CcUC09G177190 (gene) Watermelon (PI 537277) v1

Overview
NameCcUC09G177190
Typegene
OrganismCitrullus colocynthis (Watermelon (PI 537277) v1)
DescriptionGCV_T domain-containing protein
LocationCicolChr09: 21092667 .. 21133735 (+)
RNA-Seq ExpressionCcUC09G177190
SyntenyCcUC09G177190
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.
GTCATGAATCATGACAGAGTTAATCAGTACAAAAACCTCCCATTATCCTTACTATGCAAAATGGTAATCTGATATTCGAGCAGATATCTCAAAATTCAGATAACTATGGCTTCTTACTGCGGAAATGGATTCTCCGTCTCAAATGCTACGATTCCCTCTACCAGCAGAGCCTTCATCTCTAATCCATGGCACTGGGACCTTTCAACCTCTTCTTTCTCCCACCCTCATCGCTTTCAGCTCCCTGCATTTCGTTCTCGGAAAATTAAGAACCCCCTTACCAAAGCAAACAGAACCAGAACTTCCTTTTCTGCCTTTCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGTAAGTCTTTTTTTCCTCCGTTTATTCCACTTCGTTGGTCTCTTTACTTAATTAAATACTGGAGAAAGTCATATAGTATCCGAATTTATTGCTGAAATTCTTTATACTGATTTTATTCTGTGGTAACAAAGTGGACTGAGATTTATTGTTAATTGATGAATTGATGCATATTCATTCAATTACGAAAGAGGGAACAAAAGGAAAAGAAAATGTGCTGCTAATTCTTGTTTGGTGAGAACGTGCATTTTGTTACTTTCGAAGATTGAGAATCGTCGGTCTAAGACTGTATCATTGCGAAATACTAACATCTGTATCATATGCTAAATTCCAATTGAAAGGTTAGTACTTACAATATTCTAAATTGGATATCTACAATGGACAGGAGGCTGCAGCAGTTGAAGGTGCAAAGATCTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCTAATAATGGAGTTGCTGTATGTAGGCTTTCAACATTTTTCTTACTGGTGTCTTTTTTCTTTTGGCTTTGCTTAGTTTGGAAACTGTGTATATCTCCCTTTGGAAAGAAATCACTATTGGTATGCATCTCTAAGTGCTAATTTGGTAGTATTCTTAAGTGTATGAAAACATTTCTGAATGGTTAGTTGTCTACATTACAAACAATAGGCCTTCTAATCTCAAGTACTCAAATGAAGCTTGAAGGTGGATGGATGATGAGAGACAGTACACTGTGCTGTAGAAGTCTAAATGGTAGGAATTTTGATAAGATGATTATCTCCTATGTGCACCCGTAAGGTATCACCTTACAAAACTGTTATTATTGAAATTGAAAATTGCCCTAAGGCAATACAGACTCCTTTCTCTCTATGAGAAGTCTCAACAAACTTCAGATAATCCCCAAAATGAACCCCCATGCACTAATATGTAAAACACCCTAAAGAGAAATCCCACATGGTCACCACTGCACTTGACGCTCACCTCAACATCCCAGGTCCCCTACTCTAACTACCTCCTCCTCTTATACTGATGAAGTATCGGTGGCCTAACATTACCCGCCACCTCAACTTCGACCTTGTCCTCAAGGTTGAAAGTAAGAAACTTCTGCTTGAAGTCTTCAACCATTTCCTAAGTTGCTTCATGAGGTGGCAATCCTTCCCAACTAATAAGGGCCTCCTCTTTTCCGGTACTTGGATCTTTGCGAAAAGCAAAAACTTCAGTTGCTTTAGCAATCCATTCGAATTCACCAGTCAACTCAAGGGGCGGGTTTTGTAACACCTGGCATTGTCCCAAAGGTTTCTTAAGTTGGGAAACATGAAACACAGGGTGAATGGATGTGGTAGTAGGAAGTGCCAACTTGTAAGCAACTGACCGAATCCTCTTTTCAATCTAGTATGGACCAAATAATTTAGGGGAAAGCTTCTCATTTTGCCTTTTGGCCAAGGATGATTGCTAATACGACCTTAACTTCAAATACACCCTATCTCCTTCACTAAACTCAACCACCCTTCTCTTCTTATCCGCCTGCTTCTTCATTCTTTCCTTGGCCAATTGCAAATGTTCTTTCATAGCCAAAAGAACCATGTCAAGAAAACTAAGTTGTTATTGAATCGATTGTATCAAAAGATTGAACAAACTTCACATCAGGACCCTCTTTCAAGGCTAGTCATAGCATCCCATAACTTCCGCGAACCTTACCCTCTTGTTAATGATATTGACCTTCTTTATTTAACAACAATGGATCTCTTAATCCAGTTTGCTTACCCATCCTTGGAAGGTTACGGTAAGTTCACAATTATATTTACAATGAAGCGATCTTACGGGGAGGAGTTCTCATTTTGGTCAAGTGTAGCATTTGGTATCTTATTGTCCCCATAGAAAAATAAAGCCAGTGGGGTTCATCCATACTTGCCTGAAATAGGGTGATTCCCAAGGATATGTGATAAGTAGTGTTGTACCAATAGTCTGCCCAGGACAACCACTTGATCCATTGCTTCGGTCGTTCCCCACAAAAACATCTCAAATAGGTCTTAACACTCTTATTTACAATCTCCGTTTGACCATCCGTCTGAGGATGATAGGCCGAACTCATCTTCAACCGGGTGCCACTCAATTGGAATAGCTCCTTCCAAAGTTAACTCAAGAAAATTTTATCCTGATCTAAAATGATAGAAATAGGAACCCATGTAGTCTGACAACCTCCCAGATGAACACTTCAGCTACATCCTTGGCTGTAAACGGATGTTTGAGTGCCATAAAGTGAGCATACTTATTGAGACAATCGACCACCACCAATATAGTGTCAAAACCATTTGAATGAGGAAGACCTTCTCGAAATCCATGGACAAAGGAGTCCAAATGGCCTCATGAATCTCAAGAGGTAGCAATAAACCAGCAGACGCCAAAGTCAATGACTTGTTCCTTTGGCAAATTACACAATTTTCCACACATTTCTTAGCTGCCACTTTCATTCCTTCCTAATAAAGATCATTGGTTACCTGTTTATAAGTTCTCAAGAATCCGGAATGCCCTCCAGACACCGAATCATGATAAGAATGTAACAGGGTTGGAATTAGGGAGGACTTACTCGAGAGGACAAGACGGCCCTTGTATCGCAAGGTTCCTTGGCTCAAAGAGAAATGGGGGACACTATCCTCATTTGTCTTCCATTTTTCAATGATTTGGATCAACTTTGGATCCTCTAGCACTTCCTCTTGAATCTTTTGCACGTCTATAATGCTGGGAACTAATAATACGGCCAAGTGAGCCGTGGGAGGTAGCCTTGAGAGAGCATCTGCCACTTTATTCTCTAAGCCTGGCTTATGTTGAACCTCAAAGTCATAGCCAAGCAATTTGGACAAGTAGCATTTGTATTGAGGCTGAATTACCCTCAGTTCAAGTAGAAATTTCCATGCTCGTTGGTCAGTGTGAACTATAAACTGTTGTCCTAGCAAGTAAGTTCTCCACTGTTGAGCTGCCATTACCATGGCCATCAATTCTCTCTCATAGATTGGTTTAAACTGTTGTTTTTGAGATAGATTATAACTAAAGAATGCAATGGGGCGTTGTTTTTGAGATAACACTACTTCTAAGCCAGTCCCTAAAGCATCAGTCTCTACTATGAATGGTCTATCAAAATCCGGCAAAGCAAGGACAGGTAGAGTTACCATGGCGTTCTTCGACTTGTTGAAGGCTTCAGTTGCCTCTTCCGTCCCACTCACATGCCCCCTTTTTCAGCAATGCACTCATTGGGGCTACCAGACTACCGTACCCTTCCACAAATTTTTGGTAATAACCAATGATGCCTAGGAATGCCCGCACATCCTTAATACTTTGGGGTTAAGGCCATTTTATCGTTGCTCTTAACTTTTCAGGATCTACTTCCACTCCGTTGCCTTAAATTAAATGTCCTAAATACTCAATTTTATGGCTGGCAAAGGTGCATTTATTCTTGTTGGTGTACAACTTCTTTTCTTGCAGCCCCATGAACACCAATCTTAAATGATACAAGTGCTCCTCCTCGTCCTTGCTATAAATGAGTGTATCATCAAATAAAACTAGGACAAATCTTCTCAGATATGGTCGAAAGATTCGGTTCACGAGGGATTGGAATGTGGTTGGAGCATTAGTCAATCCGAATGGCATTACCAAAAACTCGTAATGACCCTCATGTGTTTTGAATGCTGTCTTTTCAACGTCTCTCGAATGAACATGGATCTAATGATAGCTTGACTTGTGGCCAATCTTAGAAAAAATCCAAGCTCTAAACCATTCGTCAAATAATTCTTCAACCACAGAGATGGGAAACTTACCGAGAATAGTTACTAGATTCAACACCTGTAATCTACACAGAATCATCAACCCTTATCCTTCTTCTTGACCAACGAAACTGGGCTGGAATAGGGGCTTGTACTTGGATGGATGATCCCTGCTGTTAGCATTTCATCCACCATCTTTTCTACCACCATTTTCTCTATCTTGCATTTCTAAGAATGCCCATATCGATATGGCCTTACATTGACCGGAGACACCTTCCTTTAGATGAATTTGGTGATCTACTTCATGTTGAGGAGGTAGTGTACTTGGCCACTGAAAAACTTGCTAGAACTCCTAAAGGATAATTCTAGCTTTTCGTGGTACTGAGGTAAGCTTGCTTCCCCTTCCTCCATCTCCCCATGGTCTTCCACGCGAAGAGCTCTACATTCCACTAGGAACCCCTAATCTTCGATTTCCCATGATTTTGTCATTCTTTTCAACGTTACTTGGATCTTTGTCTTTGTTAAACTAGGATCGCCCTTCAACATCACCGTGGTATCCCCCATTTTAACACTCATCGCCAAGCCTTCCAATGGACTTTCGTGACACCCAGGGTGAATAACCACTACATTGCCATAACCACTTCTACTCCCTTCAACTATATCGGAAGGAAACTCTCTACAATGATCAGCTCTCCAATCTTTAGTACCACTCCCTTACACACCCCCTTACTCTTCACAGCTGTGCCGGTACCCATAATAACAACATAGTTTGCAGTTTCCAACATTGGTAAGTTTTGCTCTTCTACTACCTTTTGTGCAATGAAGTTGTGGGTAGCCCCACAATCTATTAGAATCACCACCTTTGTTCCTTCAATGGTTCCTCTGAGTTTAATCGTACCTGGATTTGACAGTCCCACTACTGAATTCAGAGAAAGTTTCACTGCTGGTCCAGTCGTTGTTTCCTCCCCCACTTTTGTTGTCTGTAATTTGGCCACGTCTCCATCTTCCGTCATTTCATCACAAAGCTCTAATTTTGGATGAATCACAAACATCCTCAGTTCCCTTAGTTCCTTTACCTTACAACGATGACCTGGGTAGAATTTTTCCTCGCATTGGAAGCAAAGCCCCTTATCCCTCTTTGCCTAAAAGTCTGCATTCGACAATCGTCGTGTGGGTCCATCACATTTTCCATCATCCATTTTACTTGCTCGCAGTGTGATCATTCTCATTGGAAATGTCTCCTTACTTGTTGATGAAGAATTAGGTTCTGGGTCATTACTGTTTGACTGTGATTAGGCCTTAGTACCCGTTGGGCCACGTTCCTCCCTTTCCTCCTTGTGGATCACCTCTCAGTCTTCAATCTTTTGGGCCAATCGCATTATCTGGTTCGACTCGATTGGCTCCCAACAATCCATCTTAGCTCGAATAATCGGTTTGAGCCCTTTGAGAAATGTTTCTTCCAACACCTGATCGTTCAAGTCTGGTAATGACCCCAACCAATTTATCGAACAACTGTCGGTACTCCTCCACCGTCGACTCTTTGTCTAATAGCAAGAAACTATCCACAAATTGTTCCCTTCCTCGTCAATCAAAACCGCACCAACAACTGCATTTTCAGATCCCTCCAATTCGCAAATGGTTCCTTCACTTCCTTTGATTGATACTAATCTAGAGCTGCACCATCAAAGCTAAACACTGCAATATTGAGTTTCTTCAAAGAGCTTATGGATTTGAAAATAGCTCTTTGCTCTGAATAACCATGAGTCGAGTTCTTCTCCTACAAACATTGACTTTTCCACCTTCGTAAATTTGCTTCGATCACTCTCTTTCCCTTCCAGTTTTTCTTTAATGGTTGATTTCATCAACTCATCCATTTGTTGCATCGTTTTGCTTGAACTCCCTGCTTTGGATTGTGGAGTTGTATTCCAATCATCGGAGCCCGTATTTCCGTGTCGGGACAGCGCTAGCTTTTTTGTAGTCATTGCCATCATCTTGCGATTTTCCTTAGCATCTCACTGTTGCTGTTTTGCCTGTGCATTCATCTTCTCTGATAGCTTAACCAATGCATTTTCAATCTCAGGTAATTTCTTCATTCCCTCTTTGATTCCCTCAATCTCTTGATTGATTGCATCAACTCGTTCCTTAAACTTCTTAGCCATTTCGTTTGAATCGTCCCAGACCGAACGCTCTAATACCAATTTGTAAGGTATCGCCTTGCAAAACTGTTATTATTGGAATTGAAAATTGCCCCAAGGCAATATAGACTCTTTTCTCTCTAGGAGAAAACTGAACAAACTTCAGATAATCCCCAAAATGAACCACCCACACACTAACATGCAAAACACCCTACACAGAAATCCCGCATGGTCCCTACAGCACTCGATGCTCACCTCAACATCCTACATCCCCTGCTTTAACTACCTTCCACAATGACCTTCTTACCCCTCCTCTTATATTGACGAAGTATTGGTGGCCTAACAGCACCCTCCTAGAAAAGATTGCATGGGGCATGAGAGTTGGCCTTTCGATAGTTAGGCAGGGCTGTTGCCTTTGGGTTTGTGATAATGAGCAAGCTTTGGATAAGCTATTTGATTCTATTGTTTCTCTTGTTATCTCATGAAGCTTATTTACTTATTTATATTTTTTTTATGAGATGAAACATTCGGAAGTTACAAAAAAGGGGGGAAGATAAACCCCATCCATATGAAATCGCAAAAACTTCTCCCATAAGTCGAAAATTTACACCAATTCAAAGCCAAATAAGCAAAGAAATCTTAAAATTCAGCAAAATAGTTCTCCCTATCTTTGAAGTTTTTGGAATTCCTTTTGGACCATATAGATCAGAAAGAAGCCCTAGAGAAGCTGATCAATGGGGACTTCTTTCACTTCGAGGAGGATGAGGGAAAGCAGAGTGAATGAATCCCCAGGAAGTGCAAGGGACCATTAAAAGATAGAGGAAATAAAGCCCTAGTAAGAAGATGCAAAGGCACAAGTGGTGAGGATATTTCTCTATCTCTGAATCTTTTTTGCAAAAACGACAGCAGTACTATCAGAGGAGATCTTCACTAAAGTTTTTCATGAGTGCTGATGCAAGGGGGGCTAACTTCACATGGAAAGAATTTTATTTTCTTTTGGAAATTTATTTGGGGTGTAAATGTCTCCACTTTTTCATTTTTATATAGCTAGTAGCTGTTCTACAATTGTGTCCTATTGGAGAAGTTTCTTGTTTTGTTACTCACTTAGCTTCGGGTTTTCCTACCCCATTTTGTAATTTCGTACATCAGTAAAATTGTTTCTTAACTAGAAGAAGAAAATATATATATATATTGCGAATGAGTTGATGTTGGCATATTTTGCTATTAATTATTAGGTTGTGGATCTTTCTCATTTTGGCCGAATAAGGGGTATGTCCTCTTCTTTATCTTGTCTTTTTTCTTGTTCTACTATTTTTGAGTTCAACGGATTCATTCGACAACTCAAGAGTTGTAAAAACTAATATTCTTATTATAAACAATAATTTAATATATAAGTCTAGTAAATATATAAATCTATTAAATTGATTCTAAATAATTAAATTGACAAAATCAAAAAAAGAAAAAATAATAAATAAACTGTGCTGTGTAACTTGATTCCAAAAATGAAATGTTTTATTTTTTATTTTTTTTTATATATATATAAATGAAAACGAGTCTCTTTCATGCTCAAAGTACATATAAGGATACAAGAGCAAATGAAAAAAATGAAAAAAACGAGGATCAGTGAGTGCACCAGGACATCTCAACTAGGTTGGCACCTCCATAGCACTCTCATCATATCCAATTGAAGCTGAAAAATAAGAAGCCAACACCTCGAATACAATGGGACAATAGAGACAATAGAAACAAACTGACCAAACAGAATCGAACTGTAAAAAAAATAAGAAAACACCCCTGATACAATGGAGCAATGAAAATAAGGAAGAGCCAAAATGAAAACAAATTTTCTGTTAATACAAAAGAAATACAAGAGAAAGCAACCCTACAATAAGTTCTAGAATCTTCAAAACTCTAGGCTGGAAAGATAAAGGCATGCCAATTTAGGCTTATGTCTTGAATGAAGAAATCTTCAAAATGTTTGGATAAGGTGCACCATGATGAGGCATTCAATCGAGCCACTTCACAACGATCCAACCCCCCAAGTTTCTTGACATGGGAGATCCTTTGGTTTCTTTCAAACCAAGTTTCAGCAAGCATAGCCTTAATTGCATTGAACCATATTAGCCGAGGACCATCCTTTAAAGTAGGGCCACTTAGTAGTTGCCAAATATTGTCTCGAAAGTCATCACCAAAAACCCAAACTACTCCGAAGTAAGAGAACAATTTCCACCAGCACTGTATAGTATATGAGTAGTCGAAGAATAGGTGCAATAGATCTTCCATGTTTCCTTCACATAGAGGGCACATGGATGGAGACAAACAGTGAGATTGGAGTTTTTTCTGCATGACAAAGGAGCAATTTAGCTGACCGAATAACATAATCCATACTAAAATGTTGACCCATCGGGGGCTTTTAGACTACCATAAAGCCTTATAAAGTTGATTGTCTAATGGGGAAGATGGGCACCAAATGCTTTAAAAGTGACTTGACTGGAAAAACACCAGAAGTATCCAAAGACCACACTCTTATATCAAAGTTTTCAGTTACTCTCTTTTCTGGAATTTGGCTTAACAACAGCGGGAAATCAGCAATTTCATCATCCTTAAGAAGCCGCTGGAAGATTAAAGACCATGAAGATGACAATATGTCCCAATGCTCAGCCACCAAACCATTGGGAAAGAGGGCTATTCTGAATAGCCTTGGAAAACAAATATTCAAAGGAACGGGTCCCAGCCAAGGATCCAGCCAAAAAGCAATCCTAACCCATTACCAAGTTTAAAGGTAGCTAAAGCCTCCACCTGCAACCATGTTCGAGAAATACTAATCCATGGGCTGTACAAACTGTGCCAAACTTTCCTGCTGTGTGCCAATTGTTAGCACTTTTACCGTGAATGCTTCTTACTACCACCGCCCATAAGGAATTTTCTTCATTAATGTATCTCCACCTCCGTTTTAGCTAATAGGGCCAAATTTATTCTTCTTAAATCTCCAATTTCGAGGCCTCCATCTAATTGAGAATTAGTAACCAGCTTCCATTTGGCCAAATGATTCATCTTGTTCCCTTCATGACCCTCCCAAAAGAAGTTTCTCATGATTCTTTCCATTATGGAATTACTTTTTCCTGCATTAGAAATAAGAACATATAATCGGTAGGGAGGTTGGAAAGAACGGATTTACATAATGTAGCTCGGCCTCCTCTCAGTAAGTTGAATCTCCTCCATTTATCAAACTTTATATGGATTTTATCAATCATCGGCTGCTAAAACGATACACTTTTTGGGTACCTCCCTAATGGTAGGCCAAGGTAGATGTTGGGCAGGTGATCAACTTTACAATTCAGTCTAGAGGCCCCCAATATCTCACTTACTAACAGGAAGAGGAATGGTGGTAGGGGTCCCTGTTGATTATTTCCTTTTATGTTTATATTCTCCATTGTATTTATTGTGAAATATTTGCAAACATTTGTTGTATTTATTTTTTGCTTACTTTTTTTTAATTATTTTTTTTTATATCTGAAACGAAAGACGAAACATAAATCATGGATCAACTAAGCCAAGCCCTCTCGGGGCATATCGGTTGAAGTAGATTCTTCTTTTTGATCAATCAAAACCCCTTCCCAAACTGTACAAGCTTATTCCAAAGCATACGGCTTTCTGGAATCAAAGGAATGCAGGCGTTGGTAAGCGTCCGTGAGTGTCCGGGTCAGCTTACGCGCACTTCGACTAATCTCACGGGACAACCCGCTTGACCCTACAACATTTGGGTGTCAAGGAAACTCATAGGAAATTAATTCCTAGGTAGGTGGCTACCATGGATTGAACCCTTGACCTCTTAGTCATTTATTGAGACTATGTTTCCTTTTTATCACTAAGTCAACCCATGATGGTTAATATTTTTTCCTTACTTGTAATGGGTATGGGTATTTCTTCTATTTAAGAAAACCCTTTTCTATCAAAGAGAAATAAGAGAAATGATACAGTTTTAAGCAGTCCCCTTGTCCAATACCCCTTGATGCAATTATCCTTCCTCTAGGTCTTTTATTTATGAAGACCGAATATCTTGGGTTCTTGATGCAACCCAAAATCCATGGGATCCATTGAGGATTGAATTTTTTGCCATACATTATCTTTTCAAGAAAGGACCAATTTACACAGTGTCAAGATCCAATTTGAGAATGCAACCTTTTTTCTTCTTTGCTTGGTATTCTTCCACCGCTTTGTTGGCTATTAAGATTGGATCAAGAATTTGCCTCCCTCCAATAAATGCACTTCGCCAGAATCAGGTTCATGAGTTTTCGTCCGAGTTTGCCCAGCCCAACGCGAGATTCCGACACATCGACGCCTGGGTTCAAGTGTACTCCGTCGGCCGACCTTGTCTGGGTTACCGTCGGCTTTTTTGATTAGTAACCGTCGCCGACCGTCCGTTTTTAGCCTCTGCTGCTGCTAGGTGTTTAGCTTTAAGGTTTGTTTCAGCCTCTGTTTGGCTACTATTTCAGATCTATGATTTCTCCTTTTTTTGGGTATTTTATCTCTTCAACAACATGTCGGACACTAAGGTACTTGCCGCCAAAGTCTTTGACAGTTGGATCTATTCTAACATTCCTATTGTCCAAAAAATCACCCTTCGGCTTAATGGTGATAACTTTCTTCGTTGGTCCCAAAGTGTTCAAATATATATTCGTGGACAAGGTAAGATAGGTTATATTATCAGAGAAAAAGTTGCTCCCAGTCCAGATGACCCTTCATTTGTTGTGTGGGGTGCGGAAAACTTCATGGTTATGACTTGGCTCGTCAACTCTATGGTGGAAGACATCAATAGTAACTATATGTGCTACTCTACTGCAAAGGAACTATGGGATAGTGTAACTCAGATGTATGAAGCCTTACTTTGTTTTTCCACGGATGAAACAGGGGCTGGCAATTGAGTCTTTGATGACTGATTGGTGCTCTGTTTTTCCTTCGCTTGAACAAAGTACTGAGTTGTAGTACTCTTCTTTGGTATCATCGATTTTTGAGTCTGCAAAGATGATGTATGGGTTGTAAAGCTACTATTTTTTTTTACTATTTCTGCAAAACTCAAATTATATATTTTTTTGAGGGGGAAAGAAAGCTCTGAGTAATCCATGTATGTTTGTGTCTTTTCCTCAACCGTCTGTTTCAAATTTTGTCTATCAACAAAATCTTTATTTCTCAAAAAAAAATCGCTAAGCATTCTTTGGAAAGATTGCCAGCCTTGCTGAGAGGTACCTTCAGGAAAGACTGCCAGCCTCACTAAGCATTCTTTGTAGTATTTCCCATTCAAGTTCTTTGTCAAAACTGGAAGGCGTTCATTTTTATAGCACCGTAACATTAGAGGAATTATTGTATTTACAGCTTTTTATTACTTCTAGTGTTTAGTCGGTCTCTTCCCCATTGTATTTGGGGCTATCTTTGTTCTATTTGTTCTACTTGTCCTTATTTTTGCAAGTTCAAGTTTAGTTTTTTATTAGAAGTGATGAGAATGCTAGGGGGGTGTCAACTTAGTTGAGATGCCCGAGTGCATTCCCTGATCCCGTGTAAGGTAGTTTCTCATTATTATCTCTTGTATTATGAGATTTTATCTCATTTCATTAAATCAATGAAAGAGATCATTTCCTTTTCAACAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAAAAAAAAAAAAAAGAAAAAAAGAAAAAAAAAAAGAAATACAAATGATGCATACGTGCATGTCTTTGCTAAATAACCTCATACTGTTTAATGAAAAATGTACTTTTAATAAACTTTTTAAAAATATGAAGAATTTACATGGAACATTTTTTTTTATATTCGTGAGTGTCTGAGTTAGCTTACGCGCACCTCGACTAATCTCACAGGACAACCTGCCTGACCCTACAACATTTGGGTGTCAAGGAAACTCATAGGATATTAAATCATAAGTAGGTGATCATCATAGATTGAACCCATGACCTCTTAGCCATTTATTGAGGCTACATCTCCTTCTTTACCAATAGACCAACCCATGATGGTTAACTTACGTTGAATTGTGAGAGAAATGAAAATCTATTTTAAATAGAGAATAGAAAGTTCACCCATAAATGATATTCGTCCATCTGGAATTGTCTAATGAGTTTTTTACCCCTTTGGTTTAACTGCAGACTCCTCAAACAATCAACAAGCTCAATAAAAATAGAGAGAATGTTTCCTTCTCCTTTTCTGTAAACTAACTCTTCCTTCATTGTATCTTCCATCAAAAGCAATACTTAAAGATATAACCTCCACTGAAAATGAGAATGGAGGATATTCCCACCCTTTTACTGGGAGATGGAAGAGGAACTCATTTTCCTTTCCATAAGAACTCTGGTGTTCAAAGTTTATGCAATTATGAGTAACTTGTTGAAAAGGTAGCATTGCTTTTCAATAAAAAATTGAACGTGCAAAGGGAAAGATAACCAAGGATGCTTAGTAAAAGCTTGCCAAAGAAGACTGAAGAGGAGCTATTTCACAAGAAGTTGAAGAAAGGGTGCACCAAAAAGAGCTTACCCCTAACTTTCTGATTGCCCAGTGGAACTACTTCAGCCCCCTGAAGATTGTAATGTGAACTCAACATTGCCCATCACTCTTCAGGTGTCCCATTAGCCAGATTGATCACTAAGTAGTTATCTTGTGTGGAGAATTCCTCCGGCAACACTCGCTAGCCTAGTCTCTCCCAAAGTAGTTCTTCTCCAACCAGCAACCCTCTTTGACCAAGCCTCTCCCAGAGTCGTTCAGCTCCACCTGTCATCCTTCACTGGCCCAATTTCTTCCAAAGTCGATCATCTCCACATACAAACCGCTCGCTCATACAAGCACTGGACATGGAAGTAGTTAGCTGCAAAATTAATGGAAGTTTTTTCTGCACATGGTTGGAACATGGCCAGTTCGTTGTTGAAGATATGGAAGTTCGAAAAGCAATCCACTTGTTGGAGTCACATATGTATTGGGTGGTAAAGCAAATTGCAGACCTACTCAATGGCTCTAGTGTTCGATTTTTCGAGTTACGGAGACTTGGTGAAAAAGATTCAGTTTTCCAGCCCTCTGTTCCAACATGTGCAAAACAGAGCAAGCCCCTTCAGTTGATTTGTAAGAAAAACCAAGACTCTGTCTTTGAGTTAGGAGAACAGAGTAAGCAAATTTCATGGTTGCAACTGAATCAAGATGTCTTTAAGGAAGATTTCACCAATCTTTGGGTTATTACTAGGCTCTTTTCGTTTAATGAATGGAGAGAAATCGCTAATGCTTTGGAAGCTAACTTTCGTGTTAAATTCATTTTTAACCCTTTGTGTGCTGAAAAAACTTTGATTAGAACTGATCATGAGAAGTTTGAAGATTTAATCGAAGCCCCTGGTAAATGGCAAACCTTTGGACAGTTTCATTAACTTTTTGAGAAATGGAATACATATCGACATAGTAGACCATCGATAATTAAAGGATTTGGTGGCTGGATCAACATAAAAAATCTTCCTTTAGAATATTGGAGTAGAGGCATCTTTGAAGCTACTGGTGCACACTTTGGTGGATTGGAAAGCATAGCTATTGAAACTCTTAATCTTCTTAATGTTTCGGAAGCTAAAATTCAAGTAAGAAAAAACCTTTGTGGATTTATGCCAGCATCAATTGAGATTAAAGATGAGAGAAGAGGTAACATATTCTTGAACTTTGGTGATATTGAACTTTTTGAAGCTTCTCAGGAAATTCAAGCTCCCTTATGTCTTAAGGATTTATCTAATCCGATTGATTTAATTCGATTGAAGTCGGTAGCACAAGATGAAAGTCTCGATGTTAACTTTCCAATTCAAGATTGGGATTTCCTTTTACAGAATAAGCCAAGCTTCAAGAAACCCTACCATAATTGGTTCTTCACAAAGTGTTGAAGCATCCATCGGGGTTCAACCATCCCTCACCGGAAAGTGAATCACACCCTTTGGCCAATGATATTTACAAGAACCCAATGAAAGGACTGTAGAATAGTGTGAACGCACCCCATTTAAAATCATCAGTTGAATTCGAAAAGCCCAACTTTTCGAGGAAAGAGAATGCATCAGACTTCATCATTCCCAACAGTTATTATCCTTTAAAGGAAGCACAACCGGTCCCAGCCGCCAAGGGTGTTGTTTCACCTCCCAAGAATTCCAGCTCCACGCCCTTAAGGGGCTGTTTTGAGTGCCGGATTGGAATCAGGATTACTGGGAATCTGATTACGATGAGTTTTGTTGTCTGGAATTGGAATACGTTGGAATCTGATTACGGTGTTTGGAGTGCAGGGTTGGATTGGCTGGGTTTCTGATTACAGTGTTTGGGTTGCAGGCTTGGGTTTTGGGTTTGGCTGTTTTTTTTTTCTTTTAATATTATTATGGCTGTTTTTTTTTTCTACATTTGTTTTAAGCATCATATAAGTTGAAATTGGTTGGTTCATACTATAGAAAATTAAACTATCATAGTATATTATAATTTCGATTTTTTTGCTTTTAAATATTATTTTGACTGTTTTTATTTTTTAATATTATTTTCAGTAGTTTTTTTTCTAGATTTGTTTTAAGCATCATATATTTTGAACTATATCCGTTCATACCATAGAAAAGGAAACTATCATACTATATTATAATTATGATTTTTTTTCTTTTTAAATAGTATTTTGATCTTTTTTTAAAAAAATATTATTTCCACTATTTTTTTCTACATCTTTTTTAACCATCATGTATTTTGAATTTTATTTGTTCATAGTATACAAAATTAAACTACCATACTATAAGATTGATTTTGATTTTTTTTTTCTTTTTAAATATTATTTCAAATTATCATACTATATTATAATGTTGACTACTTTTTCTTGAAGTATTATTTCGACTTTTTTTTTTTTGTACATCTGTTTCAACTATCACAGTATATTAGAATTAAAAGTAAAGTAATGTTAGTATATAATGGAAGGATAACGATATAAAATTAAAGTTCGAAAAAAAGTACACATAGTTCAAATTACAAACAACATCATGGAAAGATAAGGTTCCTTAATCATAAAATAACTAGGGTTGCAAATTGAAGGGAGAAAAAACATAGTCATGGTGCTGGATCCCGTTGTCGCCCGAGGACTTGCATGCAATAGTCATACTTCCACTATGGTGGGAAGTCCACAAAGTGGCTTAACAGCATTGGATCTGCAAGCAATGACCTTGCAACAGTCAATCCATCCTGTACCGACAGACCAGGAGTGGATTGCAGCTCGGCGTATAGTTCTTGACGATGACGCCTTGCCAGGTCCTCGTTGATGACAGGCCACTGTGCAATGCCGTCAATAGACTTCGTCAGAAGTTGGAACCCCTCACGAACCACCTCGCTGTACTCTCCAATCGATGAACTTCGGGACCTCCTACTCCTTGATGGCAAGCTACTCCCAGACCCTCTATCGCTGGGGGTAGTCAAAAAGTCCTCTAACGGGGGCGAGCTAGCAAAAGGTGGATCAGGAATATAAAAGTTCTCAAAGTCTGGGGACTGGTTGTTCAGGATGTCCTCGTTCTCTTCTTCCATAACGGGTTCAGATCCAACCTCTGTAGTGGTGGTTGCATGACTCCCTGTGGCTCTGTCTTTGCCGAATACGATGCCCAAGTCATCATAGTATGGAAATGACTTATGGCGCAGTCCTTTTGCACTCGGATGACTCTGTTAAAAGTGGCTTGTGTTATGTTATGGCCTATACAAATTTAAACTAAGAAGAAATAAATAAAACATGTAATTAAATTACCTTGACCCATGCGTCAAATATCTCTGCCTCACAATCAATACATTTGCGCTCCGCATTCCACCCAAACCCACTACAGCCTGGGCCCAACATTTCAGCGATCGCGCTGTACTGTCTCTTCAGGGTCCTGACCCTTGACTCCAGATGTGGGCTGACTTGTACGGAACACCCTGGTATCCTCTGCTGCATCATCCGTAGTATGTTTGATAGGAATCTAGGTCGGAAAGTCCCGTTATCAGCTCGCCAGTGTCCAGACTGCACAAACTGGACCAAACACTCCACGAGGATTCTATCCTCCTCATCCGTCCATATATGTTTTGCGGCTCTTGCGCGTGACCCAAAATTGAATTTGTCAACACATGCAGATATAACATTGCAAAAAGAATGTAGGGAATCAATCCATTCACACTATAACATTGAAATATTCACATATGTTACACAAAAAAATTGCAAAGCGTACACGTCGGGCACCAACAAAATACTTTATACACACAAACAAAAAAATCAATTCCAATCTTCTCCCAAAAAAAAAAAAAAAAGGAATACATAGAATTTCCCAAGGGCGTCTTTAGTTTGCATTCCATTCAGCCCACATCTGATTTGCGTTATTATCCCTCCATGCAGTGAATGCATCAAATATCTCCACAAATTCGATATTCTTATTGTCTGTTGGTATTGGCCCCCCCGACTTCCCTCTCCTTCGTCGAGTAAGGAATTTGGTCCCATTTCTCGAATTATTAAATTGTGCAGGAGACGACATGCATGTATGGTCTTGTACTGCACATCAACCAGGTAGTATGATTTTCCTCGGAGGATTGCCCATCGACCTTTCAACATCCTGAATGCTCTCTCAATAACATTTCGGGTAGATGAATGTCTCATATTGAAAAGCTCCATAGGGCTTGTTGGCGGGTTCCCTCCACGCCACTCAGTCAAATGGTATCTTTGTCTCCGATAAGGAGCCAAAAATCCCTCAGCGTTTGGATAACCGGCATCGCATAGATAGTAATATCCTACGAAATTGGGCCAAGTTATCACTTGTCGTACATTTTTTTCTCGTATGCAAGGGTATACTGATATCTACAAACTAACCCCTTGGGACTTTCAATCTAGTTGGCCTAGACACTGCATCTTGCAGAACCCTCGAGTCAGCAGCTGATCCTTCCCATCCAGCGAAAACGAATATGAACTCATACGTTTGATTGCATACAGCAAAAACGTTCATTGCAATCTTGCCCTTTCTAGTCCTATACCGTGGTCGATCAGCTGCACTGACATTTACCTTTATGCGGGTTCCGTCAAGTGCACCTAAGCAATTCTGTGACGAAACGTTGTTTAAATGATAAGTTTAAGGTAATTTCTAAAACTCCAAACAATACCATTAAAACAACAGAATGACTGTACCTTGAATCAGCGCCATCTGTCATCTGTACAATTCTCAGTGACTGGCTCTGGTTTTTGCAATAGAACGTCGTACAGTCTCAATATTGCATTGAGCACAATATTGAAGTGTCTGGAAACTGTCTCGCCAGACCTTGCAAATTGGCATCGCATCACTCGATTTTTGACATCATGTGCGACTATGTGCAGGAAGATAGCCACTATTTCCTCCACATCTACATATTTCGTGGGCTTATCCTACCCGTCGTCCTAAGTAATTGACACAGAATCGTGAATGTTCGCCCATCCATGGAGTGTTCTCATGACACGTCTGATCATCTTCGTAGATCAGTCGAAAGAAATTCAACTGTCGAATTTGATGTCTAATTAGTGGAGACGGTCGCTCCCGATTGTCATCCGATTGTAGCAAAGTGGTGATAGTATTCACCATTTCTACGGTAGCCGCACATACAACCGTCAGTATTGCAATGAGCTCCTCAGGTTGAATGTCCATGTCATCCATTGATTAACTGACCTAACAATGGACTTGACAAGATAGCGGCCATACTTAAGTATTCCTATTTATTCCAGGTCCTATCTATTCGATCTTCTTATGCAATCAATCCTTTCTTACACCCCACTCAATTTCTTATTCAGAAAGATATTGATTACAAATGAACAAATGAATAAGTAAACAACTCAACACATAAACAAACAAACGCATAAACAAACAAACAAACAAACTCACTGGAAAAGAAGAACTTGGAGAGCAAATTTCTTCTCCAAAATGGTGTGTGAATATAGGAATAGCAAAGAAGAGCACTTATATATATAAGCATGTGAAGTTAAACAACCCAACCATTCAATTAATTTGATTGACAGTGCAGGAAGTGAATGAAGACAAATAAGCCAACAACCAAATTATAACAATATAATAATAACGACGCAAGCCTTCAACAAACGCAAGGCCTTCGACCCTCGACCAACGCAAGCCTTCGACCAACGCAAGGCCTACTTCGACCAACGCAAAGCCTACCTTTGACCGACGCATGGCCTGCTTCAACCAACGCATGGCTGGACCAACGCATGGCTGGACCAACGCATGGGAAGAGTGAATGCGGACGGAATGCGACAGAAGGCGACAGAAGGCGACAAAAGGCGACAGAAGAGAGAGAGGGAGAGCAGACATCGGGCAGAGTGAGCATTGGGAAGCGGCGGAAACTGGGAAGGATTAGGTTGGATTGTACTTGGGGTTGGTTTTGTAATCCAAACCAACCCCAAAGCCCATTCCCCAAACATGGGTTTTGTAACCCAATACAATACAATCCAACCCAATCCTTTACCCCAAACACCCCCTTATTGGCAGCAGTTAATTCTGAATTGGAGAGAGGAGCATTCTTTGGCTGGAAAACCGAAGGGACTAGAGACAATTAGGGGGTGTTTGGGGTAAAGGATCTGGTTGGATTGTATTGTATTGGGTTACAAAACCACCTTTAACAGAGTCATCCGAGTGCAAAAGGACTACGCCATAAGTCATTTCCATACTATGATGACTTGGCCATCGTATTCGGCAAAGACAGAGCCATAGGGAGTCATGCAACCACCACTACAGAGGTTGGATCTGAACCCGTTATGGAAGAAGAGAACGAGGACATCCTGAACAACCAGTCCCCAGACTTTGAGAACTTTTATATTCCTGATCCACCTTTTGCTAGCTCGCCCCCGTTAGAGGACTTTTTGACTACCCCCAGCCGTAGAGGGTCTGGGAGTAGCTTGCCATCAAGGAGTAGGAGGTCCCGAAGTTCATCGATTGGAGAGTACAGCGAGGTGGTTCGTGAGGGGTTCCAACTTCTGACGAAGTCTATTGACGGCATTGCACAGTGGCCTGTCATCAACGAGGACCTGGCAAGGCGTCGTCGTCAAGAACTATACGCCGAGCTGCAATCCACTCCTGGTCTATCGGTACAGGATGGATTGACTGTTGTAAGGTCATTGCTTGCAGATCCAATGCTGTTAAGCCACTTTGTGGACTTCCCACCACAGTGGAAGTATGACTATTGCATGCAAGTCCTCGGGCGACAACTGGATCCAGCACCATGACTATGTTTTTTCTCCCTTCAATTTGCAACCCTAGTTATTTTATGATTAAGGAACCTTATCTTTCCATGATGTTGTTTGTAATTTGAACTATGTGTACTTTTTTTCGAACTTAAATTTTATATCGTTGTCCTTCTATTATATACTAACATTACTTTACTTTTAATTCTAATATACTGTGATAGTTGAAACAGATGTACAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNGACTTCCCACCACAGTGGAAGTATGACTATTGCATGCAAGTCCTCGGGCGACAACGGGATCCAGCACCATGACTATGTTTTTTCTCCCTTCAATTTGCAACCCTAGTTATTTTATGATTAAGGAACCTTATCTTTTCATGATGTTGTTTGTAATTTGAACTATGTGTACTTTTTTTCGAACACTAATTTTATATCGTTGTCCTTCTATTATATACTAACATTACTTTACTTTTAATTCTAATATACTGTGATAATTGAAACAGATGTACAAAAAAAAAAGTCGAAATAATACTTCAAGAAAAAGTAGTCAACATTATAATATAGTATGATAATTTGAAATAATATTTAAAAGGAAAAAAAATCAAAATCAATCTTATACTATGGTAGTTTAATTTTGTATAGTATGAACAAATAAAATTCAAAATACATGATGGTTAAAAAAGATGTAGAAAAAAAACAGTGGAAATAATATTTTTGTTTAAAAAAGATCAAAATACTATTTAAAAAGAAAAAAAATCATAATTATAATATAGTATGATAGTTTCCTTTTCTATGGTATGAACGGATATAGTTCAAAATATATGATGCTTAAAACAAATCTAGAAAAAAAAACTACTGAAAATAATATTAAAAAAATAAAAACAGTCAAAATAATATTTAAAAACAAAAAAATCGAAATTATAATATACTATCATAGTTTAATTTTCTATAGTATGAACCGACAAATTTCAACTTATATGATGCTTAAAACAGATGTAAGAAAAAAAAAGGCCATAATAATATTAAAAGAAAAAAAACAGCCAAACCCAACCCAAACCCAAGCCTGCAATCCAAACACTGTAATCAGAAATCCAGCCAATCCAACCCTGCACTCCAAACATCGTAATCAGATTCCAATGTATTCCAATTCCAGACAACAAAACCCATCGTAATCAGATTCTCAGTAATCCTGATTCCAATCCGGCACCCCAAACAGCCCCTAAATGCCTCATGCCTTAATGAAGAAAGAGAAACCGCCAGCCCACCCATTGGGAGATTTCCTTACCATCATTTTAATTGAGAATATTAATGACTTTAATGAACCTTATTCCAAAACACTTGCCCTTCGATATTCCCCCCCAAGATCTTCAAAAAAAGGCGCCCCCTCGTTGCTGCCTCCTCCCCTTCCTCTTGTTTTAACCTTCAGTCAATTTCAAAAGATCTTTCGGCTGCACCCCTGATGAACTATCCAGCTTCCATTAAAGGTGCCGTCCAACAGTTTCCCGAGTCTGCTGTCCTCCCTCACCCTCTTCAAAAATTTAAATCCTCAAGGATATTGAAGCCTTTTGAATTCATTCCCTAATCCTAGTTTATTGGCGCCTCCTTCCCCCCCCCCTCCCCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCCCCCCCCCCCCCCCCCCCCCCCGAATTTGTTGGAATTCTACTCAAGACTCCTCAAATCAAGTGATCAATTTTTCAGAGGAGTTGAATTCTCTGTTCCAAAAAGATGAAAATAGTCAAGCAGAGGAAGAGGGTTGGAGATCTCATTGCAAGCCTTTGTCTACTTCGGAAATTCCCGAGCATTTAAAGTCCTCTATGAGCATTTAAAGTCCTCTGTTGCTGATTGTGGACTTGTTTTGGCCTAATTATTCTCTCCTCAACTCTTGTTGGCATGTACCTTGGCCTTCACAGTTAAAGTACAGAATGGGGTTTAGTCTAATTTTTCTCAGTATCAATTTTGAAGCAGGGTTTTCCTCCAAGCTGCGGTTTATGAGCATTGTTCTGGTCTGGCAACCTTTTGAGCCGTTATTCTTTAGCATTCGGTTTATAGTCTTTGGTCTTTGTTTAGCAATTGGTCCTTTTTGTTTTTGCTTCAATTTCGGTCTAGTACTTTATGATGGAAGCTCCCTTTATGTCTGTAATTTGTCTCCTGTATTGTACTTTGAGATTATATCTCATTTCATTTTATTAGTGAAAGAGATTGTTTCCTTTTCAAAAGAAAAAAAAGAAAAAAAATGATGAATAGAAAGTTGCCAAAATTAGTGGGTCCTTTTTCACCTTTCTACTCCACGGGATAATCTTGGGTGGTAAAGGGTTGGTGTGTTTGGAAATTTCCTTCGAGAATGGGCTAGGATTATGAACTTATAATCTATAATTTGATGATCGAGTTGCTTCCATGATTATAATTTCATTCCATAAAGTTTAAGGTTCAAGCATCTTAGTGGAAAACTTGATATATATTTTAACAACAAATGAGAACTTTCATTTAATAAATAAAAAGACACTGATGCTCAAAGAGACAAACTCAACCGAGAGTGAAAAAATAAACCAAACGGAATACAAAAAGAACCATCACTGAGACCCAAGGGAGGACTAAAAAATAGAATAGAAATTCAGACCATAAAAAAACACTAAGCAAACAACACTAAGTAAACAGAAAGGAAAGAGCCAAAATAACCAAACGCAACACAGAAGGCCGGCCACATAAAACCTTGGAGTGAGTAGAATTCAAGGAAGTTGAGATAAGCCTCATACATAGTGCAGGGACAGATCCCTTGATACTTCGGTTAACAAAAAAGCAAAAATCTGAAATCATAGTATATATTGAGTAAATTTTCATTCAATTCAACATGCTAATTAAAATTCAAGAACCTTGATTATTGACAACACTTATCTTCAATAGCACTCATGAGGGGAAATGAAACTTGGAGTGAAATCCAAGAGTCATGAAAGAGAGAGGCAAGGTAGAAAGTATGGATAAATTTCGACACCATATTCAAGAACCTTATTCTCCTTTTTGTATCAATAGTTCTCATTAGGGGTGTAAATGGTTCGATTTGGCTTGGTTTGAGTGTCAAACTAAAACCAAACTGTCAGAAATTTATGGAAAATAGAAAACCCGAGCCGAACTGCCTCATGTTGCATAGGCAAACCGCCCAAAACCAATTAATGGGCAGTTTAGATGGTTCTGTCTGGCAGCTTGCCGTTTGCAAATAATTCTAGGCATCGACAAGTTAGGCCTAGAGCTCCCTAGAATTAGGCATTAGGCTTGGGCTGTTAATGGGCACATAGGCTCTCATGCCCATCCATGAGTATGAAGTGGAAATACATGTAAAAATTTAGTGAGTTCACAAAGGCTCAAACCCCTACTCTTGAAGACAATAGCGTGGCATTTAGCCATCTTAACTGCAACTATTTTTTAATACACATTCAATATTTAATATATATATTATCAGTAGGCTTGATTAGACTCCCTCCCATCTCCCCAAATCTGAACCCAACCGAATTTAATTGGTTTTTCTTATATGCCAACCGAAACCGCCAAATTGAATCCACTAAAAACTGAACCCGAATTGGTTTAGTCAGTTTAAGGGGTTTGTCTATTTTTTCAGTTTTCCCTTGCAACCTAGTTCCCACCTCTCTTTTAAACTTTTTCTTTTAGCATTTATCATCTGGATGAAGAATAGGGTGGAGTTGCCACATTTCTCAATTTTTTATCTGTTTTCTTATTAATAACTCTCTTTATTGAGAGAGGTTTTCACTTGGATATTGATAATAGTGAAAGAATATAAAAAAGTTAGTTCTATTATCCACTTGATTGAGAGAGATGAAAGGGCTTATAACATTTATAGTTGTTTTTAACCATCATTTATACGTAACTCACACATGACACCAAAATGTCAATGCAAATATCAAGTAAACGGTGAAAGGATAATGTTGTTCTAAAACGTTTCTTCAATATTGAACTTCTGCATATGGTACAGATTATAGTTTATTTATTGAAAGAATACAACTTGCTTCTTTGACTTTTGTTAATTAAGAGAAACATTTGCAGATGTAAGTTGTTTTCCCACCCAAGTTATCCACTTGTACTTGAAACTTCTTTTTCAATGGACCTGATCCTCTCCTCTTTCCTAGCCTTATAGTCTTTTATAGACTTTGTTTGCAGTCAACACTTCGTCGAGGATTTGTCCACCAGACAGGAATCTTCTTTTTAACTTTCTAAAATAGTATAATGTACAACTTTCTTATTCTTGTTATTTTTATGCCATCATCTTCTGCACTGAACTTATTGTGCTTCTTAACTGGTATTTGAGTTTTCCCCACAAATCTAGAATGCTAAAGTATTTAGTGTTTTTACAAACATTTTTGTTTCTTTGTTTTTTGTTGTTTTTTCTTTTTTGTTTTTTGGTAATTAATGAAAATGATACATTTATGCATATGAAGTTATTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACATCAAGGTCAAGTAAGTTTTGACTAGGCGCACCATGATATCCTATTCTAATCATGTTTGGTTAAATTTAAATTCTTTTAGAATGGAATTGTACTAATGAAAGATTGTATTTTATGCAATATTTTGTTAACTACAGGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGGTAATGCTACAATCTTGTATTCCTTTATGGTCCATGGTTTTCTGTCTCCTAACTTGTTTTGATTTCATTTTAAAATTTATTTGTTATACATGTTGCTAACAGAAAAATGCCATCACATTAATTGTGTCGCCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTAGGTGTTCTTGTAAGTTTTTTAATTGTCCCCAAAAGGTTTTGTGTTTTTATTTTTTTATTTTTTATTCTTTTTATAATTCTTGATCCCATTATGTTATTTTGATAGTATCCTTGCACAAGAACCATGACATGAAAGTAGTAATAATAGAACATTGATACACCTGAAAAAAGTTAAAGGCAAGCCTCCCACTACTTCTGCCGAATACATTAAACGGAATACTGATTGGATGGAAAAGTGTCTACTATTCATCTTGATTTGCAGATTATTCCTTGGATCACCATTGAGAAAAGGATTTATTTATTTATTATTAAATATTTTTATTCTTTTTATTCTTTTGGTTTCAGAAATTGATATGATCAATTTGTTAAACTCAAGATAGGAAAACAACGTAAATGATTTGGTTATTCTAAGGAGTGTGCATGGCTTTTCCACTGTTATTAATGGAGACTGGGAGGACACTGTCGGATTAAGCTTGGTTTGTTTATGGATATATTGGTGAACGAAAATTTGCTATAGATGCTAAAACTTATTATGCTATATGTGTGTGTATTTGATTTATGTATGTATGTTTGTTTTTTAGATATACCCATTTATGATTCACGACTTTATAAATGCATCTTTAACCAGATACATCTTTTTAGCGGACAAGGTAGAGATTCAAGATATTACCAAGCAAACATCCTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAGTAAAAGAGCACTATGCAGTTCTCATTTACAAGCAAATTTGTTTTTATTTCTTATTCCTGGTTTTCATGACTAATTGTTTTAACCCTCAGATCATGGAGGCTTTGAACCTTGGTAGTATAGCTGGAGAGCCATATGGAACACACCAGCACTTTAGTGTAAGCTTTTGTTATCTACTTGAGTTTTCAGGCATTACTTGCCCTTTATAATGAGAATCAACATTTTATTGAATATTTATGAAAAGCATTAAAATATTGGAAGCATAACTTGAAACTCTTCCCTATACTGTAAGGACCGGAAAAATGAAAAATTAATTACAGAAGTTATTTTGTTTTATCACTATTCATTACCAATTTAGATTCAAATTTTCAGTTTGGAAATAAATGGATATTATTTGGAATACCACTGAATTTTGGACTTTTATTATGCAGGCCTATGGTATGCCAATTACCGTGGGGGTGGGAAATGTCATTTCTGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGTATGCATCTTTCGACGTTTTTTTTGCTCTTTGGTGTGCTGGTTCGCTATTGTTTCATGCACTTGAAATTTTAATGCCATATGTGATCATATTGATTCTTTACAATGGATGCAGTTAATAGTGGAATTTACATCACATGACTTTGCGAACTTTGTATCATGATATTATGTTAAATACTGGGTTGAACTTGTATTTTGCAATTCTTTGTTAACGTTTTGTTGAAACAATGCATCCACATTTTTCAAATAAAGATTAATTACAACTGAACAAGCATCCTGACATGATAATCTTGTCAAACTTCTAACCTATTTGACGGTTTACCTTCTTTCTTTTTCTTGTTCCATTTCTGAGGGAAGAGTATATTTAAATAGATACATACAATGTATGTGGCCCAAGGTATTAGTATCTGGAATGAGCATGAAACTTAAGTAATAACTTAGATAGTGTTTTCTAAAAAGCCCTCCCCTCGTGCCTAGGCTCAAGGCACAGGTCTTGCGCCTCAACTTGAAAAGGCGAGACTCACAAAATAAAGCACACACCTTTTGTGAAAACCCAAGGCTAAGGCCTGGGGCCTTGCAATTTTTTTATTATTATTTTTAAAAATAGTGATAATTAGAGTTTTTCCTTTATTAACTAAAATATCTAATTTACTAAGCCTAAATGCAAAACATTTTGTGTTTAGGGGTCCTTTTTCTCATATTCCACTTAAATTATGTTTTCTCTTCTCAATGTAGTATTTTCATATATAGTATGCCTCACAAAAAAATAAATAAATAAATGACCGCACTTAAGCCCCAAAAGACTATTGCAGTTTTTTTGAAAAACGAAACAACCTCTTCATTAAGTTAATGAAAAGATACAATCAATATAAAAGATAGAAAACAGAGGACAATAGATCAGCGAATGCACCCGGGCATCTCAACCAGGTTGACACCCCCATAGCACTCTCATCATTTCCAAAACATATGATCAAAGTATTCCAAACCAAATAAGCAATTACAAGTTATTGAAAAAGAGGGAAGAGAAAAGGACACAAGATTTACGTGGAAAACTCTAGAACAAGGAGAGAAAATCACAATAGAACTTTTCCTCTTTTATTATTTTCGATACTATCAAATGTTACAAGGGAGAAAAATAAATATGGACCAAATCACTATACAAGGAAAGGATATTGGGAAAAATAAAAGGAAAGAAATAAAATCTACAAATCTTCCAAATATTCTCTTTTTATTTTCAACACTCCCCCTCAAGATGGGACGTAAATATCAATAAGACCCATCTTGCTAACACAAAGTAATTCCTTGGTAAGAACATCAGCAACTTGTTGGCTAGTGAGGATATAAGGAATGCAAATACTTCCATTTTTCAATTTTTCCTTTATGAAGTGTCTATCAATCTCCACACGCTTTGTTCTATCATGTTGAACTGGATTGTTTGCGATGCAAATGACAGCCTTATTGTCACAATAGAGTTTCATAGGTAGTTCACTGCTTTGGTGAAGATTAGATAGAACTTTCTTCAACCAAATTTCTTCACGGATGCCATGACTCGTAGCTCTGTATTCAGCTTCAGCACTGCTTCTAGCAACCATACTTTGCTTCTTACTTCTCCAAGTTACGAGGTTACCCCAAACAAAGGTACAGTGCCCAAAAGTAGATTTTATGTCAATCACTGATCCTGCCCCGTCAGAGTTTGTATAGGTTTCAATGCATTTTCTATCGGATTTTCTAAACATCAACCCTTTTTCTGGTGTGCTTTTCAAATATCTCAAAATCCTGTTTACAGCTCCCATATGTTCTTCGTAGGGAGCCTGCATAAATTGGCTCACAACGCTGACAGCATAGGAAATGTCTTGTTTAGTGTGCGCTAGGTAAATCAGTCTTCCAACTAGACGTTGATACCTTTCCTTGTTAATAGAAACTTTGTCAACAGACTCTCCTAATCTGGCATTAGACTTGATAGGAGTATCAGCAGGCCTGCATCCAGTCATACATGTTTCTTTCAATAGATCAATAGTGTATTTCCGTTGAGAAACGGAGATTCCTTCTCTTGACCTCGCCACCTCCATACCAAGGAAATACTTCAGGTTTCCTCGATCTTTGATTTCAAATTCGTTTGCCATTTTTGTTTCAGCAGTATCGTTTCCTGATAAGACAATGTCATCAACGTAAACAATTAAAACAGCAATCTTACCTGAGGCAGACCTTTTTGTAAACAAGGTATGGTCAGAGTGTCCCTGAGTGAAGTCTTGGGACTTAACAAAGGTGGTGAATCTTTCAAACCATGCTCTCGGTGACTGTTTGAGTCCATATAAGGACTTTCTAAGCTTGCACACACACTGGTCAAATTGGGCTTCAAAGCCAGGAGGAGGGCTCATATACACCTCTTCTTCCAGATCACCATTTAGAAAGGCATTTTTCACGTCTAGCTGATAAAGAGACCAATCTTTGTTGACAGCAACCAACAGAAGAATCCTAATCGTGTTCAACTTTGCGACTGGGGAGAAAGTTTCAGAATAGTCTACCCTAAAAGTCTAAGTAAACCCTTTTGCTACAAACTTGGTTTTATATCTGTCAAGAGTTCCATCAGATTTATACTTTATTATGAACACCCACTTACATCCAACTGGTTTATGCCCTTTCGGAAGAGCAACGCGTTCCATGTATGATTTTTCTGAAGAGCTCTCATTTCTTCCATAACAGTAGCCTTCCACTCAGGGATTTCCATAGCCACATATATGTTCTTTGGTATAGTTACAGTGTCAAGGCTAGCAGTAAACGCTCTGAACTTCGAAGACAGTTTGTTATAAGAGAGGAAGCTATACATGGGATACCTAGTGCAGGACCTTATGCCCTTTCTTAGAGCAATGGGCATGTCAAGGGTGGCATCATACTCTCCTGGTTTGTCGAGTTCTTCTTCAGTTGTGGAATTCTAAGGTCTGACCTCATTTTCATTCTCCTGAACTATTGTGGACACTACATCACTCTTAGCAACCTGGTTATTTTCTGTCATGTCACCTTTATCATCTTCTATCGGTAATTTTGTCAGATCAACAATATCATTTTCAACACAAATATTTTCAGTGCAAACAGTATTATTATCAGGGTAATACCTTGAGCTTGTGCTGGTTCAGAAGATTGGACCGAAGCCGGCATGTCACTAGGGGCCACTATTTCCTTTCTAAGGTTCTTCCTATACTACGTTATCCATGGGACTTGTCTGGTGGGTAGGACATTATCGTGGGTTGTCAGGGTAGGTTCAGGAAGAGGATTAGTATAGTTAATCTCTTCATTATTACTCTCCCCTTGAAGAGGACTAACAGAAAAGAAAGGTTTATCTTCCAGGAAGGTGACATCCATAGAGATGAGTATTTCCGGGAAGTGGGATGGAAACATTTATAACCACGTTGGTGGAGAAAATACCCAACGAAGACACATTTCTGGGCACGAGGGGTAAACTTAGTCTGGTTGGGACCGAAGCTATGGACAAATGTTGTACACCCAAATACTCAGAGAGAAACATCAGGTATAAGGCGAGTGGTAGGGTAAGATAGTTTGAGATAGTCAAGAGGAGTTTGGAAGTTGAGAACCCGAGAAAACATCCGATTTATAAGATGAGCTGCAGTCAAGATTGCATCCCCCATAGGTAAGATGGAAGAGAGGTGGACAGCATGAGGGACCAAGCAACTTCTAGGAGATGACGGTTTTTTCTTTCAGCCACTCCATTTTGTTGAGGTGTATAGGCACACGAACTCTGGTGAACAATACCTTTAATGGATAAGAACTCACGAAGGATATTGGTGAGGAATTCACGACCATTGTCAGTCCGAAGGATGGCAATTTTGGCATTAAACTGAGATTCAATGGTGGTGTAAAATTATTGAAAAATAGATGAGACCTCCGACTTATCTGCTAGAAGACCCAAGTAAGGCGAGTATCGTCATCAATGAAGGTAACGAACCAACACTTACTCGAAGAAGTGGTAATGCGTGAGGGACCCCAAACATCACCATGAATAAGAGTGAAAGGTTGAGATGGTTTGTAAGGTTGGGTAGGAAAATAGACCCTATGTTGTTTCGCTCAAATACACACATCGCAAGATAAAGAAGAGATGTCAGCTTTATTAAATAAATGAGGAAACAAATATTTCATATATTGAAAATTAGGATGGCCAAGGCGGAAGTGCCACAATATACAGTCATTTTCAGAAGTTGGAAAAATAGGAAGATAACAGACTAGCCCTATAACTATGCCTAGAGGAAGTATCACCGTTAAGGAAATAGAGTCCCCTATTGTGCTGGGCAGTGCCAATCGTCCTCCCCGAGCTCACGCCCTGAAATATAACATCATCTGGTGAGAAAGCCACATGACAGTTTAGATCTCTGGTTATCTTACTCACAAACAATAAATTATAGGAGATTTTAGGAACATGCAGCACATTCTGTAATATCAAACCATTGAATGGAGAAATGTGACCTTTGTCGGCAACAAGGGCAAGTGTCCCATCAGCAATTTGGATTTTTTCATTACCAGCACACAGATGATGAGAGAGGAAATCATCAGAAGTTCCAGTTAGATGGTCTATAGCTCCTGAATCAAGGATCCAGGGTTTCTTGTACTGAGGAGACTTAAGGATGAAGAAATACTTGATTGCGCAATCGCCCTAGAGAGGAAGTACCGGTATCAACTGGGCAGTTCTCCTGATGTTGTGATTGAGAACCATTAGCAGTCTCACTGACTAGAGCCTGGTTGGGTTTGTTGTTTGGGGGTCATCGTTTGCCTTTTGGGAGTCGACCATGTAGCTTCCAACATTGATCTTTCGTGTGCCATGGTTTCTTACAGAGTTCACATACTGAAGGTGGTTTCCTGTTCTATTTGTCTCCAGTAGTTCCAGATGATTTTGCACTAAAGGCGGCAGAATCAGTTGTGGAGTTAGCAGTGATATTCATGGCACTCGATATATCTTCCTCTAGACAGACCTCTGAACATACTTCCATCATGGTCATTATTGGTTTTTGTCCCAGTATTCGGCTCCGCACAACATCAAACTTGGAATTGAGACCTACTAAAATATCATGTACACAGTCAACCTCTTCAAGTTTATAATATTGGATTCCTCCACAGGGGCAATCCCAGACAAGTTCACGACATAGGTCCATCTCCTGCCAAATAAGAGATAATTTATTAAAATATGACGTGACATCCATGGACCCCTATTTGCATTCATGGATTTGTTTTCGCAGGGTGTAGAGTCGTGATGCATTCTGCCTCTTGGAGTACAGTTTCTGAACAGCATCTCAAATATCCCGAGCCGTAGCTACATACAACAGAGGCTTCCCAATTTGAGGTTCCATGCTGTGAAATAACAGAGACCGGAGTAATGAATCTTCTCCCTTCCAGAGGCGCTCTTGAGGATCTCCAGGTCTGGGTTTAGGTATTTCGCCAGTCAAATATCCAAACTTATGGCGCCCTTCAAGCACCATTCTAACTGATTGAGACTGGGAGAAATAATTCTGGTCATTCAATTTTTCACCAACAATTAACCCAATGAAGTTATCCATTGGTCCAAACAAATATGGTGTAGTCGTTAAAGTAGGAAACGCAATTACCGAATTTCTGGATACATCGGTAGATCTGACGAAACACCTGAATTTACTACACTGTGATCGAGGTTGGTCGACGCACCAAAAGCTGCCCCAAGTCCAACGATTTGTTGAAAACCTGCTTGAAGATTGGCAAGTTGCTGTTGAATCGTGCTGGAGTTGATACCTACCAACAAATCTCCATTCTTGGTCTCATAGTAGGGAGTTGAGGACCCCGCAGCATAGTTCGAAGTTCCGGTAACTCCAACATTGACCGAAGGCAAGTGATGAGAGCCGGAAAAGCCCCCAGTGGTGGTTGCGGACAGACTTCCAGCAGCTGAGGCATCACCCACTCGATCAGAGGGAATACCCGTTCGTTCGGCAGCGGCTCCCACAAATCTAACAGCAGTTGGCCCACGTCGTTCGGCGGAGAAACCAGATTCAGCGGCGCCGGTAGCAACCATTCGGTCGGAGAAGCCAAGCCCATCGTCGCGCGACCTAGCCAGAAGCTGCCGATCTATGGTGTCGCGGACATTTGTGGCGGTGGCGATCGAGTTCGAGTAGGCAGAGAGGTGCGACGGTCCAGCTACCATCGATCTGGCCAAGAAATCCCGGTTCATGGCGTCTTGGATAGTAGCGGCGGCGTGGTTCAAGGTCAGTGATTGCAGGTACCGGTCGACGGCGGCTTAGATGATGGCGTCGACGGCGGGATTGGTGGCCGATCTAGGGTTTCTGTCCCTTGTAGTGGTTGGTTGTCGTCGATGGCAACTAGGGTTTCTAGGGTTTCATCATCACTCTCTGATACCATATTGAAAAAGAGGGAAGAGAAAAGGACACAAGATTTACGTGGAAAACCCTAGAACAGGGAGAAAAAACCACGATAGAACTTTTCCTCTTTTATTATTTTCGATACAATCAAATGTTACAAGAAAGAAAAATAAATAGAGACGAAATCACTATACAAGGAAAGGATATTGGGAAAAATAAAATGAAAGAAATAAAATCTACAAAATCTCCCAACTATTCTCTTTTTATTTTCAACACAAGTACAAAAGTAAAGAAAGATCATATGCTACAAACAACCCAACTACTTCAAAAGCACCAAAAAACTGAAACTAGATACATATCTATGGAGAAACTGAGGAGGGGAGAATATAAAAGCCTTCCAATTAATGCTGATGTCTTGAATGGAGAAGTCTTTGAACGCCTTGGAAAGAGAGCACCATGAGTTTTCAAAAACACTAGCCTTCCAAGTACACAAGACTATTGCAGTTTGTGCCTTGAGTTTTCAGAAACACTGAGCTTAAAAGAATAATCTAGGTTCATGCTATAGACGTTAAGCAAGCTTTAGATATTAATGTTTTTTAATCGATTCTCTCAATGGTACTAGTTGGGCTGAGTTGTCCACATTTTGCCGACAGCTCTATGAGTTAACAAGTCATCTCCATAGGCGGGTGCTCCTTTCTGGTTATGTTGTTGGGCGTATGTGAGTTTTATTTGCCGTCCATTGGATAGCTTGTGCCTTGTTATATGGGAGAAAAGTTCTCTGGAGGCGGTAGGCTTACTCGTCGATTTTGAGTGGTATTTCTCAACATATTTTCTCTCTTGTTGGGGTCCTTGAGTCGGTCAATAGAACTATGGATAAGTTTTATGAGGATTTTCTTATGGGAAGGGGTTGATAAGAGGAAGGGTCTCAAGGGATGTGGAGGCTAAGCCATTAGGTCTTTAGAGGATTAGGCCTTGTTGGGATTTTGTTGGGATTTTCTGTTAGGAGGATAAGTGGTTGGGAGATAAACCCCTCTGTTCTTTGTTTTCACGATTATACTACCTTTCTTCTATGAGGAATCACTTAGTGGCTTCTGTCCTTCCTACTTCTGAGAGGTCTTCCTTGGTCTCTATGCTTTTTCCTCTCTTGTTCTATAGAGTAACGAAAAACATTATTGTTCCTTTATCTCAGCTTGGGGAGGTTTTTGTTCGCCCAAGAGGAGTTGTCTTTGCTACTCTAGTTGTCCTTTCAAACTTATTTTGCTTGATTTTTTTAAAAGGAAACAATCTCTTTAATTGATATAATAAAATGAAACAAAAGCTCAAAGTACAATAATAGAAACTAAATAACAAAAAACCCTACGGATTTTGCTTGATTGAACTCACTTCTTGTTTTAGTTTGCTCCTCTGGTCTGGAGCACCCTTTTTTTTTTTTTTTGTATGTTTCTTGTATTTCTTCATTTTTCTCTCATATCAAAGAAAAATCATTTTTAAACTTACGTTTGGAATGGAATGCTCAGATCTTTGGAAGCAACAAGAATTCAATTTGTTTATTGAATCCATATCCCTTAAGATTATTTCTTGGAGCAAGCTGTCTCCTTTTTGTAATTATAGTTTATCAACTATCTTCTATCATTGGGTTATTGTTTCTAATTATCCACATATAGTTTCAAAGCACTGCCAGCAAAATAAAAACATAGCGATGGAGAAGAAGAGCAATTGCGACTTGGTTTCTATATATTATTGGTATGTAAAACAACCAGCCGCATATAACATGACCTGGAAAGAAAACTCTCGCAAAAATAAATAAATAATTAAATAAAAGTCATCAGCACACCCACACTGGATTGCTCCATTTCATAACAGAAAATGGATTCTTCTTCAACCATTGAGAAAGGGAATACTAGAGAAGGGGAAAACGGAAAAGCCAGCTCATTTAGACCGCTTGGGCTTTTACTCAACTTTTGGGCTTTCAGAAATATCTATTAGTGGGCTGCCTTAACGTATAGAAACACCTTTTGTATTCATTTCGTGATAACAATTTATAAAGAAAGGGCTCCTTGCATACATAGTAAAATGAGGCTAAAATATTGGAAAATAGCAAAACTTAAAACTATTTGCAAATATAGCAAAATTTACCTTCAACCGTAAAAAATGTCCAAAAAGCCCATTAAAGACACAAAATTCCTGATTTTGAAGTCTATCAATGACTATCAGCGATAGACTTCAATAATAAAACCGCAACTCTCCCAAATGAAAGCATATGACTTCATGAAGCTAATCATTATAATCTCTTTATAAAATATATTTAATATTTGCTTCTTTCATTTGAATTTTTCTTATCTGCTTCTTTAGTTGGAACTTGATTTTTTTCTTACTTTTTCGAATGACTTCCTACCCTTCTGCATATGTTAAATCAAGGGTTGGTATTATCATGCATACGCTTCTATCATAAATAGAATAATATTACTATCACTAATGTGTATATATATTTTCTATCACCGATATACTTATATCGTGAATAGAATGATATTGCTATCACTAATATTCTTGTATCACTAATATATGATTCTATCAAGAGGGGTGTTTAGGTCGTCCACGGCAGCAATGGAAGTGGACTGATGTAGGGAATTGACAAAATTTGATTTAATGAAATCAGAGGGATTTTGGAAACATAGTAAAACCATTAAAAACAAAAACAAAAAAGGAATATTGGTGATACTACGACGAAGAATGAATGGAAATTGATGAGGATTTTTTCTCAATTCTCATAGTTGAGGAAAAATCCGATTTGTCAAGTTGAATCGATGAACATAGTAAAAATGTTTGACTTCAGTCCAAAGATCGGCAACTTGATCCAACCAGTTCAAACTGCTCAACAACGAGCTCAATGGTGGAATGACGGTGAAAGGTGAATAGTGGTGCAATAAAGTCCAAAGATTTTACGAAGCTCGTTCTCCATAACGTCACCTGAAAAATCGAAAAATTTGTGGAAGATTTGATTTGCACGTGAAGGGTAAAATAGAAATAAAAACAAAATAAATAAGGGTATTGCCAAAAAAATTGCGATATTTGCAATTATTTCAAAAAGTTGTTATATACTTAATTATTTGTTCTAAAAGTGTTATCCATTGCAATTACCCAAAAAAAAAAGAAAAAGTAAAACCGCTTTATTTAATGCTGTTATTCCGGGAATCTTGGTTGCTCCGGTGATCTGCTTTAGTCATGCAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTATGGAATTCAATTTCTATCAACAAGGGTACTCATTTCTTGCCTTAATTTTATTTATTTATTTATTATTATTATTATTTATAATCGTAGACCCAAGGCGGATCGATTACTCAATTTTTAATCTCTATAGGTTGTTACAAGGGACAAGAGACAATATCTAGATTAATGACATATGATGGAGTAAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCTGTGGAACCTGGCAGCCCTATAACCATTGATGGAAAAAGGGTAGCTCTTTTTATTTTAGTTTTCAATTTTTGTGGGAATTGAAATATTTTTCCAAATACTCCCCTAATCATGAACCTCCCTTTCCTTTGTCAAGAAACTGATTGTATAGGATTTGAATTAGGGTGTACACAAGTTTGCCAGTCGATCGGCTGGCACACATACATCTGAAGTCGGTTTTCTTCTAAAACCAACACAGACCGAGCGATGTACACCCCTAATTTGAATGCTCTAAAGAACTCTCTTCGAAATATTGGACCCCGAAAAACTGTCACTGAAAAATTTCTCCTCACCTCGAACATGAAACTTTGAAACTGTCATTAATAGAATCTCTCCTTTAATTATGAGCATGTTTTAGGTAGAATATGCATACTTTTTGATCCATGCGAAGAAATATTTTGTAGGTGGGAAAACTTACAAGCTATACACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATCAAGAAGCGAGCAGCTTCCAGTGGAGACATTGTAATTGTTGGAAAAAACACCATTGGTAGGGTGATGGAAGTTCCATTTTTAGCTCGACAACAACCTCTATCCAACAGCCCAAGTAACACGCCTCAAAGCAGTATACAATAGTTATTAGAGTAATTGGAGTATATATATAGCAAGATTTGAGGTCTAGTTTGGAAATTTGGGAAATTCTGAATTCAAAAAGAATTTTAGCAAATTGGATGACTTGCACGTGATATGACATTTCTATATACCCAATTTGCCCTCCTTTGGTTCTATAGTGTAACTAATCTTCATTTGCAAATATAGTGTATTTGTAATATTAGGTTATATTAAGTTGCAAATTTTCAACTATCAATTTTCGCGATTCATGGTTAAGACAGTACATTGTATTCTTTTTAAACAATAGATTTGTAGATGATCTAAATTATTATCTTTTTTCCTGATAATCGATAAGGGCGGTAGCTTATGTTTCTTCTTCACACATAAGAAGGTATCAATTTTACTTTTATTGTGTTTTTCTTCTCAATTTATTGTTACTGCTATGATTCTACAACAAATTAAACTTTTGTTTGATGGTAGATGAGATGAAAATTTCTATTATCATGATTTATGAGTTCTTGAGGCATATATTTCATCAAATTCATCTTTTCAAAATTCAACCATTTGTGGAATATACCTCGATTAAGCTTTTCCAATCTAGAAATCAAAATATATCTCATTTATTGGAATGGTTACAACAAATTAAATATTATTAGGATTATTGAAGATAAGGATATATTATGGTTGATATCAGTTTTATTGAATTTTTACTTGTGCATTGTGGTAGACACGTATCTTTTGGACCTTTGATTCCTGCAAATACATTATATTTGGATGATACATTAGAAACTCATCATTCTCTCCAATCTTCTCAACACATTACTAAGATCACTGTGTCTTGTCCATCAGACATTTCCATCAAAGAAGGTTTCTTTGTAAGAGCAGGTTTGTAAAGAGGAAAGCAATTTACTTTCTAGCTCTTAAAAAGATCTTTAAACTTACTACCCTTAGGTCAAACAGTAAATCCTTTGACATTCATTGTAAGGACTTGTCATGTGGTTGGTATCTACATGCATTTGTATATAGGAAAAGTGAGGTGTTTATGTTAATTTTAATATTTTACCTGATTTAATTGTAATTGTATCAACTGATATCATATTTAAACCATTCTCTGATTTCTAATTAGAACTCTTAACATTTTTGCCAACATGTTTTTATGCATCGAACTTTATTTCTCATATTTTGAATTTGCTCTCTATTGGTTCCTCAAGATGCCCACATCACTATTTACAAAATACCATGTAATTGCTTTTAATGTTGGCATATCACTTGTTATAATCATATTTAAATTGATTCCTAATTTTCCTCTTTATTCAAATTTGAACCTATCTTCTGTTTTTCTCAGATTTCATATCTTTTTGGATTTATCTTCTATTTTGTGATATCTCAAGTTTCAAGTAATTTTAAATTAATTATCTTAAATTATTATATTTTAATTTCTCATTAACTTTGAAGTTTGAAGTCAAAATCAAAGTAATTTTGGAGAAGATAATTGGGGTATTCAATTTTTTATTGTATTTATATTGAAAGATTTGGAGTTTTATTATCTTGTTTTGTATCCATAATTTTTTAAAAAAATGATTTTAAATTTGAGGACTTTTAAAAATTAAAATGATTTAAAACTCGTATCTTGTTATATATATTGAAAGAATCATCTTTTTCTTGTTTGGATGCTTCTCGGGAAGGAAAAGAAAATTACAATTTTACCACCTTATCTTTTTATATTTTAAAAGAGAAAAAAACCTAACCCTCATTTTCAAAGTTTCAATATATTTATATAGTTTTTTGAAAAAAGAAATAATAATAAATCTAAGCACTCTTCTCCTTACGTATTTATAAATATATATTAATTTAATTAACTTTTTTTTAAACCCTAATTCTACTTTACCTCCCTCCCATCCTAAATACATATTAATTTAATTAACTTTTTTTTAAAACCCTAATTCTACCTTACCTCCCTCCCATCCCACCATTTTCTTTCTCTCTTTCCTTTTTCCCATTTTTCGCTGTCAATAGCCATAGTATCTCTACCTCTCCTTTAAAATCTACACTGACACACTCTCTCCCCATAGTCGCGTTTTGGTGGCACATCTGCTTTAGAATCATCTTTGATCTCTCACCATCTATGTTGCATTTCAAATTGAATGATTGCCTAGTCTTCTTCTGCTCATCATTAATTAGTCCTTTGTGCAGTTGCTCTCACCACCTCTAACCATCGTATCGCATCCACACCATCGTCATCCTCCATTGGAGAAGTTGTAGCTACCACCACCAATTGGTTGTTGGTGAGAACCATATTGAGTGATTGTTGGATCTCGGAACCATTCCTAAGATGTTTGCCAACATTTGTTTTGTTTTTTAGCTTTTGGTTGAGATGGTAAGTTTTTGCTTCTAACATGTTTATGTTTCGATAGAGTGTATTTGCGGTTTCTAGGTGGTTTTGAGCTTGTTTGTTTGTACTCAAATTTGGTTGTCATTGGGGTGGTTTAGTCATTTACTAATTAGTATTTTCCATTAGTTAAATTCATTTTGTTATTTTTATGGTTTTGAAACATTTTTGTCCATTTTTCCAAATGAAAATTTAAAATTTGCTATTTCTCTCGCCAACCTCTACTTCCCTGGCTTCTCGCCAGCCTAGAAAGGTACACCCATGAATATGTATATATAACACAAATGAAAAAAAAAATCATCATAACCAAGGCAGGAGATCGAGACCAAATAAAGGCCAAGCCCAAAACACACGCAATCAAAAAAGGAAAGAATATCCAGGAGATATGAACAAAGTCAAAGACAAGCCAAGATTTAATCGAAAGAAAATATTAACAGCCAACATCACTATAATAGTGCAGACGACGCCGCTGGAAACCGGTGGGGTGAGGGAAATTCATGAGAGAGAAAGTTGGCTGGTTGAAGGAGATGAATCGTGTTTAATTTTTTTCCCTTTTCTAAACGCTTCATGAGGAGCATATATATATATATATATATATATTCTTTAAATTACCTTTTTCTTTTTCCAAAGCTATAAATACATATATCTAAGTGATGTTTCTAAAAATAGAAAAATTGTTGAAAATAATTACAAATATATCAAATTTTTACTTTCTATTTTACTTCCTATTTGTGATAGACTGCGATAAACCCAGATGGACATCTATCACTATACCGAATAGACAATGATACATATTTATCTGAGTCTATCGCGGCCTATCACAGATAGCAGGTTAAATCTTGCTATATTTGTAAATAGTTTGATGTTTTTTCTATTTATAATAATTTTGCTTAAAATAATAATAATAATAATAATAATAATAATAATAATATGGTGTTTGTATTTAAAATTTATCTTCTAAAATTTAGTGTTTGAATCAATATTTGAAGTGTTTGAGTTAGCTTCAAATAATAATAATTATAAGAAGAAGACAACATAAATTATCTTAAATGGCAAAACTACTGAAAATATTTACAACTAATAGCAAAATACATAGTTTATTTGCGATCTATCGCATATGTATAGTAAAATTTTACTATATTTAAGCTATATTTGAAAAGAGCCATAATAATAATAATACAACATTTCTCCTAATACAACATTTCTCCTAATGAATAAATTTGTCATATGTTTTGAATTCAGGAACAGTGGGAAAGTGTCGTACATTTTTTTTTTTAATTTCACTACGAATCAATTGAATTAGTGAATTTAAAATTTGTGTAATTAGTATATGTATACTTTGTAGGAAGTATTATGTTTTGAGAAAGGAAAAAAAAGTTAAGCATTTTTTAGTGTTAAAAATTTTAGAAAAATATGTGTTTAGTTGAAGACTACAAAAAATATATATATATATATATATATATACATATATATATATATATATGCAAGAAAAAAAAAATCCAAGACAAAGTCAATTTCATTTAGAAAAACTGCACTAGATATCACAACTAACTCAACATACCAAACACAAATTTTCTAATACAACTTAGCACCCCGAACACAAACATTCTAGCTCATATCTCAAACACAAACAATTTAACTCTGTAGATAATTAAATTCTCCAGAAAATAATTACTAATTCAACTCAACTCAACTCTACTTGTCAAATGTCTCCTTATAGACTTATGAGATGATAAAAAAAATGTTAAGTAAAATTCATACTAAGAATCGCTTCATCAAGAATTAG

mRNA sequence

GTCATGAATCATGACAGAGTTAATCAGTACAAAAACCTCCCATTATCCTTACTATGCAAAATGATAACTATGGCTTCTTACTGCGGAAATGGATTCTCCGTCTCAAATGCTACGATTCCCTCTACCAGCAGAGCCTTCATCTCTAATCCATGGCACTGGGACCTTTCAACCTCTTCTTTCTCCCACCCTCATCGCTTTCAGCTCCCTGCATTTCGTTCTCGGAAAATTAAGAACCCCCTTACCAAAGCAAACAGAACCAGAACTTCCTTTTCTGCCTTTCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGAGGCTGCAGCAGTTGAAGGTGCAAAGATCTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCTAATAATGGAGTTGCTTTATTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACATCAAGGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCGCCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAATACATCTTTTTAGCGGACAAGGTAGAGATTCAAGATATTACCAAGCAAACATCCTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAATCATGGAGGCTTTGAACCTTGGTAGTATAGCTGGAGAGCCATATGGAACACACCAGCACTTTAGTGCCTATGGTATGCCAATTACCGTGGGGGTGGGAAATGTCATTTCTGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTATGGAATTCAATTTCTATCAACAAGGGTTGTTACAAGGGACAAGAGACAATATCTAGATTAATGACATATGATGGAGTAAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCTGTGGAACCTGGCAGCCCTATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATACACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATCAAGAAGCGAGCAGCTTCCAGTGGAGACATTGTAATTGTTGGAAAAAACACCATTGGTAGGACTTATGAGATGATAAAAAAAATGTTAAGTAAAATTCATACTAAGAATCGCTTCATCAAGAATTAG

Coding sequence (CDS)

GTCATGAATCATGACAGAGTTAATCAGTACAAAAACCTCCCATTATCCTTACTATGCAAAATGATAACTATGGCTTCTTACTGCGGAAATGGATTCTCCGTCTCAAATGCTACGATTCCCTCTACCAGCAGAGCCTTCATCTCTAATCCATGGCACTGGGACCTTTCAACCTCTTCTTTCTCCCACCCTCATCGCTTTCAGCTCCCTGCATTTCGTTCTCGGAAAATTAAGAACCCCCTTACCAAAGCAAACAGAACCAGAACTTCCTTTTCTGCCTTTCCTTTCGATCTTTCTCCTCCTCCAATCGATGAGGACCTCCTTGAGGCTGCAGCAGTTGAAGGTGCAAAGATCTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGAAGCGCTGGATGCAGCTAATAATGGAGTTGCTTTATTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACATCAAGGGGTGCAGTACTGTATTTGTTACACCCACTGCTCGGACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCGCCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAATACATCTTTTTAGCGGACAAGGTAGAGATTCAAGATATTACCAAGCAAACATCCTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAATCATGGAGGCTTTGAACCTTGGTAGTATAGCTGGAGAGCCATATGGAACACACCAGCACTTTAGTGCCTATGGTATGCCAATTACCGTGGGGGTGGGAAATGTCATTTCTGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAAGCTGAGGATATTTCAAGGAATGCCAGCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTTGAAGCTGGTCTATGGAATTCAATTTCTATCAACAAGGGTTGTTACAAGGGACAAGAGACAATATCTAGATTAATGACATATGATGGAGTAAAACAGAGATTGTGGGGACTTCAGCTATCAGATTCTGTGGAACCTGGCAGCCCTATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATACACCAGGAAGAAAAGAGTCGGAGCATTTTGGTCTTGGCTACATCAAGAAGCGAGCAGCTTCCAGTGGAGACATTGTAATTGTTGGAAAAAACACCATTGGTAGGACTTATGAGATGATAAAAAAAATGTTAAGTAAAATTCATACTAAGAATCGCTTCATCAAGAATTAG

Protein sequence

VMNHDRVNQYKNLPLSLLCKMITMASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKANRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALLEMIVVSFFITKAQLILKVYIKGCSTVFVTPTARTIDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYEMIKKMLSKIHTKNRFIKN
Homology
[Close]
BLAST of CcUC09G177190 vs. NCBI nr
Match: XP_038887599.1 (putative transferase At1g60990, chloroplastic [Benincasa hispida])

HSP 1 Score: 694.5 bits (1791), Expect = 6.0e-196
Identity = 358/421 (85.04%), Postives = 380/421 (90.26%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           M+SYCG GFSVS+ATIPSTSRAFISNPWHWDLSTSSFSHPHR   PAFR R I+NP +KA
Sbjct: 1   MSSYCGYGFSVSDATIPSTSRAFISNPWHWDLSTSSFSHPHRLHFPAFRPRNIRNPYSKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           + TRTSFSA PFDLSPPPIDEDLLEAAAVEGA+ISDDGIIETFHNDEEALDAANNGVA++
Sbjct: 61  SGTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     I VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKN I
Sbjct: 121 DLSHFGRIRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNGI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIME LNLGSIAGE
Sbjct: 181 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEDLNLGSIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGNVISEEGFSLLISPAVAG VWKALVSLGAVPMGS+AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGQVWKALVSLGAVPMGSKAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIFQGMPAPQKEL+DEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFQGMPAPQKELSDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAAS+GD VIVG+NTIG+  E
Sbjct: 361 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASNGDTVIVGENTIGKVVE 420

[Close]
BLAST of CcUC09G177190 vs. NCBI nr
Match: XP_004140110.1 (putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN47936.1 hypothetical protein Csa_003267 [Cucumis sativus])

HSP 1 Score: 668.7 bits (1724), Expect = 3.5e-188
Identity = 349/420 (83.10%), Postives = 371/420 (88.33%), Query Frame = 0 

Query: 25  ASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKAN 84
           +SYCG GF VS++TIPSTSRAFISN WH +LS SSFSHPHR  LP FR   IK P  KA+
Sbjct: 3   SSYCGYGFFVSDSTIPSTSRAFISNSWHSNLSISSFSHPHRLHLPPFRPPHIKKPHIKAS 62

Query: 85  RTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALLE 144
           RTRTSFSA PFDLSPPPIDEDLLEAAAVEGA+ISDDGIIETFHNDEEALDAANNGVA+++
Sbjct: 63  RTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAVVD 122

Query: 145 M-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAIT 204
           +     + VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182

Query: 205 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 264
           LIVSPVTRESIIRMLNKYIF+ADKVEIQDIT QTSLLVLVGPKSNQIME LNLGSIAGEP
Sbjct: 183 LIVSPVTRESIIRMLNKYIFVADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAGEP 242

Query: 265 YGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 324
           YGTHQHFS  GMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR
Sbjct: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302

Query: 325 IFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSD 384
           I QGMPAPQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLSD
Sbjct: 303 ISQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362

Query: 385 SVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYEM 432
           SVEPGSPITIDGKRVGKLTSY PGRKESEHFGLGYIKK+AAS GD VIVG+NTIG+  E+
Sbjct: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASVGDSVIVGENTIGKVVEV 422

[Close]
BLAST of CcUC09G177190 vs. NCBI nr
Match: TYK13394.1 (putative transferase [Cucumis melo var. makuwa])

HSP 1 Score: 665.6 bits (1716), Expect = 3.0e-187
Identity = 346/420 (82.38%), Postives = 369/420 (87.86%), Query Frame = 0 

Query: 25  ASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKAN 84
           ASYCG GF VS++T+PSTSRAFISN  HWDLS SSFSHPHR QLP FR   IK P + AN
Sbjct: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62

Query: 85  RTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALLE 144
           R  TSFSA PFDLSPPPIDEDLLEAAAVEGA+ISDDGIIETFHNDE+ALDAANNGVA+++
Sbjct: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122

Query: 145 M-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAIT 204
           +     + VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182

Query: 205 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 264
           LIVSPVTRESIIRMLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQIME LNLGSIAGEP
Sbjct: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAGEP 242

Query: 265 YGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 324
           YGTHQHFS  GMPITVGVG+VISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR
Sbjct: 243 YGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302

Query: 325 IFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSD 384
           IFQGMP+PQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLSD
Sbjct: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362

Query: 385 SVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYEM 432
           SVEPGSPITIDGKRVGKLTSY PGRKESEHFGLGYIKK+AAS GD VIVG++T G   E+
Sbjct: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGTVVEV 422

[Close]
BLAST of CcUC09G177190 vs. NCBI nr
Match: XP_022158902.1 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic [Momordica charantia])

HSP 1 Score: 647.9 bits (1670), Expect = 6.4e-182
Identity = 337/421 (80.05%), Postives = 362/421 (85.99%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           MASY   G S+S++TIPSTSRAFIS+PWHW LS SSFS PHR Q  AFR+R IK   +KA
Sbjct: 1   MASYWSYGQSLSDSTIPSTSRAFISSPWHWGLSASSFSQPHRLQFTAFRARNIKKIDSKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           NR  T FSA PFDLSPPPID+DLLE A +EGA+ISDDGIIETFHND+EALDAANNGVA++
Sbjct: 61  NRLTTFFSALPFDLSPPPIDQDLLETAEIEGARISDDGIIETFHNDDEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     + VS      F   ++    +     +GCST FVTPTARTIDIAQAWIMKNAI
Sbjct: 121 DLSHFGRLRVSGEDRYQFLHNQSTANFESLRQGQGCSTAFVTPTARTIDIAQAWIMKNAI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESIIRMLNKYIFLADKVEIQDITK TSLLVLVGPKSNQIMEALNLG IAGE
Sbjct: 181 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKHTSLLVLVGPKSNQIMEALNLGDIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGNVISEEGFSLL+SPAVAGPVWK LVSLGAVPMGS AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNVISEEGFSLLVSPAVAGPVWKTLVSLGAVPMGSEAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIFQGMP PQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFQGMPTPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGS ITIDGKRVGKLTSYTPGRK  EHFGLGYIKKRAAS+GD VIVG+NTIG   E
Sbjct: 361 DSVEPGSSITIDGKRVGKLTSYTPGRKGLEHFGLGYIKKRAASNGDTVIVGENTIGXVVE 420

[Close]
BLAST of CcUC09G177190 vs. NCBI nr
Match: KAG7022574.1 (putative transferase, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 641.7 bits (1654), Expect = 4.6e-180
Identity = 339/421 (80.52%), Postives = 362/421 (85.99%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           MASY   GFSVS+A IPSTSRAFISNP            P R +LPAFR R I+ P TKA
Sbjct: 1   MASYWSYGFSVSDAAIPSTSRAFISNP-----------RPCRLRLPAFRPRNIRKPHTKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           NR RTSFSA PFDLSPPPIDEDLLEAA  EGA+ISDDGIIETFHND+EALDAANNGVA++
Sbjct: 61  NRIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     I VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAI
Sbjct: 121 DLSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESII+MLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE
Sbjct: 181 TLIVSPVTRESIIQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGN+ISEEGFSLLISPAV+GPVWK LVSLGAVPMGS AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVSGPVWKTLVSLGAVPMGSDAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIF+GMPAPQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFEGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGSPITIDG++VGKLTSYTPGRK  EHFGLGYIKKRAASSGD VIVG+NTIGR  E
Sbjct: 361 DSVEPGSPITIDGRKVGKLTSYTPGRKGLEHFGLGYIKKRAASSGDTVIVGENTIGRVVE 410

[Close]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match: Q681Y3 (Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At1g60990 PE=1 SV=1)

HSP 1 Score: 437.2 bits (1123), Expect = 2.3e-121
Identity = 232/374 (62.03%), Postives = 277/374 (74.06%), Query Frame = 0 

Query: 71  FRSRKIKNPLTKANRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDE 130
           FR RK +     A     S  +  FD SPPPID D L+  +V G K+S+DG++E+F ND+
Sbjct: 49  FRERKFQLRCVSA-----SSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDD 108

Query: 131 EALDAANNGVALLEM-----IVVS-----FFI---TKAQLILKVYIKGCSTVFVTPTART 190
           EALDA +NGV ++++     I VS      F+   T A        +GC TVFVTPTART
Sbjct: 109 EALDAFDNGVVVVDLSHFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTART 168

Query: 191 IDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQ 250
           IDIA AWIMKNAI L VSP T +SII MLNKYIF ADKVEI+DITKQT L  L GPKSNQ
Sbjct: 169 IDIAHAWIMKNAILLTVSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQ 228

Query: 251 IMEALNLGSIAGEPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSL 310
           IM  LNLG + G+PYG HQH+S  GMPITVGVG++IS+EGF++L+SP  A  VWK L++ 
Sbjct: 229 IMSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAE 288

Query: 311 GAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTY 370
           GA+PMGS AWEKLRI QG PAP++EL+ EFNVLEAGLWNSIS+NKGCYKGQETI+RLMTY
Sbjct: 289 GAIPMGSVAWEKLRITQGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTY 348

Query: 371 DGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDI 430
           DG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLGYIKK+AAS G+ 
Sbjct: 349 DGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNT 408

Query: 431 VIVGKNTIGRTYEM 432
           V VG++  G   E+
Sbjct: 409 VTVGEDISGIVSEV 417

[Close]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match: Q1AR89 (Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129 / PRD-1) OX=266117 GN=gcvT PE=3 SV=1)

HSP 1 Score: 87.8 bits (216), Expect = 3.4e-16
Identity = 66/248 (26.61%), Postives = 116/248 (46.77%), Query Frame = 0 

Query: 177 TIDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSN 236
           T+D   A+       ++V+   RE  +    ++    D VEI D T++ +LL L GP++ 
Sbjct: 101 TVDDVIAYRRGEGFLVVVNAANREKDLAHFRRHTADLD-VEISDETEEWALLALQGPEAE 160

Query: 237 QIMEALNLGSIAGEPYGTHQHFSAY--GMPITVGVGNVISEEGFSLLISPAVAGPVWKAL 296
           ++++    G ++    G ++    +  G    V       E+GF + + PA A  +W+ L
Sbjct: 161 RLLQPFVAGDLSA--LGRYRFLETHVDGGEAIVARTGYTGEDGFEVFLRPAEAPSLWRRL 220

Query: 297 VSLGAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINK-GCYKGQETISR 356
           V  GA P G  A + LR+  GM     EL +E   LEAG+  ++ ++K   + GQ  + R
Sbjct: 221 VEAGAAPAGLGARDTLRLEAGMCLYGNELDEETTPLEAGISFAVHLHKEEEFVGQRALQR 280

Query: 357 LMTYDGVKQRLWGLQLSDS--VEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRA 416
                G++++L G +L        G P+ + G+R G +TS T         GL Y+    
Sbjct: 281 -QRERGLRKKLVGFELEGRGIARHGYPVAVGGERAGVVTSGTMSPTLGRAIGLAYVPPET 340

Query: 417 ASSGDIVI 420
               +++I
Sbjct: 341 EGGFEVLI 344

[Close]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match: Q67N36 (Aminomethyltransferase OS=Symbiobacterium thermophilum (strain T / IAM 14863) OX=292459 GN=gcvT PE=3 SV=1)

HSP 1 Score: 84.3 bits (207), Expect = 3.7e-15
Identity = 58/228 (25.44%), Postives = 117/228 (51.32%), Query Frame = 0 

Query: 216 VEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAG--EPYGTHQHFSAYGMP-ITVGVGNV 275
           +E+ D + + +LL L GPK+ +I++ L  G +    EP+   ++ +  G+P + +     
Sbjct: 139 LELIDRSAEIALLALQGPKAEEILQPLATGVVLSQLEPFSLAKNVTVSGVPTLVLSRTGY 198

Query: 276 ISEEGFSLLISPAVAGPVWKALVSL----GAVPMGSRAWEKLRIFQGMPAPQKELTDEFN 335
             E+GF + +       +W+AL+      G +P G  A + LR    +P    E++D+ N
Sbjct: 199 TGEDGFEIYVKAEDVAALWEALLEAGDEQGLLPCGLGARDTLRFEAKLPLYGHEISDQHN 258

Query: 336 VLEAGLWNSISINKGC-YKGQETISRLMTYDGVKQRLWGLQLSDSVEP--GSPITIDGKR 395
            LEAGL  ++ + KG  + G++ ++R+    G  ++L G+++ D   P  G P+ + G+ 
Sbjct: 259 PLEAGLGFAVKLKKGVDFIGRDALARIKE-QGPTRKLVGIEMIDRGVPRQGYPVAVGGEV 318

Query: 396 VGKLTSYTPGRKESEHFGLGYIKKRAASSG---DIVIVGKNTIGRTYE 431
           VG++T+ +      ++  L Y+    ++ G   +++I G+    R  E
Sbjct: 319 VGEVTTGSFSPTLEKNIALAYVPVAHSAVGTEVEVIIRGRALKARVVE 365

[Close]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match: Q5KX76 (Aminomethyltransferase OS=Geobacillus kaustophilus (strain HTA426) OX=235909 GN=gcvT PE=3 SV=1)

HSP 1 Score: 80.5 bits (197), Expect = 5.4e-14
Identity = 63/237 (26.58%), Postives = 112/237 (47.26%), Query Frame = 0 

Query: 187 KNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGS 246
           +N   L+V+    E     L+ ++     VE+QD++ +T+ L L GP + ++++ L    
Sbjct: 105 ENDYLLVVNAANTEKDFAWLSGHV--EGDVELQDVSSETAQLALQGPAAERVLQRLTDFD 164

Query: 247 IAG-EPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGA----VP 306
           +A   P+         G+   V       E+GF L      A  +W+A+++ GA    +P
Sbjct: 165 LAALRPFSFADGVEVSGVKALVSRTGYTGEDGFELYCKAEDAAALWEAILAAGARDSVLP 224

Query: 307 MGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGC-YKGQETISRLMTYDGV 366
            G  A + LR    +P   +EL+D  + +EAGL  ++   K   + GQ  + R    +G 
Sbjct: 225 CGLGARDTLRFEACLPLYGQELSDSISPVEAGLGFAVKTEKETPFIGQAVLKR-QKEEGP 284

Query: 367 KQRLWGLQLSDSVEP--GSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSG 416
            +RL G+++ D   P  G  +  DG+ VG +T+ T      ++ GL  +K   A+ G
Sbjct: 285 PRRLVGIEMIDRGIPRHGYLVFADGEEVGFVTTGTQSPTLKKNIGLALVKADVAAIG 338

[Close]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match: B0KD95 (Aminomethyltransferase OS=Thermoanaerobacter pseudethanolicus (strain ATCC 33223 / 39E) OX=340099 GN=gcvT PE=3 SV=1)

HSP 1 Score: 72.8 bits (177), Expect = 1.1e-11
Identity = 62/244 (25.41%), Postives = 121/244 (49.59%), Query Frame = 0 

Query: 215 KVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAG-EPYGTHQHFSAYGMPITVGVGNVI 274
           +VEI +I+ + S L + GPK+ +I++ L    ++  + +    +    G+   V      
Sbjct: 134 EVEINNISDEISELAVQGPKAEEILQKLTYTDLSEIKFFYFKDNVKIAGIECLVSRTGYT 193

Query: 275 SEEGFSLLISPAVAGPVWKALVSL----GAVPMGSRAWEKLRIFQGMPAPQKELTDEFNV 334
            E+GF + +    A  +W+ ++ +    G  P G  A + LR   G+P    EL++E   
Sbjct: 194 GEDGFEIYMPNKYAVELWEKIIEVGKEYGLKPAGLGARDTLRFEAGLPLYGNELSEEITP 253

Query: 335 LEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVG 394
           LEAG    +  +KG + G++ + +    +G+K+++ G ++ D+  P  G  +  D +++G
Sbjct: 254 LEAGFEFFVKFDKGNFIGKDALLK-QKEEGLKRKIVGFEMIDNGIPRHGYEVRADNQKIG 313

Query: 395 KLTS--YTPGRKESEHFGLGYIKKRAASSGD-IVIVGKNTIGRTYEMIKKMLSKIHTKNR 449
            +T+  ++P  K  ++ GL  I  + A  G+ I IV +N         K + + I +KN 
Sbjct: 314 YVTTGYFSPTLK--KNIGLALIDSKYAQLGNQIEIVIRN---------KPLKALIISKNF 365

[Close]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match: A0A0A0KJI9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1)

HSP 1 Score: 668.7 bits (1724), Expect = 1.7e-188
Identity = 349/420 (83.10%), Postives = 371/420 (88.33%), Query Frame = 0 

Query: 25  ASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKAN 84
           +SYCG GF VS++TIPSTSRAFISN WH +LS SSFSHPHR  LP FR   IK P  KA+
Sbjct: 3   SSYCGYGFFVSDSTIPSTSRAFISNSWHSNLSISSFSHPHRLHLPPFRPPHIKKPHIKAS 62

Query: 85  RTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALLE 144
           RTRTSFSA PFDLSPPPIDEDLLEAAAVEGA+ISDDGIIETFHNDEEALDAANNGVA+++
Sbjct: 63  RTRTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEEALDAANNGVAVVD 122

Query: 145 M-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAIT 204
           +     + VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182

Query: 205 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 264
           LIVSPVTRESIIRMLNKYIF+ADKVEIQDIT QTSLLVLVGPKSNQIME LNLGSIAGEP
Sbjct: 183 LIVSPVTRESIIRMLNKYIFVADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAGEP 242

Query: 265 YGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 324
           YGTHQHFS  GMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR
Sbjct: 243 YGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302

Query: 325 IFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSD 384
           I QGMPAPQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLSD
Sbjct: 303 ISQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362

Query: 385 SVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYEM 432
           SVEPGSPITIDGKRVGKLTSY PGRKESEHFGLGYIKK+AAS GD VIVG+NTIG+  E+
Sbjct: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASVGDSVIVGENTIGKVVEV 422

[Close]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match: A0A5D3CQT8 (Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496G00010 PE=3 SV=1)

HSP 1 Score: 665.6 bits (1716), Expect = 1.4e-187
Identity = 346/420 (82.38%), Postives = 369/420 (87.86%), Query Frame = 0 

Query: 25  ASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKAN 84
           ASYCG GF VS++T+PSTSRAFISN  HWDLS SSFSHPHR QLP FR   IK P + AN
Sbjct: 3   ASYCGYGFFVSDSTVPSTSRAFISNSCHWDLSISSFSHPHRLQLPPFRPPNIKKPHSNAN 62

Query: 85  RTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALLE 144
           R  TSFSA PFDLSPPPIDEDLLEAAAVEGA+ISDDGIIETFHNDE+ALDAANNGVA+++
Sbjct: 63  RKSTSFSALPFDLSPPPIDEDLLEAAAVEGARISDDGIIETFHNDEQALDAANNGVAVVD 122

Query: 145 M-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAIT 204
           +     + VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAIT
Sbjct: 123 LSHFGRLRVSGDDRCQFLHNQSTANFESLRQGQGCSTVFVTPTARTIDIAQAWIMKNAIT 182

Query: 205 LIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGEP 264
           LIVSPVTRESIIRMLNKYIFLADKVEIQDIT QTSLLVLVGPKSNQIME LNLGSIAGEP
Sbjct: 183 LIVSPVTRESIIRMLNKYIFLADKVEIQDITNQTSLLVLVGPKSNQIMEDLNLGSIAGEP 242

Query: 265 YGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 324
           YGTHQHFS  GMPITVGVG+VISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR
Sbjct: 243 YGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKLR 302

Query: 325 IFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLSD 384
           IFQGMP+PQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLSD
Sbjct: 303 IFQGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSD 362

Query: 385 SVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYEM 432
           SVEPGSPITIDGKRVGKLTSY PGRKESEHFGLGYIKK+AAS GD VIVG++T G   E+
Sbjct: 363 SVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLGYIKKKAASIGDTVIVGEDTTGTVVEV 422

[Close]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match: A0A6J1DYD6 (LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111025359 PE=3 SV=1)

HSP 1 Score: 647.9 bits (1670), Expect = 3.1e-182
Identity = 337/421 (80.05%), Postives = 362/421 (85.99%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           MASY   G S+S++TIPSTSRAFIS+PWHW LS SSFS PHR Q  AFR+R IK   +KA
Sbjct: 1   MASYWSYGQSLSDSTIPSTSRAFISSPWHWGLSASSFSQPHRLQFTAFRARNIKKIDSKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           NR  T FSA PFDLSPPPID+DLLE A +EGA+ISDDGIIETFHND+EALDAANNGVA++
Sbjct: 61  NRLTTFFSALPFDLSPPPIDQDLLETAEIEGARISDDGIIETFHNDDEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     + VS      F   ++    +     +GCST FVTPTARTIDIAQAWIMKNAI
Sbjct: 121 DLSHFGRLRVSGEDRYQFLHNQSTANFESLRQGQGCSTAFVTPTARTIDIAQAWIMKNAI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESIIRMLNKYIFLADKVEIQDITK TSLLVLVGPKSNQIMEALNLG IAGE
Sbjct: 181 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKHTSLLVLVGPKSNQIMEALNLGDIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGNVISEEGFSLL+SPAVAGPVWK LVSLGAVPMGS AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNVISEEGFSLLVSPAVAGPVWKTLVSLGAVPMGSEAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIFQGMP PQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFQGMPTPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGS ITIDGKRVGKLTSYTPGRK  EHFGLGYIKKRAAS+GD VIVG+NTIG   E
Sbjct: 361 DSVEPGSSITIDGKRVGKLTSYTPGRKGLEHFGLGYIKKRAASNGDTVIVGENTIGXVVE 420

[Close]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match: A0A6J1EI20 (putative transferase At1g60990, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111434553 PE=3 SV=1)

HSP 1 Score: 639.0 bits (1647), Expect = 1.4e-179
Identity = 339/421 (80.52%), Postives = 360/421 (85.51%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           MASY   GFSVS+A IPSTSRAFISNP            P R +LPAFR R I+ P TKA
Sbjct: 1   MASYWSYGFSVSDAAIPSTSRAFISNP-----------RPCRLRLPAFRPRNIRKPHTKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           NR RTSFSA PFDLSPPPIDEDLLEAA  EGA+ISDDGIIETFHND+EALDAANNGVA++
Sbjct: 61  NRIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     I VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAI
Sbjct: 121 DLSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESII+MLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE
Sbjct: 181 TLIVSPVTRESIIQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGN+ISEEGFSLLISPAV+G VWK LVSLGAVPMGS AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVSGSVWKTLVSLGAVPMGSDAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIFQGMPAPQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGSPITIDGK+VGKLTSYTPGRK  EHFGLGYIKKRAAS GD VIVG+NTIGR  E
Sbjct: 361 DSVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLGYIKKRAASCGDTVIVGENTIGRVVE 410

[Close]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match: A0A6J1JI89 (putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111486027 PE=3 SV=1)

HSP 1 Score: 636.3 bits (1640), Expect = 9.4e-179
Identity = 338/421 (80.29%), Postives = 359/421 (85.27%), Query Frame = 0 

Query: 24  MASYCGNGFSVSNATIPSTSRAFISNPWHWDLSTSSFSHPHRFQLPAFRSRKIKNPLTKA 83
           MASY   GFSVS+A IPSTSRAFISN             P R +LPAFR R I+ P TKA
Sbjct: 1   MASYWSYGFSVSDAAIPSTSRAFISN-----------LQPCRLRLPAFRPRNIRKPHTKA 60

Query: 84  NRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDEEALDAANNGVALL 143
           NR RTSFSA PFDLSPPPIDEDLLEAA  EGA+ISDDGIIETFHND+EALDAANNGVA++
Sbjct: 61  NRIRTSFSALPFDLSPPPIDEDLLEAATTEGARISDDGIIETFHNDDEALDAANNGVAVV 120

Query: 144 EM-----IVVS------FFITKAQLILKVYI--KGCSTVFVTPTARTIDIAQAWIMKNAI 203
           ++     I VS      F   ++    +     +GCSTVFVTPTARTIDIAQAWIMKNAI
Sbjct: 121 DLSHFGRIRVSGEDRYQFLQNQSTANFESLCQGQGCSTVFVTPTARTIDIAQAWIMKNAI 180

Query: 204 TLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 263
           TLIVSPVTRESI +MLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE
Sbjct: 181 TLIVSPVTRESISQMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQIMEALNLGSIAGE 240

Query: 264 PYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWEKL 323
           PYGTHQHFS  GMPITVGVGN+ISEEGFSLLISP V+GPVWK LVSLGAVPMGS AWEKL
Sbjct: 241 PYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPVVSGPVWKTLVSLGAVPMGSGAWEKL 300

Query: 324 RIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTYDGVKQRLWGLQLS 383
           RIFQGMPAPQKELTDEFNVLEAGLWNSIS+NKGCYKGQETISRL+TYDGVKQRLWGLQLS
Sbjct: 301 RIFQGMPAPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLS 360

Query: 384 DSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDIVIVGKNTIGRTYE 432
           DSVEPGSPITIDGK+VGKLTSYTPGRK  EHFGLGYIKKRAASSGD VIVG+NTIGR  E
Sbjct: 361 DSVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLGYIKKRAASSGDTVIVGENTIGRVVE 410

[Close]
BLAST of CcUC09G177190 vs. TAIR 10
Match: AT1G60990.1 (Glycine cleavage T-protein family )

HSP 1 Score: 437.2 bits (1123), Expect = 1.6e-122
Identity = 232/374 (62.03%), Postives = 277/374 (74.06%), Query Frame = 0 

Query: 71  FRSRKIKNPLTKANRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDE 130
           FR RK +     A     S  +  FD SPPPID D L+  +V G K+S+DG++E+F ND+
Sbjct: 49  FRERKFQLRCVSA-----SSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDD 108

Query: 131 EALDAANNGVALLEM-----IVVS-----FFI---TKAQLILKVYIKGCSTVFVTPTART 190
           EALDA +NGV ++++     I VS      F+   T A        +GC TVFVTPTART
Sbjct: 109 EALDAFDNGVVVVDLSHFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTART 168

Query: 191 IDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQ 250
           IDIA AWIMKNAI L VSP T +SII MLNKYIF ADKVEI+DITKQT L  L GPKSNQ
Sbjct: 169 IDIAHAWIMKNAILLTVSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQ 228

Query: 251 IMEALNLGSIAGEPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSL 310
           IM  LNLG + G+PYG HQH+S  GMPITVGVG++IS+EGF++L+SP  A  VWK L++ 
Sbjct: 229 IMSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAE 288

Query: 311 GAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTY 370
           GA+PMGS AWEKLRI QG PAP++EL+ EFNVLEAGLWNSIS+NKGCYKGQETI+RLMTY
Sbjct: 289 GAIPMGSVAWEKLRITQGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTY 348

Query: 371 DGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDI 430
           DG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLGYIKK+AAS G+ 
Sbjct: 349 DGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNT 408

Query: 431 VIVGKNTIGRTYEM 432
           V VG++  G   E+
Sbjct: 409 VTVGEDISGIVSEV 417

[Close]
BLAST of CcUC09G177190 vs. TAIR 10
Match: AT1G60990.2 (Glycine cleavage T-protein family )

HSP 1 Score: 437.2 bits (1123), Expect = 1.6e-122
Identity = 232/374 (62.03%), Postives = 277/374 (74.06%), Query Frame = 0 

Query: 71  FRSRKIKNPLTKANRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDE 130
           FR RK +     A     S  +  FD SPPPID D L+  +V G K+S+DG++E+F ND+
Sbjct: 49  FRERKFQLRCVSA-----SSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDD 108

Query: 131 EALDAANNGVALLEM-----IVVS-----FFI---TKAQLILKVYIKGCSTVFVTPTART 190
           EALDA +NGV ++++     I VS      F+   T A        +GC TVFVTPTART
Sbjct: 109 EALDAFDNGVVVVDLSHFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTART 168

Query: 191 IDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQ 250
           IDIA AWIMKNAI L VSP T +SII MLNKYIF ADKVEI+DITKQT L  L GPKSNQ
Sbjct: 169 IDIAHAWIMKNAILLTVSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQ 228

Query: 251 IMEALNLGSIAGEPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSL 310
           IM  LNLG + G+PYG HQH+S  GMPITVGVG++IS+EGF++L+SP  A  VWK L++ 
Sbjct: 229 IMSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAE 288

Query: 311 GAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTY 370
           GA+PMGS AWEKLRI QG PAP++EL+ EFNVLEAGLWNSIS+NKGCYKGQETI+RLMTY
Sbjct: 289 GAIPMGSVAWEKLRITQGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTY 348

Query: 371 DGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDI 430
           DG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLGYIKK+AAS G+ 
Sbjct: 349 DGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNT 408

Query: 431 VIVGKNTIGRTYEM 432
           V VG++  G   E+
Sbjct: 409 VTVGEDISGIVSEV 417

[Close]
BLAST of CcUC09G177190 vs. TAIR 10
Match: AT1G60990.3 (Glycine cleavage T-protein family )

HSP 1 Score: 437.2 bits (1123), Expect = 1.6e-122
Identity = 232/374 (62.03%), Postives = 277/374 (74.06%), Query Frame = 0 

Query: 71  FRSRKIKNPLTKANRTRTSFSAFPFDLSPPPIDEDLLEAAAVEGAKISDDGIIETFHNDE 130
           FR RK +     A     S  +  FD SPPPID D L+  +V G K+S+DG++E+F ND+
Sbjct: 49  FRERKFQLRCVSA-----SSDSLQFDFSPPPIDHDFLDTISVSGGKVSEDGVVESFDNDD 108

Query: 131 EALDAANNGVALLEM-----IVVS-----FFI---TKAQLILKVYIKGCSTVFVTPTART 190
           EALDA +NGV ++++     I VS      F+   T A        +GC TVFVTPTART
Sbjct: 109 EALDAFDNGVVVVDLSHFGRIRVSGDDRAHFLHNQTTANFESLYEGQGCDTVFVTPTART 168

Query: 191 IDIAQAWIMKNAITLIVSPVTRESIIRMLNKYIFLADKVEIQDITKQTSLLVLVGPKSNQ 250
           IDIA AWIMKNAI L VSP T +SII MLNKYIF ADKVEI+DITKQT L  L GPKSNQ
Sbjct: 169 IDIAHAWIMKNAILLTVSPTTCQSIIEMLNKYIFFADKVEIKDITKQTCLFALAGPKSNQ 228

Query: 251 IMEALNLGSIAGEPYGTHQHFSAYGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSL 310
           IM  LNLG + G+PYG HQH+S  GMPITVGVG++IS+EGF++L+SP  A  VWK L++ 
Sbjct: 229 IMSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAE 288

Query: 311 GAVPMGSRAWEKLRIFQGMPAPQKELTDEFNVLEAGLWNSISINKGCYKGQETISRLMTY 370
           GA+PMGS AWEKLRI QG PAP++EL+ EFNVLEAGLWNSIS+NKGCYKGQETI+RLMTY
Sbjct: 289 GAIPMGSVAWEKLRITQGRPAPERELSKEFNVLEAGLWNSISLNKGCYKGQETIARLMTY 348

Query: 371 DGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLGYIKKRAASSGDI 430
           DG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLGYIKK+AAS G+ 
Sbjct: 349 DGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLGYIKKQAASIGNT 408

Query: 431 VIVGKNTIGRTYEM 432
           V VG++  G   E+
Sbjct: 409 VTVGEDISGIVSEV 417

The following BLAST results are available for this feature:
BLAST of CcUC09G177190 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038887599.16.0e-19685.04putative transferase At1g60990, chloroplastic [Benincasa hispida][more]
XP_004140110.13.5e-18883.10putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN4... [more]
TYK13394.13.0e-18782.38putative transferase [Cucumis melo var. makuwa][more]
XP_022158902.16.4e-18280.05LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic [Momordica ch... [more]
KAG7022574.14.6e-18080.52putative transferase, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma][more]
BLAST of CcUC09G177190 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q681Y32.3e-12162.03Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN... [more]
Q1AR893.4e-1626.61Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129... [more]
Q67N363.7e-1525.44Aminomethyltransferase OS=Symbiobacterium thermophilum (strain T / IAM 14863) OX... [more]
Q5KX765.4e-1426.58Aminomethyltransferase OS=Geobacillus kaustophilus (strain HTA426) OX=235909 GN=... [more]
B0KD951.1e-1125.41Aminomethyltransferase OS=Thermoanaerobacter pseudethanolicus (strain ATCC 33223... [more]
BLAST of CcUC09G177190 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KJI91.7e-18883.10Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1[more]
A0A5D3CQT81.4e-18782.38Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496... [more]
A0A6J1DYD63.1e-18280.05LOW QUALITY PROTEIN: putative transferase At1g60990, chloroplastic OS=Momordica ... [more]
A0A6J1EI201.4e-17980.52putative transferase At1g60990, chloroplastic OS=Cucurbita moschata OX=3662 GN=L... [more]
A0A6J1JI899.4e-17980.29putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC... [more]
BLAST of CcUC09G177190 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G60990.11.6e-12262.03Glycine cleavage T-protein family [more]
AT1G60990.21.6e-12262.03Glycine cleavage T-protein family [more]
AT1G60990.31.6e-12262.03Glycine cleavage T-protein family [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (PI 537277) v1
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR017703YgfZ/GcvT conserved siteTIGRFAMTIGR03317TIGR03317coord: 306..368
e-value: 1.8E-18
score: 64.2
IPR027266GTP-binding protein TrmE/Glycine cleavage system T protein, domain 1GENE3D3.30.1360.120Probable tRNA modification gtpase trme; domain 1coord: 159..431
e-value: 5.3E-55
score: 189.0
IPR013977Glycine cleavage T-protein, C-terminal barrel domainPFAMPF08669GCV_T_Ccoord: 363..420
e-value: 1.8E-6
score: 27.7
IPR006222Aminomethyltransferase, folate-binding domainPFAMPF01571GCV_Tcoord: 185..334
e-value: 7.5E-20
score: 71.3
NoneNo IPR availablePANTHERPTHR13847:SF262MALATE:QUINONE OXIDOREDUCTASEcoord: 71..434
NoneNo IPR availablePANTHERPTHR13847SARCOSINE DEHYDROGENASE-RELATEDcoord: 71..434
NoneNo IPR availableSUPERFAMILY103025Folate-binding domaincoord: 165..355
IPR029043Glycine cleavage T-protein/YgfZ, C-terminalSUPERFAMILY101790Aminomethyltransferase beta-barrel domaincoord: 363..429

Relationships

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

Feature NameUnique NameType
CcUC09G177190.1CcUC09G177190.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0009507 chloroplast
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0016740 transferase activity