基因组邻域网络揭示了烯二炔生物合成的见解，并有助于发现的预测和优先级排序。

Genome neighborhood network reveals insights into enediyne biosynthesis and facilitates prediction and prioritization for discovery.

作者信息

Rudolf Jeffrey D, Yan Xiaohui, Shen Ben

机构信息

Department of Chemistry, The Scripps Research Institute, Jupiter, FL, 33458, USA.

Department of Molecular Therapeutics, The Scripps Research Institute, Jupiter, FL, 33458, USA.

出版信息

J Ind Microbiol Biotechnol. 2016 Mar;43(2-3):261-76. doi: 10.1007/s10295-015-1671-0. Epub 2015 Aug 29.

DOI:10.1007/s10295-015-1671-0

PMID:26318027

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4753101/

Abstract

The enediynes are one of the most fascinating families of bacterial natural products given their unprecedented molecular architecture and extraordinary cytotoxicity. Enediynes are rare with only 11 structurally characterized members and four additional members isolated in their cycloaromatized form. Recent advances in DNA sequencing have resulted in an explosion of microbial genomes. A virtual survey of the GenBank and JGI genome databases revealed 87 enediyne biosynthetic gene clusters from 78 bacteria strains, implying that enediynes are more common than previously thought. Here we report the construction and analysis of an enediyne genome neighborhood network (GNN) as a high-throughput approach to analyze secondary metabolite gene clusters. Analysis of the enediyne GNN facilitated rapid gene cluster annotation, revealed genetic trends in enediyne biosynthetic gene clusters resulting in a simple prediction scheme to determine 9- versus 10-membered enediyne gene clusters, and supported a genomic-based strain prioritization method for enediyne discovery.

摘要

由于其前所未有的分子结构和非凡的细胞毒性，烯二炔是最引人入胜的一类细菌天然产物。烯二炔很罕见，只有11个结构已明确的成员，另有4个以环化芳香化形式分离得到的成员。DNA测序技术的最新进展导致微生物基因组数量激增。对GenBank和JGI基因组数据库的虚拟调查显示，来自78个细菌菌株的87个烯二炔生物合成基因簇，这意味着烯二炔比以前认为的更为常见。在此，我们报告了烯二炔基因组邻域网络（GNN）的构建和分析，作为一种分析次生代谢物基因簇的高通量方法。对烯二炔GNN的分析有助于快速进行基因簇注释，揭示烯二炔生物合成基因簇中的遗传趋势，从而得出一种简单的预测方案来确定9元与10元烯二炔基因簇，并支持一种基于基因组的烯二炔发现菌株优先级排序方法。

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