细菌杂二酮哌嗪生物合成中区域和立体特异性的分子基础。

Molecular basis of regio- and stereo-specificity in biosynthesis of bacterial heterodimeric diketopiperazines.

机构信息

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

Key Laboratory of Combinatorial Biosynthesis and Drug Discovery, Ministry of Education, Wuhan University School of Pharmaceutical Sciences, 430071, Wuhan, China.

出版信息

Nat Commun. 2020 Dec 7;11(1):6251. doi: 10.1038/s41467-020-20022-5.

DOI:10.1038/s41467-020-20022-5

PMID:33288748

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7721796/

Abstract

Bacterial heterodimeric tryptophan-containing diketopiperazines (HTDKPs) are a growing family of bioactive natural products. They are challenging to prepare by chemical routes due to the polycyclic and densely functionalized backbone. Through functional characterization and investigation, we herein identify a family of three related HTDKP-forming cytochrome P450s (NasbB, Nas and Nas) and reveal four critical residues (Qln65, Ala86, Ser284 and Val288) that control their regio- and stereo-selectivity to generate diverse dimeric DKP frameworks. Engineering these residues can alter the specificities of the enzymes to produce diverse frameworks. Determining the crystal structures (1.70-1.47 Å) of Nas (ligand-free and substrate-bound Nas and its Q65I-A86G and S284A-V288A mutants) and molecular dynamics simulation finally elucidate the specificity-conferring mechanism of these residues. Our results provide a clear molecular and mechanistic basis into this family of HTDKP-forming P450s, laying a solid foundation for rapid access to the molecular diversity of HTDKP frameworks through rational engineering of the P450s.

摘要

细菌二聚色氨酸含二酮哌嗪（HTDKPs）是一类不断增长的生物活性天然产物家族。由于其具有多环和高度官能化的骨架，通过化学方法来制备这些化合物具有挑战性。通过功能表征和研究，我们在此确定了一组三种相关的 HTDKP 形成细胞色素 P450（NasbB、Nas 和 Nas），并揭示了四个关键残基（Qln65、Ala86、Ser284 和 Val288），它们控制着其区域和立体选择性，从而生成不同的二聚 DKP 骨架。对这些残基进行工程改造可以改变酶的特异性，从而产生不同的骨架。确定 Nas（无配体和底物结合的 Nas 及其 Q65I-A86G 和 S284A-V288A 突变体）的晶体结构（1.70-1.47Å）和分子动力学模拟最终阐明了这些残基赋予特异性的机制。我们的研究结果为这组 HTDKP 形成 P450 提供了明确的分子和机制基础，为通过 P450 的合理工程快速获得 HTDKP 骨架的分子多样性奠定了坚实的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d953/7721796/51cfe06f2d96/41467_2020_20022_Fig1_HTML.jpg

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细菌杂二酮哌嗪生物合成中区域和立体特异性的分子基础。

Molecular basis of regio- and stereo-specificity in biosynthesis of bacterial heterodimeric diketopiperazines.

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