Sed0014482.1 (mRNA) Chayote v1

Overview
NameSed0014482.1
TypemRNA
OrganismSechium edule (Chayote v1)
Descriptionprotein N-lysine methyltransferase METTL21A
LocationLG05: 17614998 .. 17631033 (+)
Sequence length789
RNA-Seq ExpressionSed0014482.1
SyntenySed0014482.1
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.
ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGAGTAATTCTCTCTTTATCAATACACCATTTTCCTTTTGCTGAATCTTATGCCATCGCGTATTCGATTTTGCAGCTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCAGTGAGTTTCAATTTAAAACTTCAATTGAAGGAAACTTATTAAGTAATTGTTGCCGACATGATGCCAATCCTAATCATAAATTGCTTAACCTGTTACGATAATCAACGTTATTATGTCGTTTTTTTTTGAGGTGTTAGGGTTCCAACTTATTCAAAAGATAAATTGATATATACATATAGATAGATTCTAATACAATTTCATAACTGTGAAAATTAATATTAGATATTAGAATAATCTGGCATAGTTTCTTTTTGGTACTTGGCATTGCCTTGCTTAGGGTTTCTGTAACCACACCCTCTGTTGTTAATGCTAAGCATTAGTTGTTAGAAAGTAGATGATGCAGGCATGTATACATGCTATATTAAATGAAAATATTTCTTCCCCCGAACACAAGTTACAGGGCTTCCTGGAAATGTTGCTGAACTAACAATTCTTGAAACAGCTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATGTACTCTGACTGAATTTGATGTCTGTGACTTGTATAGCAAATATAGTTTGCGTATTCTTCTCGTGTTGTAAGGTTATATTTATTGGATACCATAATTATAGAATGGAAGCAGAGAGAGAATAGAAATGAAAGAACTTGCTTTTGGCAGCGTGTAGTTATTTGAAGGTGTATACATAAACAATCTATGTTTAGACGAACATTCTGGTGGTACAAAAGGGAAACGAGTCTCACAAAAGGTGGCGGTGGTTGAAAGCTTGAGCTTTGAAGGTGTGCTCCCGTCAGGTTTGAGACTCACCTGTGGCATTAATTTGTAGACACCTCCCATGTTTCCATTCCTTTGAAGTCGTCCGGTGCGTGGCCTAGGGATATGTGTGGTTACCCCAGGTATAGTAGACGAAACTTCGATTTCTCAGTTTCAAAAAAACAACAAAGCTGATAAAGAACTTCCTAAAACCCAGGGCTCTTACTGAAGTCTAAGATATGCTACAGAAATTAGTCCACGATGTTTCAAAACCAGAGCACAGGAAGAAAGTAGCTTGAATTTGTTTTAGAACATAGACTATTCATGCTACCCGATGAAGATGAAAAAAATAATTATTTTTGCATTACCTCGCTATTTTTCATAGAATGTTAAATGATGAAAGTCTGCTATAACATGGGCAATCGTCTTCAATATAGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGGCGAGGTCATTAGACTAATCAGAATAAATTAAAAATATATATTATAACAAGAGGCTGCTCTCTCTTCGTCGTTTGATGACCTTGTATATATTATGTCACAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGGTGAGAGAAACAAGGTGAAAACTGAAAATAAATTATATGTTTGGATGTACTGGCTACTGATACTTCCAATTCCATGCAGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGGTGCTTCTCGATTTTGGGATAAAAATAGGTTCTATTGTATTGAATCGACAATTTCAATAGTTACGATTCTTCTTCTTAAATAGGTTAAATACTATTCTTTAAAGAAGGCAAATAAACTATGCAAGGAAATTACAACAAAGGAAAAATTACACATGGAATGAATATACAAGGAAAAATAAAAGCAAATCAATCAACAGTACTGAAGCAGCAGAGACATAGAATGAGCTTTAGGTCCTAAAACTTGCCAAAACTCCCTTCCTTTGATAATTGATAAAATGTAAAATGTAAAATGTGAGGGCATAATCCTTTTCATGTCATAACATCCTAGGGGGTAGAAATACTGATGGGGTATGGTGATTGATTCATCTCTATCCTTTTTTTTCCTTCTTTTTTTCTTCTTTTAAATGATTATTGGGAATGTATGTTACGTGCCTTGTATAGAATGTTTCTATCACGTAACCTGACTTCTTATGTAAGTCAAGAGTTATGGAATATATCCACTCGATTGGTATTTTTGTTTTTTTTTTGAAACAAGGGTAACTATGTCCGTCCCAGGCCAGGCACCAGGAGACATCGAAGAAATGGAATCCACTCTATTGATAGTTGATACATCACATTTTAAATCCATGTATGGAAGTTAAGAGCTGCACATTGGCAGGAAGAGATACATATTTGAAAATGATAACAGAGCGGTCGAACACTTCCGTGTTACAGAAGTAGAGAATGATATTAGTTTTTCATTGATGATCTACAGAAAGCTCACCCTCTCAATCAAAAATTCTTTTACCAGATTAGATTCAGGGGAACAGTCCACTGGGTGGAAAAACTTTCTAACAGAAAAGGATATTTCATAGAGCTTGTGCAGATTGGACAAAATGGTGGTACTAAGAAACTTGTCATCCCCGTCGGCCAGCAAGGGAGAGGTTGGATGGATTTCCACAAAGGTGTCATTAATTTTTCGGAGAGGAATCAGACAAATATAGCCATTAATGCTTTTGAAGTACAAAACAGAGATGATAGTTATTTCTCTTATTTTCCTCCAGGTTTGAAGCCAGCCACCAAGGAACCCAAGGCTAATGAATTTTCAGATAAGTAGAATGTTTCCAATGGGGGAAAGGTTTACTTAAAAAATGAAGCTTTTAATCACTCTCATTCCAATACGACATCTTTATCGGCAACTATATTGATTTACAAAGAGCATTTGCAGGGTTGATGGGTTCTCATTGAATCGATCCTAAAGAAGGAATATGCGACTAATGTATCCATACAACCCCTGTTGCCTGACAGAGCTTTGTTGAGATGTGAAGATAGTTTAATCTCTGACGCAATAAAGAGTAACAAGGGATGGGTTAACTCGAAAACACAAAGCCCTGTTCTGCTGCCTACACTGATGAAAACATTTTGGCAAATCCTAAAATAGCGTGTTATGGGGGTTGGATCTGTGTTAAAGGCCTTCCATTAACGAGATGGAATGAAGATACCTTCAAGTATATTGGAGGAATTTGTAGTGGTCTCATGGAAATTGCACACGGTACGATGGAGAAGATAGATCTTAGGGTGCCAATTCTAAATGTGGCAGAGAATTTGAATGGCTTCTTGCCGGCATCTATTTCTCTACCATCTTCCTCATCATCCCCGTTGTTGATTAGAATTGAACCATTGACAGCGGCCGATTTATCTTTTATTAGTACAACGGTAGAATTTTCCGGCTACAGAACTAAAACAGAGGTTGAAAGAAAAAACAAGAATGTGCATAACAAAGCAAGCTCACGCACCACCAGAAGAGTGTGGGTTGAGGTTTGCAGGAATAAGGGAAAAGCTTCTGACACTGCGCCTAAAAGGACTTCTGATTCTGACCAATCTGAATTGATGGAGTTGACCTCTGCTTTTGAACCTTCCAATCTTCTCTTAACCAGACCCATTGGAAACCAACTTGAACAAACCAAATGTCAGAACTCCTTTGGGCCTTTGGCCATTTTAGACCAACCATTTGAAAAAGAGATAGGCCCACCATTGAATGAAAATTCTTTTTCAGCTGTCCTGACGGTACAACAGCCCATGGAAGAAATCCTAACCAAACCCATTTTGAACCATTCTTATCCTCTAAACCCATGTTCCCCTGGAAAATCAATTATCATTAACAACAAACGTACTCTTTTTATTACTAGGACTATGCATTCGACCGAAAAATCTCACCCATTTTCTGAGTCAGAAAGGGGCTGCTCTTCACCCAGACCTTCGCCGGTTAGTGAGTCTTCCTTGCCTTACAAATGCACCGATATTATTCCTGCTATTTTTTAGGAATAGGAGACAACCATATAACCAATGTTTGATGATCAACCAGCTCCATTGAGGATTGAGCAAGATGATGTATCAAATTTTTTTCATTATAATAATGAGTTGATCAACGAAGTCTATAAGGAATGGAGAGGCACCATGGGTACTGACATCCCTGAATAAGCCGGATCATTGATGCAATTCTTTTTCCCTTGGTTGGCTAAAAATAGACTTTATATAGCTCCCATGCCGACCACAAAGCTATCTGCAACGACTACAAAAAAATAGAGGAACTGGAAAAGAGAAAAAAACAATCTTTCATTCTCTATTAGATATGATAAATCCTCTGTTGAAGAACAGAGTAAGGGGAATAACGGTCATAGATGATTGTGATATCATGGAATGTTAAGGGACTAAATTCGTGGAGGAAACGGACAGTAATCAAAGATTTTATTAAGATACACAATCCATCAATTGTTATTCTTCAAGAGACCAAAAGGACATTGGTGGATAACACCTTTGTTAAATCTGTATGGAGCTCGAGAAACATTGCTTGGGTCACTCTAGATGCAAAAGAAGATCTGGTGGTATTGCTATTCTATGGAACGAGTCTCTCTTCACATTCAACAATGTTTTGAAAGGTACCTATTCACTCTCTCTTAATCTCTCTTTGGCAGATGGTTATAGCTTTTGGATCACAGGAATTTATGGACCGAACAAAAGCAAAGAAAGAGATCTCATGTGGAAAGAACTTACTGATCTGAAGCAAAATATTGGCCACAATTGGGTGTTGGGAGGTGATTTCAACATTATCAGATGGAGCTCTGAAAAATCCAACAACAACTCGATTACCAGAGGAATGAAAAAGTTTAATAGGTTCATCTCAGAAGCAGAATTAACTGAGATTTCATTGACTAATGGAACATACACATGGTCTAATATGAGAGATAACCTTGTGATGACTCTAATTGACCGCTTCCTTGTCACTATTGGATTGATTATTAAATTTGTTCATTCAAAAGCTAGAAGACTTGAGAGAGTAACATCAGATCACTTCCCTATTAGTCTATCTCTTGGCAAAGAAAGATGGGGCCCGACTCCATTCTGTTTCTCAAATCAATGGTTGGAGCATCACACTTTTATACCTATGTTAGACAATTGGTGGTCTGATAATGGAATTGTCAATTGGTCTAGCCATGGATTTATACAGAAACTAGAAACTTAAAGCTCTTAAGATTCATATCAAGGAATGGAACCATTCTACGTTCGGACACAACATTGCTATGAATCTTAAATACAAAAACGAGCTGGAGGCATTGGACAAAAAAAAAAGAACAGACGACTTTGTCCCCTTCTGAAGCTAATAGAAGAATTGAAATTTGTAAATGCTAAAGTTGAGAGAATCAATGTGTGTCATTCTATTCATTAGAGGAGTCTTTATATACAAATATACAAGGTTTCCCTAGCCGTGTACATGTGAAAAGACGATAAAGGACACTATAATTAAACATCAATAAAACTGTCTAATATTAAACTCTAACACTCTCCCTCAAGTTGGAGCAAATATGTTAATCATGCCCAACTTGTTTGAGAGATAATCTATTCGTGCTCGATTCAGTGCTTTTGTGAAGATATCGGCTAATTGTTCTCCAGTCTTCACGTTTCCAATTGAAACCACGCCTTGCTGTATCTTTTCTCGTATAAAATGACAATCTATCTCAATGTGTTTAGTCCTCTCATGGAAAATTGGATTAGATGTGATATGAATGGCCGCTCGGTTATCACACCATAACTTTGTCGGTGTCGCGACATCAAATCCTAACTCAACTAATAGTTGGCATAACCAAATTAATTCACACACAGACTGTGCCATTGCTCTGTATTATGATTCAGTGCTCGAACGTGACACTACGTTTTGTTTCTTACTCTTCCATGAAACTAAATTGCCACCTACAAACACACAATACCCTAAGGTTGATCTTCGATCATCTTTATAACCTGCCCAGTAAGCATCTGAGAAACCTTCAATATTAGTATGACCATTATCTTTATACAGTAAACCACGACCAGGAGAAGCCTTCAAATAACCCAAAATCTGTTCTAATGCAGCCCAATGGTCAACCGTAGGGCACAACATATACTGGCTTCAAATAACCCAAAATCTGTTCTAATGCAGCCCAATGGTCAACCGTAGGGCACAACATATACTGGCTCACAACACTCACTGAATACGCTATATCTAGTCTAGTCACAGTAAGGTAATTCAATTTACCTACTAATCTTCTGTATCTTTCTGGATCTTCCAACAATTCTCCTTCTTTCGTGAGCCGTGAATTGGGCATCATCGGGGTACTACATGGCTTAACTCCTAACTTCCTTGTTTCAGTCAACAGATCAAGTACATATTTTCTTTGTGATAACAGAATTCCCTTCTTGCTTCTTATAACCTCAATCCCTAGAAAATATTTCAGCATACCTAAGTCTTTTGTATGAAATTGATTGTGAAGAAAGGTCTTGAGTGATTGAATACCCACTACATCATCACCTGTAATCACAATGTCATCAACATACACAATCAACAAATGACACCATTCTAAGACCGTTTAAAGAAGATAGAGTGATTTTATTTGCTTTTCTTCATCCCGAACTCTTCAATCACCTCACTGAATTTGCCAAACCAAGCTCGTGGGCTCTGTTTTAATCCATACAAGGACTTTCGGAGGCGACATACCTCTTCTTGCAGATCACCATGAAGAAAGGCATTTTTGATATCAAGTTGATGTAAGGGCCAATGTTAAATAGATGCTAACGAGATAAATAGCATTATTGATGCCATCTTCGCTACAGGAGAGAATGTATCCTCATAATCAACTACATACGTCTGTGCATATCCCTTGGCAACAAGGCGGGCTTTCAATCGAAACTATAGACCCATCAGGATTCACTTTAATCGTAAACACCCATTTACAACCAACAAACTTCTTTCCTGCAGGAAGAGAAACTAAATTCCAAGTACCATTGTCATTTAATGCAATCATCTCCTCTACCATTGCTGCACACCAACCAGGGTGAGACAAGGCTTCACGAACAGTTTTAGGGAGAGATACTGACTCTAGAGAAGCAATGAAGGAACACGTCGACGATGACAAATGATTATATGAAACAAAAGATGAGATAGGGTAAGCACACTAACTTTTACCTTTACGAAAAGCAATAGGAAAATCATCGCTCGTTCCTGGATCCGCTGTCGAAGAGACCTCTGGTAGTGGACATGGATCTGGAATGGATGGGACTGTAGTGTGTTGCCTTCGAGTACAAACATGAGTTATAGGTGGGTGAATAGAGGTAGGAACGAATAAATTAGGATTAGTAGGGAGCTCACTAGAGGTCAACTGTATAGATAAGAAAATTGTCATCATTCTCTTGACACTCCCCCTGACTCGTACTCGGTTGAGAAGAAAAGAACGACAAATGTTCAAAGAAGGTGACATCGGTAAGACATAATATTTATCAAGACTTGGACAATAACACTGATACCCTTTCTAGACTCGAGAATACCCAAGGAAAACACATTTAAGAGATTTTGGATCAAGTTTACTTAGGTTGGGAGGACGAACATCCCGAACATAGCATGTGCACCCAAATATTTTCGGTGTAATAGGGAACAAACGTTGTTGGGGACGCAAAACACTAAACAATATCTTACCTTTAAGAACAAAAGATGGCATACAATTGATGAGAAAATATGGTAGAACCCAAAGAAAGTAAAAACAAACAAAAGACAAAGAAATATCCTCCTCCTTTTATTGATATCCCATCAATATACACAAAAATATTCATGACCAATACAGAACATAAGGGCCCTGTAGGGTTTATAAAAAATATTCATTAACAATTGGTTGTCTATCAAAACATGCGGTCGAAATAGCATCAGAAAGGCCCTAGCTGTTTCAAGAAGATGACGATTCTTACGCTTTGCTACTTCATTTTGGGATAGAGTATCAACACACGAAGACTGATGAAGAATACCATGTGCATCAAGGTAAGGTCCGAGAGCACGTGAAAAATATTCTTTAGCATGATCACTGTATAAAATTTTAAGGCAACCACCAAATTGTGTTTGAATCTCAGCATGAAAATTACAAAAATGAGAAAGTAGTTCAGAACAATTTCTCATTAAATATAACCACGTTACACGAGAATAGTCATCAACAAAGGTGACAAAATACCGAAAACCTATCTTGGACTCTATAGGACAAGGATCCCAAACATCGGAATGCACTAATTCAAACGAAGCATTAGCTCGCTTATTGACCCGAGGATACAAACTTAAACGATAAAACTTAGCAAACTGACACAACTCACAAACTAAAGAAGATAAATGTTGAAACTGAGGATGCAGACTCTTTAATGCAGAGATAGATGGATGACCCAGACGACAATGTTCTTCAAAGGGAGAAGGCACACTAGAGCAGGTGATGGCGGTCGATACAGGTGGCTCAAAAATGTAAAGACCTCCAGATTCACGCCCTTTACCAATAGTCCTCTTCGTCGTAAGATCCTGAAACAAACAATAGCTAGGAAAGGACACAAAACAGTGAAGATCACGAGTGAGTTTGCTAATAGAAATCAAATTAAAAGAGAATTGTGGCAAACTTAAAACAGATGACAGTGAGATTGAGTCAGTAAGATTAACGGTGTCTGAACCTAAAACTTGATTAGCGGTTCCATTAGCTATAGTAACCGGAGGTGAAGATGTGGATGAGAAAAATTTAAAGAATAGACTGGGATTACCTGTCATGTGGTCTGTAGCGCCAGAGTCAATGACCCATTCTGTGGACGAGGAAAGAAGACATTTAGATGTGTTACTTGTCTCAGCGATGACGGTAATAGGGGTAGATGTGGACCAATGACTCGTGATACTGCTGAAATTTAGCAAATTGTTCTGCAGAAACAGTAATAGACTGTCCCGAATCTCCAGTAGTAGAGAACATTTGCAACTGGAGCTCTTTGACCCCTATTCAACTTCCTACACTCTAGTCTTGTATGACCAGGCTTGTGACAGTAATAACAAACCACATTCGAATTTGACCGCTGAGTATTAGAATATCCATAAGAGTTGTAGTTGTTTATTCCAGCCTTGTTGGCCCCAGTGTTGGATCCAACTCCCTTGTTGCTCTTATGATCACTAGTGTGTCCAACTAAGGCACTGTTAGAGTCAGATGACAAAACGACTCGTGGCTTCTCTATTCGAAGGATTTGAGTATAAGCTCCCTTCAATGATGAAATATCAGAACTTGGGAGAACTTGATCTTTGGCCATGTCATAATTTGAGGAAAGATAAACTAAGAAACTCATCATAAACATATGTTCTCGTTGAGCCAACTGCACTTTAGGATCAGTAAGGGCATCAAAGTATTAAATTCCGCACATGTTTTCTTCACTTCCATGAAGTAAGTAGTAAGCGATTTTTCACCTTGAATAGGTTGGAACAAGGTCTTGCATACGTCAAACACTCTATTAACATTCCCTTTACCTGAATACAGAAACTTCAGATACTCGAGGATCTCTTAATGATTAACCAACTCAACAATGTCGATTTCAATCGAGTTCTTGATTTGAAGGAACATTCTTGAGTCGTCTCGTAACCAAGATTTCTTATTATCACCTGTTGGTGGCGACTCTATCATGTGATCGTCCATCTCTATACTCCGAATATAGTGACCAATATTTGATCGCCGTGCATAATAATTGGACCCATTCAACTTGTGTTCGGTAATTTTCGACACCATCGGAACCATCTCTGTCACAATTGTTGATATCACCCATAATCTTCATAAACACAAAAAAAAGCAGCTAAACAACTAAAATCAGATCTGTAATACTCAACAAAACTTCGAAGAAAAGACGCCAAAGTCACCCGAAAGTCACCAAAATACCCTGACGTCAATAACTGCTCTTAAAACTCTCAATTGAGTGAAAAAACTACTAAATAATAAGAGAGCAGATCTGAAAAGAAACTGCCAGAAAAACCTATTAGACAATACTCACTCACAAGCCCACACGCCCTCGCAAGATTCGGGTGTCAAAAACTTGTTTGGGAGAGTGAAGCTCACTCGTATCTCCGTTCGCGATGAAAACTTACAAACTTGTAGATCGGCTAATGGGCTTTCTAATTGTGTAGGAGGTGAGAAAAAACGATGAAAAAATTCTTGAAAAATAGCCTCTGTCAGATTCTGACGCAAACGGACAAATTCTGACAACGTCTCGGGTACCCTTGATAGCGGCGGCTGTATGTCTTGCCTCCAAACTTGAGACTCTCTCAACCCTAATGCAACAAAAAACCCTAAGGCTCTGATACCATATAAATGCTAAAGTTGAGAGAATCAATATGTGTCATTCCATTCATTAGAGGAGTCTTTATATACAAATATACAACGTTGCCCTAGCTGTGTACATGTGAAAAGACGATAAAGGGCACTATAATTAAACATTAATAAAACTGTCTAATATTAAACTCTAGCTCTTAAGATTCATATCAAGGAATGGAACCATTTTACGTTCGGACACAACATTGCTATGAATCTTAAATATAGAAACGAGTTGGATGCATTGGACAAAAAAGAAGAACAGACTACTTTGTCCCCTTCTGAAGCTAATAGAAGATTGAAATTAAAGCTGGAATTCATGAGTTGATCATTAGGGATGAAATATCTTGGCGCCAAAGATGCAAAGCTAACTGTGATAAGAACCAAATATATATTATAATATAAAGATACTAATTAACCCAAGTGTTAAAGGTACTTGGACACTCCCAATCTTGAGACCATTCTCAAACCCTAAATACTCACTATCTCAATACTTCTCTGTCTTTTACTTTCCTATCCTCTCTATTTATAGTCTAATATGTTTATCTTACTTCTAATAGGATTGATCATTCCTTATCCTACTCCTAAACGGGTCTTATCAAACTGGTTAACGTTGGGTGATGAAAGTACAAACTTTTTTCATAGATATGTATCGACTAATAGAAGAAGAAATACTATTGTTGAGATCTTGGCTCAAGATGGTCGTAGTTTAGTCACTGATACTGACATTGAAACAAAATTTATAGACTTCTTCAGGAATCTTTTTACAAAAATAAACGATAGAGACCCACTGCCAAAGATCCCTGATTGGAGTCCATTGACCATAATACAAAAGAAAAGTCTTGAGATGCCATTTAATGAAGAGGAGATTAGGCGGGCGGTTTTTGACTTAGGAAGTAACAAGACTCCGAGGCAAATGGTTTTACTGCGGAATTTTTAAAAAAATCATGGAACATTGTTATCAAGACTGTGTTCAATGATTTTTTTCAAAATGGGATTATCAATGCTAGTTTAAACGAGATATACATTTGTCTTATTCCCAAAAAGTCTCTGGCTAGAATTGTTACTGATTCTCGTCCGATTAGTCTCACCACATGCTTGTACAAAGTCATTGCCCTTGTCCTATCAGAAAGATTGAAAGTTGTCCTTCCATATACCATTACAAAGTATCAATCAGCTTTTGTTGCAAAGAGAGATAGATTCTAGATGCTATTTTTACAACAAATGTTCTCATTGACGAATGCAAGAGGAAACAGGAAAAGGGGATAATCATTAAACTTGACATTGAGAAAGCTTTTGACATGGTGGATTGAGACTTTCTTGATTCCATTCTCCATATGAAAGGGCTTGGATTGACTTGGCGAAAGTGGATTAGAGGTTGTCTCTCTTCAGCCATATATTATCATTAATAGTAAGCCAAGAGGTAAAATTCATGCTACGAGAGGGTTACGACAAAGTGATCCGTTATCTCCCTTTTTGTTCACATTAGTGATGGATTGTCGTAGTAGATAGCTTATTGTGGTTGAAAAGGATGGGCTCATCGAGGGTTTCTCCATAACACACAAGAATAGGAAGGTAACTTGCTCTTTGCTGATGATACTATTCTTTTTTCTGCTCACAGGAAGGACTCCCTTGATAATTTGATTCAAACTGTTAGAAGGTTTGAGAAGGCGTCGAGTCCGAATGTTAATTGTAACAAAATGAGTTTCCTCACTCTAAATATTGATATTGATGAAGCTAAAAAGCTGGCTGCTCCGTATGGTTTCAAAATAGAGAATTGGCCCACAAATTATCTTGGTCTTCCATTAAATGGGAACCCATCATCAACTAGTTTTTGGAACCCTCTTAATGAAAAGATTGAGAATCGCCTTCAAAATTGGGGGGCATCCCATGTATCAAAGGGTGGTAGATTGACTCTTATTCAATCCACATTAGCCAATATTCCCATATATTATTTATCCCTCTTCCTTGCACCAATGAAAGTGACGAAAATGATTGAAAATTATGTAGAAATTATCTTTGGCGCGGTAAAGATGGAGGCAAGGCTAGCCATCTCATAAAGTGGGAGAGAGTCGAAGTTCCATTGGATGAAGGTGGGCTTGGCATTATTGACATTCACAAGAAGAACATTTCTCTCCTTGCTATAAATGGCACTGGAGATTTTACGAGGAAACTGAGGCTCTATGGAGGACTTGTATTGATATCAAGTATGACTCATCTCCACATGCATTCAAGGTTGGTTGCAAGAACATTAAAAAAACTAGAGGTCCATGGAGGAGCATTGACAGATGGAAACACCTTATATACTCTCATTGTATACACAAGGTGGGTATGGGTATAAACACACTTTTTTGGTCGGATATTTGGAATGAAAATGAAGTTCTTATATTGGCATTTCCTCTTATCTATGATCTATCTATGAATAAGAATGCTCGAATTGTTGATTGTTGGGATCCCACTAACTCATGGTGGAACTAGCTTAGAAGGAAGCTCAAAGAAGATGAAATTAGGGAATGGACCAACTTATCTTTTATATTAGATAATCTTTCCATTAATGAGAGACCGGACTCATGGCAGTGGACATTAGATAAAGATGGGGTCTTTACAACAAAATCTCTACTTCACTCATTATCATCATCTCCATTGGTTGTCAAGAGCGATCTATACCTTGATTTATGGACTAGTCAATTGCCAAAGAAAGTAAAGTTTTTTGTTTGGGAATTAAGCCATGGGACTATTAACACGGATGATCATCTCCAAGCAAAGTGGCCTTCAATGGCCTTATTGCCGAGTATGTGCTCCATGTGCCATAAAGAATCTGAAACTCAGATTCATCTCTTTAGTAATTGCAGTGTTGCTAGCAGAATTTGGGCTTTTTTGCAAGACGCTTTTTGCTGGCAGACGGTGAGACTAGGCACAACAAAGGATTGGGTTAAATACATGTATCAAGGTCACCCTTTCAAAGGTGAAAAGAAAATTTTATGGCATATGTTTATATCAGCATTATGGTGGAGATTATGGAATACGAGGAATGGTATCATCTTCGCAACCAACATGGCCCGTGACGGAGTATTATTGACTCTATTACTTTTCTTGCCATAACATGGTTCCATAAAATATTACCTTTCAAAGATTATAGTCTCACAACTCTTTTATCTCATTGGTAAGACTTTTTGTAATCTATATATGATTTTTTGTAATTTCGTTTCCTAAAAAAAAAAAAAACATTAGTAGGTTGCTAATTGGGTTGGCAAATAAGAGAGGGAAAGTGCTTTGAAAGGCAGGATTTGGTGTTTTCTTCTTCTTTTATCTTTTATTTTTTTATTTTTGTATGGATAAAGATTTTAGCAGGATAAAGGAAAGTAAAACTTTACCTGCTTTTAAAAATGGTGCAGCTTCGGTTTTAGCCTTACATTATTTTAGCTTTACAAAATTTTAACCGAGAACCGAAGAAGAGATTAACACTTCCTCACACGGTTTTAGGCAAGAATGAAGCTATGGGCATGCAAATATGGTCTTGTTTGTACAGGAACTGTTGGATTTTGATCTCTAGTGAACCTTGACAGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGGTGAGTAGCTCTTTGGCTCTGTACTTTTTTATGCTTCATTTAGACATTTTCCCTTCATTCTGAAGCATGAAACATTGCAAGGTTCCAAAAGTATTTATGTGACTTAAATTTTTTTTTATTAAATTCAACGATGATGATAGAAGTTGAATATCATTTGTATATCTAGTATCTACACATCATGATAGTTACAGGAATTTAGCCAGCAAAGTCTATATTAAGATATGGCTAGTGGCTAAATATTAATAACAGTAAATTAAATGTCTTGTGCGATTAAAGAAACTGGCAGAATGAGTTTAAATCTCGTTGAGTTAAAATAAAATCAGTAAATTATTTTATTAATTCGGATGATTTCCATTATGGGATTAAGAGCTAAGAAGTACGGACACGGATGCGTCGAGGATACGTTATTTATTATTATTTTTTATGATATACTATTAAAAGATCAAATTCAAAATATTTTAGTTTTTTTTTACTAACTATAAAAAATAGTTCAAACAAGGATGAACATGAAGATTGAATTAGCAATTGAATTTATGAATTAGCAATTGAATTTAACCTATGTAGTTAGTTATATGAGTCCATTTAAATCCAATAAAAAACAAAATCTCACCGTTCTTTCAATGCCCATCCTTGACAATCTCAAAATATTCTAGTTTTTACCTTTTTTTTCATTCTATTTTCTCTTTTTCTTTCATTTTTCCATTTTAGTCCATCTATCTTCGATAGACGTCATTATCGATCGCCTCCACCAACACTACCTGTTGTTGTGTCATCGACAATTTGAAATAGATAAATCTTAAATGGAGTGTCCATGAAATATCCATGGTGTATCCGTGAAGTGTCCAAAATTAAAAATAATAATAATAAAGGAGGACGCGAAATTTTGAGTGTCGGATATATCAGTGTCAGATATGAGTACGACACGGATATGTTGTCAAAATAGAAGTGTCCATGGTGCAATTATTCCACATTGATAAGGTGAGGAGTCTTCAACACATTTATAAGAGACATGAGTTACTCCCCTCATTGCCAATTAGTTTTGAGGTGGTACATCATATTCTCTAATATGGTATCAGAGCTCCATGTGGGTTATTGGTCCCCCAAATTCTGATTCAACCCAAAATGCTTTGAATTCTAAAGCGGGTGTGGACCCCACCCAAGCAGGCATAAACTTAAGCGGGTATATGATCCCAAAGTTCTGATCCAACCATAGCAAAAAGTAAGCCAAAATGAGTATTTCGGTCCACAAATTAGGATCCAATTCAAGATGACATTTTCTGATATGACCCCCATCTTGATTAGGCATGTTGGAGATACTCACCTTGTGGCCCAATTATCCCACTGAAATGAGGAGTATTTATAAGAGTAATGGGTTACTTCCCTCATTGCCAATTGGTTTTGAGGTGGAACTCTATATTTTTTGGCATCCGTGCTTCCTAGATTAAGAGTCACCACAACATAGATTGAATATAGAATCTTCATACTAAAAGGAAAAAAAGGCTAAACTTTAATTTTGAATATGAGCACATGTTATATGTGTGCTAGGATTGCCACCTCTAGCAATGCTTCCTTATTGACATAGTCGATAAGTGGAGACTGCTACAACACAAATGCATGTCTGTTTTACTAATGGTTGCTTTATTCATCATCTCCTTTGTAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG

mRNA sequence

ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGACTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCACTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG

Coding sequence (CDS)

ATGGAAAGAGAAAAGGAAGAAGAAGACATAGTTTGTCTTGATGCATCGTTCTTTATGAATAACGACTATCAGCTCACTACCTTTACATTCGGCTCCCATGTGATTCAACTCCTCTGTCTTCACTCTGCTTCCACTGATTTTGATTTAACGGGGCAATTAGTGTGGCCTGGTGCCTTGCTGATGAACAATTATCTTTCTGAACATGCTCACGTGCTTCGAGGATGTTCTATCATCGAATTGGGATCTGGGGTTGGTATTACTGGAGTACTTTGCAGCAAATTTTGCCACAAAGTGGTGTTGACAGACCATAATGATGAAGTTATAAAGATCCTGGAGAAAAATATACAGCTACATGCAACTTCTGAATCCCTGGAAAATTCTGCTGAACTAGTAGCTGAGAAGCTTGAATGGGGAAATTCTGATCAGATAACCCAAATTATAGACAAGAATTCTGGCGGTTTTGATCTAATTCTTGGTGCTGATATCTATATCCTGATTATTTCTTCCTCATTTTGCTCAAGAAATTCTAAAATAATAAAAATGACTTTGTTATTAAGCTTTCAACAATCAAGTGTACCCTTGCTTTTCAAAACAGCTGAACGGCTCCTCCAAGTAAGAGGAAGAGGAAAATGCAAATTCATTCTTGCTTACGTATCCCGAGCTAAGAGCATGGATGAACTGATTCTCGATGAAGCTTCTCGGCACGGGATGCAAATGAGTGAAGTAGCTGGAACTCGAGCTGTGGTTGGGAATCTTCAAGGAGTTATCTACGAGATCACGCTTAATTAG

Protein sequence

MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIKMTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMSEVAGTRAVVGNLQGVIYEITLN
Homology
BLAST of Sed0014482.1 vs. NCBI nr
Match: KAG6570431.1 (Protein N-lysine methyltransferase METTL21A, partial [Cucurbita argyrosperma subsp. sororia] >KAG7010305.1 Protein N-lysine methyltransferase METTL21A [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 451.8 bits (1161), Expect = 4.0e-123
Identity = 227/261 (86.97%), Postives = 245/261 (93.87%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLDASFFMNNDYQLTTF FGSH I+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDASFFMNNDYQLTTFAFGSHEIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCH VVLTDHN+EV+KIL++NIQLHA+
Sbjct: 61  MNNYLSKHAHLLQGCSIIELGSGVGITGILCSKFCHNVVLTDHNEEVLKILKQNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ES  NSA LVAEKLEWGNSDQITQ+IDK SGGFDLILGADIYIL +SSSFCSRN ++ K
Sbjct: 121 PESFGNSAGLVAEKLEWGNSDQITQVIDKYSGGFDLILGADIYILTLSSSFCSRNVEMTK 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
             LLLSFQQSSVPLLF+TAERLLQVRGRGKCKFILAYVSRAK MD LILDEASRHGMQM+
Sbjct: 181 SVLLLSFQQSSVPLLFETAERLLQVRGRGKCKFILAYVSRAKIMDALILDEASRHGMQMT 240

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 261

BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_008449636.1 (PREDICTED: protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis melo])

HSP 1 Score: 419.1 bits (1076), Expect = 2.8e-113
Identity = 213/262 (81.30%), Postives = 229/262 (87.40%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLD SFFMNNDYQLTTFTFGSH I+L CL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDPSFFMNNDYQLTTFTFGSHEIELFCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCHKVVLTDHN+EV+KIL+KNIQLHA+
Sbjct: 61  MNNYLSQHAHLLQGCSIIELGSGVGITGILCSKFCHKVVLTDHNEEVLKILKKNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ESL NSAEL AEKLEWGNSDQITQ++DK+SGGFDLILGADI                  
Sbjct: 121 PESLGNSAELAAEKLEWGNSDQITQVMDKHSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRA+SMD LILDEASRHGMQM+
Sbjct: 181 -----CFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRARSMDTLILDEASRHGMQMT 239

Query: 241 EVAGTRAVVGNLQGVIYEITLN 263
           EV GTR+VVGNLQGVIYEITLN
Sbjct: 241 EVDGTRSVVGNLQGVIYEITLN 239

BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_004140186.1 (protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis sativus])

HSP 1 Score: 415.2 bits (1066), Expect = 4.1e-112
Identity = 211/262 (80.53%), Postives = 228/262 (87.02%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLD SFFMNNDYQLTTFTFGSH I+L CL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDPSFFMNNDYQLTTFTFGSHEIELFCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCHKVVLTDHN+EV+KIL+KNI+LHA+
Sbjct: 61  MNNYLSQHAHLLQGCSIIELGSGVGITGILCSKFCHKVVLTDHNEEVLKILKKNIELHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ESL NSAEL AEKLEWGNSDQITQ++DK+SGGFDLILGADI                  
Sbjct: 121 PESLGNSAELAAEKLEWGNSDQITQVMDKHSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRA+SMD LILDEASRHGM+M 
Sbjct: 181 -----CFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRARSMDTLILDEASRHGMRMI 239

Query: 241 EVAGTRAVVGNLQGVIYEITLN 263
           EV GTR+VVGNLQGVIYEITLN
Sbjct: 241 EVDGTRSVVGNLQGVIYEITLN 239

BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_038901029.1 (protein N-lysine methyltransferase METTL21A [Benincasa hispida])

HSP 1 Score: 413.3 bits (1061), Expect = 1.6e-111
Identity = 212/261 (81.23%), Postives = 227/261 (86.97%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EE+DIVCLD SFF+NNDYQLTTFTFGSH I+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEDDIVCLDPSFFVNNDYQLTTFTFGSHEIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS H+H+L+GCSIIELGSGVGITG+LCSKFCHKVVLTDHN+EV+KIL+KNIQLHA+
Sbjct: 61  MNNYLSGHSHLLQGCSIIELGSGVGITGILCSKFCHKVVLTDHNEEVLKILKKNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ESL NSA L AEKLEWGNSDQITQ+IDK SGGFDLILGADI                  
Sbjct: 121 PESLGNSAGLAAEKLEWGNSDQITQVIDKYSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMD LILDEASRHGMQM+
Sbjct: 181 -----CFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDVLILDEASRHGMQMT 238

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 238

BLAST of Sed0014482.1 vs. NCBI nr
Match: XP_022943521.1 (protein N-lysine methyltransferase METTL21A [Cucurbita moschata])

HSP 1 Score: 411.4 bits (1056), Expect = 5.9e-111
Identity = 211/261 (80.84%), Postives = 226/261 (86.59%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLDASFFMNNDYQLTTF FGSH I+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDASFFMNNDYQLTTFAFGSHEIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCH VVLTDHN+EV+KIL++NIQLHA+
Sbjct: 61  MNNYLSKHAHLLQGCSIIELGSGVGITGILCSKFCHNVVLTDHNEEVLKILKQNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ES  NSA LVAEKLEWGNSDQITQ+IDK SGGFDLILGADI                  
Sbjct: 121 PESFGNSAGLVAEKLEWGNSDQITQVIDKYSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLF+TAERLLQVRGRGKCKFILAYVSRAK MD LILDEASRHGMQM+
Sbjct: 181 -----CFQQSSVPLLFETAERLLQVRGRGKCKFILAYVSRAKIMDALILDEASRHGMQMT 238

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 238

BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q9CQL0 (Protein N-lysine methyltransferase METTL21A OS=Mus musculus OX=10090 GN=Mettl21A PE=2 SV=1)

HSP 1 Score: 68.9 bits (167), Expect = 9.5e-11
Identity = 50/165 (30.30%), Postives = 82/165 (49.70%), Query Frame = 0

Query: 25  LTTFTFGSHVIQLLCLHSASTDFDLTG--QLVWPGALLMNNYLSEHAHVLRGCSIIELGS 84
           L TF+F +H IQ+        D+   G   +VW  A++++ YL   A  LRGCS +ELG+
Sbjct: 21  LATFSFANHTIQI------RQDWRQLGVAAVVWDAAVVLSMYLEMGAVELRGCSAVELGA 80

Query: 85  GVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQ 144
           G G+ G++ +    +V +TD     ++ L+ N++ +          + V ++L WG +  
Sbjct: 81  GTGLVGIVAALLGAQVTITDRK-VALEFLKSNVEANLPPHI---QPKAVVKELTWGQN-- 140

Query: 145 ITQIIDKNSGGFDLILGADIY--------ILIISSSFCSRNSKII 180
              +   + G FDLILGAD+         +L      CS NS I+
Sbjct: 141 ---LESFSPGEFDLILGADVIYLEDTFTDLLQTLGHLCSNNSVIL 170

BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: A4FV42 (Protein N-lysine methyltransferase METTL21A OS=Bos taurus OX=9913 GN=METTL21A PE=2 SV=1)

HSP 1 Score: 66.6 bits (161), Expect = 4.7e-10
Identity = 46/143 (32.17%), Postives = 72/143 (50.35%), Query Frame = 0

Query: 25  LTTFTFGSHVIQLLCLHSASTDFDLTG--QLVWPGALLMNNYLSEHAHVLRGCSIIELGS 84
           L TF+F +H IQ+        D+   G   +VW  A+++  YL      LRGCS +ELG+
Sbjct: 21  LATFSFANHTIQI------RQDWKQLGVAAVVWDAAVVLATYLEMGTVELRGCSAVELGA 80

Query: 85  GVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQ 144
           G G+ G++ +     V +TD     ++ L+ N+Q +          + V ++L WG +  
Sbjct: 81  GTGLVGIVAALLGAHVTITDRK-VALEFLKSNVQANLPPHI---QPKAVVKELTWGQN-- 140

Query: 145 ITQIIDKNSGGFDLILGADIYIL 166
              +   + G FDLILGADI  L
Sbjct: 141 ---LGRFSPGEFDLILGADIIYL 148

BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q8WXB1 (Protein N-lysine methyltransferase METTL21A OS=Homo sapiens OX=9606 GN=METTL21A PE=1 SV=2)

HSP 1 Score: 65.5 bits (158), Expect = 1.0e-09
Identity = 46/143 (32.17%), Postives = 73/143 (51.05%), Query Frame = 0

Query: 25  LTTFTFGSHVIQLLCLHSASTDFDLTG--QLVWPGALLMNNYLSEHAHVLRGCSIIELGS 84
           L TF+F +H IQ+        D+   G   +VW  A++++ YL   A  LRG S +ELG+
Sbjct: 21  LATFSFANHTIQI------RQDWRHLGVAAVVWDAAIVLSTYLEMGAVELRGRSAVELGA 80

Query: 85  GVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQ 144
           G G+ G++ +     V +TD     ++ L+ N+Q +          + V ++L WG +  
Sbjct: 81  GTGLVGIVAALLGAHVTITDRK-VALEFLKSNVQANLPPHI---QTKTVVKELTWGQN-- 140

Query: 145 ITQIIDKNSGGFDLILGADIYIL 166
              +   + G FDLILGADI  L
Sbjct: 141 ---LGSFSPGEFDLILGADIIYL 148

BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q8R1C6 (Methyltransferase-like protein 22 OS=Mus musculus OX=10090 GN=Mettl22 PE=2 SV=1)

HSP 1 Score: 61.2 bits (147), Expect = 2.0e-08
Identity = 27/97 (27.84%), Postives = 55/97 (56.70%), Query Frame = 0

Query: 41  HSASTDFDLTGQLVWPGALLMNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVL 100
           H+ +T  +  G+ VW GALL+ +Y+     + +GC+++ELG+G G+  ++ +   H V  
Sbjct: 162 HTMATPLEDVGKQVWRGALLLADYILFRRDLFQGCTVLELGAGTGLASIVAATMAHTVYC 221

Query: 101 TDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEW 138
           TD   +++ + ++N+ L++   +       V E L+W
Sbjct: 222 TDVGTDLLAMCQRNVALNSHLTATGGGVVKVKE-LDW 257

BLAST of Sed0014482.1 vs. ExPASy Swiss-Prot
Match: Q9BUU2 (Methyltransferase-like protein 22 OS=Homo sapiens OX=9606 GN=METTL22 PE=1 SV=2)

HSP 1 Score: 60.1 bits (144), Expect = 4.4e-08
Identity = 30/104 (28.85%), Postives = 55/104 (52.88%), Query Frame = 0

Query: 41  HSASTDFDLTGQLVWPGALLMNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVL 100
           H+ +T  +  G+ VW GALL+ +Y+     + RGC+ +ELG+G G+  ++ +     V  
Sbjct: 173 HTMATPLEDVGKQVWRGALLLADYILFRQDLFRGCTALELGAGTGLASIIAATMARTVYC 232

Query: 101 TDHNDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQIT 145
           TD   +++ + ++NI L++   +       V E L+W   D  T
Sbjct: 233 TDVGADLLSMCQRNIALNSHLAATGGGIVRVKE-LDWLKDDLCT 275

BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A1S3BNE5 (protein N-lysine methyltransferase METTL21A isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491460 PE=4 SV=1)

HSP 1 Score: 419.1 bits (1076), Expect = 1.4e-113
Identity = 213/262 (81.30%), Postives = 229/262 (87.40%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLD SFFMNNDYQLTTFTFGSH I+L CL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDPSFFMNNDYQLTTFTFGSHEIELFCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCHKVVLTDHN+EV+KIL+KNIQLHA+
Sbjct: 61  MNNYLSQHAHLLQGCSIIELGSGVGITGILCSKFCHKVVLTDHNEEVLKILKKNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ESL NSAEL AEKLEWGNSDQITQ++DK+SGGFDLILGADI                  
Sbjct: 121 PESLGNSAELAAEKLEWGNSDQITQVMDKHSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRA+SMD LILDEASRHGMQM+
Sbjct: 181 -----CFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRARSMDTLILDEASRHGMQMT 239

Query: 241 EVAGTRAVVGNLQGVIYEITLN 263
           EV GTR+VVGNLQGVIYEITLN
Sbjct: 241 EVDGTRSVVGNLQGVIYEITLN 239

BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1FRY5 (protein N-lysine methyltransferase METTL21A OS=Cucurbita moschata OX=3662 GN=LOC111448270 PE=4 SV=1)

HSP 1 Score: 411.4 bits (1056), Expect = 2.9e-111
Identity = 211/261 (80.84%), Postives = 226/261 (86.59%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLDASFFMNNDYQLTTF FGSH I+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDASFFMNNDYQLTTFAFGSHEIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCH VVLTDHN+EV+KIL++NIQLHA+
Sbjct: 61  MNNYLSKHAHLLQGCSIIELGSGVGITGILCSKFCHNVVLTDHNEEVLKILKQNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ES  NSA LVAEKLEWGNSDQITQ+IDK SGGFDLILGADI                  
Sbjct: 121 PESFGNSAGLVAEKLEWGNSDQITQVIDKYSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLF+TAERLLQVRGRGKCKFILAYVSRAK MD LILDEASRHGMQM+
Sbjct: 181 -----CFQQSSVPLLFETAERLLQVRGRGKCKFILAYVSRAKIMDALILDEASRHGMQMT 238

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 238

BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1DFS1 (protein N-lysine methyltransferase METTL21A OS=Momordica charantia OX=3673 GN=LOC111020665 PE=4 SV=1)

HSP 1 Score: 411.0 bits (1055), Expect = 3.7e-111
Identity = 211/261 (80.84%), Postives = 227/261 (86.97%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLDASFFMNNDY+LTTFTFGSHVI+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDASFFMNNDYRLTTFTFGSHVIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           +NNYLS+HAH+L+GCSIIELGSGVG+TG+LCSK CHKVVLTDHN+EV+KIL KNIQLHA+
Sbjct: 61  LNNYLSKHAHLLQGCSIIELGSGVGVTGILCSKSCHKVVLTDHNEEVLKILRKNIQLHAS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ESL NSA LVAEKLEWGNSDQITQI+DK SGGFDLILGADI                  
Sbjct: 121 PESLGNSAGLVAEKLEWGNSDQITQILDKYSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLFKTAERLLQVR RGKCKFILAYVSRAK MD LILDEA+RHGMQM+
Sbjct: 181 -----CFQQSSVPLLFKTAERLLQVRERGKCKFILAYVSRAKIMDALILDEAARHGMQMT 238

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 238

BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A6J1J8W1 (protein N-lysine methyltransferase METTL21A OS=Cucurbita maxima OX=3661 GN=LOC111483655 PE=4 SV=1)

HSP 1 Score: 406.0 bits (1042), Expect = 1.2e-109
Identity = 208/261 (79.69%), Postives = 225/261 (86.21%), Query Frame = 0

Query: 1   MEREKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALL 60
           MERE+EEEDIVCLDASFFMNNDYQLTTF FGSH I+LLCL SASTDFDLTGQLVWPGALL
Sbjct: 1   MEREEEEEDIVCLDASFFMNNDYQLTTFAFGSHEIELLCLQSASTDFDLTGQLVWPGALL 60

Query: 61  MNNYLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHAT 120
           MNNYLS+HAH+L+GCSIIELGSGVGITG+LCSKFCHKVVLTDHN+EV+KIL++NIQLH++
Sbjct: 61  MNNYLSKHAHLLQGCSIIELGSGVGITGILCSKFCHKVVLTDHNEEVLKILKQNIQLHSS 120

Query: 121 SESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIK 180
            ES  NS  LVAEKLEWGNSDQITQ+IDK SGGFDLILGADI                  
Sbjct: 121 PESFGNSTGLVAEKLEWGNSDQITQVIDKYSGGFDLILGADI------------------ 180

Query: 181 MTLLLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMS 240
                 FQQSSVPLLF+TAE+LLQVRGRGKCKFILAYVSRAK MD LILDEASRH MQM+
Sbjct: 181 -----CFQQSSVPLLFETAEQLLQVRGRGKCKFILAYVSRAKIMDALILDEASRHRMQMT 238

Query: 241 EVAGTRAVVGNLQGVIYEITL 262
           EVAGTR+VVGNLQGVIYEITL
Sbjct: 241 EVAGTRSVVGNLQGVIYEITL 238

BLAST of Sed0014482.1 vs. ExPASy TrEMBL
Match: A0A565BJ35 (Uncharacterized protein OS=Arabis nemorensis OX=586526 GN=ANE_LOCUS12104 PE=4 SV=1)

HSP 1 Score: 349.0 bits (894), Expect = 1.7e-92
Identity = 174/257 (67.70%), Postives = 207/257 (80.54%), Query Frame = 0

Query: 5   KEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNNY 64
           +EEE+IVCLD SFF+N+DYQLTTFTFGSHV++L CL SASTDFDLTGQLVWPGA+LMN Y
Sbjct: 12  EEEEEIVCLDESFFINDDYQLTTFTFGSHVLELYCLQSASTDFDLTGQLVWPGAMLMNGY 71

Query: 65  LSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSESL 124
           LSE+A +L+GCS++ELGSGVGITGVLCSKFC KV+LTDHNDEV+KIL+KNI+LH  S   
Sbjct: 72  LSENAEILQGCSVLELGSGVGITGVLCSKFCSKVILTDHNDEVLKILKKNIELHEHSSGP 131

Query: 125 ENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIKMTLL 184
             SAEL A KLEWGNSD++ +I+ K++ GFDLILGADIYILI                  
Sbjct: 132 NPSAELEAAKLEWGNSDRLGEILQKHNDGFDLILGADIYILI------------------ 191

Query: 185 LSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMSEVAG 244
             FQQSSVPLLF + E+LL++RG G CKFILAYVSRA+ MD  IL E ++HGM M+EV+G
Sbjct: 192 --FQQSSVPLLFDSVEQLLRIRGHGNCKFILAYVSRARQMDSAILREGAQHGMLMNEVSG 248

Query: 245 TRAVVGNLQGVIYEITL 262
           TR  VGNL+GVI+EITL
Sbjct: 252 TRCTVGNLEGVIFEITL 248

BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.1 (Putative methyltransferase family protein )

HSP 1 Score: 337.0 bits (863), Expect = 1.3e-92
Identity = 171/258 (66.28%), Postives = 203/258 (78.68%), Query Frame = 0

Query: 4   EKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNN 63
           E+EEE+IVCL+ SFF+N+DYQLT FTFGSHV++L CL SASTDFDLTGQLVWPGA+LMN 
Sbjct: 14  EEEEEEIVCLE-SFFINDDYQLTKFTFGSHVLELYCLQSASTDFDLTGQLVWPGAMLMNG 73

Query: 64  YLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSES 123
           YLSE+A +L+GCS++ELGSGVGITGVLCSKFC KV+ TDHNDEV+KIL+KNI LH  S  
Sbjct: 74  YLSENADILQGCSVLELGSGVGITGVLCSKFCRKVIFTDHNDEVLKILKKNIDLHGHSSG 133

Query: 124 LENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIKMTL 183
            + SAEL A KLEWGNSDQ+ QI+ K++ GFDLILGADI                     
Sbjct: 134 PKPSAELEAAKLEWGNSDQLGQILKKHNDGFDLILGADI--------------------- 193

Query: 184 LLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMSEVA 243
              FQQSSVPLLF + E+LL++RG+G CKFILAYVSRA+ MD  IL E ++HGM M+EV+
Sbjct: 194 --CFQQSSVPLLFDSVEQLLRIRGQGNCKFILAYVSRARQMDSAILREGAQHGMLMNEVS 247

Query: 244 GTRAVVGNLQGVIYEITL 262
           GTR  VGNL+GVIYEITL
Sbjct: 254 GTRCTVGNLEGVIYEITL 247

BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.2 (Putative methyltransferase family protein )

HSP 1 Score: 337.0 bits (863), Expect = 1.3e-92
Identity = 171/258 (66.28%), Postives = 203/258 (78.68%), Query Frame = 0

Query: 4   EKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNN 63
           E+EEE+IVCL+ SFF+N+DYQLT FTFGSHV++L CL SASTDFDLTGQLVWPGA+LMN 
Sbjct: 14  EEEEEEIVCLE-SFFINDDYQLTKFTFGSHVLELYCLQSASTDFDLTGQLVWPGAMLMNG 73

Query: 64  YLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSES 123
           YLSE+A +L+GCS++ELGSGVGITGVLCSKFC KV+ TDHNDEV+KIL+KNI LH  S  
Sbjct: 74  YLSENADILQGCSVLELGSGVGITGVLCSKFCRKVIFTDHNDEVLKILKKNIDLHGHSSG 133

Query: 124 LENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSFCSRNSKIIKMTL 183
            + SAEL A KLEWGNSDQ+ QI+ K++ GFDLILGADI                     
Sbjct: 134 PKPSAELEAAKLEWGNSDQLGQILKKHNDGFDLILGADI--------------------- 193

Query: 184 LLSFQQSSVPLLFKTAERLLQVRGRGKCKFILAYVSRAKSMDELILDEASRHGMQMSEVA 243
              FQQSSVPLLF + E+LL++RG+G CKFILAYVSRA+ MD  IL E ++HGM M+EV+
Sbjct: 194 --CFQQSSVPLLFDSVEQLLRIRGQGNCKFILAYVSRARQMDSAILREGAQHGMLMNEVS 247

Query: 244 GTRAVVGNLQGVIYEITL 262
           GTR  VGNL+GVIYEITL
Sbjct: 254 GTRCTVGNLEGVIYEITL 247

BLAST of Sed0014482.1 vs. TAIR 10
Match: AT2G26810.3 (Putative methyltransferase family protein )

HSP 1 Score: 251.5 bits (641), Expect = 7.3e-67
Identity = 122/168 (72.62%), Postives = 145/168 (86.31%), Query Frame = 0

Query: 4   EKEEEDIVCLDASFFMNNDYQLTTFTFGSHVIQLLCLHSASTDFDLTGQLVWPGALLMNN 63
           E+EEE+IVCL+ SFF+N+DYQLT FTFGSHV++L CL SASTDFDLTGQLVWPGA+LMN 
Sbjct: 14  EEEEEEIVCLE-SFFINDDYQLTKFTFGSHVLELYCLQSASTDFDLTGQLVWPGAMLMNG 73

Query: 64  YLSEHAHVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDHNDEVIKILEKNIQLHATSES 123
           YLSE+A +L+GCS++ELGSGVGITGVLCSKFC KV+ TDHNDEV+KIL+KNI LH  S  
Sbjct: 74  YLSENADILQGCSVLELGSGVGITGVLCSKFCRKVIFTDHNDEVLKILKKNIDLHGHSSG 133

Query: 124 LENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADIYILIISSSF 172
            + SAEL A KLEWGNSDQ+ QI+ K++ GFDLILGADIYIL+  + F
Sbjct: 134 PKPSAELEAAKLEWGNSDQLGQILKKHNDGFDLILGADIYILMFVNEF 180

BLAST of Sed0014482.1 vs. TAIR 10
Match: AT1G73320.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 52.0 bits (123), Expect = 8.5e-07
Identity = 37/119 (31.09%), Postives = 64/119 (53.78%), Query Frame = 0

Query: 49  LTGQLVWPGALLMNNYLSEHA-----HVLRGCSIIELGSGVGITGVLCSKFCHKVVLTDH 108
           +TG ++W   +++  +L EH+       L G  I+ELGSG G+ G + +      VLTD 
Sbjct: 117 VTGSVMWDSGVVLGKFL-EHSVDSKVLSLEGKKIVELGSGCGLVGCIAALLGGNAVLTDL 176

Query: 109 NDEVIKILEKNIQLHATSESLENSAELVAEKLEWGNSDQITQIIDKNSGGFDLILGADI 163
            D  +++L+KNIQ +    +   SA  + ++L WG+ D    +I+      D +LG+D+
Sbjct: 177 PDR-LRLLKKNIQTNLHRGNTRGSA--IVQELVWGD-DPDPDLIEPFP---DYVLGSDV 227

BLAST of Sed0014482.1 vs. TAIR 10
Match: AT1G79915.1 (Putative methyltransferase family protein )

HSP 1 Score: 50.1 bits (118), Expect = 3.2e-06
Identity = 23/83 (27.71%), Postives = 46/83 (55.42%), Query Frame = 0

Query: 41  HSASTDFDLTGQLVWPGALLMNNYLSEH---AHVLRGCSIIELGSGVGITGVLCSKFCHK 100
           HS +++    G  VW   L+++ ++      +    G   +ELG+G G+ G+L ++    
Sbjct: 66  HSITSNLRHVGLQVWKAQLVLSEFVLHKICTSSDFHGIVCLELGAGTGLLGILLARVAKA 125

Query: 101 VVLTDHNDEVIKILEKNIQLHAT 121
           + LTDH DE++    KN++L+++
Sbjct: 126 IFLTDHGDEILGNCGKNLELNSS 148

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
KAG6570431.14.0e-12386.97Protein N-lysine methyltransferase METTL21A, partial [Cucurbita argyrosperma sub... [more]
XP_008449636.12.8e-11381.30PREDICTED: protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis melo][more]
XP_004140186.14.1e-11280.53protein N-lysine methyltransferase METTL21A isoform X1 [Cucumis sativus][more]
XP_038901029.11.6e-11181.23protein N-lysine methyltransferase METTL21A [Benincasa hispida][more]
XP_022943521.15.9e-11180.84protein N-lysine methyltransferase METTL21A [Cucurbita moschata][more]
Match NameE-valueIdentityDescription
Q9CQL09.5e-1130.30Protein N-lysine methyltransferase METTL21A OS=Mus musculus OX=10090 GN=Mettl21A... [more]
A4FV424.7e-1032.17Protein N-lysine methyltransferase METTL21A OS=Bos taurus OX=9913 GN=METTL21A PE... [more]
Q8WXB11.0e-0932.17Protein N-lysine methyltransferase METTL21A OS=Homo sapiens OX=9606 GN=METTL21A ... [more]
Q8R1C62.0e-0827.84Methyltransferase-like protein 22 OS=Mus musculus OX=10090 GN=Mettl22 PE=2 SV=1[more]
Q9BUU24.4e-0828.85Methyltransferase-like protein 22 OS=Homo sapiens OX=9606 GN=METTL22 PE=1 SV=2[more]
Match NameE-valueIdentityDescription
A0A1S3BNE51.4e-11381.30protein N-lysine methyltransferase METTL21A isoform X1 OS=Cucumis melo OX=3656 G... [more]
A0A6J1FRY52.9e-11180.84protein N-lysine methyltransferase METTL21A OS=Cucurbita moschata OX=3662 GN=LOC... [more]
A0A6J1DFS13.7e-11180.84protein N-lysine methyltransferase METTL21A OS=Momordica charantia OX=3673 GN=LO... [more]
A0A6J1J8W11.2e-10979.69protein N-lysine methyltransferase METTL21A OS=Cucurbita maxima OX=3661 GN=LOC11... [more]
A0A565BJ351.7e-9267.70Uncharacterized protein OS=Arabis nemorensis OX=586526 GN=ANE_LOCUS12104 PE=4 SV... [more]
Match NameE-valueIdentityDescription
AT2G26810.11.3e-9266.28Putative methyltransferase family protein [more]
AT2G26810.21.3e-9266.28Putative methyltransferase family protein [more]
AT2G26810.37.3e-6772.62Putative methyltransferase family protein [more]
AT1G73320.18.5e-0731.09S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
AT1G79915.13.2e-0627.71Putative methyltransferase family protein [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR019410Lysine methyltransferasePFAMPF10294Methyltransf_16coord: 50..162
e-value: 1.7E-16
score: 60.4
NoneNo IPR availableGENE3D3.40.50.150Vaccinia Virus protein VP39coord: 1..254
e-value: 1.7E-40
score: 140.9
NoneNo IPR availablePANTHERPTHR23108:SF3METHYLTRANSFERASE FAMILY PROTEIN-RELATEDcoord: 2..261
IPR038899Methyltransferase-like protein 22PANTHERPTHR23108METHYLTRANSFERASE-RELATEDcoord: 2..261
IPR029063S-adenosyl-L-methionine-dependent methyltransferaseSUPERFAMILY53335S-adenosyl-L-methionine-dependent methyltransferasescoord: 53..159

Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
Sed0014482Sed0014482gene


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

Feature NameUnique NameType
Sed0014482.1-exonSed0014482.1-exon-LG05:17614998..17615062exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17615135..17615202exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17615645..17615764exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17616447..17616520exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17616622..17616679exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17616759..17616922exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17629134..17629252exon
Sed0014482.1-exonSed0014482.1-exon-LG05:17630913..17631033exon


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

Feature NameUnique NameType
Sed0014482.1-cdsSed0014482.1-cds-LG05:17614998..17615062CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17615135..17615202CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17615645..17615764CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17616447..17616520CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17616622..17616679CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17616759..17616922CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17629134..17629252CDS
Sed0014482.1-cdsSed0014482.1-cds-LG05:17630913..17631033CDS


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
Sed0014482.1Sed0014482.1-proteinpolypeptide


GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006479 protein methylation
cellular_component GO:0005634 nucleus
molecular_function GO:0008276 protein methyltransferase activity