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Journal of medicine and life
2018 Apr-Jun;11 (2): 160-167.

Molecular Analysis of Encoding Catalase-Peroxidase from Clinical Isolate of Isoniazid-Resistant Mycobacterium tuberculosis.

P Purkan, I Ihsanawati, D Natalia, Y M Syah, D S Retnoningrum, I Siswanto
Author Information
  1. P Purkan: Department of Chemistry, Faculty of Sciences and Technology, Airlangga University; Surabaya, Indonesia.
  2. I Ihsanawati: Biochemistry Research Division, Faculty of Mathematics and Natural Sciences, Bandung Institute of Technology, Bandung, Indonesia.
  3. D Natalia: Biochemistry Research Division, Faculty of Mathematics and Natural Sciences, Bandung Institute of Technology, Bandung, Indonesia.
  4. Y M Syah: Biochemistry Research Division, Faculty of Mathematics and Natural Sciences, Bandung Institute of Technology, Bandung, Indonesia.
  5. D S Retnoningrum: School of Pharmacy, Bandung Institute of Technology, Bandung, Indonesia.
  6. I Siswanto: Department of Chemistry, Faculty of Sciences and Technology, Airlangga University; Surabaya, Indonesia.
PMID: 30140323

Abstract

Isoniazid (INH) is a drug for the treatment of tuberculosis in patients infected with Mycobacterium tuberculosis. The katG enzyme, or catalase-peroxidase, activates the pro-drug INH that is coded by the katG gene in M. tuberculosis. Mutations of the katG gene in M. tuberculosis are a major INH resistance mechanism. The M. tuberculosis clinical isolate R2 showed INH resistance at a high level of 10 µg/mL. However, the molecular basis for the resistance is unclear. The identification of a mutation in the katG gene of the clinical isolate R2 showed four mutations, i.e., C1061T, G1261 A, G1388T, G2161A, which correspond to the amino acid substitutions T354I, G421S, R463L, and V721M, respectively. The mutant katG gene, along with the wild-type were cloned, expressed and purified. The mutant enzyme showed 86.5% of catalase and 45% of peroxidase activities in comparison to the wild type. The substitutions of TI and GS in mutant katG R2 created significant instability in the adduct triad complex (Trp107-Tyr229-Met255), a part of the active site of the catalase-peroxidase enzyme in the model structure analysis. The events could be based on the high resistance of the clinical isolate R2 toward INH as the molecular basis.

Keywords

Mycobacterium tuberculosis catalase-peroxidase isoniazid katG

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MeSH Term

Amino Acid Substitution
Bacterial Proteins
Base Sequence
Catalase
Drug Resistance, Bacterial
Genes, Bacterial
Humans
Isoniazid
Models, Molecular
Mutation
Mycobacterium tuberculosis
Thermodynamics

Chemicals

Bacterial Proteins
Catalase
katG protein, Mycobacterium tuberculosis
Isoniazid
Journal Article
Article has an altmetric score of 1

Word Cloud

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