Publication
Expansion of the aminoglycoside-resistance 16S rRNA (m(1)A1408) methyltransferase family: Expression and functional characterization of four hypothetical enzymes of diverse bacterial origin
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- Last modified
- 05/15/2025
- Type of Material
- Authors
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Marta A. Witek, Emory UniversityGraeme L Conn, Emory University
- Language
- English
- Date
- 2014-09-01
- Publisher
- Elsevier: 12 months
- Publication Version
- Copyright Statement
- © 2014 Elsevier B.V. All rights reserved.
- License
- Final Published Version (URL)
- Title of Journal or Parent Work
- ISSN
- 0005-2728
- Volume
- 1844
- Issue
- 9
- Start Page
- 1648
- End Page
- 1655
- Grant/Funding Information
- This work was supported by the National Institutes of Health-National Institute of Allergy and Infectious Diseases (R01-AI088025).
- Abstract
- The global dissemination, potential activity in diverse species and broad resistance spectrum conferred by the aminoglycoside-resistance ribosomal RNA methyltransferases make them a significant potential new threat to the efficacy of aminoglycoside antibiotics in the treatment of serious bacterial infections. The N1 methylation of adenosine 1408 (m1A1408) confers resistance to structurally diverse aminoglycosides, including kanamycin, neomycin and apramycin. The limited analyses to date of the enzymes responsible have identified common features but also potential differences in their molecular details of action. Therefore, with the goal of expanding the known 16S rRNA (m1A1408) methyltransferase family as a platform for developing a more complete mechanistic understanding, we report here the cloning, expression and functional analyses of four hypothetical aminoglycoside-resistance rRNA methyltransferases from recent genome sequences of diverse bacterial species. Each of the genes produced a soluble, folded protein with a secondary structure, as determined from circular dichroism (CD) spectra, consistent with enzymes for which high-resolution structures are available. For each enzyme, antibiotic minimum inhibitory concentration (MIC) assays revealed a resistance spectrum characteristic of the known 16S rRNA (m1A1408) methyltransferases and the modified nucleotide was confirmed by reverse transcription as A1408. In common with other family members, higher binding affinity for the methylation reaction by-product S-adenosylhomocysteine (SAH) than the cosubstrate S-adenosyl-L-methionine (SAM) was observed for three methyltransferases, while one unexpectedly showed no measurable affinity for SAH. Collectively, these results confirm that each hypothetical enzyme is a functional 16S rRNA (m 1A1408) methyltransferase but also point to further potential mechanistic variation within this enzyme family.
- Author Notes
- Keywords
- Research Categories
- Chemistry, Biochemistry
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