Kajian Resistensi Antibiotik Golongan Aminoglikosida dan Golongan Tetrasiklin

Sainsbertek Jurnal Ilmiah Sains & Teknologi Pub Date : 2022-09-30 DOI:10.33479/sb.v3i1.211

Eunike Cynthia Theresylle, Rehmadanta Sitepu, C. Yoedistira

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Abstract

Resistance is the ability of bacteria to resist or stop antibiotics. However, according to the Centers for Disease Control and Prevention (CDC), about 23,000 people die per year from resistance. Resistance begins with exposure to antibiotics, initially there are only one or two bacteria that have a chance to live but can grow and spread. The spread through person to person, inappropriate use of antibiotics due to weak infection control. So the purpose of this study is to find out how the process of resistance by bacteria, as well as genes that play a role in antibiotic resistance of Aminoglycosides and Tetracyclines. Thus we can wisely use antibiotics,for the medical community, the community and help in efforts to reduce the level of resistance and the impact of other resistance. The research method used is the journal review method of 40 articles which is used as material to compare the results of several research articles. The articles used using Scholar and Pubmed searches were selected based on inclusion and exclusion criteria. From the results of a journal review that Aminoglycoside and Tetracycline antibiotics have a high level of resistance. Aminoglycoside resistance is due to enzymatic inactivation by AAC,APH and ANT. The most common resistance is the Acetyltransferase (AAC) enzyme, namely the AAC(6')-I gene. Tetracycline resistance occurs by efflux pump mechanism, ribosome protection and enzymatic inactivation. The most common gene is tetM gene on ribosome protection mechanism which is expressed to mediate resistance to several antibiotics such as Doxycycline and Minocycline.

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耐药性是细菌抵抗或停止使用抗生素的能力。然而，根据美国疾病控制与预防中心(CDC)的数据，每年约有2.3万人死于耐药性。耐药性始于接触抗生素，最初只有一两种细菌有机会生存，但可以生长和传播。经人传人传播，因抗生素使用不当感染控制薄弱。因此，本研究的目的是了解细菌的耐药过程，以及在氨基糖苷类和四环素类抗生素耐药中起作用的基因。因此，我们可以明智地使用抗生素，为医学界、社区和帮助努力降低耐药性水平和其他耐药性的影响。使用的研究方法是40篇文章的期刊综述法，并以此为材料对几篇研究文章的结果进行比较。使用Scholar和Pubmed检索的文章根据纳入和排除标准进行选择。从一篇期刊综述的结果来看，氨基糖苷类和四环素类抗生素具有高水平的耐药性。氨基糖苷耐药是由于AAC、APH和ANT的酶失活所致。最常见的抗性是乙酰转移酶(AAC)酶，即AAC(6')-I基因。四环素耐药是通过外排泵机制、核糖体保护和酶失活机制发生的。最常见的基因是核糖体保护机制上的tetM基因，其表达介导对多西环素和米诺环素等多种抗生素的耐药。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sainsbertek Jurnal Ilmiah Sains & Teknologi

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