Literature DB >> 23752511

Distinction between the Cfr methyltransferase conferring antibiotic resistance and the housekeeping RlmN methyltransferase.

Gemma C Atkinson1, Lykke H Hansen, Tanel Tenson, Anette Rasmussen, Finn Kirpekar, Birte Vester.   

Abstract

The cfr gene encodes the Cfr methyltransferase that primarily methylates C-8 in A2503 of 23S rRNA in the peptidyl transferase region of bacterial ribosomes. The methylation provides resistance to six classes of antibiotics of clinical and veterinary importance. The rlmN gene encodes the RlmN methyltransferase that methylates C-2 in A2503 in 23S rRNA and A37 in tRNA, but RlmN does not significantly influence antibiotic resistance. The enzymes are homologous and use the same mechanism involving radical S-adenosyl methionine to methylate RNA via an intermediate involving a methylated cysteine in the enzyme and a transient cross-linking to the RNA, but they differ in which carbon atom in the adenine they methylate. Comparative sequence analysis identifies differentially conserved residues that indicate functional sequence divergence between the two classes of Cfr- and RlmN-like sequences. The differentiation between the two classes is supported by previous and new experimental evidence from antibiotic resistance, primer extensions, and mass spectrometry. Finally, evolutionary aspects of the distribution of Cfr- and RlmN-like enzymes are discussed.

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Year:  2013        PMID: 23752511      PMCID: PMC3719738          DOI: 10.1128/AAC.00448-13

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  36 in total

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Review 3.  Identifying modifications in RNA by MALDI mass spectrometry.

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4.  Transcriptional and translational control of the mlr operon, which confers resistance to seven classes of protein synthesis inhibitors.

Authors:  Lisa K Smith; Alexander S Mankin
Journal:  Antimicrob Agents Chemother       Date:  2008-02-25       Impact factor: 5.191

5.  The Cfr rRNA methyltransferase confers resistance to Phenicols, Lincosamides, Oxazolidinones, Pleuromutilins, and Streptogramin A antibiotics.

Authors:  Katherine S Long; Jacob Poehlsgaard; Corinna Kehrenberg; Stefan Schwarz; Birte Vester
Journal:  Antimicrob Agents Chemother       Date:  2006-07       Impact factor: 5.191

6.  Identification of a plasmid-borne chloramphenicol-florfenicol resistance gene in Staphylococcus sciuri.

Authors:  S Schwarz; C Werckenthin; C Kehrenberg
Journal:  Antimicrob Agents Chemother       Date:  2000-09       Impact factor: 5.191

7.  Capreomycin binds across the ribosomal subunit interface using tlyA-encoded 2'-O-methylations in 16S and 23S rRNAs.

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Review 8.  S-adenosylmethionine as an oxidant: the radical SAM superfamily.

Authors:  Susan C Wang; Perry A Frey
Journal:  Trends Biochem Sci       Date:  2007-02-08       Impact factor: 13.807

9.  Identification of 8-methyladenosine as the modification catalyzed by the radical SAM methyltransferase Cfr that confers antibiotic resistance in bacteria.

Authors:  Anders Michael Bernth Giessing; Søren Skov Jensen; Anette Rasmussen; Lykke Haastrup Hansen; Andrzej Gondela; Katherine Long; Birte Vester; Finn Kirpekar
Journal:  RNA       Date:  2009-02       Impact factor: 4.942

10.  The methyltransferase YfgB/RlmN is responsible for modification of adenosine 2503 in 23S rRNA.

Authors:  Seok-Ming Toh; Liqun Xiong; Taeok Bae; Alexander S Mankin
Journal:  RNA       Date:  2007-11-19       Impact factor: 4.942
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  15 in total

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Review 2.  Target protection as a key antibiotic resistance mechanism.

Authors:  Daniel N Wilson; Vasili Hauryliuk; Gemma C Atkinson; Alex J O'Neill
Journal:  Nat Rev Microbiol       Date:  2020-06-25       Impact factor: 60.633

3.  Mapping of ribosomal 23S ribosomal RNA modifications in Clostridium sporogenes.

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4.  Crystallographic capture of a radical S-adenosylmethionine enzyme in the act of modifying tRNA.

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Journal:  Science       Date:  2016-04-15       Impact factor: 47.728

5.  A cfr-like gene from Clostridium difficile confers multiple antibiotic resistance by the same mechanism as the cfr gene.

Authors:  Lykke H Hansen; Birte Vester
Journal:  Antimicrob Agents Chemother       Date:  2015-07-06       Impact factor: 5.191

6.  ProkEvo: an automated, reproducible, and scalable framework for high-throughput bacterial population genomics analyses.

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7.  miCLIP-MaPseq, a Substrate Identification Approach for Radical SAM RNA Methylating Enzymes.

Authors:  Vanja Stojković; Tongyue Chu; Gabriel Therizols; David E Weinberg; Danica Galonić Fujimori
Journal:  J Am Chem Soc       Date:  2018-06-05       Impact factor: 15.419

8.  Analysis of RNA Methylation by Phylogenetically Diverse Cfr Radical S-Adenosylmethionine Enzymes Reveals an Iron-Binding Accessory Domain in a Clostridial Enzyme.

Authors:  James D Gumkowski; Ryan J Martinie; Patrick S Corrigan; Juan Pan; Matthew R Bauerle; Mohamed Almarei; Squire J Booker; Alexey Silakov; Carsten Krebs; Amie K Boal
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9.  Detection of a New cfr-Like Gene, cfr(B), in Enterococcus faecium Isolates Recovered from Human Specimens in the United States as Part of the SENTRY Antimicrobial Surveillance Program.

Authors:  Lalitagauri M Deshpande; Deborah S Ashcraft; Heather P Kahn; George Pankey; Ronald N Jones; David J Farrell; Rodrigo E Mendes
Journal:  Antimicrob Agents Chemother       Date:  2015-07-27       Impact factor: 5.191

10.  Evolutionary and sequence-based relationships in bacterial AdoMet-dependent non-coding RNA methyltransferases.

Authors:  Jeanneth Mosquera-Rendón; Sonia Cárdenas-Brito; Juan D Pineda; Mauricio Corredor; Alfonso Benítez-Páez
Journal:  BMC Res Notes       Date:  2014-07-10
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