达马诺醇生物合成需要两个独立的聚酮化合物基因簇进行偶联。

Dalmanol biosyntheses require coupling of two separate polyketide gene clusters.

作者信息

Zhou Zhen Zhen, Zhu Hong Jie, Lin Li Ping, Zhang Xuan, Ge Hui Ming, Jiao Rui Hua, Tan Ren Xiang

机构信息

State Key Laboratory of Pharmaceutical Biotechnology , Institute of Functional Biomolecules , Nanjing University , Nanjing 210023 , China . Email:

State Key Laboratory Cultivation Base for TCM Quality and Efficacy , Nanjing University of Chinese Medicine , Nanjing 210023 , China.

出版信息

Chem Sci. 2018 Nov 27;10(1):73-82. doi: 10.1039/c8sc03697g. eCollection 2019 Jan 7.

DOI:10.1039/c8sc03697g

PMID:30746075

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6335865/

Abstract

Polyketide-polyketide hybrids are unique natural products with promising bioactivity, but the hybridization processes remain poorly understood. Herein, we present that the biosynthetic pathways of two immunosuppressants, dalmanol A and acetodalmanol A, result from an unspecific monooxygenase triggered hybridization of two distinct polyketide (naphthalene and chromane) biosynthetic gene clusters. The orchestration of the functional dimorphism of the polyketide synthase (ChrA) ketoreductase (KR) domain (shortened as ChrA KR) with that of the KR partner (ChrB) in the bioassembly line increases the polyketide diversity and allows the fungal generation of plant chromanes (, noreugenin) and phloroglucinols (, 2,4,6-trihydroxyacetophenone). The simultaneous fungal biosynthesis of 1,3,6,8- and 2-acetyl-1,3,6,8-tetrahydroxynaphthalenes was addressed as well. Collectively, the work may symbolize a movement in understanding the multiple-gene-cluster involved natural product biosynthesis, and highlights the possible fungal generations of some chromane- and phloroglucinol-based phytochemicals.

摘要

聚酮-聚酮杂合物是具有潜在生物活性的独特天然产物，但杂交过程仍知之甚少。在此，我们提出两种免疫抑制剂，达马醇A和乙酰达马醇A的生物合成途径，是由一种非特异性单加氧酶引发的两个不同聚酮（萘和色满）生物合成基因簇的杂交产生的。在生物装配线上，聚酮合酶（ChrA）酮还原酶（KR）结构域（简称为ChrA KR）与KR伙伴（ChrB）的功能二态性的编排增加了聚酮的多样性，并使真菌能够生成植物色满（如去甲丁香色原酮）和间苯三酚（如2,4,6-三羟基苯乙酮）。同时也探讨了真菌对1,3,6,8-和2-乙酰基-1,3,6,8-四羟基萘的生物合成。总的来说，这项工作可能标志着在理解涉及多基因簇的天然产物生物合成方面的一个进展，并突出了真菌生成一些基于色满和间苯三酚的植物化学物质的可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/744e/6335865/3939c25dee2e/c8sc03697g-f1.jpg

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达马诺醇生物合成需要两个独立的聚酮化合物基因簇进行偶联。

Dalmanol biosyntheses require coupling of two separate polyketide gene clusters.

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