MC11g1059 (gene) Bitter gourd (Dali-11) v1

Overview
NameMC11g1059
Typegene
OrganismMomordica charantia cv. Dali-11 (Bitter gourd (Dali-11) v1)
DescriptionNAD-dependent protein deacetylase SRT1
LocationMC11: 9034956 .. 9062975 (-)
RNA-Seq ExpressionMC11g1059
SyntenyMC11g1059
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: utr5polypeptideCDSutr3
Hold the cursor over a type above to highlight its positions in the sequence below.
GTTTTGAAATGATAATTCCCCCATTTATATTTCGACAGACTCGTGTTTATTTTGGGTCTCCCGAAAAGAAGCCTATGCTTCAATTACTTCGGAGCGAATAGAGAACAGGGGTCCTGATTTTCGTGTCTACAACTTCTGTTGATCATATTGGGGCGAAACAGAAAGTGGGTCAGAAGCCAGCAGAGTCGCCATGTCTCTGGGCTACGCAGAGAAGCTTTCGTACATAGAAGACGTAGGCAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGGTCGGATTTCTTCTTTTATTCCTCTTCCTCTGTGTCGTTTCATTTGTGGGGGGTTTGGACGTTTGATCTTTTGTTTACTTTTGGGTATTAGTTGGGAATGTTTCGATATCTTTTGCAATTGCAGTGACGATCAATGGCACTTCTGTTTGGTATTTGAATGTGTGAGAAGTAATTTTGGACATATGGTGCATTTCGCTGCAGTGGAGACTGGAACTTATTTATCTGTACTGGAATGCTTTCTTGAGCAGATTTTGAAACTATGATATGCCTTTCGTGTTCTATGTGGTTTGATTCGAAGTCGCTTTGTGGGTAACTGAACTGATGTTTGTGAATCCGTACGAAGGAAAAGAGCAGATTGACTGTGATAGAAAATGCAGCTTGTTGTTCTTTGCAAAACCATCTGTGTTTGGCATTACTACAGGCATGCAAGGAATGCACGTCAGAATTCATCTGAAATTAGACTAATGGAGTGGAGGATAATATGTTTCGACAACTCTCTACTTAAAATGAAGTTGTTAAATTTATCAAAATGGAACGGTGTCTAGTGATCAAGACATCCTGCTTTAAAGTCCCCAACAGTGTCAGTAAGAAGATTGAGAAGATCTTGTGGATTTTTTTGGGGAATGGGCAAGCTTGGACGGCAGTCCCCTTTTTAATGGGCACGCTTAGGCTATTTTGTGGGGTATTTGGGTCGAGAGGAATAATAGAACTTTTAGGGGGTGGAGGGGTCTTTGGAGGATCTTTGGGACCTTGTTAGATTTAATACCTCTTTGTGAGTGTCGTTTTTTAAGGTTTTTTTTGTAATTATCAGTGGGTTATTGTCCTTTTGGATTGGGATCCCTTCTTGTAGGGAGTCTCCCTTCTTGCTGGGCTTGTTTTTTGCCTGCGAATTGTCTATTATTTCAGTTTTTTCTCGAAACTCGGTTTCTGATTAAAAAAAAGAGAAGGAAATGGTCTCTTTCGCATCGGCTAGAGGTGGTCGGGTATTGGTATCCTGAAAAATAGGATTATATCATTTGTTGCCCAATGATTATGGAAATTTCTTTGGGAAGAGATGGTGCCTTGAACTCACTTTGAATCTATCTTAAAAAATCCTTGCCTCCCGGGTTGGCTGTCTAAGTTTAAAAACTACAGGCTACGCAAACTAGTTGCTTCCGACGAGGATCCATTTAGGGTGGTGATTTCAAATTAGGACCCCTAGATTTCAAAATTGGAAATATGTGGCTAGAACTACCTTCTTCGTGGAGTTCAAATGGAACAAAGCAGAACTTCAAGGTTGGCTGGTTCATGATTATTTGATCAAGCTCCCTAGGGGCCTTTTTGAAATCATGGAATAAGTAAGAAATTGGTGTCATTTTCTGTAATATGGTTCCTACGATTGATGAACTAATAAGGAAGTGTTAGTTTGAGGCAGTGCAACGATGATCTGTTATGAGAGCTCGATAAAAGAGCCATTTTTCAGTCAAATCTTCCACCTTGGCTCTCCACGAGGGTAGCAGTAGCGTAGACAAAGCCCCTTGCAGCTTGATTTTCGGTGGCAATTGCCATAAAATGACTAAAGTTTTCCAATTGTTCCAAGCTCTCAACAACATTAATAATACTTTAGATAAGGTTTAAGGAGGAACCCACACGTTCAATTTCTTCCTGAAATGTGTTATATGTGGGCAAAGTGATGAATCCACCCCGATTAATTTACCTATTGAAGTTTTCCACCCATGCTTGGAACTTAAGTTGCAAACATTTTGGTTTGGCCTGGTGTGGTTCGAAATTAATGGGAGTCTAGAATCCTGAGGTCTAGATGGTGATCCAAGGACAAAGGCAAAATCCTTTGGACAAATGTCGATAAAGCTTTCCTTTAGTGAAGGAAAGAACTGCTAGAATGTTTACAGATAAGTCAAATTCTTTAGAATTATTTAGTCACCTTACAGTTTCCGCACAAATCAGAGTGCCCAACACAAGCATTTTTGTTACTACACTACTTTCATCACTAACATAGATTGGAGGGCATTTCTTTAATCCCTTCTTTTGGAAAGGTGACAACTTGTCCCTTTGTCCTTAGGCTGTTCTTTGGTGACTTTCACCATTTTTTAAAATGAATCCCTCATTACTTTTAAAAAATGTCCAGCTCCAAGAAATCACTTGTGAGGAAGGACTTTTTGAAGGAAACAGTGCAGGTTGAAATTGCTTTTTGAGAGTTAGGAAGGGTTAGATTGTCTACAATAGGTTTCTTTTGGAGTAGTGTTTAATATACTACCTATTAGTGTACAAATCACAAGAAATTCTTTTGTAATTAAAGCCTCCTCATGATCATTAATGATTGGACGGTATTGTATAGCTCTTTTTGGGTGGTGGTTCTCTTTCCCTGGGCATAGGATGTTTGTTTTTGGCATGCATACTGATGTTTCGAATCAAAAAAGAAAAAAGAGTACGAGTTAATCTTACTTAGGAGTGACAAATGCTAAAGGTGAAAGTATGGTCTATGTTAGCAAGGATATGAAAACAACTTTCCTAAGTTTCTTTAAACTCTCTCTCTCTCTCCCTATATATATATATATTCTTACAAGAATCAGACTTCTCATTGAAAAATTAAAATAAAATATATTCAAAAGCTACTGGTCATAAATTTCTTGGTTGTTCTCTCAATCCAAGTGTTCTATGGGCTAAAGTTTGATCCGGAAGATTTGGCAATATAGAAATAGGCTCCCTGGAAGATTTGACAATATAGACTTGACCAGCTTATTCCTCTCTGTGGAAGATTCTAATTTTTTCCTTCTAACCAAATGTACCAAGAAGTTTGGCTTAAGCTTGGAAGGGTGATCATCGAAGTAAGTGTGGAGAAGGTTAATGTTATTAGTTGGAAGAACTTTATTCCAACCAAATAGATGGAAAGGGTGGTACAATATTGAGAAGCCATCGAACCAAGGACAAAAAAGTGATCCTGAGATTGTTTGCTGTTTTTGGATAATCTTGTACGCCAACATAGGGAGATAATCATGGGTTGGGATTGCTTTGTTGAACTCAATGTTTTAAAAGGCTTTTGAGGCTCGCCTCGAGGCAAGGCTCTAATTTTTAGCCTCACTTACGCCTTCTTTGAATCATAAGAGGCTTACGCCTCTTTGAAGACACACTGAGGCTTAAAGTCTTTATGCCTCATGTAATGATTAGAATAATATTATTAATTTGCCCAATTCTTAAATAATATAAAGGTTTCTTTGTGCATGGAATGAATTGTAGAAGTGATAACTGTAGAGACTAAGGTTGGAGAGAATCCAATGTTCTATTCTCATTATTAAAGTCTATATATATCTATACTCTAACAATAACAATTCAATCTATTACTACTTTTACTACCTAGACTTTAAAAACATTGGGGATAAATTTTATAGAATAAGTGAATCCTATTAGTGAATAGTGATAATTGTAGTGATATTGAGGATGTTTATCTAGGATTTTTATTTAAGTGGCAATTAATAGGTGAATTTTTTTATACTTTTAAATAACTTTGGTGTTTAGCAATACTTGATCATACAAATTTTAGATTTGTATAATTTTTTTAATTAAAAATTGAGGCTTGCACCTCATATCGCCTCAAGGCTTACGCCTCGCCTCTTCGAGAGGAAAAACCTCGAGACTGTCTTTAGCCTTTTAAAACATTGGTTGAACTTTATTGCGAGTGTTAGTGCTATTTAAGGGAAGAACTAAAATGAAGATCTTGACTTTATTTTAGTAAGACTAAAACTCCTTCCAAATCCAATTGCAAATGAAATGATCAAGAACTTAAGAATTTGTTGAAATATTTCTCCAAATAGACTTGTAATTGAACCTGTATTGTTCTTGAGCAAGAGTCGTTTGTCGTGAAAATGTTGCATATGTTGAAGGCAAGTATTGTTGATAAGATCCATGATGGAGATCCATTTACACCTCTCATTTCATTAAATTTCTTCTCAAAGCTAAGTAAACGAAGATGGTCGAGCTTCCAAATTTGACTTATGGAAGATTTTTATTTTTGAAAAAAGAAATCTTACAAAAGGACTTAGGTTCTTGAGACTAATCAACAAAATGAGGTTCCTAATTAGGGGTGTTCACGGATTGGGTTGGGTCGGGTTAGGAGGTTTTTTGGACCATCTCGAATTTTTGGGTTGGCCATATATAGGAACCAACAGACTCAAATTCGAGGGCCAACCTAACCCAACCCAAAATCTTCAGGTTGGGTTGCAGCTCTGCTCACGATGACGATGGGGCTACGGGCATACCTGCTTTACTGGCGACAAGGCTACGGGCTGCGACGGACTGAAACCGTTCGCGGCGAATGGATTTGCTCAAGGGCTGGGACGAGGCTATGGGCGGTCCACCTGTTCGTCTTTACCCAAAGATTTTTGTTCTCTACTTTGGAGTTCATGTAGTTCAAAGAGGGTTAACTTCCTATTATGGGTCCTTATCTATAGTAAAGTTAACACTTAGGAGATTCTTTAAAATAAATTGGCTTCAATGTCCCTACAACCCTCAATTTGTTTGTCATGTTCAGCTTTGCCACTTCTTGTTGGATTAAATTCCTCCAGCTCGTTCGGTTGTTATGGGCTTGGGACAATTAGGTTCCTTCCAACATCCAGCAATTGCTTAGTGGAGTCGAGCTCAATCCCAAAGCTAAACGTCTTTGGGTAAATGGCATCAAAGCTCTCATTTTAGAATTATGGTTTGAAAAAACCAAAGGGTTTTTGAAGGAAAAATAAGATTGCATTTGGATTGTTTCAACATTGTCAAGTTCAAAGCCTCACAACGGTGTGCTCTTTCCAACTTATTCTCTAACTACTCACCTAGTATGATTTGTATGAATTGAGAGGCATTTATAACTCCTAGTTAACTTTACTTTGTCTTCGATTATGTTATCTTGTTATTCGTCTTCTTTTATTTCTCTTTTTTACTCCTCATGGAGTTTGTATCTTTTTCTGTTCCTTTTCATCTACCAATGAAAAGTTCGTATCTTGTTAAAAAAGAAAAGGGATAGTCCACCTTAACTAGTAGGGACATCAGTTTAGCTGCCTGGTGTAGAATCAACTTATTTTTGTGATTGCTAATTGCTAAAATTTCTTGTTATCGACCTCACCCAATCTACTTCAGACCGGAAGACTCTTATTTATGAAGCCATTTGGACGGACCCTTATCCCAAAAAGGTTAAAATTTTCATATGTGAATTAAGCCATAAGGCTATCAGCACTAATGATAAGCTTCAAAGACGAGTGCCCTATTTATCCATCTCCCCTCAATGGTGCTTTTTGTGCAAAGACAATCGGGAGACCCAGCAGCATCTTTTTGTTTCATGCAGCCTCGACTCTCGCTTTTGGGGATCTATTTTATCGACCTTTGGATGGACTACATCGTTACCAATAGATCCCCCCCTCCTATTGGAGTCCACTCTTGTGGGTCATCCTTTCAAAAAGGAAAAGAAGCTTCTCTGGTTGAATTTTATCTGAGCTTTTTTATGGATCACTTGAAAATCGAGAAACCATTGCATATCCAAAGGAAAGGATCAATCCTTTGACAAGCGAAGTTTCTTTGGAGTTGTGCTAGTCGAGCGCTAATATGGAGTATTTGGAAGGAAAGGGATCAAAGAGTTTTCAACAACAAGTCCATCCCTTTTGATAATTTTCGTGAAAATGTACAAATTACAACGGCCTCTTGGTGTCTTACTAATAGGAGATTCTTTTGTAATTACAATATAGCCTTACTCTCTCGTGATTGGAAAGCTGTAATGTATTAGCCTGTTAGGGGGGGCCTTCTCGGCCCCCCGCCCTTAGGTTGTTGCTCCTTTGTTACCTCTTTTGAATGAAGCTTGTTGTTTCTTATAAAAAAAAAAGGGATCAATCTTTTGACCGGTTTTTTGAACTATTGTTTTTCTGGCAATATCTTGGTGTGTATGTTATCCCTATTTTCGCCATTATAGCTTTTCTACCATGATGTCCAGTTGGAATAGTTTCCATACCATCAAGAAATTGTTTCTTTTAACTATATAACCTTACTACTTTCTCCACCAATTGTAACTCATTATTTTTGTAAATTCTCTTTGTTAGAGTTGAGGCTCTTCTCCACTCTCTTAATTTATTTAATTTGATTGAAGAAATATTTATCATTTATGTGCGTGTATGTATATGTATGTGTGTGTATATATAAACTACATCTAGTCTCTTTATTAAGAAAGATGAATTTGCCCCACTGTGCCTTTGCATTTGCAAGGTTTTTCTCGCAGTGCATGATGTAGCTAATCTAGCCAAGTTTGTAAGGAATGAATCTATCTCTTTATTGAAGGGCTGAAACCTATTTATAGGATTCTTAGCTTAAAACTAAGTAAGGGTAAACAAAGTTACCACGGGTAAAACTTAAAAGCCCACCAAACATAACCTAAAGCCTATTAAACATAAGCTTTAAAACAAAAGCTAATAACAGAACTTAAAGGCTACTATGTATTGCATTGTGTATATTGCTTCTTGTACTTGTTATTGATTTGTTCTTCCGCCGTTGTTGCTGTGGAAATTGCCTCATTGAGGAATCCAATAGGCTGGAGAGCCAGCTGTTCTTTGATGTCCGTTCGCAAGCCTCCAATGAAACGGGCCACTAAATATTGTTGATTTTCCCCAAGATTTGTGCGAGCACCTAACTTGTGAAATTCCTCAGCGTAATCCACCATTGAACGTTTACCTTGTTTACAATTGTGGTACTGATTGTACAAAATCTGATCATAGTTAATAGGAAGAAATCTTTCACACATCAGTTTCTTCATTTTCTCCCATGTACGAATCGGTCGCTTCCCATACCGACGCCGATTAACCTCCAACTGATCCCACCAAGCAGAGGCGCCTCCCTTCAATTTAAACGCCACTAATTGAACCTTTTTATGATCAGGTGTTCCCATATAGCTAAAAAAATTCTCTATATTCTTTACCCAGTCAAGAAATCCTTCGATCTCCATCTTCCCGCTGAAAGTTGGAAGATCAATCTTCATCTTGTATTCGTTTGGTTCTTGGTACGGTCTTTGATTACCTCTACGTCCCTTAGGACCTTCTTCCAGCTCCGGCATATCCTCTTCCCCACTAGAAGAATCGAGGAAACTATCATCCATGCGTTGAAACAGGGGATTTTGGTTTAAATCTTGTCGGGCAGCCCTTTGTTCTTGGAGCATTCTTGGATCAAGAACATTTTCTTGGTGTCTTCTTGGCTGCGCCCGTTGTTGTTCTTGATAGTAATCACCTTGATGATCTGTTCTTCTTGTTTCTTGAACCGTTCTTGCTGGGTTTTGCTGAATGCTCAGCCTTTCCAGATGGCCGTGCATTCCTTCTAAAATTTGTTTAATCTCACTCACTTCCCGTTGGATGGTCTTCACATCCCCTTCAACCAACTGCAAGCGTAGGGTTGATGATCGTGGTGAGAGAACGGACACTTGATCCGCTTCTTTGTTGGCCAGGGAAGAATCCGTGGTGGTTGGTTTCTTGCCCGCCATTGATTGCCCAAAAACGAGGAGCTCTGATACCAAATCTGATGTAGCTAATCTAGCCAAGTTTGTAAGGAATGAATCTATCTCTTTATTGAAGGGCTGAAACCTATTTATAGGATTCTTAGCTTAAAACTAAGTAAGGGTAAACAAAGTTACCACGGGTAAAACTTAAAAGCCTACCAAACATAACCTAAAGCCTATTAAACATAAGCTTTAAAACAAAAGCTAATAACAGAGCTTAAAGGCTACTAACGATTACATCAGTGCAGCTAAGATCCCAATAACTGCAATTGTAGTTCCAGAACTCTAAAATCTTCACTTGCATTCATGATAGTAGAACAAGAATGAACGAGGGGATATGAGAGAGGGATAAGATACTACAAAGCTATCACCTGTTTGACCTTTTCTCAGAACTCTTCTCTCTGATATATTTCAAGGCTTCCTTATTAATTTCGTTCATTTTGAGATACTCATAAATGAATTAAATTTACCCAACCTATAAACTTAAGCTTTCGCTTTCGGGTTGAGTGGTGGTTTATTCATCCTTAAGATGGTATCAGAGCGGGAGGTCTTGTGTTCGAACCTTTGCATTGTTGTTTCCTTCCTATTTATTATGATTTCCACTTGTTGGGTCTTGATGTAATTTTCCAAGCCCACAAGTGGGGAGTATTGAGATACTCATAAATGAATTAAATTTACCCAACCCATAAGCTTAAGCTTTGGGGTTGAGTGATGGTTTATTCATCCTTAAGAGTTCATTATGTGGTTTAATGTTGTTGTTGTTGTTTTTTGTTTTTAAAAATTTTTTAACTTCATTTTGTCTTTGACAGATTGAACGACTAACTATGATGATACAAAAGGTATAAATCTATTTTATATAAATCTTATTTATGATATTTCATTTATTTCTACGTTCATTTTAATCAATCTCTTGAGGAGTTTTGTTCGTACGTGCAGAGTAAGCATCTAGTGGTGTTTACCGGTGCAGGAATATCAACATCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTGCAGGTGAGTTATATCTTTGTGCTAAGTATAATAAGAAACATTTGAGCAACCTTCTTTTCATCTTCAACTTGAAACTTATAATCTTGATATATATATATATATATATATATATATATATTTTTTTTTTTTTATAACCGTGTGTCCGGGCTAGCTTACGCGCACCTCGACTATTCATGGGCCAACCGCCTAACCCTACTATATTTGGTTGACAAAGAAACTAGTAGGATATTAAATCTTGGGTAGGTGGCCACCATGGTTTGAACCCATTCCCTCTAAGTCCTTTGCTATTTACATTGGCTCTCATTGATCACTTGGGCCATCCAAGCATATTGAGTTTCCAAGGGTCATTAAAAGTTTCCTTTGTCCAAGGATGTTTTTTCTCCACGAAAGGTCATTCTGGAATTCTAAGAGTTCTCCTGTTTGGATCAAATTTGAGTCTGATGTTAAAAATCCTTGAACCATCTCCCTTAGGTTGTCTCCTTTCTGAGTAGTTAATACATCATTTTTCAGTTTCTTATCTAAAAAGAAATGTTAAAAATCCTTGAAGATGGTTTTGTGTAAGTCAACCGATTTTTTTTGCAAATTTTGGAGCTATGGATTCTTCTCAAATTGTTGATGTGATGGTTGATTCCACCGGTGTGTTTCTGATCTTACCCCAACTTGAAGGAAGTTATTTAGATTCTTTTAGCATGCCTTTTGTCAAGTTTCTAGATGCTAGATTCATGAATGTTTTTTTTCTCTTGGAATTTTGTTATTGATTTGCTGTTTTTTCCTTTCTTTTTTCACTCCTTTTGGGAGTATCATTGAAAATTTTCTTCCTTTAATCCTTTTCATATATCACTAAAAGGTTTCTTGTTTAGAAAAAAACATGACGTGACTTATAAACAGATAAATTAGTAACATTATAAAATTCTCCAGCGTGAAGGTAAAGCCTTACCAGAAGCATCACTGCCATTTCATCGTGCAATGCCAAGCTTGACTCATATGTCTTTGGTTGAATTAGAGAAGGCTGATATATTGAAGTTCATCATTAGTCAGGTAGTGCATTATTTTTTCAAGGTTTCGGATGCTATATAGTATTAACTTATTGAGACCCCTTTTTTTTTATTTTAAAAAAATGACTCACCGAGGACGATCAGATTCAAGCTGGTGAAAATGGTGATGATCTTTTTATTGTAATATTTTAAAACAAAATAAAGTAATGTAGTCACCGAAGATGGTAGATCTTTGGATATCAACAAGGAGATCAAAGGTGGAGTGTTATCTTATTTTGCCTTGTATACCCCCTCCATTTGCCACATGCCTTTCATTTAAGGTTTAGAGTGGTGTCTCATTATGTCAGGTCAAAAAAATCTTTAAGTAACCATTTTGGTGTGAAGAAAACCTCAAGAAAATTTATGAAGCCTGAATTGCCTTTACATCTGCATCTACAAGCCTTTTATAGGTGCTGGAACAATTGAAACATGACAACCTAACAGCTAGGTTGGTTAAAACTACAACCCCCAACATCTCTAGCCTCTGATGGCTAAATTGTCAACAAACCCATTAGTTAGATGGTTGGCAGCTGCTTCTAACGGCTATTTTCTCTAAAAATAGCTGTTGGAAATTTTTAAATAAAAGACAAACAAATTGTTGAACAAGATACAGCCTTGAATAGTTTTGATGGGTCTAAGGAGAGTGGATTTTAGTTTTGATGGTTCTAAAGCTCGCCTTGAATAGTTTCTCAATGTCATGTTTTCAAGAGAGCTAGGAGCCTAGGAGGTTATTAAGCATGATCTCCTAAAGGTTTTCACCAAATTTTGTGAGACAGTGTAATCCAAAGCATGATGAATGAGAGATGCACATCTGTTTGGTTCTTGCCCCAGACTACTGACGGATGGATGACTGAAGCTTTGCAAGGGTGGCCTTTTAAAGGAAAAGCTAAAATCCTATGGACGTGCAGTTAGAGCTCTCTTTTGGAACCTATGGATGGAAAGAAACAATAGAATTTTTGAGGAGGAGATCTCTTCTTTTGAAAGCGTTTGTAATACGGTTCAATTACACACTTCTTGGTGGTGTCATAGACGAAAATTATTTTGTAATTATAGTCTCTCATCGATTATGTAAGATTGGAGAGCTTTTATTCCGTAGTTTTTGGGGGATCTCTCTTCCCCCCTGCCCCTAGGCTGTATGTTGCCTTTTTGTTAATACAAAGTTTCTTATAAAAAAAAAATAAAAATGATTCAACCCATCAATTTAAGCTTTTGGGTTGAGTGGTGGTTTATTCATCCTTAACAATTCTCAAGAAGTCTAATATTGGGAACATTAAGGATTTTGCCCCATTAGTTGAATGAGAAATATTATAATATCATCTCTAAGGTCTTTGCAGAAAAGATGAGAAGAGTATTACCAAATATGATTATGATTTTCTAGGTGTCAAGAGCTTTTGTGGTTGGAAGATAAATTTTAGATGAGATTCTTATTGCAAAATAAGTCATTAAGGATTATAAAGGGATAGGTAGGGAGACCACTTTTAAAGAAATTTTGAAAATGCATATTGATTTGGCTGGTTATTTTCGGAAAGCTTATATACAGTGGATGAGATTCAAAGAAAATAGATGGGTGGTGCTTGAATCCGAGCTGCTGTTCTTTAGGTTTCAAGGCTGGGGGAGGATCTTCATCATGTACCTTTTAATTTAAGTACAGCAGGATGGTGTGGGAGGCCTCTTTTCAGATATCTGGAATTTGGATTTTCGTGGGTTTGTGACTTAAAGGCTAAAAGCAATACTTTTAATCTTCTCTGTGGGCATCTTTTAAAAGGGAAAGCAAGAGTTTTATGTATCAACATGGTTAAATCAGTAGTTTGGGGTATTTGGGTGGAAAGAAATCAAAAGTTATTTGTAACAAATGCGTTCTTTGGGAAGAAAGATTTGTGATGATAAAGCTTCATATAGCCTCTTGGAGTTCTCTCTCCGAAGTTTTCGTAAATTTTCAATTTGTGAGATTAATTTTTGGTCGGGTTGCTTTTACGTAATTACTTTCCAAATTATTAATATCTGTTGCTTCCAATTTTGGGGAATATAGTCTTCACTTCTAACTTTTCAATTGTCAATGATTTGTTGGTGTTTCTTGTAAACAAAAAAAATCATGTTGATAAGGTATTGTGCAAGGAGAGCTTGGATAGGTGATTTTCTCCGGTGTGAAATTTTTTTTTGTCTAAATGGTAGGCGATCTAGCTTTGTTCCTCATCTTTTTTTCCTCAAGGGAAGTAACACATTTTGTTTCGGACCTTTGTCTATTACCCACAAAATTTGAACTCAAAATATATGGCTTTGGCCTTCACTTGCTGACTGCCGTCCTACATGGCATACAAATTGACGGATTCAAAGCCATCAGAGACATCTTTCTTTGCAGCCCATCTGCTGAATTAAAATTTTCAGACTCCGTTTTGATCCCTCCCTCTAAGCGTTGGGCATTTTTGGGTTTGGACCTTAGAACCTTCGCGATTGTTGCAAATATTTAGTTGGAAAGGAATACTAGTTTTTTCAAGAGTGGAAGGGCGCAGGAATTTTTGAATGACATCTTGATCAAGGGATTTTCCATTGGCTGCTTATATTTCATATTGTTGGACATTTTTCAGTTTCATATTAAAAAAAAAGAACAAAAACAAAAAATGTTGGATATTTGGAACTCCTACAACTGGGGAAAAGTCTTTCTTTTTTTATATTGAGTTTATTATTGGTGTCGTGTTATAGAAATACCAGGTTTTTTCCTCTTTCTTGTTTTTTAGAAGTGACAAATTTTCATTCATTGGTGAAAAGTTACATAATCAAAAGTTTGAGGTTTTTCTTAGTTGTTTTTTGGGTTTATAAAAAATACTAAATAGACAAGGGACATCATTCTCTTTGTGGAAAAAGGTTTAAATGAGTTCATCATTTAAGTTCTTATGGTTTTAACTATTAACTCTCATTAGCTATCAATAATTTTAAATGCGTTCTTTTCACCAAGATTTTGTTTTTCCTTGCTCACCGATATATTTTGTTATAGAATATTGATGGCCTCCATCTTCGATCTGGTATACCAAGAGAGAAACTTGCTGAATTACATGGGAACTCCTTCATGGAAACTTGCCCATCATGTGGAGCCGAGTAAGTTTCTATCTTATGCTTTGTTTTTTTGTTTACTTCAACTTCTAATGTTATTGTTATATGGTCTTATTTCCTTCTTTCTGGATAATGAATATTGTGTGTGATGTATTTTTACCCATGTGTTATAACATAATTGCATGCCTATCTGTCAATGTGAACATTTGGTTCCAATTTTCATAGTGGTAGATCATTGGATTGGTATGTGTCATTGATGTTAAAAATTTCTAGTTGTTGGAAAGAAATAGGCGAACATTTGAACATATCAAAACTCTGTAGAGAAATCTTGATGGTGTCACGGTGTGTTCGTTTTAATATATTTTTTTTAATGATAATTGGTGTATCTTTCGACTGGGGAATATTATCATTTTTGTTACTTCCTGTTGTTTAGAACATTGGACGCACCTAGGTAATATATATTTCATAGATGTTTTTGATCTTGTCATTTTTGTTACTTCTAAATTCTGAGTACTAATTGGTGTATCCTTTCAAAAGGTTTTCGTTAGAAAATGAAAGCCTCCCAATTCATATAAATATTATTACGAGAATAATGATCAAACAAATTAGAAGTTTGTATCTTGTTAAAAAGATTACTTTCGATCCCTTATCTATGCCAATATTGGATACCTTTTTGTAAATCCCTTTGGTCTTCCCTTTCCAACCTTTTTTATACTCTTTAATAAAAAGTTAATGGTTTCTTCTCAAAGAAAAAATGTCTCTCTTTTGGACAATACTCTCATATTTTTGAGTAGGGGTTCACATTGGTCAGTTGGGCTCAAATCAACACCAATCACTGAGAAGTCAATTTTTCGTTGGTGGTTTTGGAAGACTTTGCAACACTGACTGACCGACTACATCGGTGGTTTTGGCCAAATCAACGTAAGATTGAAGTTTAGGCAAAATAGTGTGGGAAGAAGAAATAAATGGGAATGTGAGCCAAAAGGAACCTACACTTAACAATGAAAAAGGAGAAGAGGAGAGAGAGAAAGGGAGGTGGGAGAATAGAGAAAGGGAGACGAAGAGAGAAGGGAAGAAGAAAAGAAGAGGATGAGGAAAGAAATAAGTTTAAACTTTATTTATTTATTTTTAATGTTTTTGCTTGAGAAAACCGGTTTTGAGGCTGCTTTGTAGTCTACTTGCAGACGGCTCTTTGCAGCTTTGCTGTGCTTTTGGGGGGTAGTCTTTTTTTTTTTTTTTTTTTTCTAAAATATATATAAATAAGTTAATGGTTGGTTAGTTAGAAGTCACTTTTTGTACTAAACTGACCGATTGACTTGTCAGTTTTTTATTTTAGAAAACTGATGCCAAGCAAACCATTCATTAGATCGACGGATCTTGTTTTGGTCGGGTCGGTTTTTTGGAATTTATTGTTCACCCCTATTTTTAAGTGAGTGTTCTTTTCTTACCTGTCAGATATCTTACTCTAATATCATTATAAAGGTATTTGAGGGATTTCGAAGTAGAAACTATTGGATTGAAAGACACTTCACGGAGATGTTCTGATGCGAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGTACTTATTTTCTTGTCGGCTGTTTTGTGTTTCTCTTTTTGATATGTCTATAGAGAATAAAGTTTAGCTAGTTACTAATTTTAGTCCATTCACCATGCCTTCATATTTTATGTTTTTTCAATGATTGGTTTGAGCTAGTTAATATTTTTAGTATTCCTAGTCTACTGGAATTATTATCTCTTTGGTGGTCATGTTATCCATGTTCTTTTTTCCTTACAATGTTGCTTTCTTTCTTTTGGTTTGAGCTCTCATGTTAAGTTTAAAACAGTAGCTTGTTGTTTACTGGACTCCTATAATGAGTTGAAATAGAGCACTTAAAAGGTAAATCCTATTTTTTGTTGTTTTATCATCTGAAAATGTTGAAAGGCAACAATCACGAGTCTTTTTCTGTGTTTTGTTTTGTTTTCAGCTTCCACAAAAACGTGGGCTATGGTACAAATGGAAAGCTACTTAAAACTGTGGCCTTTCCTTTCCATGGCAACTTGGTTTGGAAATTGAGGTGGAAGTGCCTGTTTTCTCCCAAAATCTTCATACATCCAATGGTCGTCAAAGACTCACTTTCTAGGGATCCCCATTCCAGCTTCTTTGGGAGTTCAAGAGTCGTTCAAAAACTAATAATTCAATAACCATACATACGAGACTTATATTTGTCTAATTCCAAAGAAGACCAGAGCTTCTAAGATAAATGACTTCAAACCTATTAACTTGGTCAGTTCTTTCTACAAGATTATTGCTACAAGATTATAGCAAAGGTTCTAGCCGACCAACTTAAGGAAGTCCTGCCTCTTTTAACGTACGATTTTCAACTAGCCTTCATGAAAGGTGGTTAACTTCTAGATATCTCTTTTATTGCTTTTGAAGCAATGGGGAGAGTAGGTCCTTGAACAAAACTGGCTTCATTTTAAAAGTGGACTTTGGAAAGACTGATGATAAAGTAGAGTAGATTGGTCCTACCTCAACTCATTCTTAGATCTAAAGTGCTGTATGAAGAACAATGATGGAGGAGGTACTGTTACACCCCCCTTTTCGTGACCGGGGTCGTTTTTTGTGCCAGGCCTGTTTTTTGGCTTCTATTTGGGGTATTTGGTTAGAGAGAAATAATAGGCTGTTTAGGGAGGTGGAGAGATCTGTTGACTATGTTTGGGATCTCATTAGATTTAACACTTCTTTATGGGGCTCTGCTTCTAAGGCATTTTGTAATTATCCGTTAGGCCTCATTCTTTTGGATTGGAGTCCATTTCTTTAACGGTCTCCTTCTCTCTAGGTTGTTTTTTGTAGGCCTCTTTTGTGCTTCTCGTATCTCTTTTCATTTTTTTCAGTGAAAGTGTTGTTTCTTATAAAAAAGAATTTTTTTTTGCAACTAGGGTTGGGAATGGGTCCAAATCCTATGATGGCCACCTACCTTAGGAATTAGTAATTCCTACGTGTTTCCGGACACCAAATGTCGTAGGGTCAAGTGGTTGTCTTGTCCCGCGAGATTAATTGAGGTGCGCGTAAGCTGGCTCGGACACTCATAGATATAAAAAAAAAAAAAGTTCCAAGGAAAGTGACCAAAGCTATGGAAAAGATCACTAGTGGGAATGGAACTGGCTTGGAACTTGAAAGCCACCTAGTGGGCTGGAAATGGAATGCCCTTCCCAATCTTTGGTGGTCAAATTAGGTACTGTTAGAGAAAGAAACAATGCATTACTTCTCAAGTGGCTTTGGAGAATTTATTCACAGGAAACTGCCCTTTGGATGAAGGTGATCAATGATACGTATGGGCTGTTGTGGCTAGAAAGAAACCAGAAGATTTTTCAAGATAGAGAGAAGTCTTTGGTAGCTTTTGCCTTTCTTTGGATCTGGTGCAGTATGCATGACCTATTTTGGGAGTGCCCTCCACAATAAATTCTTTTGTAATCACAATTGTTTTCTAATCAACCGTGATTGGAGATGTTTCATGTAATATTGGTTTCTAGGTCGGGGTTCTTTGTATGCTCGGGTGTTAGGCTGTTACCCTTTTGGCTTTGCTGAATATATTCCGTTTCTTAAGAAAAGAAGAAAGTATTATGGTGGCTAAACAAACATCCATGCAGTAACCAATTAGGAAATCTATTTATTCACATGATCTTGCTATGTTCTTTGGTAGTTTTGTCTACTATATACATTTTCAGGAATTCCTATAAATTGTTTATAATATAAGAAGTACGTGCATAAGGTACATCTTAAAATTACCATTTAGCTGTAAATTTCTATTTTTTGCAAGCATGCTACTAACGTTTTATATATCCCAGCATATTTATGGGTTTATTTTTTTATTTTATTTTTAATACGTGCTCTTATATTTCTTTTGAATTGATTTAAATAATAAGAGCACGTTAAAAATGTTAGCATTTTATGTGGGTTAGATAATGTAAAGGAAAATTTGAGATTTCTTGTATGGCGAGAATGTTGCAAGTCTATGTTCATGATTAAGAATGAATTTTGTGATTGGGATGTTCTGAAATTGGAGGGATGTGTTTCTGGTCCACATTTCTTGGAGGTAATGTTAATGTCTCACACGTGTTGGTATCCTAAAACGTCCTACATGACGGAATTGATGCATTAATGTCCAACGGGGTCAACCTTACTAGATAACTTTTTTCCAAGCCGTGAGGAATTAGATTTATACTGTGACAAATGGTTGATGACATCTGACCTCTGTATAAATGCAGGATGCATTGCCTCCAAAGGAGATGAATCCAGCTGAAAGGCACTGCAAGATGGCTGACGTTGTGTTATGTCTAGGGACAAGGTAGTAGAGCATCTCTTGCTATGGAATGCCGTTTTTTTTAATTGTTAATGTGGTCGTTACTCATTTTAAACAGAAAAGCTGGTTCTAACTACTTTGTTTGCTGAAATAAGCATGTGCCCATGTCATGAAAATTAACTCTTTTTTCTTTTTCTCTATTTCTATTTTTTTTTAAATTTGATCTCTGACTATGTTGATAAAGTCCATGAATAGAGATTGTTCTCATGGATGTAATTTTACTGACTAGCAATTGGTTGGTGGCTAATTCCTGAAGTCATTTGAAGAATTTCAGGTGATTTACAATATTATATTGTTCAACATGATTTCAAAATGCGTATTTTGTTAAAAAAAAAAACATGGTTTCAAAATGCAAAGGAACTTTTTTTTTTTTTTTTTTTTTTTCACAATGTAACGCCTTGTGGCGAAAGATTATTATGAGTAAGTATGGGCGACATCCGTTTGACTGGATTCCAACAGGCGTGTCTTAGGTGAGCAACTTCAATCCCTGGAAGGCTATTGCTTTGTGTTTCCCCGTTTTCTCTCATTCTCTTCGTGTCTCTGTGGGAAAGGGTCTTAATACTTACTTTTGGAAGGATACTTGGGTAGGCAATAAACCCTTGAGTCTTGCATTCCCTCGGATCTACTTTCTGTCTAAAAAGAAACTCCTTTTTGTGGCCAAGGTGTTGAATTTTGGGGAAGAGGAATCGTCCATTTCTCCGCGGCTCTCTCGGTCTTTAACTGATAGGGAATCGTTAGAGGTTGCCGTGTTACTCGATCTGTTGTCTAGTGTTTCCTTATCCTTTGGGAGGGAAGACGTGAGGGTGTGGATTCCCAACCCCTCGAAAGGTTTTTCTTGTAGCTCTTTTTTCCATGTCCTGGTTTCCCCATCTTCTTCTTCTTTGTCTTCTCATTCTTCCTTCTCTTCTCCGTCCCCGGTGACCCCTTGGTTTACCTCTTTGGGTGGCAAGTATTACTTGGTAAAGTCAATACCTTGGATTGGATTCAAATTATGTCTTCCTTTTGCCTGGGCCCGCAGTGGTGTGTTCTGTGTAGGAATGCCGCAGAAGATCTTGAGCATTTGTTGTGCTTCTGTTAGTTTGTGCAGGAGTTATGGTGTCGTTTTTTAGAGGTTTTGGTATTGCTTGGGTTCGCTCCAGAGATTGCAGAGCGATGATGGAGGAAGTGTTGGTATTTCCCCCTTTCGTGACAGAGGCCGTTTTCTTTGACAAGCGTGCTTTCTGGCTACTTTATGGGGTATCTGGCTGGAGAGGAAAGATAGGCTGTTTAGGGCTGTGGAGAAATTTGTGGATTATGTTTGGGACCTCATTAGGTTTAATACTTCTTTATGGGGCCACTAAGCCTTTTGAAATTATCCGCTAGAACTTATTCTTTTGGATTGGAGCCCATTCTTATAAGGGTTCCCTTTGCCGGGCTGTTTTTTTTTGTATGCCCTTTTTGTGTACCTTCTTTTTTCATTTCTCTCAATGAAAGTACAATTTCTCATAAAAAAAAATGTAATTACTACTATTATTTGGATGTCTGTAAAGCCCTTTTTGTGCCTACTATGAATTTGTTGGAATTTTTTTTTTGATGGTCATATGGTATGATTACTATGTGCAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTGAAATCACTTCGTGGTGGGGGAAAGATTATAATTGTGAATCTTCAGGTACTTGATCCTTTATTTCCAGCGAATTGTAGGCCTTGCCTTGCCCCTTTTCTTTTTGTTACTATTATTATTATTGGATTGGAGGCCTATAAATGATAAGATGTAATACAAAGAAGATATTCAGTGGAGGCATAATTCTTTTAGTTGTAGATAAAAGAACATGTGTTATATAACATGCTAATGCAAGTGAGAAAAGTTTTCTCTCACTCCTACGGGGGTCTGTATCTTTGAAATTTTTTTATTCCTTTTCATACTTTCAATGAAAAGTTTGTATCTTGTTAAAAAAGACATGTTTCTTTTTGTTATTCAACTGTGTAATGAAACAATTAACATTGATATGAGACTCTTAGTTTCACTTTTTTTCCCGCAGTAACTTTGGTATTTTAAGTTATACTATCCTTGAGTTTTTAACGAAGAAATTACTAGTGAATAGAAACTATAAAGATAATTAATTTGTATGACTTGTAAATTATTCGTATTCCCTCACCCAAAAGTACTTTCGGCCTGCACCCTAGCCTTCGAGCCCATTTCTTGAGGTTGATTTTTCTAAATCCGAAATCCTCAATGCTATTTACACTCTGGGCACCACAAGTTATCGGGGACAGGTGGTTTCACAATTTAAGTTTTTAAAAAGTTCATGGGAAACATCCTCATGCCTGACTCTTGAAAGTGTTCCATGATTTTATTAAGAATGGTATTATCGTTGCAAGGCTGAACAAAACTTGTATCCTTCTTATTCCAAAGAAACTCAAGGTAAAAATAATGAATAATTCCAAACCAATCACTCTCATCCTTTTTGTATCTATGCCAGAAGGCATAAAAAGGCCTTTCCCCAAACTATCTCAAAACATCGATTTACTTTTGTTTCTGACAAACAAATTTTTGATTCTTATCTTATTGCTAATGAATTTATTGATGAATGGAAGATAAAAAAAAGGAGAATATAGTCTTGAAGTTGACCTCAGAAAAGCATTTAACAAGGATGATTGGGGTAACCTGGATGCATCCTTCAAGCCAAAGGTTTTGGGCTTCGCTAAAATGGATTTAGGCTTGAGCATATCCAGCATTCACCAAGGGACCCTCACTTCCCCTTTCTCTATATTTGTGCAGTGGATTGCCTAAATAGATGCCTTTCACGACAGTCTTCCTTAGGTTCTATCAAGGGCTCTTCTCTAGTGAATAACTCCTAGTCCTTGTAAAGTCAATACCTTGGGTTGAGTCAAGAAGTGTTCTTTATTTTTGGGCTCGCAATGGTGTGTGCTTTACAGAGGAGCTTTGGAGGATCTAGACCACATCCTTTGGTCCTAGCAGTTTGTGTGGGATTTATGGGATCGCTTTTTTATTACTTCGCGGTGTCGTTGGCTCGTAATAGGGATTGTCGAGTGATGATGGAGGAGGTGTTGTTCCCCCTCCCTTCAGGATAGGTGTAGGTTCTCGTGGCAAACTTGTTCCTTGCTACGGGAAATTTGGCTCGAGAGAAACAATTGATCTTTTAGCGGGTGGAGAGATCCAAAGAGTATGTTGGGAGCTTATTAGGTTTAATACTTCCCTGTGGGGGTCAGTTTCTGAGAATTTTTTGCTCAAGCGGGTTGAAGATCGGCTGTAAGAATGTTTTCAAGGGTGGAGCTTCAATGGTAAGTGTAAAGAATTGTGGGTTTATGTCTTTAGAGCTCTCTTATGGCACATTTGGTTGGAAAGAAATCATCGGTCTTTCGAGGATAAGGCTAATTCAGTTGATTCTTTTTGTAATAGTGTCCATATTATGGCATCTTGTTGGTGTCATAGGAACAGGAAATTCTGTTGTATTTACTGCCTCTCTCAAATCTTACAGGATTGGAGAACTTTTCTTCTTGTTCTCTCTCTCTTTTTTTTTTTTTTAAGAAACCAAACTTTTCATTGAGACAAATGAAATCAGAAAACATATACACGGGCAAACAAAAAACAAAAGTCCTGGAGGAGCCCTAGTTAAAGAAAGGGCTTCCAATCCAAAAGAATAGAACCTAACAGATAATTACAAAACAAGTGAGAAACAGAGCCCCATGAAGAGACATTAAATCCAATGAGATCCCAAATAGACTCCATATCTCTTACCACCCCCCTAAAGATTCCGTTGTTTCTCTCCAGCCAAATCCCCCACGAAATCTCAAAGAAACAAGCCTGCCACAAAAAACTCCCTTTCTCACTGGAAGGAGGAAACAAAGCACTTCCTCCACCATAACCCCCCAATCTCTGTGACAAATCCAAGAAATCTTAAAGATCTCAAAGAACCGGTAGTGCCATAAGATACGATCAAGATCCTGAACCCTGCTTGCAAAGAACACACTATTGCGACCCCAAACAGGAAGAAGAACGCCTTTGAATTCAATCAAGAGTGTTGACTTTTCCAAGTAAGACCTACCACAGGAAAAACTTAATCTTCTTCTGAATTTTCACTTTCCAAAGCGAGACAAATATTGGGGCAACGGGGAAGAATAAATGGAGCATAAAAGTATAAAAAAAGGAGCTACAAGAGGAGCCCTTAGATGGACTAGGAGACCAAGCACAAAAATCCTTCCTATCATGAAAGAGATGAGCATCAGAGACCAAATGGAGCAACTCAGCCACTTCCTGATACTCTTTGTCAGTCAAAGACCGAGGAAATAGGCATCCCTTCCCTAGCATCAAGGCTAGCAAATACAACCTCCTATCCGATAAGAGAAAAAGACGAGGAAATAAAGAACAAAGAGGCTTTCTCCACCCAAAGGTCCTCCCAAGAATAAGTGTCATGACCATCCACAACCATGCAAGACAAGAATTGGGAAAAGAAAGGAAAACCTGAGGAAATAGCCTTCCAGAGTTACTAGCACAAATCTTAAGCCCTCCATCTGATATCCAGTCAAAGGGGTGCGGCTCATACTTACGATGATTCCTGCCACAAAGCACTAGTTTTTTTTTTCTTTTAACAAGAACGAACTTTTCATTGATTAATGAAAAGACACGTAAAAGTGTTCAAAGCTAGGTTTTTGGAAGAACCGCCACAACCATTTAGCCAAAAGCGCATAGCCTTCTAGAGTTGCTAGCGCAAATCTTAAGCCCTCCATCTGATATCCAATCAAAAGGGTGCAGCCCATACTTACGATAATCCTCTGCCACAAAGCACTAGGTTTTTTTTTTCTTTTAACAAGAAACGAAGTTTTCATTGATTAATGAAAAGGAACATAAAAGTATTCAAAGCTAGGTTCTTGGAAGAACCGCCACAACCATTTAGCCAAAAGCGCATCGTTTTTGTGTCTCAAGTTGCCAATACCCAGATCTCCTGCCTCTAACGTCTTGGAAGCAATCCTCCAACTAACTAAGTGAGCTTCACCCCCCTCATCCACTCCCTCCCACAAAAAGGCTGTTTTTGTTCCCTTCTTTTTTTCAATGAATTGTTTCTTTATCACCAAAAAAAAAAAGTTTCTAAGAGTTTTTGTAATTATGAGTTAGGTATTTTTCTTTGGACTAACGACCCTTTCTTTAAGCGTGTTCTTTGGTCGGGCTGTTTTTTTATATGCCCTTGCATATTTTTTCATTTATCTCAATGAAAGCTGGTTTCTTATGACAAAAATGAAGAAAAAACTCCTTGGACATTAATCACCTTTCATTTGAGATGATATAATCCCGTCTTTTCCTAAAAATGTCTTGAAAACCTCACCAAAATTATCAAAATCTTCGAGGAAGCTTCTAGTTTGAACTATGGTAAATCTGAATTACTGGGAAGTTATGATTCTTTCATTGATCATATTGCTTTTTTCTTTGGTTGTGGCCAAGCTCGCTCTTGGGGCTTCCCTGAACAGAAACCTACGTTATTCTTCATTTTGGGTGCCCATCATTTGGAGCATTGAGAAAGCTGCAAAGCTAGAGGATTTCTCTTCTTTCTGAAGGACATACGATCTTTATTAAAGCAACTCCCTTTAATCCCCCCATTTATTGCATGCCTGCTGATATGGTTAATTCCACAGCGAAACTTTCCAGAGACTTCAACAATAAAAAACTGTCACTTGGGTGGGTTTTGGACTACATAACCTTTGTAGATCTTTCTTTCTTCTTTCCTTTTTTTTATTTACTATTATTATTATTTTTTTCTGAGAAACAAAATATGTATTGGAAAAAGAGATCGAACAGCCTAAGGCAGGGGGAAGAGGGATCCCCCTCCCAAGAGAATTAATGAAGGGTTGCCTTTGTAGCTCTTTCTTGGTGTAAACTTTATGCCGCAGTTTAAGTTCTCGTTGTAAATTTATTGTTGTCTACATCTATTGAAAGAATTTTCTGGGGGGGTTTGCCTTTCAGGTAAACCTGCGGAAAACGGTTACAGATGGCTATTAATATCTTTTGTAGTTAGGCGTAAACACAATTAATATGACCATAAAGATGTAGAAAATGCTAAGTCAGAGTATACCACAAAAAAATCTATGAACTTTTAACTGAATGTTTCAATGCTGACCTATCATGTAATTTAAGAAAATTTTGTCTGCCTCTTCTGACAGAAAACACCGAAGGATAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTAGATAAGGTATTGTATTTCTCTTTCCTTAGCCTGTTAAGAAAGAAAAACTACATTTTACTATTCTTGTTATTCATCTGGAATACCAAGAACAATGAATTTGTATTTATGCCATACATTGGCTTTGAAGTCGATCAACTCCATCTGATATAAATAACCTACCATGCATACTTTAAACCCTAAATCATAAATTTATTTTATTTAATATTTTTTTTGTTCAATGTGAACTGCCATAGGTCATTGCTGGTGTAATGGAGATCCTAAATCTGCAGATTCCCCCATTTGTTCGAATCGATCTTTTCCAGATTATACTTTCTCAAGGCTTGAGTCTTGGTAACTCTTTCTACATTTTTTCTTACTGCATGGCATTAGGCATGACGAGGGAATACCATTAGTCTACTGGACCTCTGCATTAAGTTACTTGACAATTGATATTTCTAGAATACTTATCCACATGTAATACTTCTTCCTTATCTATGAACGAAAATCTTTATGCAATATGTGAAATCTGGTAGCCACCATCTTTCTATTGATTTTTGGCTTTTGGTGTCTTTTTCAGACCATGGTTTAGAATGTTAATTTTCTGATTAATAGACTTAGAAGTGGAGGCATGTCTCTCCCTTTGAACTTATATTTGCTAGTGTAACAAATGACTAGAACTTTTCAGCATCTATCCTTCAATTTTGTTCTTGAATGTTGTTCATGTTTGAATCTTTTTTCTTTATATTACTTCTCTCAGTGAATTGATAGGTTAATTCTCGTGTTTCAGATGAGAATTATGATACTTGAATCATTTGGTTATCTAGTCTCCGAGGATAAAAAGTTCCCTTTTGATTCTTTCATAATTCACTGCACGCATTTGGTAGATGTTTTAACATTTCTTTCTAGCCAAATGTTGGAATGATGCTTTCTTATATTCTTTTGACATCCAAATGAAGCAGTGAGAACCATGGGTCAGAATGCCGTACAATATTCGCCTTTTCATGAGTTCAGTTTTTTTCTTTTGTTGCAGATAAGAAATTTGTTAACTGGACCCTTCGAGTGCTAAGTGTACATGGACAGAAAGCTCCATTGCCATTTATCAAATCTGTTGAGGTGATTTATTGAAATCATTGCGCTTATTTTCCTTCATATTGCCATTTTAACTCCAATTTGTGACAATTGAGGTCTTGTGTTCTAGAAAGTAGGTTGAAGTTGTACTTATAGTCATCTCTCACTTCAATTTTTTTACGGCTGACCTAGATTTTCTTTAGACAGCCGTAAAGGGCAATCTTGGTGATGGTGAAGGTTTGGAGCCTTGATTATCAAAGGTGTTGCCGTGTTGGTTTCAAGCATCTAGATGGGGTGCTTCATAAGAGAATAATTTTGTGTTCTTGAGCTAATGTTGGAGTTCTCAAAATATGCTTGTAAAATGATGGGGTCGGCCTAGTGCCATTAATAGATATAGGAAAAGCCTAGATATTCTTGACACTTTAAGTGACTTTAGGTTTGTTTCGAAGTCCTGGCTAACTTTTTTTTCTACTTTTAGAAACAAAAAAAAAATTTTGATGTAAAAAACCTGTTTGGCAAGATAGTTTCTAAAGAAAATACGGAGAAGAAATGAAATGAAAATACAATGACAAAAGATATATTCCTATACAGTTTTTAGAACTGAAAAAATAATGGGAAACAGTTTTAAAAGGTTAATCATAAAAATTTCAAGGTGTCCTATTAACTCATCTCTTTATTGATAATTTTTGGGATAATGGTAACACTTCATACGTTATAGTTTAGCACTTGTCCATGTTCTCCCAGGTTTCGTTCCTGGATAATCAAGATTTCAAATCAGCTACTTTACAGAGCCAACCATTTCTCCTTAAAAGGTAATTTTATATTCTTCCTTCTTCAAGGTATAATTTCTTCTTGAGATTATTTAGGACATCACTAATTTTCAAGTATGTTAATTTCATGGGATAACTGCACGAGACATTTGGCATATTAAATGGTTTATCATATATAATATGAGTCCACATGAGGACTCTGTTCTTTCTCGATGTAATGGACAGGCTTATGTTTATTGTTAGTCTTCTTTTCTTAGTGAGATATGGCTCTGATTAGAAAATGAGAAATTGGTGTTTCATGATTAAACTCTCTAAATCATTACTTGCTGCAGCCCTGCGGCCGGCCCGACAGTACCTTGTGCATTTTCCACGGCTACATTCTCTTTTAGTCATTTTATAGAACCTTGGTTTTTTATGCTGAATGTCTCACTGAGTCCTCGATGATGTTAACTTTGAAAATACCAGCTTATTATTACACTGCCATTACTCATTCTTTTTATTTTTCAGGAGAACTGGAAAGGCAAAATCATTTGAGTTGGTTTTAAGGCTCAATTTCAGCGAAGGTTGTGGTAGTTCGCATGTTGAAATTAATATCCCTGTTGATTTTAAGGTGAGAAATTGAAATGCTTCCAATTAAGAATGATTTTACTATTAGTGACTTGCATGCTTTAATAATTAAGAATGATTTTAATATTATTGCGTGATGTTCCTTTGAATTTTAAGTTAATTTTGCCACTAAAGTTCGGGTTGTTATATATTTTACTAATCGTAGCGAAATCACACCATTTAACCATCAACAACTTACAAGTATACTCTCTCCGCTAAGCCTGAAAATTCCTTATCTTGCATAAAAGAACTTTGTTCTTTTCCCCTGTCTATATTTCCCTGAAGGTAGTTTCAGATTTCCTTTAAGATCTTAGTTTTTCTTTTATTTCCAGCCCCTCTAATGGTGTTGCAGGTCTTAACTGATTGGAAAAGCTTCAAAATTTCTGTCACACATTGGAGTTCAATTAATATAGAGGTTATTTAGATATGAGAGAGTGGGCCCACTCTCTAAACTATCTCATACAATGACTCAAATAAAAGGAGAGCTCCTCCCAATTTTCCATTAAGTCTTGTTACGTCTATACATATTGGCCTACCCGATATACCTAGATAGAGATACATGTATGGGGTAGGCCACTATAGACAATTAACCAGACGACACGTTTTTGTCGCCTCTTGCCTTGAGACGATTAAGAAGCATGTCGCCTTAAGAAGGGCAAAAACACTTTGAATATGGAATACCAACATGATCTTGAATAAGAAGATAGGGTTTTGGTCTTCCAAGGCCTGCAAACATAGACGGAAAAAGCCATAATTCCTTAATTTGTGCCATTAACTCTGTCAAAAGCCATAAAGCTCCCAGGGCGGCTCCACTGGTATGGAGTTGGGATCTCTTGGTCATACCAGCTTAGAGGTCTCGAGTTTCAACTTTAGGGTGAGCTTAATACGAAAAATCCTCAATGTTTCTTGGGTACAGACTCTGGCGTAGGTGCAAGACTCCTTAGTATTTCTCTCAGTGCTTTGAGTAAATTATCTTGGGAGTATTTTTCTCATTGGCCACCAGTATTTTTTCTTGGATGAGTCTTTTTTCTACGCCTTCATTTTTGTACGAAATAGATATCTTTTTCATGTATCTGTCACTTAGATATTGGAAATACGATTAGATTTCAATGCATACGTATACTGGTTGATCAGCGATCTGTTGCTCTTAATGCTGTGCAGGTCTCTGCAGATTGTATGAATTTTGATAAGGAGGTTGTATTTCAGAAACTGACAGACGAGGCAGTTCAAGATTCCTGCTGCGGAAAAAACGCAGTTATTGAGCGAAAAGCTATCTCGATCCCAAGGAGTGAGGTTACTGTATATGCCATTGTAACTAACATTATTAGGTATGCCAAAATCTCAAAAACATTAGAAGTAGATTCACTTACTAATGGCGATCTCAAACGACGAGGAAGTGTAAATGGTTCTACAACATCTAGGAAGCGGTCGAAACGACAGAAGCGCAAATCTAGATATTAGTGTGCACACTGTACATATTTTGTTATGTGTCGAAACACCGAAAAAGAAATATCACAAGGGGACTGGGTGGATTTTGTTAGATATGACACTCGGTCTCGGAAAGTGACATAGTTAGGACAGTTATCGGTAGGCATCAACTAACCGCTCAAATTAAGACTTCGAAATCCATGTGGTACATAGCTTTATTGTGGAAGTGTATTGGCTGGCTGCTGGTAGATTATGTTGATAGCTTTTGGAACTACTGATACCTCTGAGATAGTACATTTTGGGACTGTCGGATATTCAAATGTTTTCGTTACTAATTCATGTAGTTATTATCGAATGCTTTATCATTACATGATACCAAGAAATTGATATGAATCTCGGAGACATCGGTAGACCCTCTCCCGAGATGACTCGTGTTCGGTTTATTTGGATTGCTTATGTAGGTTTGTTGCAGTGTTTTTGTGCCTGCAGGAGGGTTAAAACTGGAAGAAAACCATGTGTTTCCCCTTCTTTCTGAAACAAGAGTGATTATTGCAGCTCACTCCTGGTCTTATGTAGTGTATCCCATATTTAAAGATACATTTTTATGACTAATTGAATTATAACAAATGATACCATTTACCATAGCCTAATT

mRNA sequence

GTTTTGAAATGATAATTCCCCCATTTATATTTCGACAGACTCGTGTTTATTTTGGGTCTCCCGAAAAGAAGCCTATGCTTCAATTACTTCGGAGCGAATAGAGAACAGGGGTCCTGATTTTCGTGTCTACAACTTCTGTTGATCATATTGGGGCGAAACAGAAAGTGGGTCAGAAGCCAGCAGAGTCGCCATGTCTCTGGGCTACGCAGAGAAGCTTTCGTACATAGAAGACGTAGGCAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGATTGAACGACTAACTATGATGATACAAAAGAGTAAGCATCTAGTGGTGTTTACCGGTGCAGGAATATCAACATCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTGCAGCGTGAAGGTAAAGCCTTACCAGAAGCATCACTGCCATTTCATCGTGCAATGCCAAGCTTGACTCATATGTCTTTGGTTGAATTAGAGAAGGCTGATATATTGAAGTTCATCATTAGTCAGAATATTGATGGCCTCCATCTTCGATCTGGTATACCAAGAGAGAAACTTGCTGAATTACATGGGAACTCCTTCATGGAAACTTGCCCATCATGTGGAGCCGAGTATTTGAGGGATTTCGAAGTAGAAACTATTGGATTGAAAGACACTTCACGGAGATGTTCTGATGCGAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGATGCATTGCCTCCAAAGGAGATGAATCCAGCTGAAAGGCACTGCAAGATGGCTGACGTTGTGTTATGTCTAGGGACAAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTGAAATCACTTCGTGGTGGGGGAAAGATTATAATTGTGAATCTTCAGAAAACACCGAAGGATAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTAGATAAGGTCATTGCTGGTGTAATGGAGATCCTAAATCTGCAGATTCCCCCATTTGTTCGAATCGATCTTTTCCAGATTATACTTTCTCAAGGCTTGAGTCTTGATAAGAAATTTGTTAACTGGACCCTTCGAGTGCTAAGTGTACATGGACAGAAAGCTCCATTGCCATTTATCAAATCTGTTGAGGTTTCGTTCCTGGATAATCAAGATTTCAAATCAGCTACTTTACAGAGCCAACCATTTCTCCTTAAAAGGAGAACTGGAAAGGCAAAATCATTTGAGTTGGTTTTAAGGCTCAATTTCAGCGAAGGTTGTGGTAGTTCGCATGTTGAAATTAATATCCCTGTTGATTTTAAGGTCTCTGCAGATTGTATGAATTTTGATAAGGAGGTTGTATTTCAGAAACTGACAGACGAGGCAGTTCAAGATTCCTGCTGCGGAAAAAACGCAGTTATTGAGCGAAAAGCTATCTCGATCCCAAGGAGTGAGGTTACTGTATATGCCATTGTAACTAACATTATTAGGTATGCCAAAATCTCAAAAACATTAGAAGTAGATTCACTTACTAATGGCGATCTCAAACGACGAGGAAGTGTAAATGGTTCTACAACATCTAGGAAGCGGTCGAAACGACAGAAGCGCAAATCTAGATATTAGTGTGCACACTGTACATATTTTGTTATGTGTCGAAACACCGAAAAAGAAATATCACAAGGGGACTGGGTGGATTTTGTTAGATATGACACTCGGTCTCGGAAAGTGACATAGTTAGGACAGTTATCGGTAGGCATCAACTAACCGCTCAAATTAAGACTTCGAAATCCATGTGGTACATAGCTTTATTGTGGAAGTGTATTGGCTGGCTGCTGGTAGATTATGTTGATAGCTTTTGGAACTACTGATACCTCTGAGATAGTACATTTTGGGACTGTCGGATATTCAAATGTTTTCGTTACTAATTCATGTAGTTATTATCGAATGCTTTATCATTACATGATACCAAGAAATTGATATGAATCTCGGAGACATCGGTAGACCCTCTCCCGAGATGACTCGTGTTCGGTTTATTTGGATTGCTTATGTAGGTTTGTTGCAGTGTTTTTGTGCCTGCAGGAGGGTTAAAACTGGAAGAAAACCATGTGTTTCCCCTTCTTTCTGAAACAAGAGTGATTATTGCAGCTCACTCCTGGTCTTATGTAGTGTATCCCATATTTAAAGATACATTTTTATGACTAATTGAATTATAACAAATGATACCATTTACCATAGCCTAATT

Coding sequence (CDS)

ATGTCTCTGGGCTACGCAGAGAAGCTTTCGTACATAGAAGACGTAGGCAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGATTGAACGACTAACTATGATGATACAAAAGAGTAAGCATCTAGTGGTGTTTACCGGTGCAGGAATATCAACATCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTGCAGCGTGAAGGTAAAGCCTTACCAGAAGCATCACTGCCATTTCATCGTGCAATGCCAAGCTTGACTCATATGTCTTTGGTTGAATTAGAGAAGGCTGATATATTGAAGTTCATCATTAGTCAGAATATTGATGGCCTCCATCTTCGATCTGGTATACCAAGAGAGAAACTTGCTGAATTACATGGGAACTCCTTCATGGAAACTTGCCCATCATGTGGAGCCGAGTATTTGAGGGATTTCGAAGTAGAAACTATTGGATTGAAAGACACTTCACGGAGATGTTCTGATGCGAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGATGCATTGCCTCCAAAGGAGATGAATCCAGCTGAAAGGCACTGCAAGATGGCTGACGTTGTGTTATGTCTAGGGACAAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTGAAATCACTTCGTGGTGGGGGAAAGATTATAATTGTGAATCTTCAGAAAACACCGAAGGATAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTAGATAAGGTCATTGCTGGTGTAATGGAGATCCTAAATCTGCAGATTCCCCCATTTGTTCGAATCGATCTTTTCCAGATTATACTTTCTCAAGGCTTGAGTCTTGATAAGAAATTTGTTAACTGGACCCTTCGAGTGCTAAGTGTACATGGACAGAAAGCTCCATTGCCATTTATCAAATCTGTTGAGGTTTCGTTCCTGGATAATCAAGATTTCAAATCAGCTACTTTACAGAGCCAACCATTTCTCCTTAAAAGGAGAACTGGAAAGGCAAAATCATTTGAGTTGGTTTTAAGGCTCAATTTCAGCGAAGGTTGTGGTAGTTCGCATGTTGAAATTAATATCCCTGTTGATTTTAAGGTCTCTGCAGATTGTATGAATTTTGATAAGGAGGTTGTATTTCAGAAACTGACAGACGAGGCAGTTCAAGATTCCTGCTGCGGAAAAAACGCAGTTATTGAGCGAAAAGCTATCTCGATCCCAAGGAGTGAGGTTACTGTATATGCCATTGTAACTAACATTATTAGGTATGCCAAAATCTCAAAAACATTAGAAGTAGATTCACTTACTAATGGCGATCTCAAACGACGAGGAAGTGTAAATGGTTCTACAACATCTAGGAAGCGGTCGAAACGACAGAAGCGCAAATCTAGATATTAG

Protein sequence

MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLHLRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTVLDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLSVHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGSSHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVYAIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY
Homology
[Close]
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match: Q9FE17 (NAD-dependent protein deacetylase SRT1 OS=Arabidopsis thaliana OX=3702 GN=SRT1 PE=2 SV=1)

HSP 1 Score: 664.1 bits (1712), Expect = 1.2e-189
Identity = 325/472 (68.86%), Postives = 395/472 (83.69%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLS+IEDVG+VGM E FDP H+L+ KIE L  +IQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSFIEDVGQVGMAEFFDPSHLLQCKIEELAKLIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGK LP+ASLPFHRAMPS+THM+LVELE+A ILKF+ISQN+DGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKDLPKASLPFHRAMPSMTHMALVELERAGILKFVISQNVDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKL+ELHG+SFME CPSCGAEYLRDFEVETIGLK+TSR+CS   CGAKL+DTV
Sbjct: 121 LRSGIPREKLSELHGDSFMEMCPSCGAEYLRDFEVETIGLKETSRKCSVEKCGAKLKDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKE++PAE+HCK AD+VLCLGTSLQITPACNLPLK L+GGGKI+IVNLQKTP
Sbjct: 181 LDWEDALPPKEIDPAEKHCKKADLVLCLGTSLQITPACNLPLKCLKGGGKIVIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKA++VIHG VDKV+AGVME LN++IPP+VRIDLFQIIL+Q +S D++F+NWTLRV S
Sbjct: 241 KDKKANVVIHGLVDKVVAGVMESLNMKIPPYVRIDLFQIILTQSISGDQRFINWTLRVAS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHG  + LPFIKS+EVSF DN ++K A L  QPFL+KRRT + ++F++  ++N+S+GC  
Sbjct: 301 VHGLTSQLPFIKSIEVSFSDNHNYKDAVLDKQPFLMKRRTARNETFDIFFKVNYSDGCDC 360

Query: 361 SHVEINIPVDFKVSAD--CMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVT 420
              ++++P +FK+S +      DKE V Q L ++AV++S CG++ V+ER+ +S PRSE  
Sbjct: 361 VSTQLSLPFEFKISTEEHVEIIDKEAVLQSLREKAVEESSCGQSGVVERRVVSEPRSEAV 420

Query: 421 VYAIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSR 471
           VYA VT++  Y       +   L NGDLK +  + GS TSRKRS+  KRKS+
Sbjct: 421 VYATVTSLRTYHS-----QQSLLANGDLKWK--LEGSGTSRKRSRTGKRKSK 465

[Close]
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match: B8ARK7 (NAD-dependent protein deacetylase SRT1 OS=Oryza sativa subsp. indica OX=39946 GN=SRT1 PE=2 SV=1)

HSP 1 Score: 567.0 bits (1460), Expect = 2.0e-160
Identity = 291/479 (60.75%), Postives = 359/479 (74.95%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSY EDVG VGM E FD P +L +KIE L +M+++SKHLVVFTGAGISTS G
Sbjct: 1   MSLGYAEKLSYREDVGNVGMPEIFDSPELLHKKIEELAVMVRESKHLVVFTGAGISTSSG 60

Query: 61  IPDFRGPKGIWTLQ-REGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGL 120
           IPDFRGPKG+WTLQ R GK +P ASLPFHRA+P+LTHM+LVELEK   LKF+ISQN+D L
Sbjct: 61  IPDFRGPKGVWTLQVRSGKGVPGASLPFHRAVPTLTHMALVELEKTGRLKFVISQNVDSL 120

Query: 121 HLRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDT 180
           HLRSG+PREKLAELHGNSF E CPSC  EYLRDFE+ETIGLKDT RRCSD NCGA+L+DT
Sbjct: 121 HLRSGLPREKLAELHGNSFKEICPSCKKEYLRDFEIETIGLKDTPRRCSDKNCGARLKDT 180

Query: 181 VLDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKT 240
           VLDWEDALPP+EM+ A+  C+ AD+VLCLGTSLQITPACN+PL SL+ GG++ IVNLQ T
Sbjct: 181 VLDWEDALPPEEMDAAKEQCQTADLVLCLGTSLQITPACNMPLLSLKNGGRVAIVNLQAT 240

Query: 241 PKDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVL 300
           PKDKKASLVIHG VDKVIAGVM ++NL+IPP++R D  QI L    S+ KK V WTLRV 
Sbjct: 241 PKDKKASLVIHGLVDKVIAGVMYMMNLRIPPYIRTDFVQISLRN--SVKKKCVRWTLRVT 300

Query: 301 SVHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCG 360
           S+HG +APLPF++SVEVSF +  D K   L+ QPF L+R T   + F ++L  NFS+GCG
Sbjct: 301 SIHGLRAPLPFLRSVEVSFPERPDMKPVVLKEQPFSLQRETSMNRPFVMLLTFNFSDGCG 360

Query: 361 SSHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTV 420
            S   I  PVDF    D    D+ +V Q+L   A   S  G++A++ER+   +PR+E ++
Sbjct: 361 CSSSSIEWPVDFLKQKDSFVRDRSLVLQELQHAAEHRSRAGQHAILERE--GVPRAETSI 420

Query: 421 YAIVTNIIRY----AKISKTLEVDSLTNGDLKRR--GSVNGSTTSRKRSK----RQKRK 469
           +A+VTNI+RY    +K +  +     +NG L +R   ++  +  S K+ K    R +RK
Sbjct: 421 HALVTNIVRYDTEDSKAAVPMATWMNSNGSLSKRHMDAIGCNPASSKKQKLVATRHRRK 475

[Close]
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match: P59941 (NAD-dependent protein deacetylase sirtuin-6 OS=Mus musculus OX=10090 GN=Sirt6 PE=1 SV=1)

HSP 1 Score: 288.9 bits (738), Expect = 1.0e-76
Identity = 142/275 (51.64%), Postives = 189/275 (68.73%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MS+ YA  LS   D GK G+ E FDPP  LE K+  L  ++ +S  +V  TGAGIST+ G
Sbjct: 1   MSVNYAAGLSPYADKGKCGLPEIFDPPEELERKVWELARLMWQSSSVVFHTGAGISTASG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGP G+WT++  G A P+    F  A PS THM+LV+LE+   L F++SQN+DGLH
Sbjct: 61  IPDFRGPHGVWTMEERGLA-PKFDTTFENARPSKTHMALVQLERMGFLSFLVSQNVDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDAN------CGA 180
           +RSG PR+KLAELHGN F+E CP C  +Y+RD  V T+GLK T R C+ A       C  
Sbjct: 121 VRSGFPRDKLAELHGNMFVEECPKCKTQYVRDTVVGTMGLKATGRLCTVAKTRGLRACRG 180

Query: 181 KLRDTVLDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIV 240
           +LRDT+LDWED+LP +++  A+   + AD+ + LGTSLQI P+ NLPL + R GG+++IV
Sbjct: 181 ELRDTILDWEDSLPDRDLMLADEASRTADLSVTLGTSLQIRPSGNLPLATKRRGGRLVIV 240

Query: 241 NLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQIP 270
           NLQ T  D++A L IHG VD+V+  +M+ L L+IP
Sbjct: 241 NLQPTKHDRQADLRIHGYVDEVMCRLMKHLGLEIP 274

[Close]
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match: Q8N6T7 (NAD-dependent protein deacetylase sirtuin-6 OS=Homo sapiens OX=9606 GN=SIRT6 PE=1 SV=2)

HSP 1 Score: 286.2 bits (731), Expect = 6.8e-76
Identity = 140/275 (50.91%), Postives = 189/275 (68.73%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MS+ YA  LS   D GK G+ E FDPP  LE K+  L  ++ +S  +V  TGAGIST+ G
Sbjct: 1   MSVNYAAGLSPYADKGKCGLPEIFDPPEELERKVWELARLVWQSSSVVFHTGAGISTASG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGP G+WT++  G A P+    F  A P+ THM+LV+LE+  +L+F++SQN+DGLH
Sbjct: 61  IPDFRGPHGVWTMEERGLA-PKFDTTFESARPTQTHMALVQLERVGLLRFLVSQNVDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDAN------CGA 180
           +RSG PR+KLAELHGN F+E C  C  +Y+RD  V T+GLK T R C+ A       C  
Sbjct: 121 VRSGFPRDKLAELHGNMFVEECAKCKTQYVRDTVVGTMGLKATGRLCTVAKARGLRACRG 180

Query: 181 KLRDTVLDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIV 240
           +LRDT+LDWED+LP +++  A+   + AD+ + LGTSLQI P+ NLPL + R GG+++IV
Sbjct: 181 ELRDTILDWEDSLPDRDLALADEASRNADLSITLGTSLQIRPSGNLPLATKRRGGRLVIV 240

Query: 241 NLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQIP 270
           NLQ T  D+ A L IHG VD+V+  +M+ L L+IP
Sbjct: 241 NLQPTKHDRHADLRIHGYVDEVMTRLMKHLGLEIP 274

[Close]
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match: Q9VH08 (NAD-dependent protein deacetylase Sirt6 OS=Drosophila melanogaster OX=7227 GN=Sirt6 PE=2 SV=1)

HSP 1 Score: 254.2 bits (648), Expect = 2.9e-66
Identity = 125/278 (44.96%), Postives = 184/278 (66.19%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MS  YA+ LS  ++ G +G  E FD   V+ EK + L  +I+KS H+V+ TGAGISTS G
Sbjct: 1   MSCNYADGLSAYDNKGILGAPESFDSDEVVAEKCQELAELIKKSGHVVLHTGAGISTSAG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKG+WTL+ +G+  P+ ++ F  A P+ THM+++ L ++  ++++ISQNIDGLH
Sbjct: 61  IPDFRGPKGVWTLEEKGEK-PDFNVSFDEARPTKTHMAIIALIESGYVQYVISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDA------NC-G 180
           L+SG+ R+ L+ELHGN ++E C  C  +++    VET+G K   R C  +      +C  
Sbjct: 121 LKSGLDRKYLSELHGNIYIEQCKKCRRQFVSPSAVETVGQKSLQRACKSSMDSKGRSCRS 180

Query: 181 AKLRDTVLDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIII 240
             L D VLDWE  LP  ++     H  +AD+ + LGT+LQI P+ +LPLK+L+ GGK +I
Sbjct: 181 GILYDNVLDWEHDLPENDLEMGVMHSTVADLNIALGTTLQIVPSGDLPLKNLKCGGKFVI 240

Query: 241 VNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQIPPF 272
            NLQ T  DKKA+L+I   VD V++ V ++L ++IP +
Sbjct: 241 CNLQPTKHDKKANLIISSYVDVVLSKVCKLLGVEIPEY 277

[Close]
BLAST of MC11g1059 vs. NCBI nr
Match: XP_022139783.1 (NAD-dependent protein deacetylase SRT1 [Momordica charantia])

HSP 1 Score: 926 bits (2393), Expect = 0.0
Identity = 471/471 (100.00%), Postives = 471/471 (100.00%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS
Sbjct: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY
Sbjct: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY
Sbjct: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY 471

[Close]
BLAST of MC11g1059 vs. NCBI nr
Match: XP_038900035.1 (NAD-dependent protein deacetylase SRT1 [Benincasa hispida])

HSP 1 Score: 868 bits (2242), Expect = 0.0
Identity = 438/472 (92.80%), Postives = 456/472 (96.61%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVG+VGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGQVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSITHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHC+MAD+VLCLGTSLQITPACNLPLKSLRGGGKI+IVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCRMADIVLCLGTSLQITPACNLPLKSLRGGGKIVIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILN+QIPPFVRIDLFQIILSQGLSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNMQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKAPLPFIKSVEVSFLDNQD+KSATLQSQPFLLKRRT KAKSFE+VLRLNFSEGCGS
Sbjct: 301 VHGQKAPLPFIKSVEVSFLDNQDYKSATLQSQPFLLKRRTVKAKSFEMVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SH EINIPVDFKVSADCMN +KEVVFQ+L DE VQDS CGKNAVIERKAI IP+SEVTVY
Sbjct: 361 SHAEINIPVDFKVSADCMNLNKEVVFQRLIDETVQDSFCGKNAVIERKAIMIPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRY K  KTL +DSL+NGD+KR R S+NGS TSRKRSKRQKRK R+
Sbjct: 421 AIVTNIIRYTKSLKTLAIDSLSNGDVKRQRESINGSATSRKRSKRQKRKYRF 472

[Close]
BLAST of MC11g1059 vs. NCBI nr
Match: XP_004148924.1 (uncharacterized protein LOC101212255 isoform X7 [Cucumis sativus])

HSP 1 Score: 863 bits (2229), Expect = 1.63e-314
Identity = 435/472 (92.16%), Postives = 454/472 (96.19%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSITHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHC+MAD+VLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCRMADIVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILN+QIPPFVRIDLFQIILSQGLSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNMQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           +HGQKAPLPFIKSVE+SFLDNQD+KS TLQSQPFLLKRRT K KSFE+VLRLNFSEGCGS
Sbjct: 301 IHGQKAPLPFIKSVEISFLDNQDYKSTTLQSQPFLLKRRTVKEKSFEMVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SH EIN+PVDFKVSADCMN DKEVVFQ+L +E VQDS CGK+AVIERKAISIP+SEVTVY
Sbjct: 361 SHAEINVPVDFKVSADCMNLDKEVVFQRLIEETVQDSFCGKSAVIERKAISIPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRY K  KT  +DSL+NGD+KR R SVNGS TSRKRSKRQKRK R+
Sbjct: 421 AIVTNIIRYTKSLKTPAIDSLSNGDVKRQRESVNGSATSRKRSKRQKRKYRH 472

[Close]
BLAST of MC11g1059 vs. NCBI nr
Match: KGN44047.2 (hypothetical protein Csa_011876 [Cucumis sativus])

HSP 1 Score: 863 bits (2229), Expect = 5.73e-313
Identity = 435/472 (92.16%), Postives = 454/472 (96.19%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 97  MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 156

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 157 IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSITHMALVELEKAGILKFIISQNIDGLH 216

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 217 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 276

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHC+MAD+VLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 277 LDWEDALPPKEMNPAERHCRMADIVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 336

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILN+QIPPFVRIDLFQIILSQGLSLDKKFVNWTLR+LS
Sbjct: 337 KDKKASLVIHGRVDKVIAGVMEILNMQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRILS 396

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           +HGQKAPLPFIKSVE+SFLDNQD+KS TLQSQPFLLKRRT K KSFE+VLRLNFSEGCGS
Sbjct: 397 IHGQKAPLPFIKSVEISFLDNQDYKSTTLQSQPFLLKRRTVKEKSFEMVLRLNFSEGCGS 456

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SH EIN+PVDFKVSADCMN DKEVVFQ+L +E VQDS CGK+AVIERKAISIP+SEVTVY
Sbjct: 457 SHAEINVPVDFKVSADCMNLDKEVVFQRLIEETVQDSFCGKSAVIERKAISIPKSEVTVY 516

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRY K  KT  +DSL+NGD+KR R SVNGS TSRKRSKRQKRK R+
Sbjct: 517 AIVTNIIRYTKSLKTPAIDSLSNGDVKRQRESVNGSATSRKRSKRQKRKYRH 568

[Close]
BLAST of MC11g1059 vs. NCBI nr
Match: XP_008463003.1 (PREDICTED: NAD-dependent protein deacetylase SRT1 isoform X1 [Cucumis melo])

HSP 1 Score: 858 bits (2217), Expect = 1.05e-312
Identity = 432/472 (91.53%), Postives = 455/472 (96.40%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVG+VGMTEHFDPPHVLEEKIERLT MIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGQVGMTEHFDPPHVLEEKIERLTTMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSITHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHC+MAD+VLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCRMADIVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILN+QIPPFVRIDLFQIILSQGLSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNMQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKAPLPFIKSVE+SFLDNQD+KS TLQSQPFLLKRRT K KSFE+VLRLNFSEGCGS
Sbjct: 301 VHGQKAPLPFIKSVEISFLDNQDYKSTTLQSQPFLLKRRTVKEKSFEMVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SH EIN+PVDFKVSADCMN DKEVVFQ+L +E VQ+S CGK+AVIERKAISIP+SEVTVY
Sbjct: 361 SHAEINVPVDFKVSADCMNLDKEVVFQRLIEETVQNSFCGKSAVIERKAISIPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRYAK  K+L +DSL+NGD+KR R S+NGS TSRKRSKR+KRK R+
Sbjct: 421 AIVTNIIRYAKSLKSLAIDSLSNGDVKRQRESINGSATSRKRSKRKKRKYRH 472

[Close]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match: A0A6J1CGI6 (NAD-dependent protein deacetylase SRT1 OS=Momordica charantia OX=3673 GN=LOC111010606 PE=4 SV=1)

HSP 1 Score: 926 bits (2393), Expect = 0.0
Identity = 471/471 (100.00%), Postives = 471/471 (100.00%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS
Sbjct: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY
Sbjct: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY
Sbjct: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSRY 471

[Close]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match: A0A1S3CI81 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501252 PE=4 SV=1)

HSP 1 Score: 858 bits (2217), Expect = 5.08e-313
Identity = 432/472 (91.53%), Postives = 455/472 (96.40%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVG+VGMTEHFDPPHVLEEKIERLT MIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGQVGMTEHFDPPHVLEEKIERLTTMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSITHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHC+MAD+VLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCRMADIVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIAGVMEILN+QIPPFVRIDLFQIILSQGLSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVIAGVMEILNMQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKAPLPFIKSVE+SFLDNQD+KS TLQSQPFLLKRRT K KSFE+VLRLNFSEGCGS
Sbjct: 301 VHGQKAPLPFIKSVEISFLDNQDYKSTTLQSQPFLLKRRTVKEKSFEMVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SH EIN+PVDFKVSADCMN DKEVVFQ+L +E VQ+S CGK+AVIERKAISIP+SEVTVY
Sbjct: 361 SHAEINVPVDFKVSADCMNLDKEVVFQRLIEETVQNSFCGKSAVIERKAISIPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNIIRYAK  K+L +DSL+NGD+KR R S+NGS TSRKRSKR+KRK R+
Sbjct: 421 AIVTNIIRYAKSLKSLAIDSLSNGDVKRQRESINGSATSRKRSKRKKRKYRH 472

[Close]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match: A0A6J1FDE4 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443095 PE=4 SV=1)

HSP 1 Score: 840 bits (2170), Expect = 7.36e-306
Identity = 424/472 (89.83%), Postives = 448/472 (94.92%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLS+IEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSFIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRA+PS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAVPSMTHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHCKMAD+VLCLGTSLQITPACNLPLK+LRGGGKI+IVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCKMADIVLCLGTSLQITPACNLPLKALRGGGKIVIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVI+GVMEIL +QIPPFVRIDLFQIILSQ LSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVISGVMEILKMQIPPFVRIDLFQIILSQALSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKA LPFIKSVEVSFLDNQDFKSATL+SQPFLLKRRT K KSFELVLRLN SEGCGS
Sbjct: 301 VHGQKATLPFIKSVEVSFLDNQDFKSATLESQPFLLKRRTVKEKSFELVLRLNCSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SHVE+NIPVDFKVSAD +N DKEVVF++L DEAVQD  CGKNAVIERK+I  P+SEVTVY
Sbjct: 361 SHVEVNIPVDFKVSADSLNLDKEVVFRRLRDEAVQDFFCGKNAVIERKSIPFPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRR-GSVNGSTTSRKRSKRQKRKSRY 471
           A VTN+IRY +  KTL +DSL+NGD+KR+  SVNGS  SRKRS+R KRKSRY
Sbjct: 421 ATVTNVIRYTQELKTLAIDSLSNGDMKRQLASVNGSAISRKRSRRPKRKSRY 472

[Close]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match: A0A6J1IE68 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111476427 PE=4 SV=1)

HSP 1 Score: 838 bits (2166), Expect = 2.99e-305
Identity = 423/472 (89.62%), Postives = 447/472 (94.70%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLS+IEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSFIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFH A PS+THM+LVELEKA ILKFIISQNIDGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHHAAPSMTHMALVELEKAGILKFIISQNIDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV
Sbjct: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEMNPAERHCKMAD+VLCLGTSLQITPACNLPLK+LRGGGKI+IVNLQKTP
Sbjct: 181 LDWEDALPPKEMNPAERHCKMADIVLCLGTSLQITPACNLPLKALRGGGKIVIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVI+GVMEIL +QIPPFVRIDLFQIILSQ LSLDKKFVNWTLR+LS
Sbjct: 241 KDKKASLVIHGRVDKVISGVMEILKMQIPPFVRIDLFQIILSQALSLDKKFVNWTLRILS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHGQKA LPFIKSVEVSFLDNQDFKSATL+SQPFLLKRRT K KSFELVLRLNFSEGCGS
Sbjct: 301 VHGQKATLPFIKSVEVSFLDNQDFKSATLESQPFLLKRRTVKEKSFELVLRLNFSEGCGS 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
           SHVE+NIPVDFKVSAD +N DKEVVF++L DEAVQD  CGKNAVIERK+I  P+SEVTVY
Sbjct: 361 SHVEVNIPVDFKVSADSLNLDKEVVFRRLRDEAVQDFFCGKNAVIERKSIPFPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKRR-GSVNGSTTSRKRSKRQKRKSRY 471
           A VTN+IRY +  KTL +DSL+NG++KR+  SVNGS  SRKRS+R KRKSRY
Sbjct: 421 ATVTNVIRYTQDLKTLAIDSLSNGNMKRQLASVNGSAISRKRSRRPKRKSRY 472

[Close]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match: A0A7N2MA43 (Deacetylase sirtuin-type domain-containing protein OS=Quercus lobata OX=97700 PE=4 SV=1)

HSP 1 Score: 773 bits (1997), Expect = 1.58e-279
Identity = 386/472 (81.78%), Postives = 428/472 (90.68%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLSYIEDVG VGMTE+FDPPHVL+EKIERL +M++KSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSYIEDVGNVGMTEYFDPPHVLQEKIERLALMVKKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHM+LVELEKA ILKF+ISQN+DGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMALVELEKAGILKFLISQNVDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKLAELHGNSFME CPSCGAEYLRDFEVETIGLK+TSRRCSD  CGAKL+DTV
Sbjct: 121 LRSGIPREKLAELHGNSFMEACPSCGAEYLRDFEVETIGLKETSRRCSDVKCGAKLKDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKEM+PAE+HC+MADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP
Sbjct: 181 LDWEDALPPKEMDPAEKHCRMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKASLVIHGRVDKVIA  ME L LQIPPFVRIDLF++IL+Q LS+D+K+VNWTL+V S
Sbjct: 241 KDKKASLVIHGRVDKVIASAMEFLKLQIPPFVRIDLFEVILTQALSIDRKYVNWTLQVAS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
            HG++APLPFIKSVEVSFLDNQD+K A LQ QPF LKRRT +AKSFELVL++NF +GCG 
Sbjct: 301 AHGRRAPLPFIKSVEVSFLDNQDYKEAILQMQPFRLKRRTMQAKSFELVLKVNFIDGCGC 360

Query: 361 SHVEINIPVDFKVSADCMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVTVY 420
             VEINIP+DFKVS DC N DK+ V Q+L + A+QD CCG+NAVIER A  +P+SEVTVY
Sbjct: 361 QSVEINIPIDFKVSIDCFNPDKDSVLQRLRETAIQDLCCGQNAVIERTAFLMPKSEVTVY 420

Query: 421 AIVTNIIRYAKISKTLEVDSLTNGDLKR-RGSVNGSTTSRKRSKRQKRKSRY 471
           AIVTNI++Y K S  L  DSL+NG++KR R SVNG+ TSRKRSK  +RKSRY
Sbjct: 421 AIVTNIVQYIKTSNVL-ADSLSNGNVKRQRESVNGTGTSRKRSKVHRRKSRY 471

[Close]
BLAST of MC11g1059 vs. TAIR 10
Match: AT5G55760.1 (sirtuin 1 )

HSP 1 Score: 664.1 bits (1712), Expect = 8.5e-191
Identity = 325/472 (68.86%), Postives = 395/472 (83.69%), Query Frame = 0 

Query: 1   MSLGYAEKLSYIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCG 60
           MSLGYAEKLS+IEDVG+VGM E FDP H+L+ KIE L  +IQKSKHLVVFTGAGISTSCG
Sbjct: 1   MSLGYAEKLSFIEDVGQVGMAEFFDPSHLLQCKIEELAKLIQKSKHLVVFTGAGISTSCG 60

Query: 61  IPDFRGPKGIWTLQREGKALPEASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLH 120
           IPDFRGPKGIWTLQREGK LP+ASLPFHRAMPS+THM+LVELE+A ILKF+ISQN+DGLH
Sbjct: 61  IPDFRGPKGIWTLQREGKDLPKASLPFHRAMPSMTHMALVELERAGILKFVISQNVDGLH 120

Query: 121 LRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTV 180
           LRSGIPREKL+ELHG+SFME CPSCGAEYLRDFEVETIGLK+TSR+CS   CGAKL+DTV
Sbjct: 121 LRSGIPREKLSELHGDSFMEMCPSCGAEYLRDFEVETIGLKETSRKCSVEKCGAKLKDTV 180

Query: 181 LDWEDALPPKEMNPAERHCKMADVVLCLGTSLQITPACNLPLKSLRGGGKIIIVNLQKTP 240
           LDWEDALPPKE++PAE+HCK AD+VLCLGTSLQITPACNLPLK L+GGGKI+IVNLQKTP
Sbjct: 181 LDWEDALPPKEIDPAEKHCKKADLVLCLGTSLQITPACNLPLKCLKGGGKIVIVNLQKTP 240

Query: 241 KDKKASLVIHGRVDKVIAGVMEILNLQIPPFVRIDLFQIILSQGLSLDKKFVNWTLRVLS 300
           KDKKA++VIHG VDKV+AGVME LN++IPP+VRIDLFQIIL+Q +S D++F+NWTLRV S
Sbjct: 241 KDKKANVVIHGLVDKVVAGVMESLNMKIPPYVRIDLFQIILTQSISGDQRFINWTLRVAS 300

Query: 301 VHGQKAPLPFIKSVEVSFLDNQDFKSATLQSQPFLLKRRTGKAKSFELVLRLNFSEGCGS 360
           VHG  + LPFIKS+EVSF DN ++K A L  QPFL+KRRT + ++F++  ++N+S+GC  
Sbjct: 301 VHGLTSQLPFIKSIEVSFSDNHNYKDAVLDKQPFLMKRRTARNETFDIFFKVNYSDGCDC 360

Query: 361 SHVEINIPVDFKVSAD--CMNFDKEVVFQKLTDEAVQDSCCGKNAVIERKAISIPRSEVT 420
              ++++P +FK+S +      DKE V Q L ++AV++S CG++ V+ER+ +S PRSE  
Sbjct: 361 VSTQLSLPFEFKISTEEHVEIIDKEAVLQSLREKAVEESSCGQSGVVERRVVSEPRSEAV 420

Query: 421 VYAIVTNIIRYAKISKTLEVDSLTNGDLKRRGSVNGSTTSRKRSKRQKRKSR 471
           VYA VT++  Y       +   L NGDLK +  + GS TSRKRS+  KRKS+
Sbjct: 421 VYATVTSLRTYHS-----QQSLLANGDLKWK--LEGSGTSRKRSRTGKRKSK 465

[Close]
BLAST of MC11g1059 vs. TAIR 10
Match: AT5G09230.2 (sirtuin 2 )

HSP 1 Score: 110.9 bits (276), Expect = 2.8e-24
Identity = 83/302 (27.48%), Postives = 124/302 (41.06%), Query Frame = 0 

Query: 25  DPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWT----------LQ 84
           DPP++  E I +L  + ++S  L + TGAG+ST CGIPD+R P G ++            
Sbjct: 75  DPPNM--EDIHKLYRLFEQSSRLTILTGAGVSTECGIPDYRSPNGAYSSGFKPITHQEFT 134

Query: 85  REGKALPE-------ASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLHLRSGIPR 144
           R  +A              F  A P   H +L  LEKA  + F+I+QN+D LH R+G   
Sbjct: 135 RSSRARRRYWARSYAGWRRFTAAQPGPAHTALASLEKAGRINFMITQNVDRLHHRAG--- 194

Query: 145 EKLAELHGNSFMETCPSCGAEYLRDF--------------EVETIGLKDTSRRCSDA--- 204
               ELHG  +   C  CG  + RD                +E+I   D     S     
Sbjct: 195 SDPLELHGTVYTVMCLECGFSFPRDLFQDQLKAINPKWAEAIESIDHGDPGSEKSFGMKQ 254

Query: 205 -----------------------NCGAKLRDTVLDWEDALPPKEMNPAERHCKMADVVLC 264
                                   C   L+  V+ + D +P +    A    K +D  L 
Sbjct: 255 RPDGDIEIDEKFWEEGFHIPVCEKCKGVLKPDVIFFGDNIPKERATQAMEVAKQSDAFLV 314

Query: 265 LGTSLQITPACNLPLKSLRGGGKIIIVNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQ 270
           LG+SL    A  L   +   G    IVN+ +T  D    L I+ RV +++  V+++ +L 
Sbjct: 315 LGSSLMTMSAFRLCRAAHEAGAMTAIVNIGETRADDIVPLKINARVGEILHRVLDVGSLS 371

[Close]
BLAST of MC11g1059 vs. TAIR 10
Match: AT5G09230.1 (sirtuin 2 )

HSP 1 Score: 110.9 bits (276), Expect = 2.8e-24
Identity = 83/302 (27.48%), Postives = 124/302 (41.06%), Query Frame = 0 

Query: 25  DPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWT----------LQ 84
           DPP++  E I +L  + ++S  L + TGAG+ST CGIPD+R P G ++            
Sbjct: 75  DPPNM--EDIHKLYRLFEQSSRLTILTGAGVSTECGIPDYRSPNGAYSSGFKPITHQEFT 134

Query: 85  REGKALPE-------ASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLHLRSGIPR 144
           R  +A              F  A P   H +L  LEKA  + F+I+QN+D LH R+G   
Sbjct: 135 RSSRARRRYWARSYAGWRRFTAAQPGPAHTALASLEKAGRINFMITQNVDRLHHRAG--- 194

Query: 145 EKLAELHGNSFMETCPSCGAEYLRDF--------------EVETIGLKDTSRRCSDA--- 204
               ELHG  +   C  CG  + RD                +E+I   D     S     
Sbjct: 195 SDPLELHGTVYTVMCLECGFSFPRDLFQDQLKAINPKWAEAIESIDHGDPGSEKSFGMKQ 254

Query: 205 -----------------------NCGAKLRDTVLDWEDALPPKEMNPAERHCKMADVVLC 264
                                   C   L+  V+ + D +P +    A    K +D  L 
Sbjct: 255 RPDGDIEIDEKFWEEGFHIPVCEKCKGVLKPDVIFFGDNIPKERATQAMEVAKQSDAFLV 314

Query: 265 LGTSLQITPACNLPLKSLRGGGKIIIVNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQ 270
           LG+SL    A  L   +   G    IVN+ +T  D    L I+ RV +++  V+++ +L 
Sbjct: 315 LGSSLMTMSAFRLCRAAHEAGAMTAIVNIGETRADDIVPLKINARVGEILHRVLDVGSLS 371

[Close]
BLAST of MC11g1059 vs. TAIR 10
Match: AT5G09230.5 (sirtuin 2 )

HSP 1 Score: 110.9 bits (276), Expect = 2.8e-24
Identity = 83/302 (27.48%), Postives = 124/302 (41.06%), Query Frame = 0 

Query: 25  DPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWT----------LQ 84
           DPP++  E I +L  + ++S  L + TGAG+ST CGIPD+R P G ++            
Sbjct: 56  DPPNM--EDIHKLYRLFEQSSRLTILTGAGVSTECGIPDYRSPNGAYSSGFKPITHQEFT 115

Query: 85  REGKALPE-------ASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLHLRSGIPR 144
           R  +A              F  A P   H +L  LEKA  + F+I+QN+D LH R+G   
Sbjct: 116 RSSRARRRYWARSYAGWRRFTAAQPGPAHTALASLEKAGRINFMITQNVDRLHHRAG--- 175

Query: 145 EKLAELHGNSFMETCPSCGAEYLRDF--------------EVETIGLKDTSRRCSDA--- 204
               ELHG  +   C  CG  + RD                +E+I   D     S     
Sbjct: 176 SDPLELHGTVYTVMCLECGFSFPRDLFQDQLKAINPKWAEAIESIDHGDPGSEKSFGMKQ 235

Query: 205 -----------------------NCGAKLRDTVLDWEDALPPKEMNPAERHCKMADVVLC 264
                                   C   L+  V+ + D +P +    A    K +D  L 
Sbjct: 236 RPDGDIEIDEKFWEEGFHIPVCEKCKGVLKPDVIFFGDNIPKERATQAMEVAKQSDAFLV 295

Query: 265 LGTSLQITPACNLPLKSLRGGGKIIIVNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQ 270
           LG+SL    A  L   +   G    IVN+ +T  D    L I+ RV +++  V+++ +L 
Sbjct: 296 LGSSLMTMSAFRLCRAAHEAGAMTAIVNIGETRADDIVPLKINARVGEILHRVLDVGSLS 352

[Close]
BLAST of MC11g1059 vs. TAIR 10
Match: AT5G09230.7 (sirtuin 2 )

HSP 1 Score: 110.9 bits (276), Expect = 2.8e-24
Identity = 83/302 (27.48%), Postives = 124/302 (41.06%), Query Frame = 0 

Query: 25  DPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWT----------LQ 84
           DPP++  E I +L  + ++S  L + TGAG+ST CGIPD+R P G ++            
Sbjct: 78  DPPNM--EDIHKLYRLFEQSSRLTILTGAGVSTECGIPDYRSPNGAYSSGFKPITHQEFT 137

Query: 85  REGKALPE-------ASLPFHRAMPSLTHMSLVELEKADILKFIISQNIDGLHLRSGIPR 144
           R  +A              F  A P   H +L  LEKA  + F+I+QN+D LH R+G   
Sbjct: 138 RSSRARRRYWARSYAGWRRFTAAQPGPAHTALASLEKAGRINFMITQNVDRLHHRAG--- 197

Query: 145 EKLAELHGNSFMETCPSCGAEYLRDF--------------EVETIGLKDTSRRCSDA--- 204
               ELHG  +   C  CG  + RD                +E+I   D     S     
Sbjct: 198 SDPLELHGTVYTVMCLECGFSFPRDLFQDQLKAINPKWAEAIESIDHGDPGSEKSFGMKQ 257

Query: 205 -----------------------NCGAKLRDTVLDWEDALPPKEMNPAERHCKMADVVLC 264
                                   C   L+  V+ + D +P +    A    K +D  L 
Sbjct: 258 RPDGDIEIDEKFWEEGFHIPVCEKCKGVLKPDVIFFGDNIPKERATQAMEVAKQSDAFLV 317

Query: 265 LGTSLQITPACNLPLKSLRGGGKIIIVNLQKTPKDKKASLVIHGRVDKVIAGVMEILNLQ 270
           LG+SL    A  L   +   G    IVN+ +T  D    L I+ RV +++  V+++ +L 
Sbjct: 318 LGSSLMTMSAFRLCRAAHEAGAMTAIVNIGETRADDIVPLKINARVGEILHRVLDVGSLS 374

The following BLAST results are available for this feature:
BLAST of MC11g1059 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FE171.2e-18968.86NAD-dependent protein deacetylase SRT1 OS=Arabidopsis thaliana OX=3702 GN=SRT1 P... [more]
B8ARK72.0e-16060.75NAD-dependent protein deacetylase SRT1 OS=Oryza sativa subsp. indica OX=39946 GN... [more]
P599411.0e-7651.64NAD-dependent protein deacetylase sirtuin-6 OS=Mus musculus OX=10090 GN=Sirt6 PE... [more]
Q8N6T76.8e-7650.91NAD-dependent protein deacetylase sirtuin-6 OS=Homo sapiens OX=9606 GN=SIRT6 PE=... [more]
Q9VH082.9e-6644.96NAD-dependent protein deacetylase Sirt6 OS=Drosophila melanogaster OX=7227 GN=Si... [more]
BLAST of MC11g1059 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022139783.10.0100.00NAD-dependent protein deacetylase SRT1 [Momordica charantia][more]
XP_038900035.10.092.80NAD-dependent protein deacetylase SRT1 [Benincasa hispida][more]
XP_004148924.11.63e-31492.16uncharacterized protein LOC101212255 isoform X7 [Cucumis sativus][more]
KGN44047.25.73e-31392.16hypothetical protein Csa_011876 [Cucumis sativus][more]
XP_008463003.11.05e-31291.53PREDICTED: NAD-dependent protein deacetylase SRT1 isoform X1 [Cucumis melo][more]
BLAST of MC11g1059 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1CGI60.0100.00NAD-dependent protein deacetylase SRT1 OS=Momordica charantia OX=3673 GN=LOC1110... [more]
A0A1S3CI815.08e-31391.53NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC... [more]
A0A6J1FDE47.36e-30689.83NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita moschata OX=3662 ... [more]
A0A6J1IE682.99e-30589.62NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita maxima OX=3661 GN... [more]
A0A7N2MA431.58e-27981.78Deacetylase sirtuin-type domain-containing protein OS=Quercus lobata OX=97700 PE... [more]
BLAST of MC11g1059 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G55760.18.5e-19168.86sirtuin 1 [more]
AT5G09230.22.8e-2427.48sirtuin 2 [more]
AT5G09230.12.8e-2427.48sirtuin 2 [more]
AT5G09230.52.8e-2427.48sirtuin 2 [more]
AT5G09230.72.8e-2427.48sirtuin 2 [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D2.20.28.200coord: 135..184
e-value: 2.0E-87
score: 294.0
NoneNo IPR availableGENE3D3.40.50.1220coord: 37..262
e-value: 2.0E-87
score: 294.0
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 447..471
NoneNo IPR availablePANTHERPTHR45853NAD-DEPENDENT PROTEIN DEACETYLASE SIRTUIN-(6/7) FAMILY MEMBERcoord: 1..470
NoneNo IPR availablePANTHERPTHR45853:SF5NAD-DEPENDENT PROTEIN DEACETYLASE SRT1coord: 1..470
NoneNo IPR availableCDDcd01410SIRT7coord: 45..252
e-value: 1.92236E-127
score: 366.626
IPR003000Sirtuin familyPFAMPF02146SIR2coord: 52..75
e-value: 9.1E-6
score: 25.7
coord: 86..216
e-value: 1.4E-20
score: 73.9
IPR026590Sirtuin family, catalytic core domainPROSITEPS50305SIRTUINcoord: 35..269
score: 43.828602
IPR029035DHS-like NAD/FAD-binding domain superfamilySUPERFAMILY52467DHS-like NAD/FAD-binding domaincoord: 5..292

Relationships

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

Feature NameUnique NameType
MC11g1059.1MC11g1059.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0005739 mitochondrion
molecular_function GO:0046872 metal ion binding
molecular_function GO:0070403 NAD+ binding
molecular_function GO:0016740 transferase activity