Lcy02g005360 (gene) Sponge gourd (P93075) v1

Overview
NameLcy02g005360
Typegene
OrganismLuffa cylindrica cv. P93075 (Sponge gourd (P93075) v1)
Descriptionpalmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic-like
LocationChr02: 6917319 .. 6951195 (+)
RNA-Seq ExpressionLcy02g005360
SyntenyLcy02g005360
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCCTCTTGCTCCTCAAATGGAGGCAACAAGAAAAGAGCTGGAAGATAAAAATAATGATCAGATGGCTATGGCGGTTGAGGACGAAGCTCCGGTGAGGCTCCGACGAAGGCCGATTTTTCGAAGAAAATGGACAACTCTAGACAAACGTTCTGCTGGTGCTCTTTTGGTTATGCATTTGCTTTGTCTCTTGGCTCCATTTCAGTTCACCTGGCCAGCCTTCTGGCTTGCCTTTGTACTCTATATTATCACAGGCCTGTTCGGTTTGACGCTCTCGTACCACCGACACCTCACGCACAAGAGTTTCAAGCTTCCCAAATGGCTTGAATATACATTTGCTTATATCGGAGTCCATACTCTTCAGGGTGATCCGATCGACTGGGTGAGTACACATAGATATCACCATCAATTTGTCGATACTGAAAGAGATCCACACACTCCGACACAAGGCTTTTGGTTTGGACACATCGCTTGGATATTTGATTCTTATGGTTTGACTAAAAAGGTTTCCCCAAAACACGTTCAAGATTTCGAGGAAAGAGATGAACAACGAAAGCGTTTCAAAAATATTTTTGTGGGATATTTGAAGTATGGAAGACCAAACAATGTGGAAGACTTACAGAAGCAGGCTTTTTATAGGTTTCTTCGAAAAACATACATTCTTCATCATTTTGCTCTTGCACTTGTCCTCTATGCAGCAGGAGGGCTTCCCTTCCTCGTTTGGGGAATGGGTGTGAGGACTGTCTGCTTTCTACATGTCACTTTCTCTTTGAATTCTTTTGGTCACGTGTGGGGAAACCAACCATGGAACACTGGGGATCAGTCCAGAAACAACTGGGTATTGGCGTTACTTATGTTCGGAGAGGGGTGGCATAACAACCACCATGCGTTCGAGTATTCGGCTCGACACGGCCTAGAATGGTGGCAGTTGGACGTAACTTGGTGGGTTATTTTGTTTCTTGAAGCTCTAGGGTTAGCAACGGATTTGAAATTACCCTCTCAAAATCACTTGCAGAAGTTGGCCATTCAACCAAAATGCGAGTGATGATCATAAATGTGTTGATTCTGATCTCTCAACTTTTCTTTCTTTTTATTTCTCAAGTGTGATTAAGAACCTATCCTTTGTTCGATATTGAAGACTTAATTTTATGTTTTTGAAATATTTATGAGGTACAGTACATTTAAAATGTATAGAGAGAACAAAAGAAAAAACTAGAAACTGTCCTCAAGTACATTTATAATTTATATTGTGACCAAATAGTGATACTTGGCTTTGAA

Coding sequence (CDS)

ATGCCTCTTGCTCCTCAAATGGAGGCAACAAGAAAAGAGCTGGAAGATAAAAATAATGATCAGATGGCTATGGCGGTTGAGGACGAAGCTCCGGTGAGGCTCCGACGAAGGCCGATTTTTCGAAGAAAATGGACAACTCTAGACAAACGTTCTGCTGGTGCTCTTTTGGTTATGCATTTGCTTTGTCTCTTGGCTCCATTTCAGTTCACCTGGCCAGCCTTCTGGCTTGCCTTTGTACTCTATATTATCACAGGCCTGTTCGGTTTGACGCTCTCGTACCACCGACACCTCACGCACAAGAGTTTCAAGCTTCCCAAATGGCTTGAATATACATTTGCTTATATCGGAGTCCATACTCTTCAGGGTGATCCGATCGACTGGGTGAGTACACATAGATATCACCATCAATTTGTCGATACTGAAAGAGATCCACACACTCCGACACAAGGCTTTTGGTTTGGACACATCGCTTGGATATTTGATTCTTATGGTTTGACTAAAAAGGTTTCCCCAAAACACGTTCAAGATTTCGAGGAAAGAGATGAACAACGAAAGCGTTTCAAAAATATTTTTGTGGGATATTTGAAGTATGGAAGACCAAACAATGTGGAAGACTTACAGAAGCAGGCTTTTTATAGGTTTCTTCGAAAAACATACATTCTTCATCATTTTGCTCTTGCACTTGTCCTCTATGCAGCAGGAGGGCTTCCCTTCCTCGTTTGGGGAATGGGTGTGAGGACTGTCTGCTTTCTACATGTCACTTTCTCTTTGAATTCTTTTGGTCACGTGTGGGGAAACCAACCATGGAACACTGGGGATCAGTCCAGAAACAACTGGGTATTGGCGTTACTTATGTTCGGAGAGGGGTGGCATAACAACCACCATGCGTTCGAGTATTCGGCTCGACACGGCCTAGAATGGTGGCAGTTGGACGTAACTTGGTGGGTTATTTTGTTTCTTGAAGCTCTAGGGTTAGCAACGGATTTGAAATTACCCTCTCAAAATCACTTGCAGAAGTTGGCCATTCAACCAAAATGCGAGTGA

Protein sequence

MPLAPQMEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE
Homology
BLAST of Lcy02g005360 vs. ExPASy Swiss-Prot
Match: Q949X0 (Palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=ADS3 PE=1 SV=2)

HSP 1 Score: 391.0 bits (1003), Expect = 1.4e-107
Identity = 179/302 (59.27%), Postives = 219/302 (72.52%), Query Frame = 0

Query: 40  FRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTH 99
           + R+W  +D  +   +L MHLL LLAPFQF W A  +AF LYI+TGL G+TLS+HR+L+H
Sbjct: 94  WEREWKAMDFGAVAVVLSMHLLSLLAPFQFNWRAVSVAFGLYIVTGLLGITLSFHRNLSH 153

Query: 100 KSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWI 159
           K+FKLPKWLEY FAY G   LQG+PIDWVSTHRYHHQF D++RDPH+P  GFWF H+ W+
Sbjct: 154 KAFKLPKWLEYLFAYCGAQALQGNPIDWVSTHRYHHQFCDSDRDPHSPLDGFWFSHMNWM 213

Query: 160 FDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTY 219
           FD+  +T++                             G PNNV DL+KQ FYRFLR TY
Sbjct: 214 FDTNTITQRC----------------------------GEPNNVGDLEKQPFYRFLRTTY 273

Query: 220 ILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNW 279
           ILH  ALA+ LYA GG PF+VWGMGVR V   H+T+ +NS  HVWG Q WNTGD S+NNW
Sbjct: 274 ILHPLALAVALYAMGGFPFIVWGMGVRIVWVYHITWLVNSACHVWGKQAWNTGDLSKNNW 333

Query: 280 VLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQK 339
            +A L FGEGWHNNHHAFE+SARHGLEWWQLD+TW+V+ FL+A+GLATD+KLPS+   Q+
Sbjct: 334 WVAALAFGEGWHNNHHAFEFSARHGLEWWQLDMTWYVVKFLQAIGLATDVKLPSEAQKQR 367

Query: 340 LA 342
           +A
Sbjct: 394 MA 367

BLAST of Lcy02g005360 vs. ExPASy Swiss-Prot
Match: P0DOW2 (Acyl-CoA C20 Delta5-desaturase OS=Anemone leveillei OX=212809 GN=AL10 PE=1 SV=1)

HSP 1 Score: 357.5 bits (916), Expect = 1.8e-97
Identity = 164/316 (51.90%), Postives = 218/316 (68.99%), Query Frame = 0

Query: 29  EAPVRLRRRPI-FRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLF 88
           E PV+ + + I + RKW + D      +  +H+LCL AP  F+W +FW+ F LY I G+F
Sbjct: 24  EVPVKEKTKKITWVRKWNSTDVFHILFIGGLHVLCLFAPSTFSWKSFWVCFALYAICGVF 83

Query: 89  GLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTP 148
           G TLS+HR+LTH+SFKLPK+LEY FAY+G+H LQGDP+ WVSTHRYHH++ DT  DPH+P
Sbjct: 84  GTTLSFHRNLTHRSFKLPKYLEYFFAYVGLHALQGDPVWWVSTHRYHHKYTDTYLDPHSP 143

Query: 149 TQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQ 208
            +GFWF HI W+FDS         K++ +                   K GR  N  DL 
Sbjct: 144 IEGFWFCHIFWLFDS---------KYIIE-------------------KCGRYENAGDLM 203

Query: 209 KQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQ 268
           KQ++YRFL +T++ H +  A +LY  GG PF+VWGM VRT+   H+++ +NS  H WGN+
Sbjct: 204 KQSYYRFLERTFVYHVYLQAALLYLFGGFPFIVWGMAVRTILGFHLSWLVNSVCHRWGNR 263

Query: 269 PWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLAT 328
           PWNTGD S NNW +A+L  GEGWHNNHHAFEYSARHG+EWWQ+D TW++I  LE LGLAT
Sbjct: 264 PWNTGDLSTNNWFIAMLTSGEGWHNNHHAFEYSARHGIEWWQIDTTWYIIKLLEYLGLAT 311

Query: 329 DLKLPSQNHLQKLAIQ 344
           D+K+PS+ H +K++ +
Sbjct: 324 DIKVPSEIHKRKMSFK 311

BLAST of Lcy02g005360 vs. ExPASy Swiss-Prot
Match: Q9FV68 (Icosanoyl-CoA 5-desaturase (Fragment) OS=Limnanthes douglasii OX=28973 PE=1 SV=1)

HSP 1 Score: 355.9 bits (912), Expect = 5.1e-97
Identity = 172/325 (52.92%), Postives = 216/325 (66.46%), Query Frame = 0

Query: 17  KNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWL 76
           K  D +      E  +  + +  +RRKW   D ++A  LLV+H L  +APF F+W AFW+
Sbjct: 54  KPKDDLERFRTSEVVLERKAKGFWRRKWNPRDIQNAVTLLVLHALAAMAPFYFSWDAFWI 113

Query: 77  AFVLY-IITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHH 136
           +F+L    +G+ G+TL +HR LTH  FKLPK +EY FAY G   LQGDP++WVS HRYHH
Sbjct: 114 SFILLGFASGVLGITLCFHRCLTHGGFKLPKLVEYFFAYCGSLALQGDPMEWVSNHRYHH 173

Query: 137 QFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYL 196
           QFVDTERD H+PTQGFWF HI W+ D                          K++FV   
Sbjct: 174 QFVDTERDVHSPTQGFWFCHIGWVLD--------------------------KDLFV-EK 233

Query: 197 KYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTF 256
           + GR NNV DL+KQAFYRFL+KTY+ H  AL  +LY  GG P++VWGMG R V   H TF
Sbjct: 234 RGGRRNNVNDLKKQAFYRFLQKTYMYHQLALIALLYYVGGFPYIVWGMGFRLVFMFHSTF 293

Query: 257 SLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWW 316
           ++NS  H WG +PWNTGD S NN  +AL  FGEGWHNNHHAFE SARHGLEWW++DVTW+
Sbjct: 294 AINSVCHKWGGRPWNTGDLSTNNMFVALCAFGEGWHNNHHAFEQSARHGLEWWEIDVTWY 351

Query: 317 VILFLEALGLATDLKLPSQNHLQKL 341
           VI  L+A+GLAT++KLP++   QKL
Sbjct: 354 VIRTLQAIGLATNVKLPTEAQKQKL 351

BLAST of Lcy02g005360 vs. ExPASy Swiss-Prot
Match: O65797 (Delta-9 acyl-lipid desaturase 1 OS=Arabidopsis thaliana OX=3702 GN=ADS1 PE=2 SV=1)

HSP 1 Score: 351.7 bits (901), Expect = 9.7e-96
Identity = 165/330 (50.00%), Postives = 222/330 (67.27%), Query Frame = 0

Query: 15  EDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAF 74
           +++NN +MA    D+A +  ++R ++ RKW  LD   A A L +H LCLLAPF FTWPA 
Sbjct: 8   KEENNKKMA---ADKAEMGRKKRAMWERKWKRLDIVKAFASLFVHFLCLLAPFNFTWPAL 67

Query: 75  WLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYH 134
            +A ++Y + GL G+T+SYHR+L H+SFK+PKWLEY FAY G+  +QGDPIDWVSTHRYH
Sbjct: 68  RVALIVYTVGGL-GITVSYHRNLAHRSFKVPKWLEYFFAYCGLLAIQGDPIDWVSTHRYH 127

Query: 135 HQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGY 194
           HQF D++RDPH+P +GFWF H+ W+FD+                              GY
Sbjct: 128 HQFTDSDRDPHSPNEGFWFSHLLWLFDT------------------------------GY 187

Query: 195 L--KYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLH 254
           L  K GR  NVEDL++Q +Y+FL++T + H      +LY  GGL FL WGMG+      H
Sbjct: 188 LVEKCGRRTNVEDLKRQWYYKFLQRTVLYHILTFGFLLYYFGGLSFLTWGMGIGVAMEHH 247

Query: 255 VTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDV 314
           VT  +NS  HVWG++ W T D SRN W L++  FGE WHNNHHAFE SAR GLEWWQ+D+
Sbjct: 248 VTCLINSLCHVWGSRTWKTNDTSRNVWWLSVFSFGESWHNNHHAFESSARQGLEWWQIDI 303

Query: 315 TWWVILFLEALGLATDLKLPSQNHLQKLAI 343
           +W+++ FLE +GLATD+KLPS++  +++A+
Sbjct: 308 SWYIVRFLEIIGLATDVKLPSESQRRRMAM 303

BLAST of Lcy02g005360 vs. ExPASy Swiss-Prot
Match: P0DOW3 (Acyl-CoA 5-desaturase AL21 OS=Anemone leveillei OX=212809 GN=AL21 PE=1 SV=1)

HSP 1 Score: 348.2 bits (892), Expect = 1.1e-94
Identity = 163/316 (51.58%), Postives = 216/316 (68.35%), Query Frame = 0

Query: 29  EAPVRLRRRPI-FRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLF 88
           + PV+ + + I + R W + D      +  +H+LCL APF F+W AFWL+  LY + G+F
Sbjct: 21  DVPVKDKTKKITWVRVWNSTDIFHIILVGGLHVLCLSAPFTFSWSAFWLSLTLYAVCGVF 80

Query: 89  GLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTP 148
           G TLSYHR+LTH+SFKLPK+LEY FAY+G+H LQGDP+ WVSTHRYHH+F DT  DPH+P
Sbjct: 81  GTTLSYHRNLTHRSFKLPKYLEYFFAYVGLHALQGDPVWWVSTHRYHHKFTDTYLDPHSP 140

Query: 149 TQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQ 208
            +GFWF HI W+FDS         K++ +                   + GR  N  DL 
Sbjct: 141 IEGFWFSHIFWLFDS---------KYILE-------------------ECGRYENAGDLL 200

Query: 209 KQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQ 268
           KQ++YRFL +T++ H +  A +LY  GG PF+VWGM VRTV   H ++ +NS  H +G+Q
Sbjct: 201 KQSYYRFLERTFVFHVYLQAALLYMFGGFPFIVWGMAVRTVWGFHASWLVNSVCHRYGHQ 260

Query: 269 PWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLAT 328
            W+TGD S NNW +A+L  GEGWHNNHHAFEYSARHG+EWWQ+D TW+VI  LE LGLAT
Sbjct: 261 AWDTGDLSTNNWFIAMLTSGEGWHNNHHAFEYSARHGIEWWQIDTTWYVIKLLEYLGLAT 308

Query: 329 DLKLPSQNHLQKLAIQ 344
           D+K+PS+ H +K++ +
Sbjct: 321 DVKVPSEVHKRKMSFK 308

BLAST of Lcy02g005360 vs. ExPASy TrEMBL
Match: A0A6J1DKS5 (acyl-CoA C20 Delta5-desaturase-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111020979 PE=3 SV=1)

HSP 1 Score: 657.5 bits (1695), Expect = 3.0e-185
Identity = 305/347 (87.90%), Postives = 324/347 (93.37%), Query Frame = 0

Query: 1   MPLAPQMEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHL 60
           M LAP+ME TR+ LEDKNNDQ A+  EDEA VR RRRPIFRRKWT+LDKRSAGALLVMHL
Sbjct: 1   MLLAPEMEETRRLLEDKNNDQKAVVGEDEAAVRDRRRPIFRRKWTSLDKRSAGALLVMHL 60

Query: 61  LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTL 120
           LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT 
Sbjct: 61  LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTF 120

Query: 121 QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEER 180
           QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWI+DSYGLTKKV PK+V+DFE R
Sbjct: 121 QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIWDSYGLTKKVCPKYVRDFEVR 180

Query: 181 DEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLV 240
           D +R R +N+FVGYLKYGRPNN EDLQKQAFYRFLR+TYILHH  LA+VLYA GGLPFLV
Sbjct: 181 DGKRSRLRNMFVGYLKYGRPNNAEDLQKQAFYRFLRRTYILHHVGLAVVLYAVGGLPFLV 240

Query: 241 WGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYS 300
           WGMGVRTVCF HVTFS+NS GH+WGNQ WNTGDQSRNNWVLA+L+FGEGWHNNHHAFEYS
Sbjct: 241 WGMGVRTVCFQHVTFSVNSLGHMWGNQQWNTGDQSRNNWVLAMLIFGEGWHNNHHAFEYS 300

Query: 301 ARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           ARHGLEWWQLDVTWWVIL L+ALGLATD+KLPSQNH+QKLAIQPK E
Sbjct: 301 ARHGLEWWQLDVTWWVILLLQALGLATDVKLPSQNHMQKLAIQPKYE 347

BLAST of Lcy02g005360 vs. ExPASy TrEMBL
Match: A0A0A0KTM4 (Delta-9 fatty acid desaturase OS=Cucumis sativus OX=3659 GN=Csa_4G006150 PE=3 SV=1)

HSP 1 Score: 648.3 bits (1671), Expect = 1.8e-182
Identity = 296/341 (86.80%), Postives = 318/341 (93.26%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           MEATRKELEDKN+DQ AMAVED+  VR RRRP FRRKWTTLDKRSAGA LVMH LC+ AP
Sbjct: 1   MEATRKELEDKNSDQKAMAVEDKPRVRSRRRPFFRRKWTTLDKRSAGAFLVMHFLCVFAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLAFVLY+ITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID
Sbjct: 61  FYFTWPAFWLAFVLYVITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDT+RDPHTPTQGF FGHIAWIFDSYGLTKKVSPKHV+DFE +DE+RK 
Sbjct: 121 WVSTHRYHHQFVDTKRDPHTPTQGFLFGHIAWIFDSYGLTKKVSPKHVEDFEAKDEKRKI 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
            +N+FVGYLKYGRPNN EDLQ Q FYRFLR+TYILHHF LA++LYA GGLPFL WGMGVR
Sbjct: 181 SRNMFVGYLKYGRPNNAEDLQNQGFYRFLRRTYILHHFGLAIILYALGGLPFLTWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
           TVCF HVTF++NS GH+WGNQPWNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 TVCFQHVTFAVNSLGHMWGNQPWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQLDVTWWVILFL+A+GLATDLKLPSQ+H+ KLAIQPK +
Sbjct: 301 WWQLDVTWWVILFLQAIGLATDLKLPSQHHMHKLAIQPKSD 341

BLAST of Lcy02g005360 vs. ExPASy TrEMBL
Match: A0A5A7TMC1 (Delta-9 acyl-lipid desaturase 1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold655G001850 PE=3 SV=1)

HSP 1 Score: 646.7 bits (1667), Expect = 5.4e-182
Identity = 298/341 (87.39%), Postives = 315/341 (92.38%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           ME  RKELEDKN+DQ AMAV D+A VR RRRP FRRKWTTLDKRSAGA LVMH LCLLAP
Sbjct: 1   METIRKELEDKNSDQKAMAVGDKARVRSRRRPFFRRKWTTLDKRSAGAFLVMHFLCLLAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLA  LYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID
Sbjct: 61  FYFTWPAFWLAVALYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDTERDPHTPTQGF FGHIAWIFDSYGLTKKV PKHV+DFE +DE+RK 
Sbjct: 121 WVSTHRYHHQFVDTERDPHTPTQGFLFGHIAWIFDSYGLTKKVCPKHVEDFEAKDEKRKS 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
            KN+FVGYLKYGRPNN EDLQKQAFYRFLR+TYILHHF LA++LYA GGLPFL WGMGVR
Sbjct: 181 TKNMFVGYLKYGRPNNAEDLQKQAFYRFLRRTYILHHFGLAIILYAVGGLPFLTWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
           TVCF HVTF++NS GH+WGNQPWNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 TVCFQHVTFAVNSLGHMWGNQPWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQ DVTWWVILFL+ALGLATDLKLPS++H+ KLAIQPK E
Sbjct: 301 WWQFDVTWWVILFLQALGLATDLKLPSKHHMHKLAIQPKSE 341

BLAST of Lcy02g005360 vs. ExPASy TrEMBL
Match: A0A1S3BYV7 (delta-9 acyl-lipid desaturase 1-like OS=Cucumis melo OX=3656 GN=LOC103494690 PE=3 SV=1)

HSP 1 Score: 646.7 bits (1667), Expect = 5.4e-182
Identity = 298/341 (87.39%), Postives = 315/341 (92.38%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           ME  RKELEDKN+DQ AMAV D+A VR RRRP FRRKWTTLDKRSAGA LVMH LCLLAP
Sbjct: 1   METIRKELEDKNSDQKAMAVGDKARVRSRRRPFFRRKWTTLDKRSAGAFLVMHFLCLLAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLA  LYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID
Sbjct: 61  FYFTWPAFWLAVALYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDTERDPHTPTQGF FGHIAWIFDSYGLTKKV PKHV+DFE +DE+RK 
Sbjct: 121 WVSTHRYHHQFVDTERDPHTPTQGFLFGHIAWIFDSYGLTKKVCPKHVEDFEAKDEKRKS 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
            KN+FVGYLKYGRPNN EDLQKQAFYRFLR+TYILHHF LA++LYA GGLPFL WGMGVR
Sbjct: 181 TKNMFVGYLKYGRPNNAEDLQKQAFYRFLRRTYILHHFGLAIILYAVGGLPFLTWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
           TVCF HVTF++NS GH+WGNQPWNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 TVCFQHVTFAVNSLGHMWGNQPWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQ DVTWWVILFL+ALGLATDLKLPS++H+ KLAIQPK E
Sbjct: 301 WWQFDVTWWVILFLQALGLATDLKLPSKHHMHKLAIQPKSE 341

BLAST of Lcy02g005360 vs. ExPASy TrEMBL
Match: A0A6J1KE40 (palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic-like OS=Cucurbita maxima OX=3661 GN=LOC111493021 PE=3 SV=1)

HSP 1 Score: 644.8 bits (1662), Expect = 2.0e-181
Identity = 294/341 (86.22%), Postives = 319/341 (93.55%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           MEA +KELED NNDQ AMAVEDEAPVR  +RPIF+RKWT++DKR+AGA+L MHLLCLLAP
Sbjct: 1   MEAIKKELEDTNNDQKAMAVEDEAPVRSGQRPIFKRKWTSVDKRTAGAVLAMHLLCLLAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLA VLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT QGDPID
Sbjct: 61  FHFTWPAFWLAVVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTYQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDTERDPHTPTQGFWFGH+AWIFDSYGLTKKVSPKHV++FEER+ + K 
Sbjct: 121 WVSTHRYHHQFVDTERDPHTPTQGFWFGHVAWIFDSYGLTKKVSPKHVENFEERNRKGKL 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
           F+NIFVGYLKYGRPNNVEDLQKQAFYRFLR+TYILHH  LA+VLYA GGLPFLVWGMGVR
Sbjct: 181 FRNIFVGYLKYGRPNNVEDLQKQAFYRFLRRTYILHHVGLAVVLYAVGGLPFLVWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
            V F H+TF++NS GH+WGNQ WNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 IVSFQHITFAVNSLGHMWGNQQWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQLDVTWWVIL LEA+GLATD+KLPSQ+H+QKL +QPKCE
Sbjct: 301 WWQLDVTWWVILVLEAMGLATDVKLPSQHHMQKLGMQPKCE 341

BLAST of Lcy02g005360 vs. NCBI nr
Match: XP_038903942.1 (acyl-CoA C20 Delta5-desaturase-like [Benincasa hispida])

HSP 1 Score: 658.3 bits (1697), Expect = 3.7e-185
Identity = 306/348 (87.93%), Postives = 322/348 (92.53%), Query Frame = 0

Query: 1   MPLAPQMEATRKELEDKNNDQMAMAVEDEA-PVRLRRRPIFRRKWTTLDKRSAGALLVMH 60
           M L PQME TRKELEDKN D+ AMAVEDE   +   RRPIFRRKWTTLDKRSAGA LVMH
Sbjct: 1   MSLIPQMEGTRKELEDKNIDRKAMAVEDECRAMPPGRRPIFRRKWTTLDKRSAGAFLVMH 60

Query: 61  LLCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT 120
            LCLLAPF FTWPAFWLAFVLY+ITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT
Sbjct: 61  FLCLLAPFHFTWPAFWLAFVLYVITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT 120

Query: 121 LQGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEE 180
            QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHV+DFE+
Sbjct: 121 FQGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVEDFEK 180

Query: 181 RDEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFL 240
           RDE+RK   NIFVGY+KYGRPNNVEDLQKQAFYRFLR+TYILHHF LA+VLY  GGLPFL
Sbjct: 181 RDEKRKSLSNIFVGYVKYGRPNNVEDLQKQAFYRFLRRTYILHHFGLAVVLYLVGGLPFL 240

Query: 241 VWGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEY 300
           VWGMGVRTVCF HVTF++NS GH+WGNQ WNTGDQSRNNWVLALL+FGEGWHNNHHAFEY
Sbjct: 241 VWGMGVRTVCFQHVTFAVNSLGHMWGNQQWNTGDQSRNNWVLALLIFGEGWHNNHHAFEY 300

Query: 301 SARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           SARHGLEWWQLD TWWVILFLEA+GLATDLKLPSQ+H+QKLAIQPK E
Sbjct: 301 SARHGLEWWQLDATWWVILFLEAVGLATDLKLPSQHHMQKLAIQPKSE 348

BLAST of Lcy02g005360 vs. NCBI nr
Match: XP_022153481.1 (acyl-CoA C20 Delta5-desaturase-like isoform X1 [Momordica charantia])

HSP 1 Score: 657.5 bits (1695), Expect = 6.3e-185
Identity = 305/347 (87.90%), Postives = 324/347 (93.37%), Query Frame = 0

Query: 1   MPLAPQMEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHL 60
           M LAP+ME TR+ LEDKNNDQ A+  EDEA VR RRRPIFRRKWT+LDKRSAGALLVMHL
Sbjct: 1   MLLAPEMEETRRLLEDKNNDQKAVVGEDEAAVRDRRRPIFRRKWTSLDKRSAGALLVMHL 60

Query: 61  LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTL 120
           LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT 
Sbjct: 61  LCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTF 120

Query: 121 QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEER 180
           QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWI+DSYGLTKKV PK+V+DFE R
Sbjct: 121 QGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIWDSYGLTKKVCPKYVRDFEVR 180

Query: 181 DEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLV 240
           D +R R +N+FVGYLKYGRPNN EDLQKQAFYRFLR+TYILHH  LA+VLYA GGLPFLV
Sbjct: 181 DGKRSRLRNMFVGYLKYGRPNNAEDLQKQAFYRFLRRTYILHHVGLAVVLYAVGGLPFLV 240

Query: 241 WGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYS 300
           WGMGVRTVCF HVTFS+NS GH+WGNQ WNTGDQSRNNWVLA+L+FGEGWHNNHHAFEYS
Sbjct: 241 WGMGVRTVCFQHVTFSVNSLGHMWGNQQWNTGDQSRNNWVLAMLIFGEGWHNNHHAFEYS 300

Query: 301 ARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           ARHGLEWWQLDVTWWVIL L+ALGLATD+KLPSQNH+QKLAIQPK E
Sbjct: 301 ARHGLEWWQLDVTWWVILLLQALGLATDVKLPSQNHMQKLAIQPKYE 347

BLAST of Lcy02g005360 vs. NCBI nr
Match: XP_011652981.1 (delta-9 acyl-lipid desaturase 1 [Cucumis sativus])

HSP 1 Score: 648.3 bits (1671), Expect = 3.8e-182
Identity = 296/341 (86.80%), Postives = 318/341 (93.26%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           MEATRKELEDKN+DQ AMAVED+  VR RRRP FRRKWTTLDKRSAGA LVMH LC+ AP
Sbjct: 1   MEATRKELEDKNSDQKAMAVEDKPRVRSRRRPFFRRKWTTLDKRSAGAFLVMHFLCVFAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLAFVLY+ITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID
Sbjct: 61  FYFTWPAFWLAFVLYVITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDT+RDPHTPTQGF FGHIAWIFDSYGLTKKVSPKHV+DFE +DE+RK 
Sbjct: 121 WVSTHRYHHQFVDTKRDPHTPTQGFLFGHIAWIFDSYGLTKKVSPKHVEDFEAKDEKRKI 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
            +N+FVGYLKYGRPNN EDLQ Q FYRFLR+TYILHHF LA++LYA GGLPFL WGMGVR
Sbjct: 181 SRNMFVGYLKYGRPNNAEDLQNQGFYRFLRRTYILHHFGLAIILYALGGLPFLTWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
           TVCF HVTF++NS GH+WGNQPWNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 TVCFQHVTFAVNSLGHMWGNQPWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQLDVTWWVILFL+A+GLATDLKLPSQ+H+ KLAIQPK +
Sbjct: 301 WWQLDVTWWVILFLQAIGLATDLKLPSQHHMHKLAIQPKSD 341

BLAST of Lcy02g005360 vs. NCBI nr
Match: XP_008454215.1 (PREDICTED: delta-9 acyl-lipid desaturase 1-like [Cucumis melo] >KAA0044452.1 delta-9 acyl-lipid desaturase 1-like [Cucumis melo var. makuwa] >TYK29579.1 delta-9 acyl-lipid desaturase 1-like [Cucumis melo var. makuwa])

HSP 1 Score: 646.7 bits (1667), Expect = 1.1e-181
Identity = 298/341 (87.39%), Postives = 315/341 (92.38%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           ME  RKELEDKN+DQ AMAV D+A VR RRRP FRRKWTTLDKRSAGA LVMH LCLLAP
Sbjct: 1   METIRKELEDKNSDQKAMAVGDKARVRSRRRPFFRRKWTTLDKRSAGAFLVMHFLCLLAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLA  LYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID
Sbjct: 61  FYFTWPAFWLAVALYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDTERDPHTPTQGF FGHIAWIFDSYGLTKKV PKHV+DFE +DE+RK 
Sbjct: 121 WVSTHRYHHQFVDTERDPHTPTQGFLFGHIAWIFDSYGLTKKVCPKHVEDFEAKDEKRKS 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
            KN+FVGYLKYGRPNN EDLQKQAFYRFLR+TYILHHF LA++LYA GGLPFL WGMGVR
Sbjct: 181 TKNMFVGYLKYGRPNNAEDLQKQAFYRFLRRTYILHHFGLAIILYAVGGLPFLTWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
           TVCF HVTF++NS GH+WGNQPWNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 TVCFQHVTFAVNSLGHMWGNQPWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQ DVTWWVILFL+ALGLATDLKLPS++H+ KLAIQPK E
Sbjct: 301 WWQFDVTWWVILFLQALGLATDLKLPSKHHMHKLAIQPKSE 341

BLAST of Lcy02g005360 vs. NCBI nr
Match: XP_022998354.1 (palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic-like [Cucurbita maxima])

HSP 1 Score: 644.8 bits (1662), Expect = 4.2e-181
Identity = 294/341 (86.22%), Postives = 319/341 (93.55%), Query Frame = 0

Query: 7   MEATRKELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAP 66
           MEA +KELED NNDQ AMAVEDEAPVR  +RPIF+RKWT++DKR+AGA+L MHLLCLLAP
Sbjct: 1   MEAIKKELEDTNNDQKAMAVEDEAPVRSGQRPIFKRKWTSVDKRTAGAVLAMHLLCLLAP 60

Query: 67  FQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPID 126
           F FTWPAFWLA VLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHT QGDPID
Sbjct: 61  FHFTWPAFWLAVVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTYQGDPID 120

Query: 127 WVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKR 186
           WVSTHRYHHQFVDTERDPHTPTQGFWFGH+AWIFDSYGLTKKVSPKHV++FEER+ + K 
Sbjct: 121 WVSTHRYHHQFVDTERDPHTPTQGFWFGHVAWIFDSYGLTKKVSPKHVENFEERNRKGKL 180

Query: 187 FKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVR 246
           F+NIFVGYLKYGRPNNVEDLQKQAFYRFLR+TYILHH  LA+VLYA GGLPFLVWGMGVR
Sbjct: 181 FRNIFVGYLKYGRPNNVEDLQKQAFYRFLRRTYILHHVGLAVVLYAVGGLPFLVWGMGVR 240

Query: 247 TVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLE 306
            V F H+TF++NS GH+WGNQ WNTGDQSRNNWVLALL+FGEGWHNNHHAFEYSARHGLE
Sbjct: 241 IVSFQHITFAVNSLGHMWGNQQWNTGDQSRNNWVLALLIFGEGWHNNHHAFEYSARHGLE 300

Query: 307 WWQLDVTWWVILFLEALGLATDLKLPSQNHLQKLAIQPKCE 348
           WWQLDVTWWVIL LEA+GLATD+KLPSQ+H+QKL +QPKCE
Sbjct: 301 WWQLDVTWWVILVLEAMGLATDVKLPSQHHMQKLGMQPKCE 341

BLAST of Lcy02g005360 vs. TAIR 10
Match: AT3G15850.1 (fatty acid desaturase 5 )

HSP 1 Score: 391.0 bits (1003), Expect = 1.0e-108
Identity = 179/302 (59.27%), Postives = 219/302 (72.52%), Query Frame = 0

Query: 40  FRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLFGLTLSYHRHLTH 99
           + R+W  +D  +   +L MHLL LLAPFQF W A  +AF LYI+TGL G+TLS+HR+L+H
Sbjct: 94  WEREWKAMDFGAVAVVLSMHLLSLLAPFQFNWRAVSVAFGLYIVTGLLGITLSFHRNLSH 153

Query: 100 KSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTPTQGFWFGHIAWI 159
           K+FKLPKWLEY FAY G   LQG+PIDWVSTHRYHHQF D++RDPH+P  GFWF H+ W+
Sbjct: 154 KAFKLPKWLEYLFAYCGAQALQGNPIDWVSTHRYHHQFCDSDRDPHSPLDGFWFSHMNWM 213

Query: 160 FDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQKQAFYRFLRKTY 219
           FD+  +T++                             G PNNV DL+KQ FYRFLR TY
Sbjct: 214 FDTNTITQRC----------------------------GEPNNVGDLEKQPFYRFLRTTY 273

Query: 220 ILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQPWNTGDQSRNNW 279
           ILH  ALA+ LYA GG PF+VWGMGVR V   H+T+ +NS  HVWG Q WNTGD S+NNW
Sbjct: 274 ILHPLALAVALYAMGGFPFIVWGMGVRIVWVYHITWLVNSACHVWGKQAWNTGDLSKNNW 333

Query: 280 VLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLATDLKLPSQNHLQK 339
            +A L FGEGWHNNHHAFE+SARHGLEWWQLD+TW+V+ FL+A+GLATD+KLPS+   Q+
Sbjct: 334 WVAALAFGEGWHNNHHAFEFSARHGLEWWQLDMTWYVVKFLQAIGLATDVKLPSEAQKQR 367

Query: 340 LA 342
           +A
Sbjct: 394 MA 367

BLAST of Lcy02g005360 vs. TAIR 10
Match: AT1G06080.1 (delta 9 desaturase 1 )

HSP 1 Score: 351.7 bits (901), Expect = 6.9e-97
Identity = 165/330 (50.00%), Postives = 222/330 (67.27%), Query Frame = 0

Query: 15  EDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAF 74
           +++NN +MA    D+A +  ++R ++ RKW  LD   A A L +H LCLLAPF FTWPA 
Sbjct: 8   KEENNKKMA---ADKAEMGRKKRAMWERKWKRLDIVKAFASLFVHFLCLLAPFNFTWPAL 67

Query: 75  WLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYH 134
            +A ++Y + GL G+T+SYHR+L H+SFK+PKWLEY FAY G+  +QGDPIDWVSTHRYH
Sbjct: 68  RVALIVYTVGGL-GITVSYHRNLAHRSFKVPKWLEYFFAYCGLLAIQGDPIDWVSTHRYH 127

Query: 135 HQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGY 194
           HQF D++RDPH+P +GFWF H+ W+FD+                              GY
Sbjct: 128 HQFTDSDRDPHSPNEGFWFSHLLWLFDT------------------------------GY 187

Query: 195 L--KYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLH 254
           L  K GR  NVEDL++Q +Y+FL++T + H      +LY  GGL FL WGMG+      H
Sbjct: 188 LVEKCGRRTNVEDLKRQWYYKFLQRTVLYHILTFGFLLYYFGGLSFLTWGMGIGVAMEHH 247

Query: 255 VTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDV 314
           VT  +NS  HVWG++ W T D SRN W L++  FGE WHNNHHAFE SAR GLEWWQ+D+
Sbjct: 248 VTCLINSLCHVWGSRTWKTNDTSRNVWWLSVFSFGESWHNNHHAFESSARQGLEWWQIDI 303

Query: 315 TWWVILFLEALGLATDLKLPSQNHLQKLAI 343
           +W+++ FLE +GLATD+KLPS++  +++A+
Sbjct: 308 SWYIVRFLEIIGLATDVKLPSESQRRRMAM 303

BLAST of Lcy02g005360 vs. TAIR 10
Match: AT3G15870.1 (Fatty acid desaturase family protein )

HSP 1 Score: 337.8 bits (865), Expect = 1.0e-92
Identity = 158/314 (50.32%), Postives = 206/314 (65.61%), Query Frame = 0

Query: 29  EAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLFG 88
           E  V   +R  + R WT+ D       +  HLL LLAPF F+W AFW+   L  I G+  
Sbjct: 76  EVVVVRTKRSFWERSWTSWDVSKLVIFVGTHLLSLLAPFYFSWEAFWVFPWLVFINGIC- 135

Query: 89  LTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTPT 148
           +TLSYHR+L+H+SF LPKWLEY FAY GV   QGDPI+WVS HRYHH+  +T+RDPH+PT
Sbjct: 136 ITLSYHRNLSHRSFDLPKWLEYLFAYGGVLAFQGDPIEWVSNHRYHHKHCETQRDPHSPT 195

Query: 149 QGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQK 208
           QGFWF H+AWIFD+  + +                              G   NV+DL +
Sbjct: 196 QGFWFSHMAWIFDTSSILENC----------------------------GGEENVDDLVR 255

Query: 209 QAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQP 268
           Q FYRFL++T +LH  A + + Y  GG+P LVWG+G+     LH+TF +NS  H+WG + 
Sbjct: 256 QPFYRFLQRTVLLHMMAYSFLFYFCGGMPLLVWGIGITIAVRLHLTFLVNSVCHIWGTRA 315

Query: 269 WNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLATD 328
           WNT D S+NNW +A+L  GEGWHNNHHAFE+SARHGLEWWQLD+TW +I FLEA+GLAT+
Sbjct: 316 WNTSDFSKNNWWVAILTLGEGWHNNHHAFEFSARHGLEWWQLDITWCLIRFLEAIGLATN 360

Query: 329 LKLPSQNHLQKLAI 343
           +KLP++  ++  A+
Sbjct: 376 VKLPTETQMKGKAL 360

BLAST of Lcy02g005360 vs. TAIR 10
Match: AT2G31360.1 (16:0delta9 desaturase 2 )

HSP 1 Score: 334.7 bits (857), Expect = 8.7e-92
Identity = 159/330 (48.18%), Postives = 207/330 (62.73%), Query Frame = 0

Query: 13  ELEDKNNDQMAMAVEDEAPVRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWP 72
           E   + N     AVE++   + RR   + R+W  LD     A   +H L LLAPF FTW 
Sbjct: 8   EENHQKNPSTPAAVEEK---KKRRWVFWDRRWRRLDYVKFSASFTVHSLALLAPFYFTWS 67

Query: 73  AFWLAFVLYIITGLFGLTLSYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHR 132
           A W+ F+ Y I GL G+T+SYHR+L H+SFK+PKWLEY  AY  +  +QGDPIDWVSTHR
Sbjct: 68  ALWVTFLFYTIGGL-GITVSYHRNLAHRSFKVPKWLEYLLAYCALLAIQGDPIDWVSTHR 127

Query: 133 YHHQFVDTERDPHTPTQGFWFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFV 192
           YHHQF D+ERDPH+P +GFWF H+ WI+DS  L  K                        
Sbjct: 128 YHHQFTDSERDPHSPKEGFWFSHLLWIYDSAYLVSKC----------------------- 187

Query: 193 GYLKYGRPNNVEDLQKQAFYRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLH 252
                GR  NVEDL++Q FYRFL+KT + H   L   L+  GG+ F+ WGMGV     +H
Sbjct: 188 -----GRRANVEDLKRQWFYRFLQKTVLFHILGLGFFLFYLGGMSFVTWGMGVGAALEVH 247

Query: 253 VTFSLNSFGHVWGNQPWNTGDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDV 312
           VT  +NS  H+WG + W T D SRN W L++  FGE WHNNHHAFE SAR GLEWWQ+D+
Sbjct: 248 VTCLINSLCHIWGTRTWKTNDTSRNVWWLSVFSFGESWHNNHHAFESSARQGLEWWQIDI 305

Query: 313 TWWVILFLEALGLATDLKLPSQNHLQKLAI 343
           +W+++ F E +GLATD+K+P++   +++AI
Sbjct: 308 SWYIVRFFEIIGLATDVKVPTEAQRRRMAI 305

BLAST of Lcy02g005360 vs. TAIR 10
Match: AT1G06100.1 (Fatty acid desaturase family protein )

HSP 1 Score: 328.2 bits (840), Expect = 8.1e-90
Identity = 160/312 (51.28%), Postives = 203/312 (65.06%), Query Frame = 0

Query: 32  VRLRRRPIFRRKWTTLDKRSAGALLVMHLLCLLAPFQFTWPAFWLAFVLYIITGLFGLTL 91
           VR  +R    RKWT  D   A  +  +HLLCLLAPF + W AF    +L I+T L  +T 
Sbjct: 16  VRKEKRAYVLRKWTQFDVGRASTVGTVHLLCLLAPFNYKWEAFRFGIILAILTNLC-ITF 75

Query: 92  SYHRHLTHKSFKLPKWLEYTFAYIGVHTLQGDPIDWVSTHRYHHQFVDTERDPHTPTQGF 151
           SYHR+LTH+SFKLPKWLEY FAY  +  LQGDP+DWVS HR+HHQF D++RDPH+P +GF
Sbjct: 76  SYHRNLTHRSFKLPKWLEYPFAYSALLALQGDPLDWVSIHRFHHQFTDSDRDPHSPIEGF 135

Query: 152 WFGHIAWIFDSYGLTKKVSPKHVQDFEERDEQRKRFKNIFVGYLKYGRPNNVEDLQKQAF 211
           WF H+ WIFD+  + +K                             GR NNV DL++Q F
Sbjct: 136 WFSHVLWIFDTDYIREKC----------------------------GRRNNVMDLKQQWF 195

Query: 212 YRFLRKTYILHHFALALVLYAAGGLPFLVWGMGVRTVCFLHVTFSLNSFGHVWGNQPWNT 271
           YRFL+KT +LH  A   ++Y  GGLP+L W +G   V   H T+ +NS  H+ G+Q W T
Sbjct: 196 YRFLKKTLVLHILAFWTLIYLWGGLPYLTWTVGFGGVIGYHGTWLVNSACHICGSQAWQT 255

Query: 272 GDQSRNNWVLALLMFGEGWHNNHHAFEYSARHGLEWWQLDVTWWVILFLEALGLATDLKL 331
            D SRN W LALL  GE WHNNHHAFE SARHGLEW+QLD+TW++I F +ALGLAT++KL
Sbjct: 256 NDTSRNVWWLALLTMGESWHNNHHAFETSARHGLEWYQLDITWYLIWFFQALGLATNVKL 298

Query: 332 PSQNHLQKLAIQ 344
           P+    +K+AI+
Sbjct: 316 PTDAQKRKMAIR 298

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
Q949X01.4e-10759.27Palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic OS=Arab... [more]
P0DOW21.8e-9751.90Acyl-CoA C20 Delta5-desaturase OS=Anemone leveillei OX=212809 GN=AL10 PE=1 SV=1[more]
Q9FV685.1e-9752.92Icosanoyl-CoA 5-desaturase (Fragment) OS=Limnanthes douglasii OX=28973 PE=1 SV=1[more]
O657979.7e-9650.00Delta-9 acyl-lipid desaturase 1 OS=Arabidopsis thaliana OX=3702 GN=ADS1 PE=2 SV=... [more]
P0DOW31.1e-9451.58Acyl-CoA 5-desaturase AL21 OS=Anemone leveillei OX=212809 GN=AL21 PE=1 SV=1[more]
Match NameE-valueIdentityDescription
A0A6J1DKS53.0e-18587.90acyl-CoA C20 Delta5-desaturase-like isoform X1 OS=Momordica charantia OX=3673 GN... [more]
A0A0A0KTM41.8e-18286.80Delta-9 fatty acid desaturase OS=Cucumis sativus OX=3659 GN=Csa_4G006150 PE=3 SV... [more]
A0A5A7TMC15.4e-18287.39Delta-9 acyl-lipid desaturase 1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E... [more]
A0A1S3BYV75.4e-18287.39delta-9 acyl-lipid desaturase 1-like OS=Cucumis melo OX=3656 GN=LOC103494690 PE=... [more]
A0A6J1KE402.0e-18186.22palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic-like OS... [more]
Match NameE-valueIdentityDescription
XP_038903942.13.7e-18587.93acyl-CoA C20 Delta5-desaturase-like [Benincasa hispida][more]
XP_022153481.16.3e-18587.90acyl-CoA C20 Delta5-desaturase-like isoform X1 [Momordica charantia][more]
XP_011652981.13.8e-18286.80delta-9 acyl-lipid desaturase 1 [Cucumis sativus][more]
XP_008454215.11.1e-18187.39PREDICTED: delta-9 acyl-lipid desaturase 1-like [Cucumis melo] >KAA0044452.1 del... [more]
XP_022998354.14.2e-18186.22palmitoyl-monogalactosyldiacylglycerol delta-7 desaturase, chloroplastic-like [C... [more]
Match NameE-valueIdentityDescription
AT3G15850.11.0e-10859.27fatty acid desaturase 5 [more]
AT1G06080.16.9e-9750.00delta 9 desaturase 1 [more]
AT3G15870.11.0e-9250.32Fatty acid desaturase family protein [more]
AT2G31360.18.7e-9248.1816:0delta9 desaturase 2 [more]
AT1G06100.18.1e-9051.28Fatty acid desaturase family protein [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR015876Acyl-CoA desaturasePRINTSPR00075FACDDSATRASEcoord: 94..114
score: 30.58
coord: 131..160
score: 46.32
IPR015876Acyl-CoA desaturasePANTHERPTHR11351ACYL-COA DESATURASEcoord: 28..342
IPR015876Acyl-CoA desaturaseCDDcd03505Delta9-FADS-likecoord: 71..330
e-value: 1.01841E-73
score: 223.972
IPR005804Fatty acid desaturase domainPFAMPF00487FA_desaturasecoord: 74..315
e-value: 2.2E-20
score: 73.6
NoneNo IPR availablePANTHERPTHR11351:SF87FATTY ACID DESATURASE, TYPE 1, CORE-RELATEDcoord: 28..342

Relationships

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

Feature NameUnique NameType
Lcy02g005360.1Lcy02g005360.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0042149 cellular response to glucose starvation
biological_process GO:0006633 fatty acid biosynthetic process
biological_process GO:0006468 protein phosphorylation
biological_process GO:0050790 regulation of catalytic activity
biological_process GO:0006629 lipid metabolic process
cellular_component GO:0005789 endoplasmic reticulum membrane
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0031588 nucleotide-activated protein kinase complex
cellular_component GO:0005634 nucleus
molecular_function GO:0009979 16:0 monogalactosyldiacylglycerol desaturase activity
molecular_function GO:0016208 AMP binding
molecular_function GO:0016717 oxidoreductase activity, acting on paired donors, with oxidation of a pair of donors resulting in the reduction of molecular oxygen to two molecules of water
molecular_function GO:0019901 protein kinase binding
molecular_function GO:0019887 protein kinase regulator activity