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Discovery and characterization of genes conferring natural resistance to the antituberculosis antibiotic capreomycin.

Shu-Ing TohJohan Elaine KeishaYung-Lin WangYi-Chi PanYu-Heng JhuPo-Yun HsiaoWen-Ting LiaoPo-Yuan ChenTai-Ming KoChin-Yuan Chang
Published in: Communications biology (2023)
Metagenomic-based studies have predicted an extraordinary number of potential antibiotic-resistance genes (ARGs). These ARGs are hidden in various environmental bacteria and may become a latent crisis for antibiotic therapy via horizontal gene transfer. In this study, we focus on a resistance gene cph, which encodes a phosphotransferase (Cph) that confers resistance to the antituberculosis drug capreomycin (CMN). Sequence Similarity Network (SSN) analysis classified 353 Cph homologues into five major clusters, where the proteins in cluster I were found in a broad range of actinobacteria. We examine the function and antibiotics targeted by three putative resistance proteins in cluster I via biochemical and protein structural analysis. Our findings reveal that these three proteins in cluster I confer resistance to CMN, highlighting an important aspect of CMN resistance within this gene family. This study contributes towards understanding the sequence-structure-function relationships of the phosphorylation resistance genes that confer resistance to CMN.
Keyphrases
  • antibiotic resistance genes
  • genome wide
  • wastewater treatment
  • dna methylation
  • small molecule
  • risk assessment
  • genome wide identification
  • high throughput
  • amino acid
  • cancer therapy
  • smoking cessation