Lag0001099 (gene) Sponge gourd (AG‐4) v1

Overview
NameLag0001099
Typegene
OrganismLuffa acutangula (Sponge gourd (AG‐4) v1)
DescriptiontRNA (Guanine(10)-N2)-methyltransferase homolog
Locationchr4: 24441599 .. 24464769 (+)
RNA-Seq ExpressionLag0001099
SyntenyLag0001099
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.
ATGGAAATGGCTGATTATGGACTGAATAATGGTCTTCCACCAATTGCTCAAAGGAGGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGACGCTGAAATGGCTTTCTTAATGGCCAACCAAGCACTAGCGACAGCAGGGAAACTTGTCTATGATCCATTTGTTGGCACTGGGAGTATTCTAGTTGCTGCAGCTCATTTTGGAGCAATGACAATGGTAATTATTTTTTGCTTTGTATATTTTAAAGAAAAATTGATATTTGTGAGTGTTTGGACTAGCTTAAACGTATCTCAATGTAGTTTACATAAATTGCATTTAGAGAACTTAATTCATGATTGTTTCCAATTCCCATAGTATGCGTGTGTGTGAGAGAGAAACCATTTCAATTCAAACTGACCAAAATGTCTCAGGGTGCAGACATTGACATCAGGGTGGTTCGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGGTAAATGTGTTTTATTATAAGATTCTATGTTTCAATTTTTTTTTTCATGGTGCAAGTCTTAGTTTATGTTGTACACAGACCGAGTAATTTACTATGTAAAAAGTTTGAAACCTTATGCATGCTCGAAGTGACATTTAAAATACATGTGAGGGTGACAAGCATGATAAAGGAAAAACAACTGTACTGTTAGCAATTGCTTGTACAATTTCTTGAGGTTCAACTGATTACTTTTATATCAAGTTTGGATATTTCATGTTCTATTCACCAAAGCTTTCCTTTGGTTAGTAACTACTGCACCTTCAATGAAAAAGCTTTGAATTTCAACATTTTATATATATTGCTCTCTCTTGGTGTAAATTCTCCCCATACTTTTATGATATTGCCTTCTCTTATAGCTCCTTGGAAATGCTTCTTGTAAATCATTTAGCATTTTTTGCCCCTTTTTTGTAATTTCATTTTCATCTTATCAATGAAATGAAGGATATATGTTTCTCATTTTTTTTAAAAAAAGAAGAAAAGTTTCATGTTCCTATGCATGTAATTGTGCTCTTATGATGCTTGAAGTAATGGTACTCATCTGGTTTTTACTTCTTGCAGTATGGATTACCACCCCCAATTGCACTGTTAAGAGCAGATAATAATCGTCCTCCCTGGCGTCCAGGATTGAAAGAGGTACAACAGTAATATTTAGCACGTATACTGTTTATTTTCTCTTGATTTTGAGAGTTTAAAATCATTCTCATATATCTGATATGTGCAATATAGGTCCTCTTATATAGGAGAAAGACCTATTACAAATATGGAAAGAAATAAATACCATAAAGACTAAATATTTTACAATAAAGATTTACACACAAATATTGGAAATTCCAACACTCCCCCTCAAGCTGGTTTAAAGATGTCTTCCATAGTCAGCTTGTCAATCAACTTATCGAATTGCTTCTTTGGAAGGCCTTTAGTTAGTACATCGACAATTTGTTCTGACGTAGGAAGATAAGGAATACATATCGTATTTGCTTCAATTTTCTCCTTGATAAAATACTTATCAACCTCAATGTGTTTTGTTCTATCATGTAGAACTGGGTTATGAGCTATAGAGATGACAGCTTTATTATCACAATAAATCCGTATAGGTGTGTTCAAAGGAATCTTTAATTCTTCAAGTATCCTTTTGATCCATATACCCTCACAAATTCCATGCGTTGACGCTCTAAATTCTGCTTCAGCACTGCTCCTAGCCACCACATTTTGTTTTTTACTTCTCCAAGTAACCAGATTCCCTCCAACAAAGGAAAAATGACCAGAGGTAGATCTTCTATCTGTAGTACTTCCTGCCCTGTCTGCATCAGTATAAACTTCTATTTGAAAGTGATTATGTCTTCTAAATAGAATGCCTTTCCCATGAGTCCCTTTTAGATACTTCAAAACTCTGTAAACAGCATCAAAATGTGTTGGTCCTGGTGCATGCATAAATTGACTTACCATGCTTACCGCATATGCAATATCAGGGCGCGTATGAGATAGATAAATCAATCTTCCAACAAGTCTCTGATATCGTTCTTTGTCCTTTATTTCTTCTGTTTTGCTACTTGTAACTTTATATTGGGTTCAAATGGAGTTTTTGCAACCTTGCAACCAAGTAGTCCAGTTTCCTCAAGTAAGTCGAGAACATACTTTCTCTAATTAACAAAAATGCCCTTCTTCGATCTTGCAAATTCCATCCCTAGAAAATATTTCAACGGTCCTAGGTCCTTGATTTGAAACTCTCTTGCAAGGTTTTTCTTGAGATCAGTTAGACCAGCTTCATCATCACCTGTGAGAATAATATCATCTACATAGACAATCAAAATTGAGATTTTATTATTCTCAGAGTGTTTATAGAATATAGTATGATCTGCTTGACTCTGAATAAATCCATAGCTGGACACAACATTTCCAAACCGCTCAAACCAAGCTCTTGGTGACTGTTTCAAGCCATAGAGGGATTTTTTTAATTTACAAATTTTACTGCATCCGAGATCTTTTTCAAAACCTGGGGTAAGTCCATAAAAACTTCTTCCTCGAGACCGCCATTTAGAAATGCATTTTTTACGTCAAGTTGGTAAAATGACCAATCTGAATTGACTGCAAGAGACAAAAGTACTCGAATAGAGTTAATTTTAGCAACTGGGGCAAACGTTTCCTGATAACTAATCCCATACGTTTGGATGAACCCTTTAGCTACTAGTCTGGCCTTATATCTCTCAATACTGCCATCTGCATTGCATTTTATAGTGAACACCCATTTACAACCCACTGGTTTCTTATCTTTTGGCAACTCTACTATTTCCCAAGTCCCATTTTGTTTTAGAGCATTCATCTCCTCTATAAGTGCAACTTTCCAATTTGGATCTTCTAAGGCTTCATGTATATTCTTTGGAACAAACAAGTCATTTATCCTAGATGTGAAGGCTTTATGACTATTTGACAATTTTTTATATGACATGTAGTTTGCAATAGGGTATTTGGTACAACTTCGAGTACCTTTTCTAATGGCTATGGGAATATCAAGATCAGATACAATTGGTAAAGTATTATGAATAGTTGAAGTAGGAATGAAAGAAGAATTACCAGACTCTCCAGTTTCAGTCGTCGGAGTCTTAGATTGGTTCTGTGAAGGATCAACTATCTGGTCTTGGTTCCTCTGATTGAATTTTCTTCTAGTATAAAACTTAAACTTAGGAACTTGATCAGTAGGATCGTTATGTAGTATTTCTCCCCCTGATTGAGAAGTTTCTATACTTGGCACCAAAGGACTAGTAACATCAGGACAAATAAGATTAGGAAGAGGGGTAAAAACATCCCAAAAGTTATCTTCCAAATTTGGTTTCTCCCCCTGAAGAGAACTTTGGGTAAAATATGGTTGATTTTCTAAAAAGGACATCCATGCTCACAAAACATTTTTTTGTCTGAGGATCAAAACATTTATAGCCTTTTTGATTTGAAGAGTAACCTAAAAAAATGCATTTAACAGCTCTATGATCAAGTTTGGACCGAAAGTGACTAGGGATGTGAACATAAGTAGTACACCCAAAAACTTTGAGAGGTAAATCAGAATATAGGCGAGATTTCGAAAAAATATTTTTAAAGCAATCAATGGGAGTTTTAAAATTTAAGATCTTACTAGGCATTCTATTTATTAGATAAGTAGCAGTGAGAATTGCTTCGCCCCATAAATATTTCGGAACATGCATGGAAAACATGATAGAACGACGACAACGACGACTTCTGTGGAAATGGCGACAGTAAGAGCTCGAGTTAAAAAAAAATTAGGGTTTTGGGAGGATGTAGCGGTGGCTTGTAGCTTGGACGACGACAAAAGGAAACCCACGAAGTAAAACACGGTGAGTCTTCGAACAAGATGATGTAGCAACGAAAATGTATGGGTGTAGGCAAAAACGAGACCACCGGCGTCAGAAGTAGGATGCACCAATCAAGAATGGCGGCTAGGGTTCCGACGACGGTGTCGGCTAGAGTTTTTAGGGTTTTTGAGACGGCTAGGGTTTAAACCCGCTCTGATACCATCTTGATTTCGAGAGTTTAAAATCATTCTCATATATCTGATATGTGCAATATAGGTCCTCTTATATAGGAGAAAGACCTATTACAAATATGGAAAGAAATAAAGACCATAAAGACTAAATATTTTACAATAAAGATTTACACACAAATATTAGAAATTCCAACATTTTCTTTTTCCCTTCTTTTTCTGTCTGGTTTGAAGTTCTACTGCTATTTTTTTTTTTTTTTTTTGATAGGAAACAAAGAGTATTTCATTGATATATGAAATAGATACAAAAGACGTATCGAGATAATTACATGAGACTTCTCCAATTAATCATAAGGGAGGATAGGGAGTAATTACAAAAAAGGGGGAAGTGTCTACTCCAAAAGAGGGCCATATGAGTAGTGGATTCAATAAAAGAGCAGATACTTTGTTGCTTATCAGTGAAGACCCTAGCATTTCTTTCCAACCAAAGTTCCATAAAAATGCATACAAAAAATTATGCCAAACCATCATCTTGTCTTTTCTGAAGGGATGACCAAGAATAGTGTATGAGAGAAGGGAGAAGATATCACCCGGACGAGCAAATTGCCACCCAAAAGCGTGTTGGAGATGATTCCAGAAAGCGGCAGCAAAGTCACAGCTGCCGAACAAATGGGCTTGAGATTCATAGGCTTTGTAGCATAGACAGCAGCAACTGGGAGAGAGATATGATCCAGGGTTTCTTCTTTGCAAAATATCTGCTGTGTTAATACACCCATGGCTAAGCTCCCACATAAAAAATTTAACTTTTTTGGCATAGAACTTTTCCATAATTGGTCATAAATAACCTCTTTATCGGTGCACGAGGGGAGGCCAATTTTTTAGTGAGAGAGCTCGTGGTGAAGAAGTCAAGGTTTCCAAGCTGCCACTTCCAAGAGTCTTCCTCATCCTTGAAGGTGAAGCTCGAGAGGTGATGAGATAAAATGGCCCATTCAAGAATTTCAGCCTCATTAAGATTTCTTCTCAAGTGAAGATTTCACAACCCGGTGGATGGATTCCATAAATCAGCAATGAATGCATCTTTTTTAAGAGACATGATACAGAGAGGGGTATTTGGTCATAAGAGGAGATGTGCCAAGCCATAAGTCTTTCCAAAAAGAGTTTTGTCACCTCTGCCAACTCTAGATTCAACATAATCATATATGAAGTGCTGTAGGTTATGGATCGATTTCCATGGACCTTTAGAGGAGCTAATAGATTGGTTTCCCACTTTAGAGGATTACGAGCCACCCCATATTTGGCTGCGATAACACCCCTCCATAAAGCCGTGGGCTCTTGGTAGAATCTCCATATCCATTTAGCCAATAGGGAGACGTTTTTGTTATGAATGTCATAGATGCCTAGTCCTCCATCTACAATAGGGGCTTGTACAGTAGACCATTTGAGAAGGGGCTTGTACAGTAGTCCTCCATCTACAAGCTTGATTACTTTGAATTGCGGCATCTGTACGAGCCATAAATTCTTTCATCATCGCCTCGAGAGAATTCCCCGAATTTTGCTGGGGCAAAGCCTGCTTATTTTTCTGAGGCAATACCTGCGCTTTAGCAAATCCCAGCTGATTCATTTTTTGTTGTGCTTGCACGTTATTTCCTTGACCTCCCCATGAGAAGTTGGGGTGGTTGCGCCAACCTGGATTATAAAAATTAGAGTAAGGGTTATTCCTCTGATTACCTACAAAAAAACACAGAAGCTGGATTGCTGGGGCAAAACTCGCAGTTGTGATTTTCACCACAATAGACACATGCTTCCTCTGCCACTTGGTTCACCACTGCAGTAGGCTCCATAACTGGTGGCTGCTGATGACTAATCACTGTCACATTCTTAAGAGCATTAGCAATCATAACAAGATCAACCCTAATGGTGGACACACCTACCTCTAATATACTCTTAACCTTTTTATTTGTGCCTCTAACATCCGACCACTGACAACTATTAATAGATATTCTTTCTAAAATTTCATAAGCTTCATCAAAAGTTTTTGCCAAAGGAACAATCAGTATAGCCTTTCAATCTCCTTGGTGACTTTCTTAGGGGCTAGAAACAAAGAGAAATAATAAATTGGGAGATTTGCAAGGGTGGCTTGTATAAGGGTGTGTCTACCTCCCTTTGATATATTAGAGGATCCCCAATTGAGCAATCTTTTTGAATTTTCTCGATCACCGGGGTCCAAAAGCTGATTCTTCTCGGGTTTCCATTAAGAGGGAGGCCTAGATATGAAGTCGGCCATGAACCCACTTTGCACTCGAAAATAGAGGCTAGATGAGTAACCTGTTGAGGATCAATGCCAAGACCCAAAAATTCAGTCTTATTATGATTGATTTTCAGCCTCGATGCCGCCTCAAAGGAGCAAATAACATTGAAGAGATTCGTGATAAGATCCTGACTTGGGGAGGAGAAAAGGATGGTATCGTCAGCCAACTGAAGAGGGGTGATATTAACGGGTTGTGTGTTGTTACCAACCCAGAAACCTTCTATAGAGCCACACTGTTTCGCTGATAAAAGCATTCTACTTAAGCAATCAACCACAATGATGAATAGGAAGGGGGATAAGGGGTCTCCTTGTCTAAGACCTCGAGTGGCTTTGATTTTACCACCTGGCTTTCCATTAATGATAATGGAGTAATTGACCGATGAGATACATCCTCTGAGCCATTTTCTCCATAGCTGGCCAAAACCTTTTGCAGCTAAAACTGCATCAAGAAAGTCTCAATCAACCTTGTCGAAGGCTTTCTCTATGTCTAGCTTGATGACCACCCCTTTCGATTCTTCTTATTTCACTCATCGGTTAACTCATGGGCAATCAAAGAGGCGTCAGTGATCTGTCTGTTACCAACAAAAGCCGATTGATAATGGATGATTGTATTTGGAAGAACTTTTATAAGACGGTCAGAGAGGACTCGGGCAATAATCTTGTATAAGCAAGTAGTCAAACTGATAGGTCTATACTCTCCAACAGTTTTGGCACCAATCTTCTTTGGAATGAGGCAAATATAGGTTTCGTTGAGGCTTGCATTAATGATACCATTCTTAAAAAAATCATTGAACACTCCCTTTATATCGTCCTTGAGGATGTTCCATGATTTTTTAAAGAATTTGGTCGTGAAACCATCCGGGCTCGGGGTCTTGTTCGTGCCTAAATCTTGGACAGCCCTGTAAATCTCTGCATCAGAAAATGGGGCTTCTAAAGCTGCTTGCTGTTTGATAGAAATGGGATTCCATTCATCAATAATAGGTAAGGGGGGCCGATTGTTCTGTTTAGAAAACAAATTCTTGTAGAATGAGATGAACCTCCCTTTCAATTTCCTCGTCGGTTGTGTGACTGATACCTGAGGCTGATAAAATTTCAATAATGGAGCTCTTCCTTCTATTATTAGCCATCAATCGGTGGAAGAATGAAGTATTAGCATCTCCTTCCCTGAACCACTTCAACTTGCATTGTTGACACCATATAATTTCCTCATTTGCCGCAATAGTGATCAATTCAGCCTTTATCTCAGTCCTTCTACAAATATTAGATTCGAAAATAAGGCCATTTTCCTCCCTTTTGTCAATAACCGATAGTTCCTGACTAAGGGTGTTTCTTTTTTCAGCTTGCTGACCGAAAACGTGCTGATTCCATTGCTTCAACTCTCTTTTCAGGCCCTTTAGCTTCTGGATAAACCCATGACCAGCCCAGCCATTAGAAGGGTTTCTATGCCACCAAGATTCAACCGTTTGATGGAAGGATTTGTGGGAGAGCCGGGCATTGATGAATCTGAAAGAGGAAGGACCCCATCATTGATTACACAAAGTAAGACAAATAAGGGAGTGATCAGAGGTGATTCTCTCCAATTTGCGGGATGAAGCAGATCCAAATTTGGAGGATATACTGTCGGAGAGCAAAAATCTGTTGATGAGAGACATAGAGGGGTTTGGCCTGAAGCTTGACCATGTGTATTTGCCATTAGAGAGAGGAATGTCTTGGAGAGCTGCTGAATCAATAAAAAGATTGAATTTCCTCATGGCTCGGGTGGGGCCGACATATGGAGGAGATTTTTCCCAAGACCATCTAGTAATGTTGAAATCACCTCCAAGGATCCAGTTGGGAGAGCAAAGAGCCTGTAAATTAGATAATTCCCTCCAAAACCGTTTTCTATCACGGGAAATATTTGGGCCATACACCCCTGTAATCCAGAAGGCGAACCCATCGGCAAGAGAAAGATGGATGGTTAAGGAAAAAGTACTTTCAATGACTTCTAGCACCGTGAAGGATGATTCATTCCACAAGATGACTATACCACCGGAGGCACCCTCTACATCAAGAGAAGCCCAAACGATATTTTTGGAGCTCCAAATAGACTTAATCAATTTTCTGTCAATGCTGGTCAACTTTGTTTCTTGTAGAATAACCAGGGAAGGATTTTGAGACAAGAGAAAGTCTTTTATAAGAGCTCTTTTCTTCCAAGAGCCCAATCCCCTAATGTTCCATGAGATAAAAATCATGAGGAAGATCTCGACTCGCTCTTTATGAGACCTGTAGAGGTTTTATCATAGTTGACCGTGGAATGAAGATTTTGCAGCTCATGAACCCATTTTGCTTTCTTTTTTGCTGAATTTGAGATCTTCTGTCGGCTTGGCATTGGCATAATACACATGCCATGTTCTTGCAACCACGGGAAAATAATTGGCAAATAGGCTGCTGGGTCAGTGTTGATATCTTCTGCAATTAATTCCTCTGTTTCTTCCTCTTCCACATCTATTTCGATGAGAGCTGATTCAATCGGACCCATTCCCTGTTGGTTGCACGGTTCCTCAATCCTCAGAGGGGTGGGATCTTTGATGAGAGCCTGTTGCTCTTGATGCGGTTCGAAGAGTCTATGAATCGTCGGTGGGGAAGCATATATTGCTCTTTGAGACGGTGTGGATGGGAAACAACCACGGCTGTGGAGCACGAGGAAGATAAAGCCCCTTTAGAGTCTGATACAATAAGATCTGTGTTGGTGGATTGATTGGTGTCCATAAGGAGATAGGTTTCTTTGTTATTGATAATAACAGGCTTTTTGTTGACTTTGGGCTGCTGGATCGGGTTTTTTGGAGTGGGGCCAGATGGGGGTATTGGGTTGGTCAAGGGTGGCCTATCGGGTCAAAAGTAAGGGTTTTACTGGGGGCTTTTAGGGTTTTATTGGGAGCTTTAGTTGGGTAACGATCAAGAGAGGATTTTGGGGATTAGGGATCGATGGTGGCTGACGGTATATGTGGGGCCCTCTCTGTCTGATTAATCGGCGCATACTCTGTTGATGTGAAGGTTTCATCAAAGGGGGCGCTTTGGTAATCGAGGTTGTACTCACTCTGTTCTGTTTCCCCATTTGTAACTATTTTTGCAGAGGCGGCGCGTGGGCTAATCACATCAGTACCACCTTTCGTCCTTTTTCCTTTATCGGCGCGTGAAGGATTGATTTCCGTCTTGGAGGCTGGTATCTTGCCATGGATTCCGGCCTGATATCCTATATGATTTTCTTCTTTGAAAAAAGGATCGATGCTAACCACTATGGGGTTGCTCGAGGATGATGGAAGATGAACTTCGGATGAAGCCCCTCCGGTTTTCCTTAATTATTATTCCTATCTCCATCATATTCATACGAGATAGGGTTTTTTGCGTTGTTTCCAGATATCCTCCACATTTATCTCCGATGATCTTGAAGGTATCGATGGACCATCTGTCCAAAGGTAGGTTTCTGACTTTTATCCATCCTCCGTATGAGGGAACCTTGGGTTCTCCCAACATTGCTTCCGAGCTCCATGAGAAGAGGCGGACCTGGAATTTTCCAACCTTGTACCATCCTTTAATATTAGCAAGGATCTGAGCTTGTTCTTCATCTTTGCAAGCGAGAAGGGCTCTGTCGGGTTGTAAGGGGCTGATGGAAGATAGGGCTGATAAGTGTTGTTGTAGAACCCGTAGGATGTCATACCAGTTGTCATGGAAGTGTTCTCTTTGGATGATGACCGAGGAAGATAAATATGAAGCAGCAAAGGAAGGATCGGTTGGATTAAACTCTGAGGCTGGGGTTGTTGGAGCTGTGGTGAGTTGTGGTCCCCTTGGTTCCTCTTTAATGCTTCCATGTAGGAGACATTCCTTTTCTCATTATCAACTAATCGAGGCTCATAAACTTTTTGAGTGCTGTGTTGGGAGAGGGAGTTAATGCAGGTTATGAGGCTGTTCCATCCTTTTCGGTTCTCACCCACTAGTACAATAAGTTATTAATGCCTCCATTGGGACCCAATTTTGCTATTTCCGCTGAGTGCCCTCTTTTACTTGATATTTTCTCAACCCAAACAACAGCTTCATCTATTCTGGTTTCATTGAAAAATTTATGGGTCAAGGGAAGATCACGGAGCCTTTCAAAACATAAGCGAAGTCATGGCAGGATCTCTTTGGAGAGGGTCAGGGTGAAGCTTTTCTCTTTGTTGGCTTCAGTAAGGCAGAAGAGGTGTGGGTTCCTCTGGTCGATGGTTATGGAAAAAGTTTTTCTTTCGATCTTGAAGGTGGAGGCTGTCGGGGACATCATGATTGGATGGGCTGGACGGTGGCCGTTGGTCGATGGGGTGGAGGGTCATGGCGGGGGAATAGAGGATGGCCGGCGGGAGTTGAGGTGGTGGAGGGAGAGAGAGAGAGGGAGGGGGAGAGAGGATCATGGCGCTCGTTTTCCTATAAGGTCAAGCAAACATTCTACTGCTATTTTTTTATTATGATTCTTTCCGATTGCTGTGGATCTTCACCGCTTAAGATCTACTTACAGATTTGCAATCATTTATGTAACAAAGGATATTTTGGTTGAGTAGGATTTGTAGGGAACTTTGATCACTTGGGTTCTGCTGGTAATCGTTAGTTAACATGTAATCAGGTAAAAATTAAAAAAAAAAGTATGGTGAACTTACAATGGGCATTTTATAGTTACTATTTACATAAAATAATCCCACACCAGTTTTCTCCCAAGGTAAAATAGTATCCTCTATTTTCAATCACCAACATGCTCATGGCGCTCTCTCTCTTGCTTTCACTCTTCCCCTGCCTCTCACATAGCTTTCTCCCTTGCTCCCATGGCTTCCTAAACACTAGTCTCTTGCTGGAGTGGAACTACACCAAGTACTCTCTCACCATCGATTGTAACTCTTTCGATAGAATATGACGGTAAGTCTTTTCTTTCGATAGAATATGACGGTAAGTACAAAGACAGTTATTCTAGGATCTTTGAACGCAGTCATGACGACATTCTTTCCATCACTCTTCAATGGAGCTCTCTTTCCTTGCTCTTAGATGTTTTATGACTCTCCCCTAGACCACAAGCTCTTTGAGTAACATGGTATAGATGACTACTCCTTGAGTTTTGAAAAGGTTATTAAAAAGAGTGGCTACCATACTAAATTCACAAAGCTCGATATAGATGGAGGCAAAGGCTGAATCACAAATTATTTGAGATATCTTTTGGGAACGATGTAGAGGAGATGGTGGTATGCACGACATTAATTGGGAGATAACTCAACTTCCTTGTCTCTTGGGAGGTCTAGGCATAAGCAATTTTCAGCTTAGGAACTTGAACTCTTTTGGTTAAATGGATTTGACGATTTTTGCATGAGCAAGACTTGCTTTGGCTTAACAGCATTGTTGGTAAATATTATCAATCAAAGACTAATTGTATTTGGAAACCACATTTTGAGGGGCCCTTACAAGTCTCCTTGGCGAATTATTTACTACCATTGATTTAGTTGCTAACCAAGTGTAAAGATGTCTTGGGAATGGCCTTCTCGCATCTTTCCGGCATGATTCATGGCTGACTTGTGGGATTATTTCTGCAGCTTTTCCAAGAATCCATTGGTTAACTTCTCCATCTATTGATATGGTTGCATAAGCTTGGAATAGTTCACAAGAAGCTTGGAATTGGGTCTTCAACGAAATCTGAACAATTTGGAAGTGCGTGCTTGATTAGGTCAACACCAAGAGTCATTCATTGGTCAGCACCGAGAGTCATTCATTGGTTGTAAAGTCATGGCCAAAAACATCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTAGACCACAGGAATGGGTCCTAGTCCAAAATAATAAGACCGAGCTGATAATTACAAAAAGGCTTAGAAACAAACACCCACAAAGACGAGTTAAATCTAATCGTCTCCCAAAGCTCATTCGTGGATCTCTCCACCCCTCTAAAAATTCTACTATTTCTCTCAAGCCAAATATCCCACAAAATTGCAAAGAAACACACTTGCCAAAGAACTCTCCCTTTGTCACGGAAGGGAGGATGCCATAGGATTTCCTCAAACATAGAGAAGCAGTCACTGTTACGAGCCGAAACAACCCAAAGGTCAGGTTTAATATTCTCCCAATTTTTCTAATAAAAAGCCATAGTGAAACCATCGGGCCCAGGTGACTTGGCTTTATCAAAGTTGAAAACTACCCTTACGGATTTGCTCCAACGTGATTGGGGCTTCTAACTCCTCCTTATCTTTGCTTGGGGTAGGGCTCCAATCCAAACCTTCCACAGAAGGCCTAGAAACTGGAGGGGGGCATATAGCTTAGAAAAGAAAGAGATGATCTCTTCTTCTAACTTAGGATTTTTCCTCCCCACCTCCCCACCTCACCATTGCCCCTAATCAAGAGATCAATACGGTTCTTACTTCTCCTACCCCTAGCATAATTCTGGAAGAAGGTAGTATTGGCATCCCCCTCTCTAACCCACCTCACTTTAGCCTTTTGCCCCCAGCTAATGTCCTCACTACGAATCAAGGCTTCAAGCTCCACCCTAAGAGAAATCACGCTCTCTCATCAACTCCAAAGACAAACCTCCCTGGACTTCTAACGCATCAATGACCTTCATCCTACCTATTACCTCTTCCTTTTTCCTCTCAGTTATACCAAAAACTGAAAGGTTCCACTTCTTCAAAGCCTCTTTAAGGGATTTAAGCTTCCAAAGGAATCAAAATCCTTCCCAAGGCCCGTCAACACTCGAGTTCCACCAAGAGACAAGAAGACTTGAAGGAAGGACAAGAAAGCCACATATTTTCAAATTTGAAGGGGTACGGGCCCCATTGCAGCTTGTCTAAAGTTAGAATAAGGGGTCAATGATCAGAGATAATTCTAGGGCCAACTAACTGTCTAGCTTCAGGGAACTGATCCCCCTAACCTTTAGAGAAGAGAAATCTATCAAGCCTACAACATAACAGTTATTTTATTTTTATATTTGAGTGTCCGAGCCAGCTTGCGTGCACTTCGACTAATCTCACGGGACAACTATCTGACCTGACTACGTGTCCGTTTGGCGTTGTTGTGGATGGGTTATAAGTGATTATAGGAAAATCTTAACTAGGTGTTTGGTAAACCTGACTTTTTATTAATTTATGGAAAATCTATTTCGAATTCTTTAGATTTACAAAATCTATTCAATCGTAGCTTTTGAAAATAACTTTCCGAACAATCAGGCGTCTATTTTAACAATTTTACAAAATACCAAGTATATCCTTCCCTAATTTTATTTTCACACCTCTTATCGATCCCTTTGTCAGGTTAGTTTAATTTTTTAAAAACTTTTTTCGTAATCGTTCTTCTACTTTTGAGATGATAAAAAGAATGATTGAATTTTCAATAACTTGTGTTCTTGGTTTACAATTTTGTGTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTATCTTAATCATATTTTTCCTTAAATTTTGTTTGTACTTAAATTGGAATAATATTTGTTCATTACAATGTTATAATATTTTATCATATAATTTAAAATAAGAAAGTATAAATTTTTAGAATAACAAAATAGAAATTTAAATTCAAACTATAATAAAATTTAAATAATTATCTTATAACAATTTAAATATTGGGTATCAATATAAAAATAATCAAAATGGATATGTCCACTTTCGTCATTATAACTAAATCGCAACAATCTCGTTTGAATTTACCAAACACTATAACCTGCTTTTTCATGTTTAACACTGAAATTTACCAAACACTAATTTACTACTAGTTACAGCTGATTTTTTTAAAAGCACAGTTGCCAGTAATTATTTTAAAAGCTACAGCAATCCCAAATTAAGCCTACATTTGGTTGCCAGGAAACATGTAGGATATTAAATCCTAGGTAGGTGACCATCATGGATTGATGAACCTATTCTCTTGAAGCCCTTTTATTTTTTTTTCATGGCCCTTATTGACCACTAGGCCAACCCATGATGGTTTTTAAGGCATGCTTTTTAAAAGTTCGATGCTTCATTGGAGTGCCCTTGATAGGATTTTTTGTAATTATTCGGCTGCCATGATTATGCTTTATTGGAAGGCTTTTGTGTAGTTTTTCTCGGAAAGGGATGCCTTATCCCTTGTCCTTTGGCTGTTTTTTTGTTGTGGCATTCTTGAATGAAAGTTCTATATTTCTTCTTTAAAAAAAAAACCAGTTTACATATATCTCGATCAATCTTATGAGACAATCGTCTAACCATATAACATTTGGTTGCCAAAAAACTTTGTAAAATTTTAAATCTTAGGTAGATGATCGGTTTGGAACCATTTTCTTGAAGCACATTTACTTTCTTATTGGTCCTAAGTTCCTAATGAATGACTATAGAAACGGTTATTAACAATAGAAGGCTTCCTTACAGCATTGTTTTGGGGAGGAGTTTTCTCTCCCTGGACCTTTGGGTGCTCTTTGGTTTTGTGTGAATATAAGGTTTCTCAGTTTCTTATTTTTTTAAAAAACCATTGGGCCTAATCATTGACCCGTCATTAAGTGTAGGATCTTCTCCTAGGTGCTTCACCGTCTGTTTTCTTTGTCCTTTTTTCTGTATTTTTCTTCCTTCTGAAATGTCTCTGTCACTATTTCTGAAAGTTGTTGTCATTAGAGTTCCATTAAAAGATGCCTCCATTTCTTCTCCTTTCAGGCAAGAATTCTCATCTCTGATTTTTCATTTTAATCAATAGTGATTTATTGAAGCCTTATAACCTTCAGTGACCTTTTAATCAGTGTCGGATATTGACATGCTTTGGACACGTGTCCGACACGTCAAATTAAGTGCGCTTTTTTTATTACGTTCTTTTTTTTTTTTTCGTTTTTGGACCTGCTGGGATACGTTTGAGACACTTCTTGGACTGGGTGAGGAGAAAAAAAGTATAACTTACCCTATAAAGTGTCTAACCCATCTTTTTAAAACCCTAAGTGATAGAAGAAGTGTAGCTTTTGGGAGAAAAATGATTGTTCTTTTTTTTTTACTAGTCTCCAAAAAAACAATTAGGTATAGAGTACAGACAAATACATAAAAGGAAAGAATTCAAGAATGAATAAAATCTAATCTAAATAAGGGAAAATAAAATAGAATGAAATAATCTACACTCCCCCTCAAGCTGGATTGTATATAGTATACAAGCCAAGCTTGGAGTTGAATTCTTCAAAACTTGTCCTTGGTAGAGCTTTGGTGAGAATGTCAACAACTTGATGACGAGATGGAACATAGTTTAGTTCCACTATTCTATTGTTGACCTTCTCAAATATGAAATGTCGATCTATCTCTATGTGCTTTGTTTTGTCATGATGAACAAGATTCTTTGCAATACTGATGGCTGATTGACTATCACAAAACATTTTAACTGTGTTCTGAGTATCAATTTTCAATTATGTCAAAAGTTTCTGAATCCATATTCCTTCACATATTCACAAAGCAAGAGCTCTGTATTTCGCTTCTGCACTGCTTCTTGCAACGACTTGTTTTTTACTTCTCCAAGTGACCAAGTTACCCCAAACATAGGAACAATAGCCTGTCGTAGATTTTCGGTCCGTTAATTCTCCAGCCCAACTAGCATCAGTATAGAGTTCTACCATTTTGTTTGAAGATTTTCTAAATAATAAACCATGACCTGGAGTGCCTTTCAAGTATTTCAAAATTCTGTTCACAGCTCCAAGATGGTGTTCATTTGGATTGTTCATATACTGGCTAACAATGCTCACAGAGTATGCAATGTCTGGTCTGGTATGTGATAAATAAATCAACTTTCCTACAAGTCTTTGATACATACCTTTATTGACTGGAATAACTTCTTCACTTTGGTGTAAAGTTAGATTTGGATCCATGAGTGTTTCTGCAGGTCTACACCCAAGATTTCCCGTCTCCTTTAATAGATCTAGGATATACTTTCTCTGAGAAATTATAATACCATTATTGGATCGTGCCACTTCCATGCCTAGAAAATATCTTAAGCTTCCTAGATCTTTGATTTCAAACTCAGTTGCAAGCATCATTTTGAGGTTGATGATCTCTTCTATATCATTCCCTGTAATGATGATGTCATCCACATATACAATCAACATTGCAGTTTTGTTATTTGAGGATTTCACAAACAAGGGATGATCAGCTTGACATTGATAATAGCCACTTTTAACTAGAGTTTTAGTGAATCTATCGAACCTCAAAATGACCAACCCGGGTTGGGTTGGGTTGGGTTGATGGGGTTTTTTGGACCAACCCGAATTTTCGGGTTGGTCGGGTTCGCTACCCGAATGAACCGAGCGATGGTAGCAACCCAACCCAACCCAACCCTTCTATTTTCGGGTTGGGTTGGGTTGGGTTGTCGGGTTGTCTATTTTTTTAATTTCTTAATTATTTAAAATTAATTTTTCTTTTGATCAGAAAAAATAAAAAACATTCAGTTACATATTAGAAAAAAAAAACGAAAATTGAAAACAAAAAATAAAAACAAATATTTGCACATTATGTGACTCGAACATAGGACTTCCAGAATCCTAAAGAAGACAACAACCACTATGCCATTCACGTGACACGTTAAATAAATAGCAAACATTATATATATTCGGTTCGGTTCGGGTTGAACCGAGCCAAAATTTTCTCAACCCGTGAACCGAACCGAATTTTCGGTTTTATAAAATTTCAACCCAACCCAAACCGAAAAAAAGCCTAACCCAACCCAACCCTTACGGTTTGGGTTGGGTAGTCCGGGTTGTTCGGGTTGTCGGGTTTTTTGAACACCCCTACCAAACACGTGGAGATTGTTTCAAACCATATAGAGATTTTCTCAACTTACATACCAAGTTACTGTTAGACTTGTCTTCCATTCCAGGGGGAATTTTCATATAAACTTCTTCTTCAAGGTCACCATTCAAGAATGCATTCTTAACATCAAGTTGGTGAAGTGGCCAATCCCGGTTCACAGTTAGAGACAGTAAAACACGCACAATATTTAACTTTGCAACAGGGGCAAAAGTTTCTTGGTAATCTACACCATATGACTGAGTGAAGCCCTTCGCAACAAGTCTGACTTTAAACCGTTCCACACTGCCATCGGATTTATATTTAACCGTGAAAATCCATTTGCAACCAACTGGATTCTTTCCATGAGGAAGTTGAGTAAGAGTCTGCGTTCCATTGCTTTCAAGAGCTCTGATTTCTTCATCCACTGCCTTTTTCCATTTCAGATCTTTGAGTGCATCATGAATGGTTTGTGGAATGTGAATACTGTCCAACTGAGTAATAAATGCTTTATAAGTAGGAAGCAATTTCCCATATGCAACATATTTTTCAATGGGATGGCTAGTGCAACTTCTAAGACCTTTTCTTTGAGCAATCGGTAGGGTTAGATCATCGATCACAGGTGCCATAAATGTGATGTTCTCATCAGTAGAATTCAGTGATGATGAATTTGGTTCAGGTGGTTGACATTCTTGGTTTTTCAAGGTAGCATATTTTCTTCTTGTATAAACAATAGGTGTGCGATTTTGAGGAGCTTCAGGAATATTAGACTCAGAAATAGGTGGTGCGTCTATGGTAGGGACTAAGGTCTCATTTGTGATAGGAATAGTAGGAATGACAGAACTAGGCTCAACATCCAGTGGCTCAAATTCCCTCATATTCTCCCCCTGAATTTGAGACTTGATAAAGAAAGGATGATTTTCAAAGAATGTAACATCCATGGATGTGTACATTTTTCTAGTGACAGGAGAATAACAGTTGTACCCCTTTTTGTGGGATGCATAACCTAGAAAAATGCACTTGATGGATTTTGGATCAAGTTTAGACTGGTGAGGAGAATGGTTATGAACAAAGGAAGAACAACCAAACACCCGAAGAGGTAAGTTTGAAGAAAGATTTTGGAATTGGGGATGAATTTGGAGGACATCTCGAGGGGATTTGAAGGTGAGAACACGACTCGACAGTCGGTTGATAAGAAAGGTTGTAGTAAGAATAGCTTCCCCCAAAAAATGTTTAGGAACATTAGTAGAAAACATGAGAGAACGGGGCTACCTCAAGAAGATGCCTATTTTTTCGTTTAGCAATCCCATTTTGTTGAGGAGTGTCCACACATGAACTAGTATGGACGATACCATGATATGATAGATATGGACCAAGAGCTGAATTGAAATAGTCTCGAGCATTATCAGTTCTAAGAACTTGAATTTTACTTCTAAATTGAGTAGAGATCATCGCATGGAAAGAACGAAAAAGATTGGATGTTTTAGATTTGTTCTTCATTAGAAAGGTCCAAGTCATCCTGGTATGGTCATCAATAAAGGTGAGAAACCATCGTGCACCCGATATATTGTTCACTCTAGAAGGCCCCCAAATATCACTATGGATAAGTGAAAACGGTTTTGAAGATTTATAAGGCACACTAGGATAAACATTTCTTGTGTGTTTAGAGAATTGACACGTTTCACACTGAAAAGAACTTGGTTTTTTTGATGTAGCCGATTATATGCCTATTAGCTAGTTATCTCTTTAGTATGCCATGTGAGAAACATGTGCCTTGTAACCACTTTTAGTTAGTTCCTTTGCCTATTTAAGGGTTGGAACTTCATTAATAAAGATCATTCTCTCATTCTAATTATCATCTAGCAATCGGCTACACCATATTTGGTATCAGAGCGCACGATTTTTGGGCGCTTCCACTATGACGACCAAGAGAGTCTCGACCAACGTGGGAGGAGATTCATCTTCGGTTGGAAAAGAGGCGGAGTCAACCACTGTCCTCTCACCACGAGCAACAACCGTACGTTTGCTGTCGGTTGAACAAGATGTGAAAATCTTGAAGAATGATGTGGGTGAGATCAAGAAAACCTTAGAAATAATCTGCAAGAAGTTAGGAATTAAACCAGATCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACAATCGACAAACCCGATGATGCAAGAAAAGCTAGGAATGGAACAAAGAATGGTCCAAGAAGCAGATTTTCCTGCAAGAATCCATCAAGAACGCCAACCAATGCTCCAAGAATTCAACAATAATCCCTTGTATAGAAGACAACAAGACGGGACGGACTCCTTGAGAAACAAGGACCTTGGAAAGATGGGAAACAAGGGGAAACCAAGCTGTAACCTAATGGGGAAATCTACCATGGAGAGAACTTATCAAGAACAAGATAAAACATCTTGGGAATTGGAAGAAAGGATGGGACAGCAGCAAGAAAGACAAACAATGGAGCAAAGAATAGTTCAAGAAACATATTTAGCTCCAAGAAAGTATCAAGAACAACATCAAGACTTCCACATCAATCCATTACATAATTGGCAGCATAGGCCCCTTCATGTTTTCATGCTGGAAGACTTAACAATTATTCAGAATAATTTATATCGTCTTACATCTCTTCAGTCTAGTTTTAGCTGCAATATGGTGGGTATCATTAATGGACAACCTAAACTCATGGGTCTGAAGGAATTGTTGCAGGCATTTTTGGACTTCCGGTGTTCTGTTGTAGAGAGACGTGCAAGGTTTAAGCTATCACAGGCACAAGAGAGGAGACACATTGTTGAGGGTATTGTTATCGGACTTGATAATTTGGATGGAGTGATTCATTTGATAAGGGAAGCCTCCAGAAATTCTATTGCATCTGCCAATCTGAGGACTCAATTCAGCCTTTCTGATAAACAAGCTGAAGCTATATTGGACATTAATCTTAGGAGACTTACACACCTCGAGAGGAAAAAGTTTATTGATGAAAGTAAATCCTTAATGGAAAATATTTCCAAATTAGAGGAGTTGTTGTCTAGCAGGAACAACATACTTAATAGAACAAGAAGCAATTGAGCTGAAAAACAAGTTTCCCAATCCTAGGCGTTCGATTTTGGAAGACACTGTTAGTGGTCAACTTGAAGACATCGATGTCATTCCAAATGAAGAGATGCTTTTGGCACTTAGTGAAAAAGGTTATGTTGTTAAAGCTGATATAACCCAAGCATTGAAAAGAGAGGGAAACTTTGGAAGAAGGGTAAAGATTGGTATAGGCTAGATGGAAGAATTGGGAGTTGTAAAAGACAGAAGTTTATTTCTCGAGAAGAAATGTTGCATCTTTTTGGCCGTTTATTACCTAACTCGAGGTCGAGTTATTTTTGTTGGGCGAGGAAATTGATGTAGCCGATTATATGCCTATTAGCTAGTTATCTCTTTAGTATGCCATGTGAGAAACATGTGCCTTGTAACCACTTTTAGTTAGTTCATTTGCCTATTTAAGGGTTGGAACTTCATTAATAAAGATCATTCTCTCATTCTAATTATCATCTAGCAATCGGCTACACCATTTTTATTGATAAATAAATCAGGAAACAACTTTTCGAGGTACATGAAATTTGGATGACCAAGGTGAAAATGCCATAACATAACTTGACTTTCAATTGATAAAGACTCTGACTGGGAAACAAAACTAACAGACTGAGAACAAGACTTAGAACTAGGACTGACGACGGAACAGGAAGGCCACTGTTCATGACGAAGGAATAGTTGTGGAGGATAGTGGGTCGCCGGAGAAGACGGAGAATGGGTCGTTGGAGAACGTGTGGATGGGTCGCCGGAGCAGACAGAGAATGGGTCGTCGGGAGGTGGGCTCGCCTGAGTGTTGTCAGAAAAAGGAGGGCCGCCGGAGAAATTAGGATTTTTGACGCTAGGGTTTTATTTTAAGGTTTTGCTCTGATACCATGTAGCTTTTGGGAGAAAAATGATTGTTCTTTTTTTTTTACTAGTCTCCAAAAAACAATTAGGTATAGAGTACAGACAAATACATAAAAGGATTCAAGAAGGAATAAAATCTAATCTAAATAAGGAAAAATAAAATAGAATGAAATAATCTACCAGAAGGAACTCTAAGTGATTGAAGAAGAAGGGGGTGAATCACTAGTTGAGTTACATTGAAGATCCTTGCCATCACACCCACACCTGTTTGTTAAATAAACCATACCTATTTTGATGGGATCTTCTTTTTCCTTCTCTCATAGCTGTCGTTGAGAGTGTGAGAGAGAGATTGGTTGCAGTTTATTTGAGAGTGAAAGCCAGATTGTGCTTGCTCTTGAAGAACTATTGTCGTTTGTGTTAGAGAGAGGATTGATTTTATTTGTTTTATTTGTGGGTGAGAGGACTGATTTTAATTTGACTGCTGCATGCCACGTACAGAAGGGTTTTTTTTTTGTTGAGGTGGAAGGACCATCGCCACTAGAAGCAAGGTTATACATATTAGATTTTTTTTTCTTCACATCTCAGTAAATACTTTTAATTGGATATAATAAATCAATTACTTTAAGATAAGAATTTTCTTTTCACCACGGCAAAAGTCATATTAGAGTTAAGGAGGTTAGAGATATTGCATGGTATGTTCAAACTATGCACACACATGCATGTATATATGTATGTGTGTATATATATATATATTTTTAAAACTAACATGTCCTCAACGTGTTTGGGTCCTACATTTTTCTAAAATTGGTGTATTGCCGTGTCAATGTCGTGTCGTGTGTCCGTGCTTCTTAGGTGGTCAGGAGGTTGTGACGGCCTTATGGTAGTCTCGATGCCCTATGTAAGTAAGATTTTCTGATTTAGGACTCTTTTTTGTGGCAGTTGATACATCGGCGAGGGATTACAAGCTAGGTTCCTAAATATGGAACTTGTGTGCACCATCAAATTCCCATTTGCTTTTTTGCCCTGTTTTTTTTAACCATAACTTTTGCAATTGTTCCTCTGGGGACATCCGATAAAATTGGAATGACACAGAAAATGTTCGCAATTTGGTAGAACTTGTACTTTTATGGGTTGTTTGAAAGACGTCACCCGGCACACAAGGAGAAAGATATGGTGAAAACAACATACCCTTCCGTGGGACAACATTTTAAATACCTGTTGATCCGATGTTTATTAAAATTTGTAACATTATACTGGCTGTCCTGAGTCTTCGATTCTGAGGCCTGGTTATTCAGCTACTGTTACTTCTCAATGCTGATTCTGATGCATTTTCATAACTTGTTTCTTAACCCAGATATTTGATGCAATCATTTGTGACCCTCCTTATGGAGTTCGTGCCGGGGGGCGTAAATCTGGTGGTCGGAAATTGTTAAAAGGAACTGTTGCCCCTTACACCGTTCCAGATGACAAGAGAACAGACCATATACCATCAACTGCAGCTTACAGCCTTGTTGAGTGTGTGCATGATTTACTTGACCTTGCTGCCAGGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCCTGTTTTACTTTAATCAGTTCTTCCGAGCAGATACTGAGCTCTCGATACAGCCGGGTGTTGCTAACCATGGTCAAAAGAAGTTCATACACTGAAGAAATTGCGGAGGCAGCAAGATTAAAGCATGAAGAATTCAGAGAGAATCATTTGAAGTGGTTAGAGGATGGTAATCTCCATTCTGCCGTTTTCAGTCCTGCCACTGATCCCGAACTTGCAGTTGCTGGTAATGGCAATGTGAGTAAAGACCCGAAACCGAAATACAGAGGGAAGTATGTATAA

mRNA sequence

ATGGAAATGGCTGATTATGGACTGAATAATGGTCTTCCACCAATTGCTCAAAGGAGGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGACGCTGAAATGGCTTTCTTAATGGCCAACCAAGCACTAGCGACAGCAGGGAAACTTGTCTATGATCCATTTGTTGGCACTGGGAGTATTCTAGTTGCTGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGACATTGACATCAGGGTGGTTCGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGTATGGATTACCACCCCCAATTGCACTGTTAAGAGCAGATAATAATCGTCCTCCCTGGCGTCCAGGATTGAAAGAGATATTTGATGCAATCATTTGTGACCCTCCTTATGGAGTTCGTGCCGGGGGGCGTAAATCTGGTGGTCGGAAATTGTTAAAAGGAACTGTTGCCCCTTACACCGTTCCAGATGACAAGAGAACAGACCATATACCATCAACTGCAGCTTACAGCCTTGTTGAGTGTGTGCATGATTTACTTGACCTTGCTGCCAGGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCCTGTTTTACTTTAATCAGTTCTTCCGAGCAGATACTGAGCTCTCGATACAGCCGGGTGTTGCTAACCATGGTCAAAAGAAGTTCATACACTGAAGAAATTGCGGAGGCAGCAAGATTAAAGCATGAAGAATTCAGAGAGAATCATTTGAAGTGGTTAGAGGATGGTAATCTCCATTCTGCCGTTTTCAGTCCTGCCACTGATCCCGAACTTGCAGTTGCTGGTAATGGCAATGTGAGTAAAGACCCGAAACCGAAATACAGAGGGAAGTATGTATAA

Coding sequence (CDS)

ATGGAAATGGCTGATTATGGACTGAATAATGGTCTTCCACCAATTGCTCAAAGGAGGATTTTTTTTGGTCGGGAGGTTGGTGGTGCTGATAGGAAGCTTATACCAACATATCAGTTAAAAAGTCGCACTTATCTTGGGCCAACTGCCATGGACGCTGAAATGGCTTTCTTAATGGCCAACCAAGCACTAGCGACAGCAGGGAAACTTGTCTATGATCCATTTGTTGGCACTGGGAGTATTCTAGTTGCTGCAGCTCATTTTGGAGCAATGACAATGGGTGCAGACATTGACATCAGGGTGGTTCGTGATGGTCGTGGCCCTGATTGTAATGTTTGGAGCAATTTCAAGCAGTATGGATTACCACCCCCAATTGCACTGTTAAGAGCAGATAATAATCGTCCTCCCTGGCGTCCAGGATTGAAAGAGATATTTGATGCAATCATTTGTGACCCTCCTTATGGAGTTCGTGCCGGGGGGCGTAAATCTGGTGGTCGGAAATTGTTAAAAGGAACTGTTGCCCCTTACACCGTTCCAGATGACAAGAGAACAGACCATATACCATCAACTGCAGCTTACAGCCTTGTTGAGTGTGTGCATGATTTACTTGACCTTGCTGCCAGGATGCTTGTGATGGGTGGCAGGCTTGTATTCTTCTACCCTGTGTTGAGGGAAGAAGATTGTGTGTTTAACCAATTCCCAGAGCATCCCTGTTTTACTTTAATCAGTTCTTCCGAGCAGATACTGAGCTCTCGATACAGCCGGGTGTTGCTAACCATGGTCAAAAGAAGTTCATACACTGAAGAAATTGCGGAGGCAGCAAGATTAAAGCATGAAGAATTCAGAGAGAATCATTTGAAGTGGTTAGAGGATGGTAATCTCCATTCTGCCGTTTTCAGTCCTGCCACTGATCCCGAACTTGCAGTTGCTGGTAATGGCAATGTGAGTAAAGACCCGAAACCGAAATACAGAGGGAAGTATGTATAA

Protein sequence

MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGLPPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTLISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSPATDPELAVAGNGNVSKDPKPKYRGKYV
Homology
[Close]
BLAST of Lag0001099 vs. NCBI nr
Match: XP_038888658.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Benincasa hispida])

HSP 1 Score: 649.8 bits (1675), Expect = 1.2e-182
Identity = 313/327 (95.72%), Postives = 321/327 (98.17%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           ME AD+GLNNGLPPI+QRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 METADHGLNNGLPPISQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALATAGKLVYDPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATAGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPI LLRADNNRPPWRPGLKE+FDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD
Sbjct: 274 PPPIVLLRADNNRPPWRPGLKEMFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLLDLAA+MLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTAAYSLVECVHDLLDLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKRSSYTEE+AEAARLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKRSSYTEEMAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           +TD +LAV GN N+SKDPKPKYRGKYV
Sbjct: 454 STDSQLAVGGNCNLSKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. NCBI nr
Match: XP_031744574.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis sativus])

HSP 1 Score: 646.0 bits (1665), Expect = 1.8e-181
Identity = 310/327 (94.80%), Postives = 320/327 (97.86%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           +E ADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 LETADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT+GKLV+DPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATSGKLVFDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYTVPDD
Sbjct: 274 PPPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTA+YSLVECVHDLLDLAA+MLVMGGRLVFFYP+LREEDCVFNQFPEHPCFT 
Sbjct: 334 KRTDHIPSTASYSLVECVHDLLDLAAKMLVMGGRLVFFYPMLREEDCVFNQFPEHPCFTS 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKRSSYTEE+AEAARLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKRSSYTEEMAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           + +P+L VAGNGNVSKDPKPKYRGKYV
Sbjct: 454 SVNPQLGVAGNGNVSKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. NCBI nr
Match: XP_008447182.1 (PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis melo])

HSP 1 Score: 646.0 bits (1665), Expect = 1.8e-181
Identity = 311/327 (95.11%), Postives = 320/327 (97.86%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           +E ADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 LETADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT+GKLV+DPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATSGKLVFDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYTVPDD
Sbjct: 274 PPPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTA+YSLVECVHDLLDLAA+MLVMGGRLVFFYP+LREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTASYSLVECVHDLLDLAAKMLVMGGRLVFFYPMLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           + + +L VAGNGNVSKDPKPKYRGKYV
Sbjct: 454 SVNRQLGVAGNGNVSKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. NCBI nr
Match: XP_022149033.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Momordica charantia])

HSP 1 Score: 644.8 bits (1662), Expect = 4.0e-181
Identity = 314/327 (96.02%), Postives = 319/327 (97.55%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           MEMADYGLNNGLPPIAQR IFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 157 MEMADYGLNNGLPPIAQRSIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 216

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 217 QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 276

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           P PIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYT PDD
Sbjct: 277 PSPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTXPDD 336

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDC FNQFPEHPCFTL
Sbjct: 337 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCAFNQFPEHPCFTL 396

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKR+SYTEE+AEA+RLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 397 ISSSEQILSSRYSRVLLTMVKRNSYTEELAEASRLKHEEFRENHLKWLEDGNLHSAVFSP 456

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           A DPELAVAGNG+V +DPKPKYRGKYV
Sbjct: 457 A-DPELAVAGNGSVGRDPKPKYRGKYV 482

[Close]
BLAST of Lag0001099 vs. NCBI nr
Match: XP_022932935.1 (tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita moschata] >XP_023511692.1 tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita pepo subsp. pepo])

HSP 1 Score: 642.5 bits (1656), Expect = 2.0e-180
Identity = 309/327 (94.50%), Postives = 317/327 (96.94%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           ME ADYGLNNGLPP+AQR IFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 MEAADYGLNNGLPPVAQRTIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT GKLVYDPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATPGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPI+LLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD
Sbjct: 274 PPPISLLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLL+LAA+MLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTAAYSLVECVHDLLNLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVK SSYTEE+AEAA+LKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKHSSYTEEMAEAAKLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
             DP+LAVAGN N +KDPKPKYRGKYV
Sbjct: 454 TIDPQLAVAGNCNATKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match: Q54QA6 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Dictyostelium discoideum OX=44689 GN=trmt11 PE=3 SV=1)

HSP 1 Score: 207.6 bits (527), Expect = 2.1e-52
Identity = 113/264 (42.80%), Postives = 161/264 (60.98%), Query Frame = 0 

Query: 18  RRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQALATAGKLVYDPFVGT 77
           R+++FG+ +   +R  I  Y L  R YLG T+MD E++ + AN  L   G  V DPFVGT
Sbjct: 182 RKVYFGQRIAKGNRDDIIKYNLSDRKYLGTTSMDPELSLVSANMGLVKKGHFVLDPFVGT 241

Query: 78  GSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGLPPP-IALLRADNNRPPW 137
           GS ++ A+HFGA T+G DIDI+ +R  +  DCN+ +NFK +GL    +  +  DN+ PPW
Sbjct: 242 GSFILVASHFGAQTVGCDIDIKAMR--KEEDCNLETNFKDHGLTSQFLGTILCDNSCPPW 301

Query: 138 RPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDDKRTDHIPSTAAYSLVE 197
           R  +  +FD+II DPPYG+RAG RK G ++  K       VP+  R DHIP    YS+ +
Sbjct: 302 R--VNSMFDSIITDPPYGIRAGARKIGFKENRKFV----PVPEGLRRDHIPQCIDYSVPD 361

Query: 198 CVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTLISSS-EQILSSRYSRV 257
            + DLL+LAA+ L++GGRLV++ P     D      P HPC  LI++S  QIL++R+ R 
Sbjct: 362 VMADLLELAAKTLIVGGRLVYWLPT--TPDYKETDLPRHPCLRLITASCLQILTNRWGRR 421

Query: 258 LLTMVKRSSYTEEIAEAARLKHEE 280
           L+TM K   Y + I   + L  E+
Sbjct: 422 LVTMEKIIEYNDSIHNKSLLVQED 435

[Close]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match: Q7TNK6 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Rattus norvegicus OX=10116 GN=Trmt11 PE=2 SV=1)

HSP 1 Score: 200.3 bits (508), Expect = 3.4e-50
Identity = 118/290 (40.69%), Postives = 165/290 (56.90%), Query Frame = 0 

Query: 3   MADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQA 62
           + DYGL+    P     I+FGR +    R+LI +Y +K R ++G T+MDA ++F+MAN A
Sbjct: 152 LEDYGLDPNCIPENPHNIYFGRWIADGQRELIESYSVKKRHFIGNTSMDAGLSFIMANHA 211

Query: 63  LATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVV----------RDGRGPDCNVW 122
                 LV+DPFVGTG +L+A+AHFGA   G DID   V          +  RGPD N+ 
Sbjct: 212 KVKENDLVFDPFVGTGGLLIASAHFGAYVCGTDIDYNTVHGLGKASRKNQKWRGPDENIR 271

Query: 123 SNFKQYGLPP-PIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRK-LLKG 182
           +N +QYGL    + +L +D ++P WR G    FDAII DPPYG+R   R++G +K +LKG
Sbjct: 272 ANLRQYGLEKFYLDVLVSDASKPSWRKG--TYFDAIITDPPYGIRESTRRTGSQKEILKG 331

Query: 183 TVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFN 242
                   +     H+P +  Y L +   DL++ AA  LV+GGRLV++ PV   E     
Sbjct: 332 I-------EKCPESHVPVSLTYHLSDMFLDLINFAAETLVLGGRLVYWLPVYTPE-YTEK 391

Query: 243 QFPEHPCFTLISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEF 281
             P HPC  L+S+ EQ LSS  +R L+TM K   + E   E +RL  + F
Sbjct: 392 MVPWHPCLRLVSNCEQKLSSHTARRLITMEKVKEF-ENPDEYSRLLSDHF 430

[Close]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match: Q5R962 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Pongo abelii OX=9601 GN=TRMT11 PE=2 SV=1)

HSP 1 Score: 198.4 bits (503), Expect = 1.3e-49
Identity = 120/302 (39.74%), Postives = 167/302 (55.30%), Query Frame = 0 

Query: 3   MADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQA 62
           + DYGL+    P     I+FGR +    R+LI +Y +K R ++G T+MDA ++F+MAN  
Sbjct: 152 LEDYGLDPNCIPENPHNIYFGRWIADGQRELIESYSVKKRHFIGNTSMDAGLSFIMANHG 211

Query: 63  LATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVV----------RDGRGPDCNVW 122
                 +V+DPFVGTG +L+A AHFGA   G DID   V          +  RGPD N+ 
Sbjct: 212 KVKENDIVFDPFVGTGGLLIACAHFGAYVYGTDIDYNTVHGLGKATRKNQKWRGPDENIR 271

Query: 123 SNFKQYGLPP-PIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRK-LLKG 182
           +N +QYGL    + +L +D ++P WR G    FDAII DPPYG+R   R++G +K + KG
Sbjct: 272 ANLRQYGLEKYYLDVLVSDASKPSWRKG--TYFDAIITDPPYGIRESTRRTGSQKEIPKG 331

Query: 183 TVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFN 242
                  P+     H+P + +Y L +   DLL+ AA  LV+GGRLV++ PV   E     
Sbjct: 332 IEKWEKCPE----SHVPVSLSYHLSDMFLDLLNFAAETLVLGGRLVYWLPVYTPE-YTEE 391

Query: 243 QFPEHPCFTLISSSEQILSSRYSRVLLTMVK------RSSYTEEIAE--AARLKHEEFRE 285
             P HPC  LIS+ EQ LSS  SR L+TM K      R  Y+  +++       H  FRE
Sbjct: 392 MVPWHPCLELISNCEQKLSSHTSRRLITMEKVKKFENRDQYSHLLSDHFLPYQGHNSFRE 446

[Close]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match: Q7Z4G4 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Homo sapiens OX=9606 GN=TRMT11 PE=1 SV=1)

HSP 1 Score: 198.0 bits (502), Expect = 1.7e-49
Identity = 119/302 (39.40%), Postives = 167/302 (55.30%), Query Frame = 0 

Query: 3   MADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQA 62
           + DYGL+    P     I+FGR +    R+LI +Y +K R ++G T+MDA ++F+MAN  
Sbjct: 152 LEDYGLDPNCIPENPHNIYFGRWIADGQRELIESYSVKKRHFIGNTSMDAGLSFIMANHG 211

Query: 63  LATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVV----------RDGRGPDCNVW 122
                 +V+DPFVGTG +L+A AHFGA   G DID   V          +  RGPD N+ 
Sbjct: 212 KVKENDIVFDPFVGTGGLLIACAHFGAYVYGTDIDYNTVHGLGKATRKNQKWRGPDENIR 271

Query: 123 SNFKQYGLPP-PIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRK-LLKG 182
           +N +QYGL    + +L +D ++P WR G    FDAII DPPYG+R   R++G +K + KG
Sbjct: 272 ANLRQYGLEKYYLDVLVSDASKPSWRKG--TYFDAIITDPPYGIRESTRRTGSQKEIPKG 331

Query: 183 TVAPYTVPDDKRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFN 242
                  P+     H+P + +Y L +   DLL+ AA  LV+GGRLV++ PV   E     
Sbjct: 332 IEKWEKCPE----SHVPVSLSYHLSDMFLDLLNFAAETLVLGGRLVYWLPVYTPE-YTEE 391

Query: 243 QFPEHPCFTLISSSEQILSSRYSRVLLTMVK------RSSYTEEIAE--AARLKHEEFRE 285
             P HPC  L+S+ EQ LSS  SR L+TM K      R  Y+  +++       H  FRE
Sbjct: 392 MVPWHPCLELVSNCEQKLSSHTSRRLITMEKVKKFENRDQYSHLLSDHFLPYQGHNSFRE 446

[Close]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match: Q9CWH5 (tRNA (guanine(10)-N2)-methyltransferase homolog OS=Mus musculus OX=10090 GN=Trmt11 PE=1 SV=1)

HSP 1 Score: 197.6 bits (501), Expect = 2.2e-49
Identity = 118/301 (39.20%), Postives = 166/301 (55.15%), Query Frame = 0 

Query: 3   MADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMANQA 62
           + DYGL+    P     I+FGR +    R+LI +Y +K R ++G T+MDA ++F+M N A
Sbjct: 152 LEDYGLDPNSIPKDPHNIYFGRWIADGQRELIESYSVKKRHFIGNTSMDAGLSFIMTNHA 211

Query: 63  LATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVV----------RDGRGPDCNVW 122
                 LV+DPFVGTG +L+A+AHFGA   G DID   V          +  RGPD N+ 
Sbjct: 212 KVKENDLVFDPFVGTGGLLIASAHFGAYVCGTDIDYNTVHGLGKASRKNQKWRGPDENIR 271

Query: 123 SNFKQYGLPP-PIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGT 182
           +N +QYGL    + +L +D ++P WR G    FDAII DPPYG+R   R+SG +K +   
Sbjct: 272 ANLRQYGLEKFYLDVLVSDASKPSWRKG--TYFDAIITDPPYGIRESTRRSGSQKDIPKG 331

Query: 183 VAPYTVPDDKRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQ 242
           +      +     H+P + +Y L +   DLL+ AA  LV+GGRLV++ PV   E      
Sbjct: 332 I------EKCPESHVPVSLSYHLSDMFFDLLNFAAETLVLGGRLVYWLPVYTPE-YTEEM 391

Query: 243 FPEHPCFTLISSSEQILSSRYSRVLLTMVK------RSSYTEEIAE--AARLKHEEFREN 285
            P HPC  LIS+ EQ LSS  +R L+TM K      R  Y+  +++       H  FRE 
Sbjct: 392 VPWHPCLRLISNCEQKLSSHTARRLITMEKVKEFENRDKYSHLLSDHFLPYQGHNSFREK 443

[Close]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match: A0A1S3BG98 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucumis melo OX=3656 GN=LOC103489693 PE=4 SV=1)

HSP 1 Score: 646.0 bits (1665), Expect = 8.6e-182
Identity = 311/327 (95.11%), Postives = 320/327 (97.86%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           +E ADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 LETADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT+GKLV+DPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATSGKLVFDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYTVPDD
Sbjct: 274 PPPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTA+YSLVECVHDLLDLAA+MLVMGGRLVFFYP+LREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTASYSLVECVHDLLDLAAKMLVMGGRLVFFYPMLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           + + +L VAGNGNVSKDPKPKYRGKYV
Sbjct: 454 SVNRQLGVAGNGNVSKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match: A0A6J1D5Q5 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Momordica charantia OX=3673 GN=LOC111017553 PE=4 SV=1)

HSP 1 Score: 644.8 bits (1662), Expect = 1.9e-181
Identity = 314/327 (96.02%), Postives = 319/327 (97.55%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           MEMADYGLNNGLPPIAQR IFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 157 MEMADYGLNNGLPPIAQRSIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 216

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 217 QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 276

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           P PIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYT PDD
Sbjct: 277 PSPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTXPDD 336

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDC FNQFPEHPCFTL
Sbjct: 337 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCAFNQFPEHPCFTL 396

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKR+SYTEE+AEA+RLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 397 ISSSEQILSSRYSRVLLTMVKRNSYTEELAEASRLKHEEFRENHLKWLEDGNLHSAVFSP 456

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
           A DPELAVAGNG+V +DPKPKYRGKYV
Sbjct: 457 A-DPELAVAGNGSVGRDPKPKYRGKYV 482

[Close]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match: A0A6J1F3J0 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita moschata OX=3662 GN=LOC111439552 PE=4 SV=1)

HSP 1 Score: 642.5 bits (1656), Expect = 9.5e-181
Identity = 309/327 (94.50%), Postives = 317/327 (96.94%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           ME ADYGLNNGLPP+AQR IFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 MEAADYGLNNGLPPVAQRTIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT GKLVYDPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATPGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPI+LLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD
Sbjct: 274 PPPISLLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLL+LAA+MLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTAAYSLVECVHDLLNLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVK SSYTEE+AEAA+LKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKHSSYTEEMAEAAKLKHEEFRENHLKWLEDGNLHSAVFSP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
             DP+LAVAGN N +KDPKPKYRGKYV
Sbjct: 454 TIDPQLAVAGNCNATKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match: A0A6J1ICG5 (tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita maxima OX=3661 GN=LOC111472466 PE=4 SV=1)

HSP 1 Score: 638.3 bits (1645), Expect = 1.8e-179
Identity = 307/327 (93.88%), Postives = 314/327 (96.02%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           ME ADYGLNNGLPP+AQR IFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 154 MEAADYGLNNGLPPVAQRTIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 213

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT GKLVYDPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 214 QALATPGKLVYDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 273

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD
Sbjct: 274 PPPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 333

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTAAYSLVECVHDLL+LAA+MLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL
Sbjct: 334 KRTDHIPSTAAYSLVECVHDLLNLAAKMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 393

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVK SSYT+E+AEAA+LKHEEFRENHLKWLEDGNLHSAVF P
Sbjct: 394 ISSSEQILSSRYSRVLLTMVKHSSYTKEMAEAAKLKHEEFRENHLKWLEDGNLHSAVFGP 453

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
             DP L VAGN N +KDPKPKYRGKYV
Sbjct: 454 TIDPRLTVAGNCNATKDPKPKYRGKYV 480

[Close]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match: A0A5A7TF32 (tRNA (Guanine(10)-N2)-methyltransferase-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold67G003460 PE=4 SV=1)

HSP 1 Score: 618.2 bits (1593), Expect = 1.9e-173
Identity = 298/314 (94.90%), Postives = 307/314 (97.77%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           +E ADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 265 LETADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 324

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QALAT+GKLV+DPFVGTGSILV AAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 325 QALATSGKLVFDPFVGTGSILVGAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 384

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           PPPIALLRADNN PPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKG VAPYTVPDD
Sbjct: 385 PPPIALLRADNNLPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGIVAPYTVPDD 444

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPSTA+YSLVECVHDLLDLAA+MLVMGGRLVFFYP+LREEDCVFNQFPEHPCFTL
Sbjct: 445 KRTDHIPSTASYSLVECVHDLLDLAAKMLVMGGRLVFFYPMLREEDCVFNQFPEHPCFTL 504

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP
Sbjct: 505 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 564

Query: 301 ATDPELAVAGNGNV 315
           + + +L VAGNGNV
Sbjct: 565 SVNRQLGVAGNGNV 578

[Close]
BLAST of Lag0001099 vs. TAIR 10
Match: AT3G26410.1 (methyltransferases;nucleic acid binding )

HSP 1 Score: 537.3 bits (1383), Expect = 8.3e-153
Identity = 263/327 (80.43%), Postives = 284/327 (86.85%), Query Frame = 0 

Query: 1   MEMADYGLNNGLPPIAQRRIFFGREVGGADRKLIPTYQLKSRTYLGPTAMDAEMAFLMAN 60
           MEM +   NNGL PI QRRIFFGREVG ADRKL+PT+QLKSRTYLGPTAMDAEMAFLMAN
Sbjct: 153 MEMIESEENNGLQPILQRRIFFGREVGFADRKLLPTFQLKSRTYLGPTAMDAEMAFLMAN 212

Query: 61  QALATAGKLVYDPFVGTGSILVAAAHFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 120
           QA AT+GKLVYDPFVGTGSILV+AA FGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL
Sbjct: 213 QAKATSGKLVYDPFVGTGSILVSAARFGAMTMGADIDIRVVRDGRGPDCNVWSNFKQYGL 272

Query: 121 PPPIALLRADNNRPPWRPGLKEIFDAIICDPPYGVRAGGRKSGGRKLLKGTVAPYTVPDD 180
           P P+ALLR DNN PPWR GLKEIFDAIICDPPYGVRAGGRKSGGRK+L+GTV PYTVPDD
Sbjct: 273 PMPVALLRMDNNVPPWRSGLKEIFDAIICDPPYGVRAGGRKSGGRKILRGTVDPYTVPDD 332

Query: 181 KRTDHIPSTAAYSLVECVHDLLDLAARMLVMGGRLVFFYPVLREEDCVFNQFPEHPCFTL 240
           KRTDHIPST AYSLVECVHDLL LAARMLVM GRLVFF+PVLR+E     +FPEHPCF L
Sbjct: 333 KRTDHIPSTGAYSLVECVHDLLHLAARMLVMKGRLVFFFPVLRDETGSEVKFPEHPCFKL 392

Query: 241 ISSSEQILSSRYSRVLLTMVKRSSYTEEIAEAARLKHEEFRENHLKWLEDGNLHSAVFSP 300
           ++ SEQILSSRYSRVLLTMVK   Y+EE+ EAARL H EFRENHLKWLEDGN+HS++F P
Sbjct: 393 VAVSEQILSSRYSRVLLTMVKVEPYSEEVEEAARLMHLEFRENHLKWLEDGNIHSSIFKP 452

Query: 301 ATDPELAVAGNGNVSKDPKPKYRGKYV 328
               ++    +    KDPKPKYRGKYV
Sbjct: 453 IDSSQIDT--DSKAFKDPKPKYRGKYV 477

The following BLAST results are available for this feature:
BLAST of Lag0001099 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038888658.11.2e-18295.72tRNA (guanine(10)-N2)-methyltransferase homolog [Benincasa hispida][more]
XP_031744574.11.8e-18194.80tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis sativus][more]
XP_008447182.11.8e-18195.11PREDICTED: tRNA (guanine(10)-N2)-methyltransferase homolog [Cucumis melo][more]
XP_022149033.14.0e-18196.02tRNA (guanine(10)-N2)-methyltransferase homolog [Momordica charantia][more]
XP_022932935.12.0e-18094.50tRNA (guanine(10)-N2)-methyltransferase homolog [Cucurbita moschata] >XP_0235116... [more]
BLAST of Lag0001099 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q54QA62.1e-5242.80tRNA (guanine(10)-N2)-methyltransferase homolog OS=Dictyostelium discoideum OX=4... [more]
Q7TNK63.4e-5040.69tRNA (guanine(10)-N2)-methyltransferase homolog OS=Rattus norvegicus OX=10116 GN... [more]
Q5R9621.3e-4939.74tRNA (guanine(10)-N2)-methyltransferase homolog OS=Pongo abelii OX=9601 GN=TRMT1... [more]
Q7Z4G41.7e-4939.40tRNA (guanine(10)-N2)-methyltransferase homolog OS=Homo sapiens OX=9606 GN=TRMT1... [more]
Q9CWH52.2e-4939.20tRNA (guanine(10)-N2)-methyltransferase homolog OS=Mus musculus OX=10090 GN=Trmt... [more]
BLAST of Lag0001099 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BG988.6e-18295.11tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A6J1D5Q51.9e-18196.02tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Momordica charantia OX=3673 G... [more]
A0A6J1F3J09.5e-18194.50tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1ICG51.8e-17993.88tRNA (Guanine(10)-N2)-methyltransferase homolog OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A5A7TF321.9e-17394.90tRNA (Guanine(10)-N2)-methyltransferase-like protein OS=Cucumis melo var. makuwa... [more]
BLAST of Lag0001099 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G26410.18.3e-15380.43methyltransferases;nucleic acid binding [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (AG-4) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000241Putative RNA methylase domainPFAMPF01170UPF0020coord: 41..163
e-value: 3.8E-11
score: 43.0
NoneNo IPR availableGENE3D3.40.50.150Vaccinia Virus protein VP39coord: 40..243
e-value: 9.8E-28
score: 98.9
NoneNo IPR availablePIRSFPIRSF017259tRNA_Mtase_TRM11coord: 1..303
e-value: 4.0E-98
score: 327.1
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 308..327
NoneNo IPR availablePANTHERPTHR13370RNA METHYLASE-RELATEDcoord: 2..309
NoneNo IPR availablePANTHERPTHR13370:SF19SUBFAMILY NOT NAMEDcoord: 2..309
NoneNo IPR availableCDDcd02440AdoMet_MTasescoord: 70..153
e-value: 0.00219822
score: 35.0983
IPR002052DNA methylase, N-6 adenine-specific, conserved sitePROSITEPS00092N6_MTASEcoord: 147..153
IPR016691tRNA guanosine-2'-O-methyltransferase, TRM11PROSITEPS51627SAM_MT_TRM11coord: 1..327
score: 87.415085
IPR029063S-adenosyl-L-methionine-dependent methyltransferaseSUPERFAMILY53335S-adenosyl-L-methionine-dependent methyltransferasescoord: 53..269

Relationships

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

Feature NameUnique NameType
Lag0001099.1Lag0001099.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0030488 tRNA methylation
biological_process GO:0032259 methylation
cellular_component GO:0005737 cytoplasm
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0004809 tRNA (guanine-N2-)-methyltransferase activity
molecular_function GO:0008168 methyltransferase activity