结构洞察盐霉素聚酮合酶酰基转移酶的底物特异性。

Structural Insights into the Substrate Specificity of Acyltransferases from Salinomycin Polyketide Synthase.

机构信息

State Key Laboratory of Microbial Metabolism and School of Life Sciences and Biotechnology , Shanghai Jiao Tong University , Shanghai 200240 , China.

Pharmacy School , Hubei University of Science and Technology , Hubei , Xianning 437100 , China.

出版信息

Biochemistry. 2019 Jul 9;58(27):2978-2986. doi: 10.1021/acs.biochem.9b00305. Epub 2019 Jun 19.

DOI:10.1021/acs.biochem.9b00305

PMID:31199122

Abstract

Salinomycin with antibacterial and anticoccidial activities is a commercial polyether polyketide widely used in animal husbandry as a food additive. Malonyl-CoA (MCoA), methylmalonyl-CoA (MMCoA), and ethylmalonyl-CoA (EMCoA) are used as extension units in its biosynthesis. To understand how the salinomycin modular polyketide synthase (PKS) strictly discriminates among these extension units, the acyltransferase (AT) domains selecting MCoA, MMCoA, and EMCoA were structurally characterized. Molecular dynamics simulations of the AT structures helped to reveal the key interactions involved in enzyme-substrate recognitions, which enabled the engineering of AT mutants with switched specificity. The catalytic efficiencies ( k/ K) of these AT mutants are comparable with those of the wild-type AT domains. These results set the stage for engineering the AT substrate specificity of modular PKSs.

摘要

具有抗菌和抗球虫活性的盐霉素是一种商业性聚醚聚酮，广泛用作畜牧业中的食品添加剂。丙二酰辅酶 A（MCoA）、甲基丙二酰辅酶 A（MMCoA）和乙基丙二酰辅酶 A（EMCoA）被用作其生物合成中的延伸单位。为了了解盐霉素模块聚酮合酶（PKS）如何严格区分这些延伸单位，对选择 MCoA、MMCoA 和 EMCoA 的酰基转移酶（AT）结构域进行了结构表征。AT 结构的分子动力学模拟有助于揭示酶-底物识别中涉及的关键相互作用，这使得能够对具有切换特异性的 AT 突变体进行工程设计。这些 AT 突变体的催化效率（k/K）与野生型 AT 结构域相当。这些结果为工程模块化 PKS 的 AT 底物特异性奠定了基础。

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结构洞察盐霉素聚酮合酶酰基转移酶的底物特异性。

Structural Insights into the Substrate Specificity of Acyltransferases from Salinomycin Polyketide Synthase.

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