Analysis and Mutation of Codon in rpoB and katG Genes and Bioinformatics Study of RIF Binding Model by RNA β Polymerase Subunit: Study in Tuberculosis Patients at Merauke General Hospital-Indonesia

Kawulur Hsi, Y. Ngili
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Abstract

Treatment of TB patients is usually done by administering three types of antituberculosis drugs with the main options being Rifampin (RIF) and Isoniazid (INH), then accompanied by streptomycin or pyrazinamide. RIF resistance is attributable to the mutation of the rpoB gene, the gene that produces the RNA polymerase β-subunit, and the INH resistance is largely due to the mutation of the katG gene. The aim of this study was to obtain information on the association of MDR-TB with related genes, as well as information on the combination of Mycobacterium tuberculosis genotype in tuberculosis patients in Merauke. Here we reported that most of the MDRTB isolates are resistant to other antituberculosis drugs, and the mutation frequency of rpoB526 and rpoB531 (mutations that occur on both sides/this place almost always occur together) is almost the same but the katG315 mutation is present in only 16 isolates (the number of mutations that occur in katG315 is less than in rpoB526 and rpoB531). The presence of C1363A nucleotide changes in sensitive Mycobacterium tuberculosis of six antituberculosis drugs showed that not all rpoB mutations caused resistance. On the basis of this phenomenon, it can be proposed that the mechanism of formation of MDR-TB strains begins with a rpoB mutation followed by a mutation of katG. This study demonstrates that the mechanism of resistance to a drug that affects only one gene, such as rifampin that affects rpoB, is more easily controlled than antituberculous drugs affecting several genes, such as isoniazid which affects other genes besides katG.
rpoB和katG基因密码子分析与突变及RNA β聚合酶亚基RIF结合模型的生物信息学研究——印度尼西亚Merauke总医院肺结核患者的研究
结核病患者的治疗通常通过使用三种类型的抗结核药物来完成,主要选择是利福平(RIF)和异烟肼(INH),然后伴随着链霉素或吡嗪酰胺。RIF耐药主要是由于产生RNA聚合酶β-亚基的基因rpoB基因突变,INH耐药主要是由于katG基因突变。本研究的目的是获得耐多药结核病与相关基因的关联信息,以及Merauke结核病患者中结核分枝杆菌基因型组合的信息。本研究发现,大多数MDRTB分离株对其他抗结核药物具有耐药性,rpoB526和rpoB531的突变频率(突变发生在两侧/几乎总是同时发生)几乎相同,但katG315突变仅在16株分离株中存在(katG315突变的数量少于rpoB526和rpoB531)。在6种抗结核药物的敏感结核分枝杆菌中存在C1363A核苷酸变化,表明并非所有rpoB突变都引起耐药性。基于这一现象,可以提出MDR-TB菌株的形成机制始于rpoB突变,随后是katG突变。本研究表明,对仅影响一个基因的药物(如影响rpoB的利福平)的耐药机制比影响多个基因的抗结核药物(如影响katG以外其他基因的异烟肼)更容易控制。
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