EC Number |
General Information |
Reference |
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2.1.1.264 | evolution |
SAV1081 belongs to te cluster of orthologous groups (COG) 1092, functional classification, overview |
720987 |
2.1.1.264 | evolution |
the enzyme is a member of the COG1092 family, evolutionary implications of the apparent emergence of Escherichia coli YcbY from the fusion of Streptococcus mutans Smu472 and Smu776 orthologues are considered, Streptococcus mutans proteins Smu472 and Smu776 are respectively Gram-positive orthologs of the N- and C-halves of YcbY |
-, 720601 |
2.1.1.264 | malfunction |
Neisseria meningitidis rlmL and rlmK homologues rescue m2G2445 and m7G2069 formation, respectively, in the Escherichia coli DELTArlmKL strain |
720598 |
2.1.1.264 | malfunction |
Neisseria meningitidis rlmL and rlmK homologues rescue m2G2445 and m7G2069 formation, respectively, in the Escherichia coli DELTArlmKL strain, overview |
-, 720598 |
2.1.1.264 | physiological function |
rlmKL encodes a fused methyltransferase responsible for forming both m7G2069 and m2G2445, the N-terminal RlmL activity for m2G2445 formation is significantly enhanced by the C-terminal RlmK. RlmKL has an unwinding activity of Helix 74, facilitating cooperative methylations of m7G2069 and m2G2445 during biogenesis of 50S subunit. For unwinding single-stranded RNA is a good substrate for RlmKL, substrate speccificity, overview. RlmKL is involved in the efficient assembly of 50S subunit in a mutant strain lacking an RNA helicase deaD |
720598 |
2.1.1.264 | physiological function |
the YcbY enzyme is a methyltransferase catalyzing two mechanistically different types of RNA modification. The N-terminal region of YcbY adds the m2G2445 modification, while the C-terminal region of YcbY is responsible for the m7G2069 methylation on the opposite side of the same helix, H74. YcbY enzyme is an example of a methyltransferase catalyzing two mechanistically different types of RNA modification |
-, 720601 |