CDS

Accession Number TCMCG036C07101
gbkey CDS
Protein Id PTQ43758.1
Location join(813939..814796,815038..815136,815331..815450,815702..815868,816821..816891,817121..817263,817444..817555,817711..817820,817997..818122)
GeneID Phytozome:Mapoly0023s0079
Organism Marchantia polymorpha
locus_tag MARPO_0023s0079

Protein

Length 601aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA53523, BioSample:SAMN00769973
db_source KZ772695.1
Definition hypothetical protein MARPO_0023s0079 [Marchantia polymorpha]
Locus_tag MARPO_0023s0079

EGGNOG-MAPPER Annotation

COG_category A
Description Specifically methylates the N1 position of guanosine-37 in various cytoplasmic and mitochondrial tRNAs. Methylation is not dependent on the nature of the nucleoside 5' of the target nucleoside. This is the first step in the biosynthesis of wybutosine (yW), a modified base adjacent to the anticodon of tRNAs and required for accurate decoding
KEGG_TC -
KEGG_Module -
KEGG_Reaction R00597        [VIEW IN KEGG]
KEGG_rclass RC00003        [VIEW IN KEGG]
RC00334        [VIEW IN KEGG]
BRITE ko00000        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
ko03016        [VIEW IN KEGG]
KEGG_ko ko:K15429        [VIEW IN KEGG]
EC 2.1.1.228        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway -
GOs -

Sequence

CDS:  
ATGCTGAGCTCACGCTTCTGCTCTGTGCTCTGTGTTCACTCCACTTGTACATGGAATCGTTCGTCTAAAGCGAATTTGGCCTGCGTGAGTGCATCGGTGGGTACTTCTCCGCTGCGGCCGCAGCCGTCTCTGAGCAGAGGATGGATTCTGCAGCACAAACGCGGAAGTGCGGGGACTGGAATCGAGGAGGTGCTGCTTTCGACGCTGGAAGAGCCCCGTTCTGAGTTGGAGTTGCAAGCCATTGAAAATGGGAAGGAGCTGGAAATTTCGGAATCTTTGCGAATTTCGGGAATTGAAATGGAGAAGGGCATGAGATTGGTGCCTGAGGCGAAATATGTGAGAGGAGCAGACATTAAAAAAGAGAGCTTCATCAGGGTTTACTACATATCTGCTTTGCGGGTGCCTGCAAAAGATTGTCATGAATTAGAGAGAAATTTAGATGAGCACCTGCTTAACTGGCCGAGAGTGGATAATATCGCCCGAGTTCGAGGAGATGATGTCGATCACGACCTGGAGAATCTCTTTCGAGGCAGTAAAGAATGGAGCCCGTCCACTGCCCAGGCTATAAGATCGGCAATTTATGGTGAAGAAGGTGCAATCAACGAAGAGGCAATTTTGTCAAATAAGGACCTTAAATTGGTTGAATCAGGTGTCAAGGGCATGGATGATCAACTGAGTCCAACCTCGATAAGATGTCAACCGTATACGGTGGAGGTGGTGGACGAACAAGCAAATGCGAATGCATCTGGTGGCTTGCTTGGAATTCTGAAAAAGAAATGGACAGGTCCAACGAGATTGTTGTTACTCAACGAGGAACTTGTGGGCAGGAGTTTTGCTGAATTACCTCCTTCTATCAAGGCCGTGCTTTCACGTTCCGAGGAATGTGAATCACAGAGCAGATGCCAACTCGTATCTTGCAGGCTGACCCTCTACTACGAGTATTGGTCTTTGGAGGAGGTGCTAAAAGATTTGCTACCCTCGGAGGTTGAAGTTCCAGATGCTTTCGAAAGAATAGGTCACGTAGCATTTTTAAATCTTAATGCTGAGCAATGTCAGTATCGACATCTCATTGCCCAGGTGACTTTGGATAAGCACCAACCAAGAGTAAGGTCTGTTGTGAATAAAAGAGAAGCGAGGAATACCAGGTCTTACGCCGTCCACGTGGAAGTTTTAGCTGGAACCAGCTCTCTTGTCACAACTGTATGGGAGAATGGTATTCCTTTTCGGATCGACCTTGCATCTGTGATCTGGGATTCTCGTCTCAGGGCAGACAGGCAGCGACTGGTTGGACTCTTTTGTAGGAACGATGTCGTGTGCGACGTATTTGCAGGTCCTGGACCAGTGTCTGTTCCAGCTGGTTTCAAGGTTAGGAGGACTTTTGCAAATGAAGTCAACCCTGTGGCCTATAAATATCTTGCTCAAAATGTTACTGCGAATAAGGTTGCCAGTAAAGTGGAAGTCTTTAACCTGGATACATCTCAGTTTTTAGAAAATGTGTTTGATCCTGAAAGGCCCTCGCCAGTAACGCAAGTGGTTATGGCCTATCCTTCAGCGGCAGCCGATTTCTTGGATTTTTTTTGTGGTGCATTCAAGCGAAGGACGTGGGAGTTGCCTTTTTTGCCAAAACTTCACTTGTATACTTTCTCCTCTGGTGCAGATCCAGCAAAACGAGTTTCACAAGATATAGAAAATACTTTCGGTGTGTGTCCGAAGGATATGGATGTAGTTCTTATAGCAGAAGAAGCACCTGGAGAGTGGATGCTCCGAGCTTCATTTACCATCCCACCTGAAGTTGGATTTCGATAG
Protein:  
MLSSRFCSVLCVHSTCTWNRSSKANLACVSASVGTSPLRPQPSLSRGWILQHKRGSAGTGIEEVLLSTLEEPRSELELQAIENGKELEISESLRISGIEMEKGMRLVPEAKYVRGADIKKESFIRVYYISALRVPAKDCHELERNLDEHLLNWPRVDNIARVRGDDVDHDLENLFRGSKEWSPSTAQAIRSAIYGEEGAINEEAILSNKDLKLVESGVKGMDDQLSPTSIRCQPYTVEVVDEQANANASGGLLGILKKKWTGPTRLLLLNEELVGRSFAELPPSIKAVLSRSEECESQSRCQLVSCRLTLYYEYWSLEEVLKDLLPSEVEVPDAFERIGHVAFLNLNAEQCQYRHLIAQVTLDKHQPRVRSVVNKREARNTRSYAVHVEVLAGTSSLVTTVWENGIPFRIDLASVIWDSRLRADRQRLVGLFCRNDVVCDVFAGPGPVSVPAGFKVRRTFANEVNPVAYKYLAQNVTANKVASKVEVFNLDTSQFLENVFDPERPSPVTQVVMAYPSAAADFLDFFCGAFKRRTWELPFLPKLHLYTFSSGADPAKRVSQDIENTFGVCPKDMDVVLIAEEAPGEWMLRASFTIPPEVGFR