Family

RNA (C5-cytosine) methyltransferase, NOP2 (IPR023273)

Short name: RCMT_NOP2

Family relationships

Description

RNA (C5-cytosine) methyltransferases (RCMTs) catalyse the transfer of a methyl group to the 5th carbon of a cytosine base in RNA sequences to produce C5-methylcytosine. RCMTs use the cofactor S-adenosyl-L-methionine (SAM) as a methyl donor [PMID: 12826405]. The catalytic mechanism of RCMTs involves an attack by the thiolate of a Cys residue on position 6 of the target cytosine base to form a covalent link, thereby activating C5 for methyl-group transfer. Following the addition of the methyl group, a second Cys residue acts as a general base in the beta-elimination of the proton from the methylated cytosine ring. The free enzyme is restored and the methylated product is released [PMID: 12220187].

Numerous putative RCMTs have been identified in archaea, bacteria and eukaryota [PMID: 10454610, PMID: 19135144]; most are predicted to be nuclear or nucleolar proteins [PMID: 20007150]. The Escherichia coli Ribosomal RNA Small-subunit Methyltransferase Beta (RSMB) FMU (FirMicUtes) represents the first protein identified and characterised as a cytosine-specific RNA methyltransferase. RSMB was reported to catalyse the formation of C5-methylcytosine at position 967 of 16S rRNA [PMID: 10194318, PMID: 10026269].

A classification of RCMTs has been proposed on the basis of sequence similarity [PMID: 10454610]. According to this classification, RCMTs are divided into 8 distinct subfamilies [PMID: 10454610]. Recently, a new RCMT subfamily, termed RCMT9, was identified [PMID: 19135144]. Members of the RCMT contain a core domain, responsible for the cytosine-specific RNA methyltransferase activity. This 'catalytic' domain adopts the Rossmann fold for the accommodation of the cofactor SAM [PMID: 15121902]. The RCMT subfamilies are also distinguished by N-terminal and C-terminal extensions, variable both in size and sequence [PMID: 10454610].

The prototypical member of the Nucleolar Protein 2 RCMT subfamily, the S.cerevisiae NOP2, is an essential nucleolar protein required for pre-rRNA processing and 60S ribosomal subunit assembly [PMID: 10445884]; it has been proposed to act as a ribosomal RNA methyltransferase [PMID: 9854021]. Its human homologue, the proliferation-associated nucleolar antigen P120, is a promising tumour marker [PMID: 1394192]. P120 has been demonstrated to be implicated in rRNA biogenesis [PMID: 9531475], and is also proposed to act as an rRNA methyltransferase [PMID: 8041608].

GO terms

Biological Process

No terms assigned in this category.

Molecular Function

GO:0008168 methyltransferase activity

Cellular Component

No terms assigned in this category.

Contributing signatures

Signatures from InterPro member databases are used to construct an entry.
PRINTS