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放线紫红素聚酮化合物酮还原酶的结构分析:辅因子结合与底物特异性

Structural analysis of actinorhodin polyketide ketoreductase: cofactor binding and substrate specificity.

作者信息

Korman Tyler Paz, Hill Jason Anthony, Vu Thanh Nhat, Tsai Shiou-Chuan

机构信息

Department of Molecular Biology and Biochemistry, University of California, Irvine, California 92697, USA.

出版信息

Biochemistry. 2004 Nov 23;43(46):14529-38. doi: 10.1021/bi048133a.

DOI:10.1021/bi048133a
PMID:15544323
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2263080/
Abstract

Aromatic polyketides are a class of natural products that include many pharmaceutically important aromatic compounds. Understanding the structure and function of PKS will provide clues to the molecular basis of polyketide biosynthesis specificity. Polyketide chain reduction by ketoreductase (KR) provides regio- and stereochemical diversity. Two cocrystal structures of actinorhodin polyketide ketoreductase (act KR) were solved to 2.3 A with either the cofactor NADP(+) or NADPH bound. The monomer fold is a highly conserved Rossmann fold. Subtle differences between structures of act KR and fatty acid KRs fine-tune the tetramer interface and substrate binding pocket. Comparisons of the NADP(+)- and NADPH-bound structures indicate that the alpha6-alpha7 loop region is highly flexible. The intricate proton-relay network in the active site leads to the proposed catalytic mechanism involving four waters, NADPH, and the active site tetrad Asn114-Ser144-Tyr157-Lys161. Acyl carrier protein and substrate docking models shed light on the molecular basis of KR regio- and stereoselectivity, as well as the differences between aromatic polyketide and fatty acid biosyntheses. Sequence comparison indicates that the above features are highly conserved among aromatic polyketide KRs. The structures of act KR provide an important step toward understanding aromatic PKS and will enhance our ability to design novel aromatic polyketide natural products with different reduction patterns.

摘要

芳香族聚酮化合物是一类天然产物,其中包括许多具有重要药学意义的芳香族化合物。了解聚酮合酶(PKS)的结构和功能将为聚酮化合物生物合成特异性的分子基础提供线索。酮还原酶(KR)介导的聚酮链还原作用可提供区域和立体化学多样性。解析了放线紫红素聚酮酮还原酶(act KR)与辅因子NADP(+)或NADPH结合时的两种共晶体结构,分辨率达到2.3 Å。单体折叠是一种高度保守的罗斯曼折叠。act KR与脂肪酸KR结构之间的细微差异微调了四聚体界面和底物结合口袋。NADP(+)结合结构与NADPH结合结构的比较表明,α6-α7环区域具有高度灵活性。活性位点中复杂的质子传递网络导致了所提出的催化机制,该机制涉及四个水分子、NADPH以及活性位点四联体Asn114-Ser144-Tyr157-Lys161。酰基载体蛋白和底物对接模型揭示了KR区域和立体选择性的分子基础,以及芳香族聚酮化合物与脂肪酸生物合成之间的差异。序列比较表明,上述特征在芳香族聚酮化合物KR中高度保守。act KR的结构为理解芳香族PKS迈出了重要一步,并将增强我们设计具有不同还原模式的新型芳香族聚酮化合物天然产物的能力。

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