重定向真菌聚酮合酶的环化步骤。

Redirecting the cyclization steps of fungal polyketide synthase.

作者信息

Ma Suzanne M, Zhan Jixun, Xie Xinkai, Watanabe Kenji, Tang Yi, Zhang Wenjun

机构信息

Department of Chemical and Biomolecular Engineering, University of California, Los Angeles, California 90095, USA.

出版信息

J Am Chem Soc. 2008 Jan 9;130(1):38-9. doi: 10.1021/ja078091o. Epub 2007 Dec 12.

DOI:10.1021/ja078091o

PMID:18072779

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2519124/

Abstract

Regiospecific cyclizations of the nascent poly-beta-ketone backbones dictate the structures of polyketide natural products. The fungal iterative megasynthases use terminal thioesterase/claisen cyclase (TE/CLC) domains to direct the fate of the polyketide chains. In this work, we present two strategies toward redirecting the cyclization steps of fungal PKSs using the Gibberella fujikuroi PKS4. First, inactivation or removal of the TE/CLC domain resulted in the synthesis of the new polyketide SMA93 2. Complementation of the mutant PKS4 with a standalone TE/CLC domain restored the regioselective cyclization steps of PKS4 and led to the synthesis of SMA76 1, demonstrating that cyclization enzymes can interact with the megasynthase in trans. This led to the second approach in which various dissociated, bacterial tailoring enzymes were added to the megasynthase in trans. Addition of the act KR led to the synthesis of mutactin 3, while the addition of first ring and second ring cyclases yielded anthraquinone compounds DMAC 5 and SEK26 6. The cooperative activities of fungal and bacterial PKS components are especially important and enable synthesis of polyketides utilizing enzymes from two distinct families of PKSs.

摘要

新生聚-β-酮主链的区域特异性环化决定了聚酮类天然产物的结构。真菌迭代型巨型合成酶利用末端硫酯酶/克莱森环化酶（TE/CLC）结构域来引导聚酮链的走向。在这项工作中，我们展示了两种利用藤仓赤霉PKS4来重定向真菌聚酮合酶环化步骤的策略。首先，使TE/CLC结构域失活或去除该结构域会导致新的聚酮化合物SMA93 2的合成。用一个独立的TE/CLC结构域对突变型PKS4进行互补，恢复了PKS4的区域选择性环化步骤，并导致SMA76 1的合成，这表明环化酶可以与巨型合成酶进行反式相互作用。这引出了第二种方法，即向巨型合成酶反式添加各种解离的细菌修饰酶。添加act KR导致变构霉素3的合成，而添加第一环和第二环环化酶则产生蒽醌化合物DMAC 5和SEK26 6。真菌和细菌聚酮合酶组分的协同活性尤为重要，能够利用来自两个不同聚酮合酶家族中的酶来合成聚酮化合物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7762/2519124/527ddb83c2f0/nihms62846f1.jpg

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