Tan0021956 (gene) Snake gourd v1

Overview
NameTan0021956
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptiontRNA (Guanine(9)-N1)-methyltransferase
LocationLG05: 62573791 .. 62589891 (-)
RNA-Seq ExpressionTan0021956
SyntenyTan0021956
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGGCCAAAGAAGATGACCAGAGCGCCAAAATGGATCCTTTTTGTTCCCCCTCCGGCTGCAATCCTCCAGAACCTCCCCTCTCGAAGAATGCTAGGAAGAAGCTACTGAAGCAACAGCGATACGAGGCGAAGAAAGCGGAGAAGAAAGCTCAGGCGAAAGAGCAGAAGAAGAAAGACATTGATCGCAAACGAAAGGAATGGGAGGATAAACTGGCGAGTGTTACGGAAGAGGAGAGATCGAAGTTGATCGAGTCTCGGAGAAATTTGAGGAAGGAGAGGATGGGGAAGAGGTCGGAGGAGAGGGAGAAGAAGATAGAGAGACTCAACAGGGCCAAAGACTGTGGCCAAAATATTGTCATCGACCTTGAATTTTCTAACCTCATGACCCCTTCGGAGATTCACAGTCTTGTTCAGCAGATAATGTATTGTTATGCAGTGAATGGAAGATGTCCTTCTCCTGGTCATCTTTGGTTGACTGGGTGTAATGGAGAAATGGAAACCCAACTGCAAAAGCTTCCAGGATTTGATAAATGGATCATTGAGAAGGAACATAGATCATACATAGATGCTTTGCAAGACCAGAAGGATAATTTGGTATATCTCACTGCAGACGCGGAAACTGTGCTTGATGACCTTGATCTAAAGAAAATATATATCATTGGTGGGTTAGTCGATCGCAACAGATGGAAAGGGATTACCATGAAGAAAGCACAAGAACAGGGAATTCAAACAGCAAAACTCCCAATTGGAAGTTACTTGAAGATGTCTAGCTCTCAGGTACTTACTGTGAATCAAGTCATAGAGATTCTGCTCAAGTATTTGGAAACAAGAGATTGGAAGGATTCTTTCTTTCAGGTTGTTCCTCAAAGAAAAAGATGTGAAGCTGATTGTAATAGTGACGATGCTGTAGGTGAGGAAGAAAATGGAGATAGAGACGATGAGCACGAAACGAAGAAGACGAAGTGTGATGAAATATCTTCCAGTAACCAGTAA

Coding sequence (CDS)

ATGGAGGCCAAAGAAGATGACCAGAGCGCCAAAATGGATCCTTTTTGTTCCCCCTCCGGCTGCAATCCTCCAGAACCTCCCCTCTCGAAGAATGCTAGGAAGAAGCTACTGAAGCAACAGCGATACGAGGCGAAGAAAGCGGAGAAGAAAGCTCAGGCGAAAGAGCAGAAGAAGAAAGACATTGATCGCAAACGAAAGGAATGGGAGGATAAACTGGCGAGTGTTACGGAAGAGGAGAGATCGAAGTTGATCGAGTCTCGGAGAAATTTGAGGAAGGAGAGGATGGGGAAGAGGTCGGAGGAGAGGGAGAAGAAGATAGAGAGACTCAACAGGGCCAAAGACTGTGGCCAAAATATTGTCATCGACCTTGAATTTTCTAACCTCATGACCCCTTCGGAGATTCACAGTCTTGTTCAGCAGATAATGTATTGTTATGCAGTGAATGGAAGATGTCCTTCTCCTGGTCATCTTTGGTTGACTGGGTGTAATGGAGAAATGGAAACCCAACTGCAAAAGCTTCCAGGATTTGATAAATGGATCATTGAGAAGGAACATAGATCATACATAGATGCTTTGCAAGACCAGAAGGATAATTTGGTATATCTCACTGCAGACGCGGAAACTGTGCTTGATGACCTTGATCTAAAGAAAATATATATCATTGGTGGGTTAGTCGATCGCAACAGATGGAAAGGGATTACCATGAAGAAAGCACAAGAACAGGGAATTCAAACAGCAAAACTCCCAATTGGAAGTTACTTGAAGATGTCTAGCTCTCAGGTACTTACTGTGAATCAAGTCATAGAGATTCTGCTCAAGTATTTGGAAACAAGAGATTGGAAGGATTCTTTCTTTCAGGTTGTTCCTCAAAGAAAAAGATGTGAAGCTGATTGTAATAGTGACGATGCTGTAGGTGAGGAAGAAAATGGAGATAGAGACGATGAGCACGAAACGAAGAAGACGAAGTGTGATGAAATATCTTCCAGTAACCAGTAA

Protein sequence

MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDIDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVIDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWIIEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQEQGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNSDDAVGEEENGDRDDEHETKKTKCDEISSSNQ
Homology
[Close]
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match: O14214 (tRNA (guanine(9)-N1)-methyltransferase OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=trm10 PE=1 SV=1)

HSP 1 Score: 152.5 bits (384), Expect = 8.2e-36
Identity = 109/301 (36.21%), Postives = 172/301 (57.14%), Query Frame = 0 

Query: 25  EPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDIDRKRKEWEDKLASVTEEERSKLI 84
           +P LSK+A K+L +QQ ++A + EK+A+ + +KK+               + +EER + I
Sbjct: 29  QPVLSKSALKRLKRQQEWDAGR-EKRAEMRREKKR---------------LRKEERKRKI 88

Query: 85  ESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVIDLEFSNLMTPSEIHSLVQQIMYC 144
           E+         G+  + ++K+I RL +       IV+D  F +LM   EI+SL QQ+  C
Sbjct: 89  EA---------GEVVKSQKKRI-RLGKVVPSSIRIVLDCAFDDLMNDKEINSLCQQVTRC 148

Query: 145 YAVNGRCPSPGHLWLTGCNGEMETQLQ-KLPG-FDKW-IIEKEHRSYIDALQDQKDNLVY 204
           ++ N     P  L+ T   G ++T+    L G  + W       +SY++  + QK+ LVY
Sbjct: 149 HSANRTALHPVELFATNFGGRLKTRQDFVLKGQQNNWKRYNPTTKSYLEEFESQKEKLVY 208

Query: 205 LTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQEQGIQTAKLPIGSYLKMSSSQV 264
           L+AD++  + +LD  KIYIIG +VD+NR+K +   KA EQGI+TAKLPI  Y+K++  ++
Sbjct: 209 LSADSDNTITELDEDKIYIIGAIVDKNRYKNLCQNKASEQGIKTAKLPIDEYIKITDRKI 268

Query: 265 LTVNQVIEILLKYLETRDWKDSFFQVVPQRKRC-----EADCNSDDAVGEEENGDRDDEH 318
           LTVNQV EIL  +LE RDW+ +F +V+P+RK       E+   S+D   +    D + E 
Sbjct: 269 LTVNQVFEILSLWLEYRDWEKAFMEVIPKRKGILLKSDESFDVSEDTRSQSNQSDSELEK 303

[Close]
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match: Q8C1Z8 (tRNA methyltransferase 10 homolog A OS=Mus musculus OX=10090 GN=Trmt10a PE=2 SV=2)

HSP 1 Score: 152.1 bits (383), Expect = 1.1e-35
Identity = 97/270 (35.93%), Postives = 155/270 (57.41%), Query Frame = 0 

Query: 27  PLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDIDRKRKEWEDKLASVTEEERSKLIES 86
           P+SK   KKL+KQ+++E ++ ++K + KE++K                            
Sbjct: 39  PISKRQLKKLMKQKQWEEQREQRKEKRKEKRK---------------------------- 98

Query: 87  RRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVIDLEFSNLMTPSEIHSLVQQIMYCYA 146
           R+ L + ++   S+  ++K  R + A+     +VID  F +LM   +I  L +QI  CYA
Sbjct: 99  RKKLERRQLESNSDGNDRKRVRRDVARS-SLRLVIDCSFDDLMVLKDIKKLHKQIQRCYA 158

Query: 147 VNGRCPSPGHLWLTGCNGEMETQL-QKLPGFDKW---IIEKEHRSYIDALQDQKDNLVYL 206
            N R   P   +LT   G+++  + +   G+  W    I+ EH S +     +K++LVYL
Sbjct: 159 ENRRASHPVQFYLTSHGGQLKKNMDENDQGWVNWKDIHIKSEHYSEL----IKKEDLVYL 218

Query: 207 TADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQEQGIQTAKLPIGSYLKMSSSQVL 266
           T+D+  VL DLD  K Y+IGGLVD +  KG+T K+A   GI+ A+LP+  ++KM+S +VL
Sbjct: 219 TSDSPNVLKDLDESKAYVIGGLVDHSHHKGLTFKQATSYGIEHAQLPLADFVKMNSRKVL 275

Query: 267 TVNQVIEILLKYLETRDWKDSFFQVVPQRK 293
            VN V EI+L++LETRDW+++FF ++PQRK
Sbjct: 279 AVNHVFEIILEFLETRDWQEAFFTILPQRK 275

[Close]
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match: Q3MHI8 (tRNA methyltransferase 10 homolog A OS=Bos taurus OX=9913 GN=TRMT10A PE=2 SV=1)

HSP 1 Score: 149.1 bits (375), Expect = 9.1e-35
Identity = 106/302 (35.10%), Postives = 163/302 (53.97%), Query Frame = 0 

Query: 27  PLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDIDRKRKEWEDKLASVTEEERSKLIES 86
           P+SK   KKL+KQ+++E ++  +K + KE+      RKRK+ E +    +  + S     
Sbjct: 39  PISKRQMKKLMKQKQWEEQRELRKQKRKEK------RKRKQLERQCQPESNSDGSDRKRI 98

Query: 87  RRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVIDLEFSNLMTPSEIHSLVQQIMYCYA 146
           RR++    +                       ++ID  F +LM   +I  L +QI  CYA
Sbjct: 99  RRDVVHSPL----------------------RLIIDCSFDSLMVLKDIKKLHKQIQRCYA 158

Query: 147 VNGRCPSPGHLWLTGCNGEMETQL-QKLPGFDKW---IIEKEHRSYIDALQDQKDNLVYL 206
            N R   P   +LT   G+++  + +   G+  W    I+ EH S       QK++L+YL
Sbjct: 159 ENRRALHPVQFYLTSHGGQLKKNMDENDKGWVNWKDIHIKPEHYSEF----IQKEDLIYL 218

Query: 207 TADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQEQGIQTAKLPIGSYLKMSSSQVL 266
           T+D+  +L +LD  K Y+IGGLVD N  KG+T K+A + GI  A+LP+G+++KM+S +VL
Sbjct: 219 TSDSPNILKELDESKAYVIGGLVDHNHHKGLTYKQASDHGIDHAQLPLGNFVKMNSRKVL 278

Query: 267 TVNQVIEILLKYLETRDWKDSFFQVVPQRK-------RCEADCNSDDAVGEEENGDRDDE 318
            VN V EI+L+YLETRDW+++FF ++PQRK        CE+ C+ D      E G   D 
Sbjct: 279 AVNHVFEIILEYLETRDWQEAFFTILPQRKGAVPTDQACES-CSHDKKFARVEGGLNSDS 307

[Close]
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match: Q8TBZ6 (tRNA methyltransferase 10 homolog A OS=Homo sapiens OX=9606 GN=TRMT10A PE=1 SV=1)

HSP 1 Score: 148.3 bits (373), Expect = 1.5e-34
Identity = 113/341 (33.14%), Postives = 185/341 (54.25%), Query Frame = 0 

Query: 2   EAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDI 61
           E +E+ Q  ++   C          P+SK   KKL+KQ+++E ++  +K + KE+     
Sbjct: 23  EDQEESQKPRLGEGCE---------PISKRQMKKLIKQKQWEEQRELRKQKRKEK----- 82

Query: 62  DRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVI 121
            RKRK+ E                     R+ +M   S+  ++K  R +        ++I
Sbjct: 83  -RKRKKLE---------------------RQCQMEPNSDGHDRKRVRRDVVHST-LRLII 142

Query: 122 DLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQL-QKLPGFDKW- 181
           D  F +LM   +I  L +QI  CYA N R   P   +LT   G+++  + +   G+  W 
Sbjct: 143 DCSFDHLMVLKDIKKLHKQIQRCYAENRRALHPVQFYLTSHGGQLKKNMDENDKGWVNWK 202

Query: 182 --IIEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKK 241
              I+ EH S +     +K++L+YLT+D+  +L +LD  K Y+IGGLVD N  KG+T K+
Sbjct: 203 DIHIKPEHYSEL----IKKEDLIYLTSDSPNILKELDESKAYVIGGLVDHNHHKGLTYKQ 262

Query: 242 AQEQGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQR------ 301
           A + GI  A+LP+G+++KM+S +VL VN V EI+L+YLETRDW+++FF ++PQR      
Sbjct: 263 ASDYGINHAQLPLGNFVKMNSRKVLAVNHVFEIILEYLETRDWQEAFFTILPQRKGAVPT 321

Query: 302 -KRCEADCNSDDAVGEEENGDRDDEHETKKTKCDEISSSNQ 332
            K CE+  + + +V  EE G   D  E + ++ +E+ S ++
Sbjct: 323 DKACESASHDNQSVRMEEGGSDSDSSEEEYSR-NELDSPHE 321

[Close]
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match: Q66JJ4 (tRNA methyltransferase 10 homolog A OS=Xenopus tropicalis OX=8364 GN=trmt10a PE=2 SV=1)

HSP 1 Score: 143.7 bits (361), Expect = 3.8e-33
Identity = 126/360 (35.00%), Postives = 191/360 (53.06%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ---AKEQK 60
           +EA  +     +DP       N  +   S++A      Q+   A ++E KAQ   +K Q 
Sbjct: 3   LEAVTEPGKCSIDP-------NTKDLLASQHAGNNTPLQENSSAPRSECKAQDAMSKRQM 62

Query: 61  KKDIDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIER--------- 120
           KK +  K+K+WED+             E R+  RKE+  KR  ER+ + E          
Sbjct: 63  KKFL--KQKQWEDQR------------ELRKQKRKEKRQKRKLERQAQAEHNIDANSRKR 122

Query: 121 -LNRAKDCGQNIVIDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEME 180
             +  +     ++ID  F +LM   ++  L +QI  CYA N R   P  L+LT   G+++
Sbjct: 123 FRHEVQPSALRLIIDCSFDDLMALRDVKKLNKQIRRCYAENRRAVHPVQLYLTSHGGQLK 182

Query: 181 TQLQKLPGFDK-WI------IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYI 240
           + + +   +DK WI      I+ EH  Y D +  +K++LVYLT+D+  VL +LD  K YI
Sbjct: 183 SNMDE---YDKGWINWKDIHIKPEH--YKDLI--KKEDLVYLTSDSPEVLSELDETKAYI 242

Query: 241 IGGLVDRNRWKGITMKKAQEQGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDW 300
           IGGLVD N  KGIT KKA E GI  A+LP+G+++KM++ +VL VN V EI+L +LE ++W
Sbjct: 243 IGGLVDHNHHKGITYKKALELGISHAQLPLGNFVKMNTRKVLAVNHVFEIILAFLEKKEW 302

Query: 301 KDSFFQVVPQRKRC--------EADCN-SDDAVGEEENGDRD-DEHET--KKTKCDEISS 329
           K++FF V+PQRK          + +C  S+   GE+ + D   DE  T     +C+E +S
Sbjct: 303 KEAFFSVLPQRKGAIPLTETGEQPECRASEQEDGEDSDSDSSIDESATIQPSVRCEEQNS 334

[Close]
BLAST of Tan0021956 vs. NCBI nr
Match: KAG6583717.1 (hypothetical protein SDJN03_19649, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 592.4 bits (1526), Expect = 2.4e-165
Identity = 304/330 (92.12%), Postives = 321/330 (97.27%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA+E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KEQKKKD
Sbjct: 1   MEAREEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASVTEEER+KLIESR++LRKERMGKRSEE+EKKIERLNRAKDCGQ IV
Sbjct: 61  IERKRKEWEETLASVTEEERAKLIESRKSLRKERMGKRSEEKEKKIERLNRAKDCGQKIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IE+EHRSYIDALQDQK+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 181 IEREHRSYIDALQDQKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKY+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  EENGDRDDE ETKKTKCDE+SSSN
Sbjct: 301 DHAVDGEENGDRDDEQETKKTKCDEVSSSN 330

[Close]
BLAST of Tan0021956 vs. NCBI nr
Match: XP_023520714.1 (tRNA (guanine(9)-N1)-methyltransferase [Cucurbita pepo subsp. pepo])

HSP 1 Score: 589.0 bits (1517), Expect = 2.6e-164
Identity = 304/330 (92.12%), Postives = 319/330 (96.67%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KE KKKD
Sbjct: 1   MEAIEEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKELKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASVTEEER+KLIESR++LRKERMGKRSEE+EKKIERLNRAKDCGQ IV
Sbjct: 61  IERKRKEWEETLASVTEEERAKLIESRKSLRKERMGKRSEEKEKKIERLNRAKDCGQKIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQDQK+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 181 IEKEHRSYIDALQDQKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKY+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  EENGDRDDE ETKKTKCDE+SSSN
Sbjct: 301 DHAVDGEENGDRDDEQETKKTKCDEVSSSN 330

[Close]
BLAST of Tan0021956 vs. NCBI nr
Match: XP_022973151.1 (tRNA (guanine(9)-N1)-methyltransferase [Cucurbita maxima])

HSP 1 Score: 587.4 bits (1513), Expect = 7.6e-164
Identity = 303/330 (91.82%), Postives = 318/330 (96.36%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KEQKKKD
Sbjct: 1   MEAIEEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWED LASVTEEER+KLIESRR+LRKERMGKRSEE+EKKIERLNRAKDCGQ I+
Sbjct: 61  IERKRKEWEDTLASVTEEERAKLIESRRSLRKERMGKRSEEKEKKIERLNRAKDCGQKII 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQDQK+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 181 IEKEHRSYIDALQDQKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKY+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  EENGDRDDE E+KK KC E+SSSN
Sbjct: 301 DHAVDGEENGDRDDEQESKKIKCGEVSSSN 330

[Close]
BLAST of Tan0021956 vs. NCBI nr
Match: XP_022927615.1 (tRNA (guanine(9)-N1)-methyltransferase [Cucurbita moschata])

HSP 1 Score: 587.0 bits (1512), Expect = 1.0e-163
Identity = 301/330 (91.21%), Postives = 319/330 (96.67%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA+E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KEQKKKD
Sbjct: 1   MEAREEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASVTEEER+KLIESR++LRKERMGKRSEE+EKKIERLNRAKDCGQ IV
Sbjct: 61  IERKRKEWEETLASVTEEERAKLIESRKSLRKERMGKRSEEKEKKIERLNRAKDCGQKIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQD K+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITM KAQE
Sbjct: 181 IEKEHRSYIDALQDHKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMNKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILL+Y+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLRYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  +ENGDRDDE ETKKTKCDE+SSSN
Sbjct: 301 DHAVDGKENGDRDDEQETKKTKCDEVSSSN 330

[Close]
BLAST of Tan0021956 vs. NCBI nr
Match: XP_038893739.1 (tRNA (guanine(9)-N1)-methyltransferase [Benincasa hispida])

HSP 1 Score: 568.9 bits (1465), Expect = 2.8e-158
Identity = 303/334 (90.72%), Postives = 312/334 (93.41%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+DQSAKMDP  SP   NPPEPPLSKNA+KKLLKQQRYEAKKAEKK QAKEQKKKD
Sbjct: 1   MEAVEEDQSAKMDPPPSPFAFNPPEPPLSKNAKKKLLKQQRYEAKKAEKKLQAKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWED LASVTEEERSKLIESRR+LRKERMGKRSEEREKKIERLNRAKDCGQNIV
Sbjct: 61  IERKRKEWEDTLASVTEEERSKLIESRRSLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSHLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQDQK+NLVYLTADAETVLDDLD KKIYIIGGLVDRNRWKGITMKKA E
Sbjct: 181 IEKEHRSYIDALQDQKENLVYLTADAETVLDDLDPKKIYIIGGLVDRNRWKGITMKKAHE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWK SFFQVVPQRKRC AD NS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKASFFQVVPQRKRCGADSNS 300

Query: 301 DDAVGEEEN----GDRDDEHETKKTKCDEISSSN 331
           D  V EEEN    GD DDEHE KKTKCDE+SSS+
Sbjct: 301 DHPVDEEENGDGDGDGDDEHEMKKTKCDEVSSSD 334

[Close]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match: A0A6J1I7W5 (tRNA (guanine(9)-N(1))-methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111471663 PE=4 SV=1)

HSP 1 Score: 587.4 bits (1513), Expect = 3.7e-164
Identity = 303/330 (91.82%), Postives = 318/330 (96.36%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KEQKKKD
Sbjct: 1   MEAIEEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWED LASVTEEER+KLIESRR+LRKERMGKRSEE+EKKIERLNRAKDCGQ I+
Sbjct: 61  IERKRKEWEDTLASVTEEERAKLIESRRSLRKERMGKRSEEKEKKIERLNRAKDCGQKII 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQDQK+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 181 IEKEHRSYIDALQDQKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKY+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  EENGDRDDE E+KK KC E+SSSN
Sbjct: 301 DHAVDGEENGDRDDEQESKKIKCGEVSSSN 330

[Close]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match: A0A6J1EPG7 (tRNA (guanine(9)-N(1))-methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111434383 PE=4 SV=1)

HSP 1 Score: 587.0 bits (1512), Expect = 4.8e-164
Identity = 301/330 (91.21%), Postives = 319/330 (96.67%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA+E+DQSAKMDP CSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQ KEQKKKD
Sbjct: 1   MEAREEDQSAKMDPPCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQEKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASVTEEER+KLIESR++LRKERMGKRSEE+EKKIERLNRAKDCGQ IV
Sbjct: 61  IERKRKEWEETLASVTEEERAKLIESRKSLRKERMGKRSEEKEKKIERLNRAKDCGQKIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSDLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEHRSYIDALQD K+NLVYLTAD+ETVLDDLDLKKIYIIGGLVDRNRWKGITM KAQE
Sbjct: 181 IEKEHRSYIDALQDHKENLVYLTADSETVLDDLDLKKIYIIGGLVDRNRWKGITMNKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILL+Y+ETRDWK SFFQVVPQRKRCEA+CNS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLRYIETRDWKASFFQVVPQRKRCEAECNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D AV  +ENGDRDDE ETKKTKCDE+SSSN
Sbjct: 301 DHAVDGKENGDRDDEQETKKTKCDEVSSSN 330

[Close]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match: A0A6J1DZL7 (tRNA (guanine(9)-N(1))-methyltransferase OS=Momordica charantia OX=3673 GN=LOC111025770 PE=4 SV=1)

HSP 1 Score: 553.9 bits (1426), Expect = 4.5e-154
Identity = 293/331 (88.52%), Postives = 311/331 (93.96%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+D  AKMDP    S C PPE PLSKNARKKL KQQRYEAKKAEKKAQAKEQKKKD
Sbjct: 1   MEAVENDHGAKMDPL---SACQPPELPLSKNARKKLQKQQRYEAKKAEKKAQAKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASV+EEERSKLIESRR+LRKERMGKRSEEREKK+ERLNRAKDCGQNIV
Sbjct: 61  IERKRKEWEEMLASVSEEERSKLIESRRSLRKERMGKRSEEREKKMERLNRAKDCGQNIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEI+SLVQQIMYCYAVNGRC SPGHLWLTGCNGEMETQL +LPGFDKWI
Sbjct: 121 IDLEFSHLMTPSEINSLVQQIMYCYAVNGRCSSPGHLWLTGCNGEMETQLHRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEH+SYI+ L+DQK+NLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 181 IEKEHKSYIETLEDQKENLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKYLETRDWK SFF+VVPQRKRCEAD NS
Sbjct: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYLETRDWKASFFEVVPQRKRCEADSNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSNQ 332
           D AV +EENG++D EHETKKTKCDEISSSNQ
Sbjct: 301 DPAV-DEENGEKDGEHETKKTKCDEISSSNQ 327

[Close]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match: A0A6J1DYJ8 (tRNA (guanine(9)-N(1))-methyltransferase OS=Momordica charantia OX=3673 GN=LOC111025766 PE=4 SV=1)

HSP 1 Score: 553.9 bits (1426), Expect = 4.5e-154
Identity = 293/331 (88.52%), Postives = 311/331 (93.96%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+D  AKMDP    S C PPE PLSKNARKKL KQQRYEAKKAEKKAQAKEQKKKD
Sbjct: 28  MEAVENDHGAKMDPL---SACQPPELPLSKNARKKLQKQQRYEAKKAEKKAQAKEQKKKD 87

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+ LASV+EEERSKLIESRR+LRKERMGKRSEEREKK+ERLNRAKDCGQNIV
Sbjct: 88  IERKRKEWEEMLASVSEEERSKLIESRRSLRKERMGKRSEEREKKMERLNRAKDCGQNIV 147

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTPSEI+SLVQQIMYCYAVNGRC SPGHLWLTGCNGEMETQL +LPGFDKWI
Sbjct: 148 IDLEFSHLMTPSEINSLVQQIMYCYAVNGRCSSPGHLWLTGCNGEMETQLHRLPGFDKWI 207

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKEH+SYI+ L+DQK+NLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE
Sbjct: 208 IEKEHKSYIETLEDQKENLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 267

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           QGIQTAKLPIGSYLKMSSSQVLTVNQV+EILLKYLETRDWK SFF+VVPQRKRCEAD NS
Sbjct: 268 QGIQTAKLPIGSYLKMSSSQVLTVNQVLEILLKYLETRDWKASFFEVVPQRKRCEADSNS 327

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSNQ 332
           D AV +EENG++D EHETKKTKCDEISSSNQ
Sbjct: 328 DPAV-DEENGEKDGEHETKKTKCDEISSSNQ 354

[Close]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match: A0A0A0LYJ3 (SAM-dependent MTase TRM10-type domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G173210 PE=4 SV=1)

HSP 1 Score: 548.1 bits (1411), Expect = 2.5e-152
Identity = 287/330 (86.97%), Postives = 308/330 (93.33%), Query Frame = 0 

Query: 1   MEAKEDDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKD 60
           MEA E+  + KMDP CS S CNPPEPPLSKNARKKLLKQQRYEAKKA+KK QAKEQKKKD
Sbjct: 1   MEAVEESHNPKMDPPCSSSACNPPEPPLSKNARKKLLKQQRYEAKKADKKLQAKEQKKKD 60

Query: 61  IDRKRKEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIV 120
           I+RKRKEWE+KLASVTEEER+KLIESRRNLRKERMGKRSE+REKKIERL+ A+D GQNIV
Sbjct: 61  IERKRKEWEEKLASVTEEERAKLIESRRNLRKERMGKRSEDREKKIERLSTARDYGQNIV 120

Query: 121 IDLEFSNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWI 180
           IDLEFS+LMTP EIHSLVQQIMYCYAVNGRCPSP HLWLTGCNGEMETQLQ+LPGFDKWI
Sbjct: 121 IDLEFSHLMTPWEIHSLVQQIMYCYAVNGRCPSPCHLWLTGCNGEMETQLQRLPGFDKWI 180

Query: 181 IEKEHRSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQE 240
           IEKE RSYIDALQ+QK+NLVYLTAD+ETVLDDLDLKKIYI+GGLVDRNRWKGITMKKAQE
Sbjct: 181 IEKECRSYIDALQEQKENLVYLTADSETVLDDLDLKKIYIVGGLVDRNRWKGITMKKAQE 240

Query: 241 QGIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRCEADCNS 300
           Q IQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFF+VVPQRKRC  D NS
Sbjct: 241 QEIQTAKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFEVVPQRKRCGGDSNS 300

Query: 301 DDAVGEEENGDRDDEHETKKTKCDEISSSN 331
           D  V  EENGD D+++ETKKTKCDE+SSS+
Sbjct: 301 DHPVDGEENGDGDNKNETKKTKCDEVSSSD 330

[Close]
BLAST of Tan0021956 vs. TAIR 10
Match: AT5G47680.1 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 13 growth stages; CONTAINS InterPro DOMAIN/s: tRNA (guanine-N1-)-methyltransferase (InterPro:IPR016009), tRNA (guanine-N(1)-)-methyltransferase, metazoa (InterPro:IPR016653), tRNA (guanine-N1-)-methyltransferase, eukaryotic (InterPro:IPR007356); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). )

HSP 1 Score: 396.7 bits (1018), Expect = 1.8e-110
Identity = 224/333 (67.27%), Postives = 262/333 (78.68%), Query Frame = 0 

Query: 6   DDQSAKMDPFCSPSGCNPPEPPLSKNARKKLLKQQRYEAKKAEKKAQAKEQKKKDIDRKR 65
           DD      P   P+  N   PPLSKNA+KK LKQQRYEAKKAEKKAQ KE K+K+ +RK 
Sbjct: 8   DDNGCFDKPESEPAPVN-VSPPLSKNAQKKQLKQQRYEAKKAEKKAQEKEHKRKEGERKL 67

Query: 66  KEWEDKLASVTEEERSKLIESRRNLRKERMGKRSEEREKKIERLNRAKDCGQNIVIDLEF 125
           KEWE+ LA+ TEEER KLIESR++LRKERM KRSEE+EKKIERLN+AK+ GQ IV+D++F
Sbjct: 68  KEWEETLANATEEERLKLIESRKSLRKERMEKRSEEKEKKIERLNQAKEIGQKIVVDVDF 127

Query: 126 SNLMTPSEIHSLVQQIMYCYAVNGRCPSPGHLWLTGCNGEMETQLQKLPGFDKWIIEKEH 185
           ++LM+ SEI SLVQQIMYCYAVNGR  SP HLWLTG  G+M T+L KLPGF+KW IEKE 
Sbjct: 128 AHLMSESEISSLVQQIMYCYAVNGRSTSPCHLWLTGVQGKMSTELDKLPGFEKWFIEKES 187

Query: 186 RSYIDALQDQKDNLVYLTADAETVLDDLDLKKIYIIGGLVDRNRWKGITMKKAQEQGIQT 245
           R YI+A+ DQKDNLVYLTAD+ETVLDDLD K IYIIGGLVDRNR+KGITM KAQEQGI+T
Sbjct: 188 RCYIEAMADQKDNLVYLTADSETVLDDLDPKHIYIIGGLVDRNRFKGITMTKAQEQGIKT 247

Query: 246 AKLPIGSYLKMSSSQVLTVNQVIEILLKYLETRDWKDSFFQVVPQRKRC---EADCNSDD 305
           AKLPIG Y+KMSSSQVLTVNQV+EIL+K+LETRDWK +FF V+PQRKR      DC+  +
Sbjct: 248 AKLPIGEYMKMSSSQVLTVNQVLEILVKFLETRDWKTAFFTVIPQRKRTGLDPVDCSKLE 307

Query: 306 AVGEE---------ENGDRDDEHETKKTKCDEI 327
            + EE         E+ D+ D  E KK  C E+
Sbjct: 308 HISEEHQEKDTEANESADKHDLLERKKV-CVEV 338

The following BLAST results are available for this feature:
BLAST of Tan0021956 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
O142148.2e-3636.21tRNA (guanine(9)-N1)-methyltransferase OS=Schizosaccharomyces pombe (strain 972 ... [more]
Q8C1Z81.1e-3535.93tRNA methyltransferase 10 homolog A OS=Mus musculus OX=10090 GN=Trmt10a PE=2 SV=... [more]
Q3MHI89.1e-3535.10tRNA methyltransferase 10 homolog A OS=Bos taurus OX=9913 GN=TRMT10A PE=2 SV=1[more]
Q8TBZ61.5e-3433.14tRNA methyltransferase 10 homolog A OS=Homo sapiens OX=9606 GN=TRMT10A PE=1 SV=1[more]
Q66JJ43.8e-3335.00tRNA methyltransferase 10 homolog A OS=Xenopus tropicalis OX=8364 GN=trmt10a PE=... [more]
BLAST of Tan0021956 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG6583717.12.4e-16592.12hypothetical protein SDJN03_19649, partial [Cucurbita argyrosperma subsp. sorori... [more]
XP_023520714.12.6e-16492.12tRNA (guanine(9)-N1)-methyltransferase [Cucurbita pepo subsp. pepo][more]
XP_022973151.17.6e-16491.82tRNA (guanine(9)-N1)-methyltransferase [Cucurbita maxima][more]
XP_022927615.11.0e-16391.21tRNA (guanine(9)-N1)-methyltransferase [Cucurbita moschata][more]
XP_038893739.12.8e-15890.72tRNA (guanine(9)-N1)-methyltransferase [Benincasa hispida][more]
BLAST of Tan0021956 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1I7W53.7e-16491.82tRNA (guanine(9)-N(1))-methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC11147... [more]
A0A6J1EPG74.8e-16491.21tRNA (guanine(9)-N(1))-methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111... [more]
A0A6J1DZL74.5e-15488.52tRNA (guanine(9)-N(1))-methyltransferase OS=Momordica charantia OX=3673 GN=LOC11... [more]
A0A6J1DYJ84.5e-15488.52tRNA (guanine(9)-N(1))-methyltransferase OS=Momordica charantia OX=3673 GN=LOC11... [more]
A0A0A0LYJ32.5e-15286.97SAM-dependent MTase TRM10-type domain-containing protein OS=Cucumis sativus OX=3... [more]
BLAST of Tan0021956 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G47680.11.8e-11067.27FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknow... [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 37..112
NoneNo IPR availablePIRSRPIRSR016323-1PIRSR016323-1coord: 37..316
e-value: 2.6E-83
score: 277.4
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 296..331
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 36..70
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..70
NoneNo IPR availablePANTHERPTHR13563:SF17BNAA06G35330D PROTEINcoord: 8..319
NoneNo IPR availableCDDcd18089SPOUT_Trm10-likecoord: 117..287
e-value: 1.00901E-85
score: 253.612
IPR038459tRNA methyltransferase TRM10-type domain superfamilyGENE3D3.40.1280.30coord: 97..292
e-value: 1.6E-69
score: 235.5
IPR016653tRNA (guanine(9)-N(1))-methyltransferase TRM10/TRM10APIRSFPIRSF016323tRNA_m1G_Mtase_eukcoord: 1..331
e-value: 3.1E-86
score: 287.1
IPR016009tRNA methyltransferase TRMD/TRM10-type domainPFAMPF01746tRNA_m1G_MTcoord: 127..292
e-value: 1.3E-29
score: 103.3
IPR007356tRNA (guanine-N1-)-methyltransferase, eukaryoticPANTHERPTHR13563TRNA (GUANINE-9-) METHYLTRANSFERASEcoord: 8..319
IPR028564tRNA methyltransferase TRM10-type domainPROSITEPS51675SAM_MT_TRM10coord: 105..295
score: 47.785534

Relationships

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

Feature NameUnique NameType
Tan0021956.1Tan0021956.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006633 fatty acid biosynthetic process
biological_process GO:0002939 tRNA N1-guanine methylation
cellular_component GO:0005634 nucleus
molecular_function GO:0000049 tRNA binding
molecular_function GO:0052905 tRNA (guanine(9)-N(1))-methyltransferase activity
molecular_function GO:0008168 methyltransferase activity