A method to assay inhibitors of DNA polymerase IIIC activity.

Michelle M Butler, George E Wright
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引用次数: 7

Abstract

The need for new drugs to treat infections caused by antibiotic-resistant bacterial strains has prompted many studies to identify novel targets in pathogenic bacteria. Among the three DNA polymerases expressed by bacteria, one of these, designated pol III, is responsible for DNA replication and growth of bacteria and, therefore, warrants consideration as a drug target. However, the pol III enzymes of Gram-positive and Gram-negative species are quite different, and the Gram-positive enzyme pol IIIC has been more extensively studied as a drug target than the Gram-negative enzyme pol IIIE.DNA polymerases are unique enzymes with respect to the five substrates (four dNTPs, one of which is radiolabeled, and primer:template DNA) that they typically utilize. Variations of the assay, e.g., by leaving out one dNTP but allowing measurable incorporation of the remaining substrates, or use of homopolymer primer:templates, may be used to simplify the assay or to obtain mechanistic information about inhibitors. Use of gel analysis of primer extension assays can also be applied to study alternate substrates of DNA polymerases. Methods to isolate pol IIIC from Gram-positive bacterial cells and to clone and express the polC gene are described in this chapter. In addition, the assay conditions commonly used to identify and study the mechanism of inhibitors of pol IIIC are emphasized.

测定DNA聚合酶IIIC活性抑制剂的方法。
需要新的药物来治疗抗生素耐药菌株引起的感染,这促使许多研究在致病菌中确定新的靶点。在细菌表达的三种DNA聚合酶中,其中一种称为pol III的酶负责细菌的DNA复制和生长,因此值得考虑作为药物靶点。然而,革兰氏阳性和革兰氏阴性物种的pol III酶有很大的不同,革兰氏阳性酶pol IIIC作为药物靶点的研究比革兰氏阴性酶pol IIIE更广泛。DNA聚合酶是它们通常利用的五种底物(四种dNTPs,其中一种是放射性标记的,引物:模板DNA)的独特酶。分析的变化,例如,通过省略一个dNTP但允许可测量的剩余底物的掺入,或使用均聚物引物模板,可用于简化分析或获得有关抑制剂的机制信息。使用凝胶分析引物延伸试验也可以应用于研究DNA聚合酶的替代底物。本文介绍了从革兰氏阳性细菌细胞中分离pol IIIC、克隆表达polC基因的方法。此外,还着重介绍了鉴定和研究酚IIIC抑制剂作用机制的常用检测条件。
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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