Sgr012992 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr012992
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionDNA ligase
Locationtig00153640: 15677 .. 55335 (+)
RNA-Seq ExpressionSgr012992
SyntenySgr012992
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GAGCCATGTTGAGAACTGTTCTTCATGCTCTTGCCCAAGCTGTTTTCATAAGTTCCTCCCTCAACATTTACAATGAAGGAATGGTAGAAAATTTGAAGGAGAAGCTTCAGTCCTTTTCAGCTGCTGTGCTTGGGGCATACAATGTGCTTCCTAATTTTGATCTGATTGTTCCTTCTCTTATGGGCAAAGGGATCGAATTCTCTTCATCATCTTTATCAATGGTTCCAGGAATACCTATTAAGCCAATGCTTGCAAAAATTACCAATGGTATTCCTCAAGCATTGAAAATCTTTGAGAATAAAGCTTTTACATGTGAATACAAATATGATGGTCAGCGTGCCCAAATTCACAAATTGGCTGATGGTTCTATGCGAGTTTTTTCTCGGAACAGTGATGATACAACATCAAAATTTCCAGATTTGATCAATATAATTAATGAAGTATGTAAACCTGCTGCCTCAACTTTCATACTGGATGCTGAGGTTGTTGCAGTTGATAGGAGAAATAACTGCAGACTAATGTCTTTCCAAGAATTATCATCACGTGGGAGAGGGAGCAAAGGCTCCCTGATTGCAGTTGATACCATAAAGGTTGATATTTGCGTTTTTGTCTTTGACATCATGCTTGCCAATGGGGAGCAACTGCTGGGGTTACCTCTCCGGCATAGACGAAAATACTTGAAGGATTTGTTGGGTGATGAGAGGCTAGGATATTTTGAATTGCGAAGGAAATTACT

Coding sequence (CDS)

GAGCCATGTTGAGAACTGTTCTTCATGCTCTTGCCCAAGCTGTTTTCATAAGTTCCTCCCTCAACATTTACAATGAAGGAATGGTAGAAAATTTGAAGGAGAAGCTTCAGTCCTTTTCAGCTGCTGTGCTTGGGGCATACAATGTGCTTCCTAATTTTGATCTGATTGTTCCTTCTCTTATGGGCAAAGGGATCGAATTCTCTTCATCATCTTTATCAATGGTTCCAGGAATACCTATTAAGCCAATGCTTGCAAAAATTACCAATGGTATTCCTCAAGCATTGAAAATCTTTGAGAATAAAGCTTTTACATGTGAATACAAATATGATGGTCAGCGTGCCCAAATTCACAAATTGGCTGATGGTTCTATGCGAGTTTTTTCTCGGAACAGTGATGATACAACATCAAAATTTCCAGATTTGATCAATATAATTAATGAAGTATGTAAACCTGCTGCCTCAACTTTCATACTGGATGCTGAGGTTGTTGCAGTTGATAGGAGAAATAACTGCAGACTAATGTCTTTCCAAGAATTATCATCACGTGGGAGAGGGAGCAAAGGCTCCCTGATTGCAGTTGATACCATAAAGGTTGATATTTGCGTTTTTGTCTTTGACATCATGCTTGCCAATGGGGAGCAACTGCTGGGGTTACCTCTCCGGCATAGACGAAAATACTTGAAGGATTTGTTGGGTGATGAGAGGCTAGGATATTTTGAATTGCGAAGGAAATTACT

Protein sequence

AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLMGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLADGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSSRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFELRRKLL
Homology
[Close]
BLAST of Sgr012992 vs. NCBI nr
Match: XP_022158502.1 (DNA ligase 6-like isoform X2 [Momordica charantia])

HSP 1 Score: 441.4 bits (1134), Expect = 5.0e-120
Identity = 225/244 (92.21%), Postives = 234/244 (95.90%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHALAQAVFISSSLN+Y EGMV NLKEKLQ FSAAVL AYNVLPNFDLIVPSLM
Sbjct: 962  AMLKTVLHALAQAVFISSSLNMYKEGMVANLKEKLQYFSAAVLDAYNVLPNFDLIVPSLM 1021

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1022 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 1081

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLINIINE+CKPAASTFILDAEVVAVDRRNNCRLMSFQELSS
Sbjct: 1082 GSVRVFSRNSDDTTSKFPDLINIINELCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 1141

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKG LIAVD+IKVDIC+FVFDIMLANGEQLLGLPLRHRRKYLKDL  DER GYFE 
Sbjct: 1142 RGRGSKGLLIAVDSIKVDICIFVFDIMLANGEQLLGLPLRHRRKYLKDLFRDERPGYFEY 1201

Query: 241  RRKL 245
             +++
Sbjct: 1202 AKEI 1205

[Close]
BLAST of Sgr012992 vs. NCBI nr
Match: XP_022158501.1 (DNA ligase 6-like isoform X1 [Momordica charantia])

HSP 1 Score: 441.4 bits (1134), Expect = 5.0e-120
Identity = 225/244 (92.21%), Postives = 234/244 (95.90%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHALAQAVFISSSLN+Y EGMV NLKEKLQ FSAAVL AYNVLPNFDLIVPSLM
Sbjct: 966  AMLKTVLHALAQAVFISSSLNMYKEGMVANLKEKLQYFSAAVLDAYNVLPNFDLIVPSLM 1025

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1026 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 1085

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLINIINE+CKPAASTFILDAEVVAVDRRNNCRLMSFQELSS
Sbjct: 1086 GSVRVFSRNSDDTTSKFPDLINIINELCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 1145

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKG LIAVD+IKVDIC+FVFDIMLANGEQLLGLPLRHRRKYLKDL  DER GYFE 
Sbjct: 1146 RGRGSKGLLIAVDSIKVDICIFVFDIMLANGEQLLGLPLRHRRKYLKDLFRDERPGYFEY 1205

Query: 241  RRKL 245
             +++
Sbjct: 1206 AKEI 1209

[Close]
BLAST of Sgr012992 vs. NCBI nr
Match: XP_038878216.1 (DNA ligase 6-like isoform X1 [Benincasa hispida])

HSP 1 Score: 430.6 bits (1106), Expect = 8.8e-117
Identity = 218/244 (89.34%), Postives = 232/244 (95.08%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AM +TVLHALAQAVFI+SSLNI+ EGMVENLKEKLQ+FSA VL AYN+LPNFDLIVPSLM
Sbjct: 981  AMSKTVLHALAQAVFITSSLNIFKEGMVENLKEKLQNFSATVLDAYNLLPNFDLIVPSLM 1040

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
             KGIEFSSSSLSMVPGIPIKPMLAKITNGI QALKIFENKAFTCE+KYDGQRAQIHKLAD
Sbjct: 1041 SKGIEFSSSSLSMVPGIPIKPMLAKITNGISQALKIFENKAFTCEFKYDGQRAQIHKLAD 1100

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLI IINE+CKPAASTFILDAEVVAVDR+NNCRLMSFQELSS
Sbjct: 1101 GSVRVFSRNSDDTTSKFPDLIEIINELCKPAASTFILDAEVVAVDRKNNCRLMSFQELSS 1160

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKGSL+AVD+IKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDL GD R GYFE 
Sbjct: 1161 RGRGSKGSLVAVDSIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLFGDGRPGYFEY 1220

Query: 241  RRKL 245
             +++
Sbjct: 1221 AKEI 1224

[Close]
BLAST of Sgr012992 vs. NCBI nr
Match: XP_038878217.1 (DNA ligase 6-like isoform X2 [Benincasa hispida])

HSP 1 Score: 430.6 bits (1106), Expect = 8.8e-117
Identity = 218/244 (89.34%), Postives = 232/244 (95.08%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AM +TVLHALAQAVFI+SSLNI+ EGMVENLKEKLQ+FSA VL AYN+LPNFDLIVPSLM
Sbjct: 981  AMSKTVLHALAQAVFITSSLNIFKEGMVENLKEKLQNFSATVLDAYNLLPNFDLIVPSLM 1040

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
             KGIEFSSSSLSMVPGIPIKPMLAKITNGI QALKIFENKAFTCE+KYDGQRAQIHKLAD
Sbjct: 1041 SKGIEFSSSSLSMVPGIPIKPMLAKITNGISQALKIFENKAFTCEFKYDGQRAQIHKLAD 1100

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLI IINE+CKPAASTFILDAEVVAVDR+NNCRLMSFQELSS
Sbjct: 1101 GSVRVFSRNSDDTTSKFPDLIEIINELCKPAASTFILDAEVVAVDRKNNCRLMSFQELSS 1160

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKGSL+AVD+IKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDL GD R GYFE 
Sbjct: 1161 RGRGSKGSLVAVDSIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLFGDGRPGYFEY 1220

Query: 241  RRKL 245
             +++
Sbjct: 1221 AKEI 1224

[Close]
BLAST of Sgr012992 vs. NCBI nr
Match: XP_008444062.1 (PREDICTED: DNA ligase 1 isoform X2 [Cucumis melo])

HSP 1 Score: 421.8 bits (1083), Expect = 4.1e-114
Identity = 215/244 (88.11%), Postives = 228/244 (93.44%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHAL+QAVFISSSLNIY E M+ NLKEKLQ+FSA VL AYNVLPNFDLIVPSLM
Sbjct: 941  AMLKTVLHALSQAVFISSSLNIYKEEMLGNLKEKLQNFSATVLDAYNVLPNFDLIVPSLM 1000

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIP+ALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1001 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPRALKIFENKAFTCEYKYDGQRAQIHKLAD 1060

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLI IINE+ KPA STFILDAEVV VDR+NNCRLMSFQELSS
Sbjct: 1061 GSLRVFSRNSDDTTSKFPDLIKIINELSKPAVSTFILDAEVVGVDRKNNCRLMSFQELSS 1120

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRG+K SLIAVD+IKVDICVF FDIMLANGEQLLGLPLR RRKYLKDL GD RLGYFE 
Sbjct: 1121 RGRGNKDSLIAVDSIKVDICVFAFDIMLANGEQLLGLPLRDRRKYLKDLFGDGRLGYFEY 1180

Query: 241  RRKL 245
             +++
Sbjct: 1181 AKEI 1184

[Close]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match: F4HPZ9 (DNA ligase 6 OS=Arabidopsis thaliana OX=3702 GN=LIG6 PE=2 SV=1)

HSP 1 Score: 295.0 bits (754), Expect = 7.6e-79
Identity = 148/245 (60.41%), Postives = 193/245 (78.78%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVEN-LKEKLQSFSAAVLGAYNVLPNFDLIVPSL 60
            AMLRTVL AL +A+ ++S  N +N+ + E+  +EKL+  SAAV+ AYN+LP+ D++VPSL
Sbjct: 932  AMLRTVLPALGRAIVMNSFWNDHNKELSESCFREKLEGVSAAVVEAYNILPSLDVVVPSL 991

Query: 61   MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLA 120
            M K IEFS+S+LSMVPGIPIKPMLAKI  G+ +   + + KAFTCEYKYDGQRAQIHKL 
Sbjct: 992  MDKDIEFSTSTLSMVPGIPIKPMLAKIAKGVQEFFNLSQEKAFTCEYKYDGQRAQIHKLL 1051

Query: 121  DGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELS 180
            DG++ +FSRN D+TTS+FPDL+++I +   PAA TF+LDAEVVA DR N  +LMSFQELS
Sbjct: 1052 DGTVCIFSRNGDETTSRFPDLVDVIKQFSCPAAETFMLDAEVVATDRINGNKLMSFQELS 1111

Query: 181  SRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
            +R RGSK +LI  ++IKV++CVFVFDIM  NGEQLL LPLR RR+ LK++  + R GY E
Sbjct: 1112 TRERGSKDALITTESIKVEVCVFVFDIMFVNGEQLLALPLRERRRRLKEVFPETRPGYLE 1171

Query: 241  LRRKL 245
              +++
Sbjct: 1172 YAKEI 1176

[Close]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match: Q869E1 (DNA ligase 1 OS=Dictyostelium discoideum OX=44689 GN=lig1 PE=3 SV=1)

HSP 1 Score: 173.7 bits (439), Expect = 2.5e-42
Identity = 96/232 (41.38%), Postives = 144/232 (62.07%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSL--------NIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLI 63
           R+VL ALA++V ++  +        +I  +   E  +E+ Q+  + V  AY+ LPN+DL 
Sbjct: 732 RSVLMALAKSVLVTPPIDGSGQQIFDIRKQMKQEEFEERYQNVVSKVTRAYSQLPNYDLF 791

Query: 64  VPSLMG-KGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQ 123
           VP L+   GI+   S+ S+  GIP+KPMLA+ T GI Q L  F +  FTCE+KYDG+RAQ
Sbjct: 792 VPHLIAVNGIDNILSTCSLKVGIPVKPMLAQPTTGISQMLDRFSDMEFTCEFKYDGERAQ 851

Query: 124 IHKLADGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMS 183
           IH+L DG+  +++RN +D T K+PD++  + +   P   +FILD E VA D     +++S
Sbjct: 852 IHRLPDGTTHIYTRNLEDYTQKYPDIVANVTKFVGPNVKSFILDCEAVAFDAATK-KILS 911

Query: 184 FQELSSRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYL 227
           FQ LS+R R S    + +  IKV +CVF FD++  NG+ L+  PL  RR++L
Sbjct: 912 FQVLSTRARKS----VQLSQIKVPVCVFAFDLLYLNGQSLIDEPLIKRREHL 958

[Close]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match: Q42572 (DNA ligase 1 OS=Arabidopsis thaliana OX=3702 GN=LIG1 PE=2 SV=2)

HSP 1 Score: 169.9 bits (429), Expect = 3.7e-41
Identity = 96/239 (40.17%), Postives = 146/239 (61.09%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSLNIYNEGMVE---NLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 63
           +TVL AL QA        +YNE   +   N K  L+  +  V   + VLP +D+IVP+L+
Sbjct: 345 QTVLAALGQAA-------VYNEEHSKPPPNTKSPLEEAAKIVKQVFTVLPVYDIIVPALL 404

Query: 64  GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 123
             G+     + +   G+PI PMLAK T G+ + L  F++  FTCEYKYDG+RAQIH + D
Sbjct: 405 SGGVWNLPKTCNFTLGVPIGPMLAKPTKGVAEILNKFQDIVFTCEYKYDGERAQIHFMED 464

Query: 124 GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 183
           G+  ++SRN++  T K+PD+   ++ + KP+  +FILD EVVA DR    +++ FQ LS+
Sbjct: 465 GTFEIYSRNAERNTGKYPDVALALSRLKKPSVKSFILDCEVVAFDREKK-KILPFQILST 524

Query: 184 RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
           R R +    + V+ IKV +C+F FD++  NG+QL+   L+ RR+ L +   +E  GYF+
Sbjct: 525 RARKN----VNVNDIKVGVCIFAFDMLYLNGQQLIQENLKIRREKLYESF-EEDPGYFQ 570

[Close]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match: P18858 (DNA ligase 1 OS=Homo sapiens OX=9606 GN=LIG1 PE=1 SV=1)

HSP 1 Score: 165.6 bits (418), Expect = 6.9e-40
Identity = 93/233 (39.91%), Postives = 138/233 (59.23%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSLNIYNEGMVENLKEK--------LQSFSAAVLGAYNVLPNFDLI 63
           ++VL AL+QAV ++     +   MV+  K K        L+     +   +  +P+ D I
Sbjct: 457 QSVLAALSQAVSLTPPGQEFPPAMVDAGKGKTAEARKTWLEEQGMILKQTFCEVPDLDRI 516

Query: 64  VPSLMGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQI 123
           +P L+  G+E       + PGIP+KPMLA  T GI + LK FE  AFTCEYKYDGQRAQI
Sbjct: 517 IPVLLEHGLERLPEHCKLSPGIPLKPMLAHPTRGISEVLKRFEEAAFTCEYKYDGQRAQI 576

Query: 124 HKLADGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSF 183
           H L  G +++FSRN +D T K+PD+I+ I ++  P+ ++FILD E VA DR    ++  F
Sbjct: 577 HALEGGEVKIFSRNQEDNTGKYPDIISRIPKIKLPSVTSFILDTEAVAWDREKK-QIQPF 636

Query: 184 QELSSRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKD 229
           Q L++R R      +    I+V +C++ FD++  NGE L+  PL  RR+ L++
Sbjct: 637 QVLTTRKRKE----VDASEIQVQVCLYAFDLIYLNGESLVREPLSRRRQLLRE 684

[Close]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match: P37913 (DNA ligase 1 OS=Mus musculus OX=10090 GN=Lig1 PE=1 SV=2)

HSP 1 Score: 161.0 bits (406), Expect = 1.7e-38
Identity = 90/233 (38.63%), Postives = 137/233 (58.80%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSLNIYNEGMVENLKEK--------LQSFSAAVLGAYNVLPNFDLI 63
           ++VL ALAQAV ++     +   +V+  K K        L+     +   +  +P+ D I
Sbjct: 455 QSVLAALAQAVSLTPPGQEFPTVVVDAGKGKTAEARKMWLEEQGMILKQTFCEVPDLDRI 514

Query: 64  VPSLMGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQI 123
           +P L+  G+E       + PG+P+KPMLA  T G+ + LK FE   FTCEYKYDGQRAQI
Sbjct: 515 IPVLLEHGLERLPEHCKLSPGVPLKPMLAHPTRGVSEVLKRFEEVDFTCEYKYDGQRAQI 574

Query: 124 HKLADGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSF 183
           H L  G +++FSRN +D T K+PD+I+ I ++  P+ ++FILD E VA DR    ++  F
Sbjct: 575 HVLEGGEVKIFSRNQEDNTGKYPDIISRIPKIKHPSVTSFILDTEAVAWDREKK-QIQPF 634

Query: 184 QELSSRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKD 229
           Q L++R R      +    I+V +C++ FD++  NGE L+  PL  RR+ L++
Sbjct: 635 QVLTTRKRKE----VDASEIQVQVCLYAFDLIYLNGESLVRQPLSRRRQLLRE 682

[Close]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match: A0A6J1DXE4 (DNA ligase OS=Momordica charantia OX=3673 GN=LOC111024977 PE=3 SV=1)

HSP 1 Score: 441.4 bits (1134), Expect = 2.4e-120
Identity = 225/244 (92.21%), Postives = 234/244 (95.90%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHALAQAVFISSSLN+Y EGMV NLKEKLQ FSAAVL AYNVLPNFDLIVPSLM
Sbjct: 962  AMLKTVLHALAQAVFISSSLNMYKEGMVANLKEKLQYFSAAVLDAYNVLPNFDLIVPSLM 1021

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1022 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 1081

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLINIINE+CKPAASTFILDAEVVAVDRRNNCRLMSFQELSS
Sbjct: 1082 GSVRVFSRNSDDTTSKFPDLINIINELCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 1141

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKG LIAVD+IKVDIC+FVFDIMLANGEQLLGLPLRHRRKYLKDL  DER GYFE 
Sbjct: 1142 RGRGSKGLLIAVDSIKVDICIFVFDIMLANGEQLLGLPLRHRRKYLKDLFRDERPGYFEY 1201

Query: 241  RRKL 245
             +++
Sbjct: 1202 AKEI 1205

[Close]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match: A0A6J1E130 (DNA ligase OS=Momordica charantia OX=3673 GN=LOC111024977 PE=3 SV=1)

HSP 1 Score: 441.4 bits (1134), Expect = 2.4e-120
Identity = 225/244 (92.21%), Postives = 234/244 (95.90%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHALAQAVFISSSLN+Y EGMV NLKEKLQ FSAAVL AYNVLPNFDLIVPSLM
Sbjct: 966  AMLKTVLHALAQAVFISSSLNMYKEGMVANLKEKLQYFSAAVLDAYNVLPNFDLIVPSLM 1025

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1026 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 1085

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLINIINE+CKPAASTFILDAEVVAVDRRNNCRLMSFQELSS
Sbjct: 1086 GSVRVFSRNSDDTTSKFPDLINIINELCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 1145

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRGSKG LIAVD+IKVDIC+FVFDIMLANGEQLLGLPLRHRRKYLKDL  DER GYFE 
Sbjct: 1146 RGRGSKGLLIAVDSIKVDICIFVFDIMLANGEQLLGLPLRHRRKYLKDLFRDERPGYFEY 1205

Query: 241  RRKL 245
             +++
Sbjct: 1206 AKEI 1209

[Close]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match: A0A1S3BA94 (DNA ligase OS=Cucumis melo OX=3656 GN=LOC103487505 PE=3 SV=1)

HSP 1 Score: 421.8 bits (1083), Expect = 2.0e-114
Identity = 215/244 (88.11%), Postives = 228/244 (93.44%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 60
            AML+TVLHAL+QAVFISSSLNIY E M+ NLKEKLQ+FSA VL AYNVLPNFDLIVPSLM
Sbjct: 941  AMLKTVLHALSQAVFISSSLNIYKEEMLGNLKEKLQNFSATVLDAYNVLPNFDLIVPSLM 1000

Query: 61   GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 120
            GKGIEFSSSSLSMVPGIPIKPMLAKITNGIP+ALKIFENKAFTCEYKYDGQRAQIHKLAD
Sbjct: 1001 GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPRALKIFENKAFTCEYKYDGQRAQIHKLAD 1060

Query: 121  GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 180
            GS+RVFSRNSDDTTSKFPDLI IINE+ KPA STFILDAEVV VDR+NNCRLMSFQELSS
Sbjct: 1061 GSLRVFSRNSDDTTSKFPDLIKIINELSKPAVSTFILDAEVVGVDRKNNCRLMSFQELSS 1120

Query: 181  RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 240
            RGRG+K SLIAVD+IKVDICVF FDIMLANGEQLLGLPLR RRKYLKDL GD RLGYFE 
Sbjct: 1121 RGRGNKDSLIAVDSIKVDICVFAFDIMLANGEQLLGLPLRDRRKYLKDLFGDGRLGYFEY 1180

Query: 241  RRKL 245
             +++
Sbjct: 1181 AKEI 1184

[Close]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match: A0A5A7VEZ9 (DNA ligase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold548G00160 PE=3 SV=1)

HSP 1 Score: 417.2 bits (1071), Expect = 4.9e-113
Identity = 215/245 (87.76%), Postives = 228/245 (93.06%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNF-DLIVPSL 60
            AML+TVLHAL+QAVFISSSLNIY E M+ NLKEKLQ+FSA VL AYNVLPNF DLIVPSL
Sbjct: 941  AMLKTVLHALSQAVFISSSLNIYKEEMLGNLKEKLQNFSATVLDAYNVLPNFQDLIVPSL 1000

Query: 61   MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLA 120
            MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIP+ALKIFENKAFTCEYKYDGQRAQIHKLA
Sbjct: 1001 MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPRALKIFENKAFTCEYKYDGQRAQIHKLA 1060

Query: 121  DGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELS 180
            DGS+RVFSRNSDDTTSKFPDLI IINE+ KPA STFILDAEVV VDR+NNCRLMSFQELS
Sbjct: 1061 DGSLRVFSRNSDDTTSKFPDLIKIINELSKPAVSTFILDAEVVGVDRKNNCRLMSFQELS 1120

Query: 181  SRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
            SRGRG+K SLIAVD+IKVDICVF FDIMLANGEQLLGLPLR RRKYLKDL GD RLGYFE
Sbjct: 1121 SRGRGNKDSLIAVDSIKVDICVFAFDIMLANGEQLLGLPLRDRRKYLKDLFGDGRLGYFE 1180

Query: 241  LRRKL 245
              +++
Sbjct: 1181 YAKEI 1185

[Close]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match: A0A1S3B921 (DNA ligase OS=Cucumis melo OX=3656 GN=LOC103487505 PE=3 SV=1)

HSP 1 Score: 417.2 bits (1071), Expect = 4.9e-113
Identity = 215/245 (87.76%), Postives = 228/245 (93.06%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVENLKEKLQSFSAAVLGAYNVLPNF-DLIVPSL 60
            AML+TVLHAL+QAVFISSSLNIY E M+ NLKEKLQ+FSA VL AYNVLPNF DLIVPSL
Sbjct: 941  AMLKTVLHALSQAVFISSSLNIYKEEMLGNLKEKLQNFSATVLDAYNVLPNFQDLIVPSL 1000

Query: 61   MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLA 120
            MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIP+ALKIFENKAFTCEYKYDGQRAQIHKLA
Sbjct: 1001 MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPRALKIFENKAFTCEYKYDGQRAQIHKLA 1060

Query: 121  DGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELS 180
            DGS+RVFSRNSDDTTSKFPDLI IINE+ KPA STFILDAEVV VDR+NNCRLMSFQELS
Sbjct: 1061 DGSLRVFSRNSDDTTSKFPDLIKIINELSKPAVSTFILDAEVVGVDRKNNCRLMSFQELS 1120

Query: 181  SRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
            SRGRG+K SLIAVD+IKVDICVF FDIMLANGEQLLGLPLR RRKYLKDL GD RLGYFE
Sbjct: 1121 SRGRGNKDSLIAVDSIKVDICVFAFDIMLANGEQLLGLPLRDRRKYLKDLFGDGRLGYFE 1180

Query: 241  LRRKL 245
              +++
Sbjct: 1181 YAKEI 1185

[Close]
BLAST of Sgr012992 vs. TAIR 10
Match: AT1G66730.1 (DNA LIGASE 6 )

HSP 1 Score: 295.0 bits (754), Expect = 5.4e-80
Identity = 148/245 (60.41%), Postives = 193/245 (78.78%), Query Frame = 0 

Query: 1    AMLRTVLHALAQAVFISSSLNIYNEGMVEN-LKEKLQSFSAAVLGAYNVLPNFDLIVPSL 60
            AMLRTVL AL +A+ ++S  N +N+ + E+  +EKL+  SAAV+ AYN+LP+ D++VPSL
Sbjct: 932  AMLRTVLPALGRAIVMNSFWNDHNKELSESCFREKLEGVSAAVVEAYNILPSLDVVVPSL 991

Query: 61   MGKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLA 120
            M K IEFS+S+LSMVPGIPIKPMLAKI  G+ +   + + KAFTCEYKYDGQRAQIHKL 
Sbjct: 992  MDKDIEFSTSTLSMVPGIPIKPMLAKIAKGVQEFFNLSQEKAFTCEYKYDGQRAQIHKLL 1051

Query: 121  DGSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELS 180
            DG++ +FSRN D+TTS+FPDL+++I +   PAA TF+LDAEVVA DR N  +LMSFQELS
Sbjct: 1052 DGTVCIFSRNGDETTSRFPDLVDVIKQFSCPAAETFMLDAEVVATDRINGNKLMSFQELS 1111

Query: 181  SRGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
            +R RGSK +LI  ++IKV++CVFVFDIM  NGEQLL LPLR RR+ LK++  + R GY E
Sbjct: 1112 TRERGSKDALITTESIKVEVCVFVFDIMFVNGEQLLALPLRERRRRLKEVFPETRPGYLE 1171

Query: 241  LRRKL 245
              +++
Sbjct: 1172 YAKEI 1176

[Close]
BLAST of Sgr012992 vs. TAIR 10
Match: AT1G08130.1 (DNA ligase 1 )

HSP 1 Score: 169.9 bits (429), Expect = 2.6e-42
Identity = 96/239 (40.17%), Postives = 146/239 (61.09%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSLNIYNEGMVE---NLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 63
           +TVL AL QA        +YNE   +   N K  L+  +  V   + VLP +D+IVP+L+
Sbjct: 345 QTVLAALGQAA-------VYNEEHSKPPPNTKSPLEEAAKIVKQVFTVLPVYDIIVPALL 404

Query: 64  GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 123
             G+     + +   G+PI PMLAK T G+ + L  F++  FTCEYKYDG+RAQIH + D
Sbjct: 405 SGGVWNLPKTCNFTLGVPIGPMLAKPTKGVAEILNKFQDIVFTCEYKYDGERAQIHFMED 464

Query: 124 GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 183
           G+  ++SRN++  T K+PD+   ++ + KP+  +FILD EVVA DR    +++ FQ LS+
Sbjct: 465 GTFEIYSRNAERNTGKYPDVALALSRLKKPSVKSFILDCEVVAFDREKK-KILPFQILST 524

Query: 184 RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFE 240
           R R +    + V+ IKV +C+F FD++  NG+QL+   L+ RR+ L +   +E  GYF+
Sbjct: 525 RARKN----VNVNDIKVGVCIFAFDMLYLNGQQLIQENLKIRREKLYESF-EEDPGYFQ 570

[Close]
BLAST of Sgr012992 vs. TAIR 10
Match: AT1G49250.1 (ATP-dependent DNA ligase )

HSP 1 Score: 149.4 bits (376), Expect = 3.7e-36
Identity = 89/244 (36.48%), Postives = 142/244 (58.20%), Query Frame = 0 

Query: 4   RTVLHALAQAVFISSSLNIYNEGMVE---NLKEKLQSFSAAVLGAYNVLPNFDLIVPSLM 63
           +TVL AL QA        +YNE   +   N+K  L   +  V   +++LP +D+IV +L+
Sbjct: 214 QTVLAALGQAA-------VYNEEHSKPPPNIKNPLDEAATIVKEVFSMLPVYDIIVGALL 273

Query: 64  GKGIEFSSSSLSMVPGIPIKPMLAKITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLAD 123
             G+     + ++  G+P++PMLAK T  +   L+ F++  FT EYKYDG+RAQI+ + D
Sbjct: 274 TSGVWNLPKTCNLTLGVPVRPMLAKATTRVDLILEKFKDTVFTAEYKYDGERAQIYYMED 333

Query: 124 GSMRVFSRNSDDTTSKFPDLINIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSS 183
           G++ +FSR+++  T K+PD+  +++ + KP   +FILD EVV  +R    +++  Q  S+
Sbjct: 334 GTVEIFSRHAERNTGKYPDVALVLSRLKKPTVKSFILDCEVVTFNREKE-KILPLQ--ST 393

Query: 184 RGRGSKGSLIAVDTIKVDICVFVFDIMLANGEQLLGLPLRHRRKYLKDLLGDERLGYFEL 243
           R   +    + V  IKV +CVF FDI+  NG+ L+   L  RR+ L D   +E LGYF+ 
Sbjct: 394 RAHKN----VNVSDIKVGVCVFAFDILYLNGQLLIHENLNIRREKLHDSF-EEDLGYFQF 442

Query: 244 RRKL 245
              L
Sbjct: 454 ATAL 442

[Close]
BLAST of Sgr012992 vs. TAIR 10
Match: AT5G57160.1 (DNA ligase IV )

HSP 1 Score: 53.1 bits (126), Expect = 3.6e-07
Identity = 56/210 (26.67%), Postives = 85/210 (40.48%), Query Frame = 0 

Query: 26  GMVENLKEKLQSFSAAVLGAYNVLPNFDLIVPSLMGKGIEFSSSSLSMVPGIPIKPMLAK 85
           GM E  K   Q F       +NV  +  L+   L  +        + +  G  ++P LA 
Sbjct: 176 GMSE--KSIFQEFHPDAEDLFNVTCDLKLVCEKLRDRHQRHKRQDIEV--GKAVRPQLAM 235

Query: 86  ITNGIPQALKIFENKAFTCEYKYDGQRAQIHKLADGSMRVFSRNSDDTTS---KFPDLI- 145
               +  A K    K    E K+DG R QIHK     +  FSRN  D +       DLI 
Sbjct: 236 RIGDVNAAWKKLHGKDVVAECKFDGDRIQIHKNGT-DIHYFSRNFLDHSEYAHAMSDLIV 295

Query: 146 -NIINEVCKPAASTFILDAEVVAVDRRNNCRLMSFQELSSRGRGSKGSLIAVDTIKVDIC 205
            NI+ + C       ILD E++  D   N     F E  S    +K +   +D+ K  +C
Sbjct: 296 QNILVDKC-------ILDGEMLVWDTSLN----RFAEFGSNQEIAKAAREGLDSHK-QLC 355

Query: 206 VFVFDIMLANGEQLLGLPLRHRRKYLKDLL 231
              FD++      ++   L+ R + LK ++
Sbjct: 356 YVAFDVLYVGDTSVIHQSLKERHELLKKVV 368

The following BLAST results are available for this feature:
BLAST of Sgr012992 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022158502.15.0e-12092.21DNA ligase 6-like isoform X2 [Momordica charantia][more]
XP_022158501.15.0e-12092.21DNA ligase 6-like isoform X1 [Momordica charantia][more]
XP_038878216.18.8e-11789.34DNA ligase 6-like isoform X1 [Benincasa hispida][more]
XP_038878217.18.8e-11789.34DNA ligase 6-like isoform X2 [Benincasa hispida][more]
XP_008444062.14.1e-11488.11PREDICTED: DNA ligase 1 isoform X2 [Cucumis melo][more]
BLAST of Sgr012992 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
F4HPZ97.6e-7960.41DNA ligase 6 OS=Arabidopsis thaliana OX=3702 GN=LIG6 PE=2 SV=1[more]
Q869E12.5e-4241.38DNA ligase 1 OS=Dictyostelium discoideum OX=44689 GN=lig1 PE=3 SV=1[more]
Q425723.7e-4140.17DNA ligase 1 OS=Arabidopsis thaliana OX=3702 GN=LIG1 PE=2 SV=2[more]
P188586.9e-4039.91DNA ligase 1 OS=Homo sapiens OX=9606 GN=LIG1 PE=1 SV=1[more]
P379131.7e-3838.63DNA ligase 1 OS=Mus musculus OX=10090 GN=Lig1 PE=1 SV=2[more]
BLAST of Sgr012992 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DXE42.4e-12092.21DNA ligase OS=Momordica charantia OX=3673 GN=LOC111024977 PE=3 SV=1[more]
A0A6J1E1302.4e-12092.21DNA ligase OS=Momordica charantia OX=3673 GN=LOC111024977 PE=3 SV=1[more]
A0A1S3BA942.0e-11488.11DNA ligase OS=Cucumis melo OX=3656 GN=LOC103487505 PE=3 SV=1[more]
A0A5A7VEZ94.9e-11387.76DNA ligase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold548G00160 PE=... [more]
A0A1S3B9214.9e-11387.76DNA ligase OS=Cucumis melo OX=3656 GN=LOC103487505 PE=3 SV=1[more]
BLAST of Sgr012992 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G66730.15.4e-8060.41DNA LIGASE 6 [more]
AT1G08130.12.6e-4240.17DNA ligase 1 [more]
AT1G49250.13.7e-3636.48ATP-dependent DNA ligase [more]
AT5G57160.13.6e-0726.67DNA ligase IV [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR036599DNA ligase, ATP-dependent, N-terminal domain superfamilyGENE3D1.10.3260.10coord: 1..80
e-value: 2.8E-16
score: 61.8
NoneNo IPR availableGENE3D3.30.470.30DNA ligase/mRNA capping enzymecoord: 81..244
e-value: 6.3E-47
score: 161.9
NoneNo IPR availablePANTHERPTHR45674:SF9DNA LIGASE 3coord: 1..239
NoneNo IPR availablePANTHERPTHR45674DNA LIGASE 1/3 FAMILY MEMBERcoord: 1..239
NoneNo IPR availableCDDcd07900Adenylation_DNA_ligase_I_Eukcoord: 72..240
e-value: 4.71877E-80
score: 237.839
NoneNo IPR availableSUPERFAMILY56091DNA ligase/mRNA capping enzyme, catalytic domaincoord: 76..232
IPR012310DNA ligase, ATP-dependent, centralPFAMPF01068DNA_ligase_A_Mcoord: 81..230
e-value: 2.7E-37
score: 128.4
IPR012310DNA ligase, ATP-dependent, centralPROSITEPS50160DNA_LIGASE_A3coord: 192..230
score: 10.7529
IPR016059DNA ligase, ATP-dependent, conserved sitePROSITEPS00697DNA_LIGASE_A1coord: 105..113

Relationships

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

Feature NameUnique NameType
Sgr012992.1Sgr012992.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0071897 DNA biosynthetic process
biological_process GO:0006266 DNA ligation
biological_process GO:0006310 DNA recombination
biological_process GO:0006281 DNA repair
biological_process GO:0006260 DNA replication
cellular_component GO:0005634 nucleus
molecular_function GO:0005524 ATP binding
molecular_function GO:0003677 DNA binding
molecular_function GO:0003910 DNA ligase (ATP) activity
molecular_function GO:0003909 DNA ligase activity