通过对213株乳酸菌及其相关属进行比较基因组学研究，拓展乳酸菌的生物技术潜力。

Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera.

作者信息

Sun Zhihong, Harris Hugh M B, McCann Angela, Guo Chenyi, Argimón Silvia, Zhang Wenyi, Yang Xianwei, Jeffery Ian B, Cooney Jakki C, Kagawa Todd F, Liu Wenjun, Song Yuqin, Salvetti Elisa, Wrobel Agnieszka, Rasinkangas Pia, Parkhill Julian, Rea Mary C, O'Sullivan Orla, Ritari Jarmo, Douillard François P, Paul Ross R, Yang Ruifu, Briner Alexandra E, Felis Giovanna E, de Vos Willem M, Barrangou Rodolphe, Klaenhammer Todd R, Caufield Page W, Cui Yujun, Zhang Heping, O'Toole Paul W

机构信息

Key Laboratory of Dairy Biotechnology and Engineering, Education Ministry of China, Inner Mongolia Agricultural University, Hohhot, Inner Mongolia 010018, China.

School of Microbiology, Alimentary Pharmabiotic Centre, University College Cork, Cork T12 Y337, Ireland.

出版信息

Nat Commun. 2015 Sep 29;6:8322. doi: 10.1038/ncomms9322.

DOI:10.1038/ncomms9322

PMID:26415554

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4667430/

Abstract

Lactobacilli are a diverse group of species that occupy diverse nutrient-rich niches associated with humans, animals, plants and food. They are used widely in biotechnology and food preservation, and are being explored as therapeutics. Exploiting lactobacilli has been complicated by metabolic diversity, unclear species identity and uncertain relationships between them and other commercially important lactic acid bacteria. The capacity for biotransformations catalysed by lactobacilli is an untapped biotechnology resource. Here we report the genome sequences of 213 Lactobacillus strains and associated genera, and their encoded genetic catalogue for modifying carbohydrates and proteins. In addition, we describe broad and diverse presence of novel CRISPR-Cas immune systems in lactobacilli that may be exploited for genome editing. We rationalize the phylogenomic distribution of host interaction factors and bacteriocins that affect their natural and industrial environments, and mechanisms to withstand stress during technological processes. We present a robust phylogenomic framework of existing species and for classifying new species.

摘要

乳酸杆菌是一类多样的物种，占据着与人类、动物、植物和食物相关的各种营养丰富的生态位。它们在生物技术和食品保鲜中被广泛应用，并且正在被探索用作治疗剂。由于代谢多样性、物种身份不明确以及它们与其他重要商业乳酸菌之间的关系不确定，利用乳酸杆菌变得复杂起来。乳酸杆菌催化生物转化的能力是一种尚未开发的生物技术资源。在此，我们报告了213株乳酸杆菌菌株及相关属的基因组序列，以及它们编码的用于修饰碳水化合物和蛋白质的遗传目录。此外，我们描述了乳酸杆菌中广泛存在的新型CRISPR-Cas免疫系统，可用于基因组编辑。我们阐述了影响其自然和工业环境的宿主相互作用因子和细菌素的系统发育分布，以及在技术过程中抵御压力的机制。我们提出了一个关于现有物种的强大系统发育框架以及用于新物种分类的框架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0073/4667430/e2505237b516/ncomms9322-f1.jpg

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通过对213株乳酸菌及其相关属进行比较基因组学研究，拓展乳酸菌的生物技术潜力。

Expanding the biotechnology potential of lactobacilli through comparative genomics of 213 strains and associated genera.

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