Lsi03G008510 (gene) Bottle gourd (USVL1VR-Ls) v1

Overview
NameLsi03G008510
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls) v1)
DescriptionGlycine cleavage T-protein family
Locationchr03: 13622747 .. 13650261 (+)
RNA-Seq ExpressionLsi03G008510
SyntenyLsi03G008510
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TAACTACGTTCCATCCGCCCTAATTTCTGCAAATACAGATGCTAATAATCCTGAAGCGGCGCTCCATTATTTTATTCATCTATTAATTATTAATTAATTCTCTCTAATTTTACTTTGCTATTTTTCTAACATGGTTAACATTTTGCCATTTTTTAAATTGAAAACTATTTTTTCTTGTCAGCCCATTATCCCTTACTTATACAAAATGGTAATCTGATATTGGAGCAGACATCTCAAAATTCAGACAACTATGGCTTCTTACTGCGGTTATGGTTTCTCCGTCTCAGATGCTACAATTCCCTCTACCAGCAGAGCCTTCATCTCTAATCCATGGCACTGGGACCTTTCAACCTCTTCTTTTTCCCATCCTCATCGCCTTCAGCTCCCTGCATTTCGACCTCGGAACATCAGGAAGCCCCATAGCAAAGCGAACAGAACCAGAACTTCCTTCTCTGCCTTGCCTTTCGATCTTTCCCCTCCTCCAATCGATGAGGACCTCCTTGAGGCAGCGGCGGTTGAAGGTGCAAGGATTTCTGATGATGGGATTATTGAAACTTTTCATAATGATGAAGATGCGCTGGATGCAGCCAATAATGGGGTTGCTGTCGTGGATCTTTCTCATTTTGGCCGAATAAGGGTTAGTGGAGATGATCGTTGTCAGTTTCTTCATAACCAAAGCACAGCTAATTTTGAAAGTTTACGTCAAGGTCAAGGGTGCAGTACTGTATTTGTTACGCCCACTGCTCGAACAATTGATATTGCACAAGCATGGATCATGAAAAATGCCATCACATTAATTGTGTCGCCAGTTACACGTGAAAGCATAATTCGGATGCTCAACAAGTAGGTGTTCTTGTACATTTTTTTAGCGGACAAGGTAGAGATTCAAGATATTACCAAGCAAACATCCTTGTTAGTGTTGGTGGGACCTAAAAGCAACCAAGTAAAAGAGCACTATGCAGTTCTCATATCATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAGCCATATGGAACACACCAGCACTTTAGTGTCAATGGTATGCCAATTACCGTGGGGGTGGGGAATATCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAACCTGAGGATATTTCAAGGAATCTTGGATGGTTCAATGATCTGCTTAAGTCTTGCAGGAATGCCATCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTCGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACAATATCTAGATTAATAACATATGATGGAGTAAAGCAGAGATTGTGGGGACTTCAGCTATCAGATTCTGTGGAACCTGGCAGCCCGATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATACACCAGGAAGAAAGTCGGAGCATTTTGGTCTTGGCTACATCAAGAAGCGAGCTGCTTCCAGTGGAGACACTGTAATTGTTGGAGAAAACACCATTGGTAGGGTGGTGGAAGTTCCATTCTTAGCTCGACAACAACCTTTAAGCAACAGCTCAAGTAACACGCCTCAAAGCAGTGTACAATAGTTATTACTACGTCACTGGGCTTGACTCAATGGCTCTATATTTCTTCAATAATTTTAGATATGGATCCTAAGGACAATGATTTTTGAACCTTGTTTGTGCATATCATCAGGGGTTTGCTTGTAGTTGAACTGATTTTATAATATGAAATCGCATTTGGAGTTGTTTCTATTAAAA

Coding sequence (CDS)

ATGGAGGATTTGAACCTTGGTAGTATAGCTGGAGAGCCATATGGAACACACCAGCACTTTAGTGTCAATGGTATGCCAATTACCGTGGGGGTGGGGAATATCATTTCCGAAGAAGGCTTTTCACTGTTGATATCACCTGCTGTGGCTGGACCAGTTTGGAAAGCTCTAGTTTCTCTAGGTGCTGTTCCAATGGGCTCAAGGGCTTGGGAAAACCTGAGGATATTTCAAGGAATCTTGGATGGTTCAATGATCTGCTTAAGTCTTGCAGGAATGCCATCTCCCCAGAAAGAGCTTACCGACGAATTCAATGTACTCGAAGCTGGTCTTTGGAATTCAATTTCTCTCAACAAGGGTTGTTACAAGGGACAAGAGACAATATCTAGATTAATAACATATGATGGAGTAAAGCAGAGATTGTGGGGACTTCAGCTATCAGATTCTGTGGAACCTGGCAGCCCGATAACCATTGATGGAAAAAGGGTGGGAAAACTTACAAGCTATACACCAGGAAGAAAGTCGGAGCATTTTGGTCTTGGCTACATCAAGAAGCGAGCTGCTTCCAGTGGAGACACTGTAATTGTTGGAGAAAACACCATTGGTAGGGTGGTGGAAGTTCCATTCTTAGCTCGACAACAACCTTTAAGCAACAGCTCAAGTAACACGCCTCAAAGCAGTGTACAATAG

Protein sequence

MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCYKGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKSEHFGLGYIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSNTPQSSVQ
Homology
BLAST of Lsi03G008510 vs. ExPASy Swiss-Prot
Match: Q681Y3 (Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At1g60990 PE=1 SV=1)

HSP 1 Score: 286.2 bits (731), Expect = 3.3e-76
Identity = 143/221 (64.71%), Postives = 172/221 (77.83%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           M  LNLG + G+PYG HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ G
Sbjct: 225 MSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEG 284

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           A+PMGS AWE LRI Q             G P+P++EL+ EFNVLEAGLWNSISLNKGCY
Sbjct: 285 AIPMGSVAWEKLRITQ-------------GRPAPERELSKEFNVLEAGLWNSISLNKGCY 344

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETI+RL+TYDG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLG
Sbjct: 345 KGQETIARLMTYDGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLG 404

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSN 221
           YIKK+AAS G+TV VGE+  G V EVP+LARQ P S +SS+
Sbjct: 405 YIKKQAASIGNTVTVGEDISGIVSEVPYLARQHPPSANSSS 432

BLAST of Lsi03G008510 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: 73.9 bits (180), Expect = 2.5e-12
Identity = 57/209 (27.27%), Postives = 103/209 (49.28%), Query Frame = 0

Query: 12  EPYGTHQHFSVNGMP-ITVGVGNIISEEGFSLLISPAVAGPVWKALVSL----GAVPMGS 71
           EP+   ++ +V+G+P + +       E+GF + +       +W+AL+      G +P G 
Sbjct: 175 EPFSLAKNVTVSGVPTLVLSRTGYTGEDGFEIYVKAEDVAALWEALLEAGDEQGLLPCGL 234

Query: 72  RAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGC-YKGQET 131
            A + LR               A +P    E++D+ N LEAGL  ++ L KG  + G++ 
Sbjct: 235 GARDTLRF-------------EAKLPLYGHEISDQHNPLEAGLGFAVKLKKGVDFIGRDA 294

Query: 132 ISRLITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVGKLT--SYTPGRKSEHFGLGYI 191
           ++R I   G  ++L G+++ D   P  G P+ + G+ VG++T  S++P    ++  L Y+
Sbjct: 295 LAR-IKEQGPTRKLVGIEMIDRGVPRQGYPVAVGGEVVGEVTTGSFSP-TLEKNIALAYV 354

Query: 192 KKRAASSG---DTVIVGENTIGRVVEVPF 208
               ++ G   + +I G     RVVE PF
Sbjct: 355 PVAHSAVGTEVEVIIRGRALKARVVETPF 368

BLAST of Lsi03G008510 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: 70.5 bits (171), Expect = 2.8e-11
Identity = 55/195 (28.21%), Postives = 86/195 (44.10%), Query Frame = 0

Query: 22  VNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLGAVPMGSRAWENLRIFQGILDG 81
           V+G    V       E+GF + + PA A  +W+ LV  GA P G  A + LR+       
Sbjct: 183 VDGGEAIVARTGYTGEDGFEVFLRPAEAPSLWRRLVEAGAAPAGLGARDTLRL------- 242

Query: 82  SMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNK-GCYKGQETISRLITYDGVKQRLW 141
                  AGM     EL +E   LEAG+  ++ L+K   + GQ  + R     G++++L 
Sbjct: 243 ------EAGMCLYGNELDEETTPLEAGISFAVHLHKEEEFVGQRALQRQ-RERGLRKKLV 302

Query: 142 GLQLSDS--VEPGSPITIDGKRVGKLTSYTPG-RKSEHFGLGYIKKRAASSGDTVIVGEN 201
           G +L        G P+ + G+R G +TS T         GL Y+        + +I    
Sbjct: 303 GFELEGRGIARHGYPVAVGGERAGVVTSGTMSPTLGRAIGLAYVPPETEGGFEVLIRERP 362

Query: 202 TIGRVVEVPFLARQQ 213
              R+V +PF  R++
Sbjct: 363 VPARIVPLPFYRRKR 363

BLAST of Lsi03G008510 vs. ExPASy Swiss-Prot
Match: A0AIE9 (Aminomethyltransferase OS=Listeria welshimeri serovar 6b (strain ATCC 35897 / DSM 20650 / CIP 8149 / NCTC 11857 / SLCC 5334 / V8) OX=386043 GN=gcvT PE=3 SV=1)

HSP 1 Score: 63.9 bits (154), Expect = 2.6e-09
Identity = 58/217 (26.73%), Postives = 104/217 (47.93%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           + D++L SI+   +G  +   V G+   +       E+GF + ++ A AG V++A+++ G
Sbjct: 160 LTDVDLSSISF--FGFIEDVEVAGVKTIISRSGYTGEDGFEIYMASADAGKVFEAILAEG 219

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGC- 120
             P+G  A + LR+           L+L G     +EL+ +   LEAGL  ++ L K   
Sbjct: 220 VAPIGLGARDTLRL--------EAVLALYG-----QELSKDITPLEAGLNFAVKLKKEAD 279

Query: 121 YKGQETISRLITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVGKLTSYTPGRK-SEHF 180
           + G+E + +     G+ ++L G++L +   P    P+ ++ K VG +TS T       + 
Sbjct: 280 FIGKEALIKQ-KEAGLTRKLVGIELIERGIPRHDYPVFLNDKEVGIVTSGTQSPTFGTNI 339

Query: 181 GLGYIKKRAASSGDTVIVG---ENTIGRVVEVPFLAR 211
           GL  I    A  G  + VG   +    ++V+ PF  R
Sbjct: 340 GLALIDTAYAELGQELEVGIRNKKVKAKIVQTPFYKR 360

BLAST of Lsi03G008510 vs. ExPASy Swiss-Prot
Match: C1L2Q4 (Aminomethyltransferase OS=Listeria monocytogenes serotype 4b (strain CLIP80459) OX=568819 GN=gcvT PE=3 SV=1)

HSP 1 Score: 59.3 bits (142), Expect = 6.5e-08
Identity = 56/217 (25.81%), Postives = 101/217 (46.54%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           + D++L SI+   +G  +   V G+   +       E+GF + +  A AG V++A+++ G
Sbjct: 160 LTDVDLSSISF--FGFVEDADVAGVKTIISRSGYTGEDGFEIYMPSADAGKVFEAILAEG 219

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGC- 120
             P+G  A + LR+           L+L G     +EL+ +   LEAGL  ++ L K   
Sbjct: 220 VAPIGLGARDTLRL--------EAVLALYG-----QELSKDITPLEAGLNFAVKLKKEAD 279

Query: 121 YKGQETISRLITYDGVKQRLWGLQLSDSVEP--GSPITIDGKRVGKLTSYTPG-RKSEHF 180
           + G+E + +     G+ ++L G++L +   P    P+ ++ + +G +TS T       + 
Sbjct: 280 FIGKEALIKQKEV-GLNRKLVGIELIERGIPRHDYPVFLNEEEIGIVTSGTQSPTLGTNI 339

Query: 181 GLGYIKKRAASSGDTVIVG---ENTIGRVVEVPFLAR 211
           GL  I       G  V VG   +    ++V  PF  R
Sbjct: 340 GLALIDTAYTEIGQEVEVGIRNKKVKAKIVPTPFYKR 360

BLAST of Lsi03G008510 vs. ExPASy TrEMBL
Match: A0A0A0KJI9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1)

HSP 1 Score: 400.2 bits (1027), Expect = 5.7e-108
Identity = 204/229 (89.08%), Postives = 210/229 (91.70%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGN+ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 230 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLG 289

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRI Q             GMP+PQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 290 AVPMGSRAWEKLRISQ-------------GMPAPQKELTDEFNVLEAGLWNSISLNKGCY 349

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 350 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 409

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSN-SSSNTPQSSVQ 228
           YIKK+AAS GD+VIVGENTIG+VVEVPFLARQQPLSN SSSNTP+SSVQ
Sbjct: 410 YIKKKAASVGDSVIVGENTIGKVVEVPFLARQQPLSNSSSSNTPESSVQ 445

BLAST of Lsi03G008510 vs. ExPASy TrEMBL
Match: A0A6J1JI89 (putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111486027 PE=3 SV=1)

HSP 1 Score: 398.7 bits (1023), Expect = 1.7e-107
Identity = 202/228 (88.60%), Postives = 206/228 (90.35%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           ME LNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISP V+GPVWK LVSLG
Sbjct: 218 MEALNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPVVSGPVWKTLVSLG 277

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGS AWE LRIFQ             GMP+PQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 278 AVPMGSGAWEKLRIFQ-------------GMPAPQKELTDEFNVLEAGLWNSISLNKGCY 337

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKS-EHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGK+VGKLTSYTPGRK  EHFGLG
Sbjct: 338 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLG 397

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSNTPQSSVQ 228
           YIKKRAASSGDTVIVGENTIGRVVEVPFLARQ PLSNSSSN P+SSVQ
Sbjct: 398 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQPPLSNSSSNLPRSSVQ 432

BLAST of Lsi03G008510 vs. ExPASy TrEMBL
Match: A0A5A7UN60 (Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold280G001980 PE=3 SV=1)

HSP 1 Score: 397.1 bits (1019), Expect = 4.8e-107
Identity = 203/229 (88.65%), Postives = 209/229 (91.27%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVG++ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 115 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLG 174

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRIFQ             GMPSPQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 175 AVPMGSRAWEKLRIFQ-------------GMPSPQKELTDEFNVLEAGLWNSISLNKGCY 234

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 235 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 294

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSS-SNTPQSSVQ 228
           YIKK+AAS GDTVIVGE+T G VVEVPFLARQQPLSNSS S+TP+SSVQ
Sbjct: 295 YIKKKAASIGDTVIVGEDTTGTVVEVPFLARQQPLSNSSPSSTPESSVQ 330

BLAST of Lsi03G008510 vs. ExPASy TrEMBL
Match: A0A5D3CQT8 (Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496G00010 PE=3 SV=1)

HSP 1 Score: 397.1 bits (1019), Expect = 4.8e-107
Identity = 203/229 (88.65%), Postives = 209/229 (91.27%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVG++ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 230 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLG 289

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRIFQ             GMPSPQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 290 AVPMGSRAWEKLRIFQ-------------GMPSPQKELTDEFNVLEAGLWNSISLNKGCY 349

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 350 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 409

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSS-SNTPQSSVQ 228
           YIKK+AAS GDTVIVGE+T G VVEVPFLARQQPLSNSS S+TP+SSVQ
Sbjct: 410 YIKKKAASIGDTVIVGEDTTGTVVEVPFLARQQPLSNSSPSSTPESSVQ 445

BLAST of Lsi03G008510 vs. ExPASy TrEMBL
Match: A0A1S3BML1 (putative transferase At1g60990, chloroplastic isoform X2 OS=Cucumis melo OX=3656 GN=LOC103491300 PE=3 SV=1)

HSP 1 Score: 397.1 bits (1019), Expect = 4.8e-107
Identity = 203/229 (88.65%), Postives = 209/229 (91.27%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVG++ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 141 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLG 200

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRIFQ             GMPSPQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 201 AVPMGSRAWEKLRIFQ-------------GMPSPQKELTDEFNVLEAGLWNSISLNKGCY 260

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 261 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 320

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSS-SNTPQSSVQ 228
           YIKK+AAS GDTVIVGE+T G VVEVPFLARQQPLSNSS S+TP+SSVQ
Sbjct: 321 YIKKKAASIGDTVIVGEDTTGTVVEVPFLARQQPLSNSSPSSTPESSVQ 356

BLAST of Lsi03G008510 vs. NCBI nr
Match: XP_038887599.1 (putative transferase At1g60990, chloroplastic [Benincasa hispida])

HSP 1 Score: 408.3 bits (1048), Expect = 4.3e-110
Identity = 205/228 (89.91%), Postives = 212/228 (92.98%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGN+ISEEGFSLLISPAVAG VWKALVSLG
Sbjct: 229 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGQVWKALVSLG 288

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGS+AWE LRIFQ             GMP+PQKEL+DEFNVLEAGLWNSISLNKGCY
Sbjct: 289 AVPMGSKAWEKLRIFQ-------------GMPAPQKELSDEFNVLEAGLWNSISLNKGCY 348

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK SEHFGLG
Sbjct: 349 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKESEHFGLG 408

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSNTPQSSVQ 228
           YIKKRAAS+GDTVIVGENTIG+VVEVPFLARQQP+SNSSSNTPQSSVQ
Sbjct: 409 YIKKRAASNGDTVIVGENTIGKVVEVPFLARQQPISNSSSNTPQSSVQ 443

BLAST of Lsi03G008510 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: 400.2 bits (1027), Expect = 1.2e-107
Identity = 204/229 (89.08%), Postives = 210/229 (91.70%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGN+ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 230 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNVISEEGFSLLISPAVAGPVWKALVSLG 289

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRI Q             GMP+PQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 290 AVPMGSRAWEKLRISQ-------------GMPAPQKELTDEFNVLEAGLWNSISLNKGCY 349

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 350 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 409

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSN-SSSNTPQSSVQ 228
           YIKK+AAS GD+VIVGENTIG+VVEVPFLARQQPLSN SSSNTP+SSVQ
Sbjct: 410 YIKKKAASVGDSVIVGENTIGKVVEVPFLARQQPLSNSSSSNTPESSVQ 445

BLAST of Lsi03G008510 vs. NCBI nr
Match: XP_022988791.1 (putative transferase At1g60990, chloroplastic [Cucurbita maxima])

HSP 1 Score: 398.7 bits (1023), Expect = 3.4e-107
Identity = 202/228 (88.60%), Postives = 206/228 (90.35%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           ME LNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISP V+GPVWK LVSLG
Sbjct: 218 MEALNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPVVSGPVWKTLVSLG 277

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGS AWE LRIFQ             GMP+PQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 278 AVPMGSGAWEKLRIFQ-------------GMPAPQKELTDEFNVLEAGLWNSISLNKGCY 337

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRKS-EHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGK+VGKLTSYTPGRK  EHFGLG
Sbjct: 338 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKKVGKLTSYTPGRKGLEHFGLG 397

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSNTPQSSVQ 228
           YIKKRAASSGDTVIVGENTIGRVVEVPFLARQ PLSNSSSN P+SSVQ
Sbjct: 398 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQPPLSNSSSNLPRSSVQ 432

BLAST of Lsi03G008510 vs. NCBI nr
Match: XP_008449403.1 (PREDICTED: putative transferase At1g60990, chloroplastic isoform X2 [Cucumis melo])

HSP 1 Score: 397.1 bits (1019), Expect = 1.0e-106
Identity = 203/229 (88.65%), Postives = 209/229 (91.27%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVG++ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 141 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLG 200

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRIFQ             GMPSPQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 201 AVPMGSRAWEKLRIFQ-------------GMPSPQKELTDEFNVLEAGLWNSISLNKGCY 260

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 261 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 320

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSS-SNTPQSSVQ 228
           YIKK+AAS GDTVIVGE+T G VVEVPFLARQQPLSNSS S+TP+SSVQ
Sbjct: 321 YIKKKAASIGDTVIVGEDTTGTVVEVPFLARQQPLSNSSPSSTPESSVQ 356

BLAST of Lsi03G008510 vs. NCBI nr
Match: XP_008449404.1 (PREDICTED: putative transferase At1g60990, chloroplastic isoform X3 [Cucumis melo])

HSP 1 Score: 397.1 bits (1019), Expect = 1.0e-106
Identity = 203/229 (88.65%), Postives = 209/229 (91.27%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVG++ISEEGFSLLISPAVAGPVWKALVSLG
Sbjct: 103 MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGSVISEEGFSLLISPAVAGPVWKALVSLG 162

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           AVPMGSRAWE LRIFQ             GMPSPQKELTDEFNVLEAGLWNSISLNKGCY
Sbjct: 163 AVPMGSRAWEKLRIFQ-------------GMPSPQKELTDEFNVLEAGLWNSISLNKGCY 222

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSY PGRK SEHFGLG
Sbjct: 223 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYAPGRKESEHFGLG 282

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSS-SNTPQSSVQ 228
           YIKK+AAS GDTVIVGE+T G VVEVPFLARQQPLSNSS S+TP+SSVQ
Sbjct: 283 YIKKKAASIGDTVIVGEDTTGTVVEVPFLARQQPLSNSSPSSTPESSVQ 318

BLAST of Lsi03G008510 vs. TAIR 10
Match: AT1G60990.1 (Glycine cleavage T-protein family )

HSP 1 Score: 286.2 bits (731), Expect = 2.3e-77
Identity = 143/221 (64.71%), Postives = 172/221 (77.83%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           M  LNLG + G+PYG HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ G
Sbjct: 225 MSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEG 284

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           A+PMGS AWE LRI Q             G P+P++EL+ EFNVLEAGLWNSISLNKGCY
Sbjct: 285 AIPMGSVAWEKLRITQ-------------GRPAPERELSKEFNVLEAGLWNSISLNKGCY 344

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETI+RL+TYDG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLG
Sbjct: 345 KGQETIARLMTYDGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLG 404

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSN 221
           YIKK+AAS G+TV VGE+  G V EVP+LARQ P S +SS+
Sbjct: 405 YIKKQAASIGNTVTVGEDISGIVSEVPYLARQHPPSANSSS 432

BLAST of Lsi03G008510 vs. TAIR 10
Match: AT1G60990.2 (Glycine cleavage T-protein family )

HSP 1 Score: 286.2 bits (731), Expect = 2.3e-77
Identity = 143/221 (64.71%), Postives = 172/221 (77.83%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           M  LNLG + G+PYG HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ G
Sbjct: 225 MSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEG 284

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           A+PMGS AWE LRI Q             G P+P++EL+ EFNVLEAGLWNSISLNKGCY
Sbjct: 285 AIPMGSVAWEKLRITQ-------------GRPAPERELSKEFNVLEAGLWNSISLNKGCY 344

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETI+RL+TYDG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLG
Sbjct: 345 KGQETIARLMTYDGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLG 404

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSN 221
           YIKK+AAS G+TV VGE+  G V EVP+LARQ P S +SS+
Sbjct: 405 YIKKQAASIGNTVTVGEDISGIVSEVPYLARQHPPSANSSS 432

BLAST of Lsi03G008510 vs. TAIR 10
Match: AT1G60990.3 (Glycine cleavage T-protein family )

HSP 1 Score: 286.2 bits (731), Expect = 2.3e-77
Identity = 143/221 (64.71%), Postives = 172/221 (77.83%), Query Frame = 0

Query: 1   MEDLNLGSIAGEPYGTHQHFSVNGMPITVGVGNIISEEGFSLLISPAVAGPVWKALVSLG 60
           M  LNLG + G+PYG HQH+S +GMPITVGVG++IS+EGF++L+SP  A  VWK L++ G
Sbjct: 225 MSKLNLGDLIGQPYGRHQHYSFDGMPITVGVGSLISDEGFTMLMSPGGAVSVWKTLLAEG 284

Query: 61  AVPMGSRAWENLRIFQGILDGSMICLSLAGMPSPQKELTDEFNVLEAGLWNSISLNKGCY 120
           A+PMGS AWE LRI Q             G P+P++EL+ EFNVLEAGLWNSISLNKGCY
Sbjct: 285 AIPMGSVAWEKLRITQ-------------GRPAPERELSKEFNVLEAGLWNSISLNKGCY 344

Query: 121 KGQETISRLITYDGVKQRLWGLQLSDSVEPGSPITIDGKRVGKLTSYTPGRK-SEHFGLG 180
           KGQETI+RL+TYDG+KQRL GL LS   EPGS IT+DGK+VGKLTSYT G+  S HFGLG
Sbjct: 345 KGQETIARLMTYDGIKQRLCGLNLSAPSEPGSTITVDGKKVGKLTSYTGGKNGSGHFGLG 404

Query: 181 YIKKRAASSGDTVIVGENTIGRVVEVPFLARQQPLSNSSSN 221
           YIKK+AAS G+TV VGE+  G V EVP+LARQ P S +SS+
Sbjct: 405 YIKKQAASIGNTVTVGEDISGIVSEVPYLARQHPPSANSSS 432

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
Q681Y33.3e-7664.71Putative transferase At1g60990, chloroplastic OS=Arabidopsis thaliana OX=3702 GN... [more]
Q67N362.5e-1227.27Aminomethyltransferase OS=Symbiobacterium thermophilum (strain T / IAM 14863) OX... [more]
Q1AR892.8e-1128.21Aminomethyltransferase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129... [more]
A0AIE92.6e-0926.73Aminomethyltransferase OS=Listeria welshimeri serovar 6b (strain ATCC 35897 / DS... [more]
C1L2Q46.5e-0825.81Aminomethyltransferase OS=Listeria monocytogenes serotype 4b (strain CLIP80459) ... [more]
Match NameE-valueIdentityDescription
A0A0A0KJI95.7e-10889.08Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G417880 PE=3 SV=1[more]
A0A6J1JI891.7e-10788.60putative transferase At1g60990, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC... [more]
A0A5A7UN604.8e-10788.65Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold280... [more]
A0A5D3CQT84.8e-10788.65Putative transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold496... [more]
A0A1S3BML14.8e-10788.65putative transferase At1g60990, chloroplastic isoform X2 OS=Cucumis melo OX=3656... [more]
Match NameE-valueIdentityDescription
XP_038887599.14.3e-11089.91putative transferase At1g60990, chloroplastic [Benincasa hispida][more]
XP_004140110.11.2e-10789.08putative transferase At1g60990, chloroplastic isoform X1 [Cucumis sativus] >KGN4... [more]
XP_022988791.13.4e-10788.60putative transferase At1g60990, chloroplastic [Cucurbita maxima][more]
XP_008449403.11.0e-10688.65PREDICTED: putative transferase At1g60990, chloroplastic isoform X2 [Cucumis mel... [more]
XP_008449404.11.0e-10688.65PREDICTED: putative transferase At1g60990, chloroplastic isoform X3 [Cucumis mel... [more]
Match NameE-valueIdentityDescription
AT1G60990.12.3e-7764.71Glycine cleavage T-protein family [more]
AT1G60990.22.3e-7764.71Glycine cleavage T-protein family [more]
AT1G60990.32.3e-7764.71Glycine cleavage T-protein family [more]
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (USVL1VR-Ls) v1
Date Performed: 2021-10-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR027266GTP-binding protein TrmE/Glycine cleavage system T protein, domain 1GENE3D3.30.1360.120Probable tRNA modification gtpase trme; domain 1coord: 5..208
e-value: 1.2E-33
score: 118.7
IPR017703YgfZ/GcvT conserved siteTIGRFAMTIGR03317TIGR03317coord: 89..143
e-value: 2.1E-15
score: 54.4
IPR013977Glycine cleavage T-protein, C-terminal barrel domainPFAMPF08669GCV_T_Ccoord: 138..195
e-value: 1.7E-6
score: 27.8
NoneNo IPR availablePANTHERPTHR13847SARCOSINE DEHYDROGENASE-RELATEDcoord: 2..219
NoneNo IPR availablePANTHERPTHR13847:SF262MALATE:QUINONE OXIDOREDUCTASEcoord: 2..219
NoneNo IPR availableSUPERFAMILY103025Folate-binding domaincoord: 5..130
IPR029043Glycine cleavage T-protein/YgfZ, C-terminalSUPERFAMILY101790Aminomethyltransferase beta-barrel domaincoord: 138..208

Relationships

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

Feature NameUnique NameType
Lsi03G008510.1Lsi03G008510.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0009507 chloroplast
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0016740 transferase activity