基于结构的基因靶向技术解析未培养海绵共生菌的聚酮化合物装配线

Polyketide assembly lines of uncultivated sponge symbionts from structure-based gene targeting.

作者信息

Fisch Katja M, Gurgui Cristian, Heycke Nina, van der Sar Sonia A, Anderson Sally A, Webb Victoria L, Taudien Stefan, Platzer Matthias, Rubio Brent K, Robinson Sarah J, Crews Phillip, Piel Jörn

机构信息

Kekulé Institute of Organic Chemistry and Biochemistry, University of Bonn, Bonn, Germany.

出版信息

Nat Chem Biol. 2009 Jul;5(7):494-501. doi: 10.1038/nchembio.176.

DOI:10.1038/nchembio.176

PMID:19448639

Abstract

There is increasing evidence that uncultivated bacterial symbionts are the true producers of numerous bioactive compounds isolated from marine sponges. The localization and heterologous expression of biosynthetic genes could clarify this issue and provide sustainable supplies for a wide range of pharmaceuticals. However, identification of genes in the usually highly complex symbiont communities remains a challenging task. For polyketides, one of the most important groups of sponge-derived drug candidates, we have developed a general strategy that allows one to rapidly access biosynthetic gene clusters based on chemical moieties. Using this method, we targeted polyketide synthase genes from two different sponge metagenomes. We have obtained from a sponge-bacterial association a complete pathway for the rare and potent antitumor agent psymberin from Psammocinia aff. bulbosa. The data support the symbiont hypothesis and provide insights into natural product evolution in previously inaccessible bacteria.

摘要

越来越多的证据表明，未培养的细菌共生体是从海洋海绵中分离出的众多生物活性化合物的真正生产者。生物合成基因的定位和异源表达可以阐明这一问题，并为广泛的药物提供可持续的供应。然而，在通常高度复杂的共生体群落中鉴定基因仍然是一项具有挑战性的任务。对于聚酮化合物（海绵衍生药物候选物中最重要的一类），我们开发了一种通用策略，该策略允许基于化学部分快速获取生物合成基因簇。使用这种方法，我们从两个不同的海绵宏基因组中靶向聚酮合酶基因。我们从一种海绵 - 细菌联合体中获得了来自近球形沙栖海绵的稀有且强效的抗肿瘤剂 psymberin 的完整合成途径。这些数据支持共生体假说，并为以前难以研究的细菌中的天然产物进化提供了见解。

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基于结构的基因靶向技术解析未培养海绵共生菌的聚酮化合物装配线

Polyketide assembly lines of uncultivated sponge symbionts from structure-based gene targeting.

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