D+    D++ +L
Sbjct: 13  YTEPLDDNIEVLVPDDDHGLYAIDILDPSWKVA---NEDISGLGDLVSVL 59

[Close]
BLAST of Lsi11G009370 vs. NCBI nr
Match: gi|703116854|ref|XP_010101239.1| (Phospholipase A(1) LCAT3 [Morus notabilis])

HSP 1 Score: 411.8 bits (1057), Expect = 1.1e-111
Identity = 201/338 (59.47%), Postives = 242/338 (71.60%), Query Frame = 1 

Query: 13  PCFGSRKP--ESEPDRDPVLLVTGIGGSIIHAKNKKF-FGLQTRVWVRIFLSDLMFREKL 72
           PCFG+ +   +++ D DPVLLVTG+GGSII++K K      +TRVWVRIFL+DL FR+K 
Sbjct: 9   PCFGNNRSSDDADVDLDPVLLVTGMGGSIINSKCKALGISFETRVWVRIFLADLEFRKKA 68

Query: 73  ISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLV 132
           +S+YNP TGYTE ++ + E++VP DD GLYAIDILDPS+VVKCLHV ++YHFHDMIDMLV
Sbjct: 69  LSVYNPKTGYTEAIEKDTEVVVPDDDYGLYAIDILDPSSVVKCLHVTEIYHFHDMIDMLV 128

Query: 133 GCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRK--------------- 192
            CGYKKG TLFG+GYDFRQS RI K MDGLK KLE+  KASGGR+               
Sbjct: 129 KCGYKKGATLFGYGYDFRQSIRIDKLMDGLKTKLESAYKASGGRQVSIITHSMGGAPGSI 188

Query: 193 ----------------------------LVECPSIYEMLANLGFNWHAQPQIQVWQKSSV 252
                                       L+ECPSIYEMLAN  FNW  QPQI VW+K S 
Sbjct: 189 NDSLLTGLQFVEGFESFFFVSRWSMHQLLIECPSIYEMLANPEFNWKKQPQIHVWRKKSK 248

Query: 253 DGKTSVDLKSYGPTDSIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDSARL 305
            G+TSV+L++Y  T+ I LFEEALRNNE+++ G  I LPFNF ILKWA GTRQV++ A+L
Sbjct: 249 GGETSVELENYDSTECITLFEEALRNNELEYDGNKIALPFNFAILKWAAGTRQVLNKAKL 308

[Close]
BLAST of Lsi11G009370 vs. NCBI nr
Match: gi|6017116|gb|AAF01599.1|AC009895_20 (unknown protein [Arabidopsis thaliana])

HSP 1 Score: 393.3 bits (1009), Expect = 4.2e-106
Identity = 196/324 (60.49%), Postives = 240/324 (74.07%), Query Frame = 1 

Query: 8   GFLPLPCFGSRKPESE---PDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLM 67
           G++P PC+G+   E+     DRDPVLLV+GIGGSI+H+K KK    + RVWVRIFL++L 
Sbjct: 2   GWIPCPCWGTNDDENAGEVADRDPVLLVSGIGGSILHSK-KKNSKSEIRVWVRIFLANLA 61

Query: 68  FREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDM 127
           F++ L SLYNP TGYTE +DDNIE+LVP DD GLYAIDILDPS +    H+ +VYHFHDM
Sbjct: 62  FKQSLWSLYNPKTGYTEPLDDNIEVLVPDDDHGLYAIDILDPSWL---CHLTEVYHFHDM 121

Query: 128 IDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRK---------- 187
           I+MLVGCGYKKGTTLFG+GYDFRQSNRI   + GLK KLET  K SGGRK          
Sbjct: 122 IEMLVGCGYKKGTTLFGYGYDFRQSNRIDLLILGLKKKLETAYKRSGGRKVTIISHSMGG 181

Query: 188 ------------LVECPSIYEMLANLGFNWHAQPQIQVWQKSSV-DGKTSVDLKSYGPTD 247
                       LVECPSIYEM+AN  F W  QP+I+VW+K S  D  TSV+L+S+G  +
Sbjct: 182 LMVSCFMYLHPELVECPSIYEMMANPDFKWKKQPEIRVWRKKSENDVDTSVELESFGLIE 241

Query: 248 SIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQVIDSARLPDGISFYNIYGTSID 306
           SI LF +AL+NNE+ + G  I LPFNF IL WA  TR++++ A+LPDG+SFYNIYG S++
Sbjct: 242 SIDLFNDALKNNELSYGGNKIALPFNFAILDWAAKTREILNKAQLPDGVSFYNIYGVSLN 301

[Close]
BLAST of Lsi11G009370 vs. NCBI nr
Match: gi|802724659|ref|XP_012085804.1| (PREDICTED: phospholipase A(1) LCAT3 isoform X2 [Jatropha curcas])

HSP 1 Score: 355.5 bits (911), Expect = 9.6e-95
Identity = 182/345 (52.75%), Postives = 226/345 (65.51%), Query Frame = 1 

Query: 13  PCFGSRKP-ESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLIS 72
           PCFGS    +SEPDRDP+LLV+GIGGSI+++K+KKF G  TRVWVRI L+D  F++++ S
Sbjct: 9   PCFGSPNAVDSEPDRDPILLVSGIGGSILNSKSKKF-GFSTRVWVRILLADYEFKKRIWS 68

Query: 73  LYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGC 132
           LYNP TG TE +DD+ E+ VP DD GLYAIDILDPS  VKC+H+ +VYHFHDMI+M + C
Sbjct: 69  LYNPKTGCTEVLDDSTELEVPDDDYGLYAIDILDPSWFVKCMHLTEVYHFHDMINMFIKC 128

Query: 133 GYKKGTTLFGF-----------------------GYDFRQSNRI---------------- 192
           GYKKGTTLFG                         Y      ++                
Sbjct: 129 GYKKGTTLFGHGYDFRQSNRIDKLMEGLKSKLETAYQASGHRKVFSKLVNKWICIATPFQ 188

Query: 193 ---GKAMDGLKAKLETV---------SKASGGRKLVECPSIYEMLANLGFNWHAQPQIQV 252
              G   D L   L+ V         S+ +  + LVECPSIYEMLAN  FNW  QPQIQV
Sbjct: 189 GAPGCINDSLLTGLQFVEGFESYFFVSRWTMHQLLVECPSIYEMLANPYFNWKRQPQIQV 248

Query: 253 WQKSSVDGKTSVDLKSYGPTDSIALFEEALRNNEIKFHGKTIPLPFNFDILKWATGTRQV 306
           W++ S   +TS++L+SYGP DSI  F+EAL+NNE+ + G T  LPFNF ILKWA GTRQ+
Sbjct: 249 WREQSDGDETSIELESYGPLDSITFFQEALKNNELTYDGNTFALPFNFSILKWAAGTRQI 308

[Close]
BLAST of Lsi11G009370 vs. NCBI nr
Match: gi|828299235|ref|XP_012569160.1| (PREDICTED: phospholipase A(1) LCAT3 isoform X2 [Cicer arietinum])

HSP 1 Score: 341.3 bits (874), Expect = 1.9e-90
Identity = 176/307 (57.33%), Postives = 211/307 (68.73%), Query Frame = 1 

Query: 13  PCFGSRKPESE-PDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFLSDLMFREKLIS 72
           PCFG    E    DRDPVLLV+G+GGSI+H+K KKF G  +RVWVRIFL+DL FR+K+ S
Sbjct: 5   PCFGDEGSEKPLADRDPVLLVSGMGGSILHSKPKKF-GFTSRVWVRIFLADLEFRKKIWS 64

Query: 73  LYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYHFHDMIDMLVGC 132
           LYNP TGYTE +D   +I+VP DD GLYAIDILDPS  VKC+H+ +VYHFHDMIDMLVGC
Sbjct: 65  LYNPQTGYTEALDKKSDIVVPDDDHGLYAIDILDPSWFVKCVHLTEVYHFHDMIDMLVGC 124

Query: 133 GYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRK-----------LVEC-P 192
           GY KGTTLFG+GYDFRQSNR+ K MDGLK KLET  KASGGRK           ++ C  
Sbjct: 125 GYVKGTTLFGYGYDFRQSNRVDKLMDGLKLKLETAYKASGGRKVNIISHSMGGVMILCFM 184

Query: 193 SIYEMLANLGFN-WHAQPQIQVWQKSSVDGKTSVDLKSYGPTDSIALFEEALRNNEIKFH 252
           S+Y    +   N W +           ++      L+     +S         +  + ++
Sbjct: 185 SLYRDAFSKYVNKWISLACPFQGAPGCINDSLLTGLEFVEGFESYFFVSRWSFHQLLNYN 244

Query: 253 GKTIPLPFNFDILKWATGTRQVIDSARLPDGISFYNIYGTSIDTPFDVCYGTESLPIEDL 306
           G +I LPFN  ILKWAT TR+VI +A+LPDG+SFYNIYGTS DTPFDVCYG+E  PIEDL
Sbjct: 245 GNSISLPFNLAILKWATETRKVISNAKLPDGVSFYNIYGTSFDTPFDVCYGSEKSPIEDL 304

[Close]
BLAST of Lsi11G009370 vs. NCBI nr
Match: gi|449442247|ref|XP_004138893.1| (PREDICTED: phospholipase A(1) LCAT3 [Cucumis sativus])

HSP 1 Score: 323.2 bits (827), Expect = 5.3e-85
Identity = 152/175 (86.86%), Postives = 164/175 (93.71%), Query Frame = 1 

Query: 1   MLGGGGRGFLPLPCFGSRKPESEPDRDPVLLVTGIGGSIIHAKNKKFFGLQTRVWVRIFL 60
           M+GGGG   L LPCFGSRK E EPDRDPVLLV+GIGGSI+H+KNKK FGLQTRVWVR+FL
Sbjct: 1   MVGGGG--LLSLPCFGSRKSEPEPDRDPVLLVSGIGGSILHSKNKKLFGLQTRVWVRVFL 60

Query: 61  SDLMFREKLISLYNPDTGYTECVDDNIEILVPGDDDGLYAIDILDPSAVVKCLHVDDVYH 120
           SD++FR+ LIS+YNP TGYTECVDDNIEILVP DDDGLYAIDILDPS++VKCLHVDDVYH
Sbjct: 61  SDIVFRQNLISIYNPHTGYTECVDDNIEILVPDDDDGLYAIDILDPSSMVKCLHVDDVYH 120

Query: 121 FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETVSKASGGRKL 176
           FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLET SKASGGRK+
Sbjct: 121 FHDMIDMLVGCGYKKGTTLFGFGYDFRQSNRIGKAMDGLKAKLETASKASGGRKV 173

The following BLAST results are available for this feature:
BLAST of Lsi11G009370 vs. Swiss-Prot
Match NameE-valueIdentityDescription
LCAT3_ARATH4.5e-6067.25Phospholipase A(1) LCAT3 OS=Arabidopsis thaliana GN=LCAT3 PE=1 SV=1[more]
LCAT4_ARATH1.3e-3549.06Lecithin-cholesterol acyltransferase-like 4 OS=Arabidopsis thaliana GN=LCAT4 PE=... [more]
BLAST of Lsi11G009370 vs. TrEMBL
Match NameE-valueIdentityDescription
W9REW4_9ROSA7.9e-11259.47Phospholipase A(1) LCAT3 OS=Morus notabilis GN=L484_005588 PE=4 SV=1[more]
A0A0D9XFJ8_9ORYZ7.2e-9752.92Uncharacterized protein OS=Leersia perrieri PE=4 SV=1[more]
A0A0A0LHR5_CUCSA3.7e-8586.86Uncharacterized protein OS=Cucumis sativus GN=Csa_2G093800 PE=4 SV=1[more]
A0A103Y8B1_CYNCS3.1e-8451.86Lecithin:cholesterol/phospholipid:diacylglycerol acyltransferase OS=Cynara cardu... [more]
M7YYF4_TRIUA6.1e-7249.32Phospholipase A(1) LCAT3 OS=Triticum urartu GN=TRIUR3_07992 PE=4 SV=1[more]
BLAST of Lsi11G009370 vs. TAIR10
Match NameE-valueIdentityDescription
AT3G03310.12.5e-6167.25 lecithin:cholesterol acyltransferase 3[more]
AT4G19860.17.4e-3749.06 alpha/beta-Hydrolases superfamily protein[more]
AT3G03370.22.8e-0756.00 FUNCTIONS IN: molecular_function unknown[more]
BLAST of Lsi11G009370 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|703116854|ref|XP_010101239.1|1.1e-11159.47Phospholipase A(1) LCAT3 [Morus notabilis][more]
gi|6017116|gb|AAF01599.1|AC009895_204.2e-10660.49unknown protein [Arabidopsis thaliana][more]
gi|802724659|ref|XP_012085804.1|9.6e-9552.75PREDICTED: phospholipase A(1) LCAT3 isoform X2 [Jatropha curcas][more]
gi|828299235|ref|XP_012569160.1|1.9e-9057.33PREDICTED: phospholipase A(1) LCAT3 isoform X2 [Cicer arietinum][more]
gi|449442247|ref|XP_004138893.1|5.3e-8586.86PREDICTED: phospholipase A(1) LCAT3 [Cucumis sativus][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0008374O-acyltransferase activity
Vocabulary: Biological Process
TermDefinition
GO:0006629lipid metabolic process
Vocabulary: INTERPRO
TermDefinition
IPR003386LACT/PDAT_acylTrfase
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0042967 acyl-carrier-protein biosynthetic process
biological_process GO:0006629 lipid metabolic process
cellular_component GO:0005575 cellular_component
molecular_function GO:0008374 O-acyltransferase activity
Relationships

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

Feature NameUnique NameType
Lsi11G009370.1Lsi11G009370.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003386Lecithin:cholesterol/phospholipid:diacylglycerol acyltransferasePFAMPF02450LCATcoord: 83..192
score: 5.
NoneNo IPR availablePANTHERPTHR11440LECITHIN-CHOLESTEROL ACYLTRANSFERASE-RELATEDcoord: 8..305
score: 2.5E
NoneNo IPR availablePANTHERPTHR11440:SF53PHOSPHOLIPASE A(1) LCAT3coord: 8..305
score: 2.5E

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Lsi11G009370CmoCh05G008400Cucurbita moschata (Rifu)cmolsiB703
Lsi11G009370Carg26889Silver-seed gourdcarlsiB208
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Lsi11G009370Cucumber (Gy14) v1cgylsiB450
Lsi11G009370Cucurbita maxima (Rimu)cmalsiB709
Lsi11G009370Cucurbita pepo (Zucchini)cpelsiB006
Lsi11G009370Cucurbita pepo (Zucchini)cpelsiB077
Lsi11G009370Wild cucumber (PI 183967)cpilsiB096
Lsi11G009370Cucumber (Chinese Long) v2culsiB098
Lsi11G009370Melon (DHL92) v3.5.1lsimeB115
Lsi11G009370Melon (DHL92) v3.5.1lsimeB117
Lsi11G009370Watermelon (Charleston Gray)lsiwcgB083
Lsi11G009370Watermelon (97103) v1lsiwmB113
Lsi11G009370Cucumber (Gy14) v2cgyblsiB089
Lsi11G009370Melon (DHL92) v3.6.1lsimedB123
Lsi11G009370Melon (DHL92) v3.6.1lsimedB125
Lsi11G009370Cucumber (Chinese Long) v3cuclsiB108
Lsi11G009370Watermelon (97103) v2lsiwmbB078
Lsi11G009370Wax gourdlsiwgoB111