Toxin-linked mobile genetic elements in major enteric bacterial pathogens.

Gut microbiome (Cambridge, England) Pub Date : 2023-03-17 eCollection Date: 2023-01-01 DOI:10.1017/gmb.2023.2
Shruti Panwar, Shashi Kumari, Jyoti Verma, Susmita Bakshi, Lekshmi Narendrakumar, Deepjyoti Paul, Bhabatosh Das
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Abstract

One of the fascinating outcomes of human microbiome studies adopting multi-omics technology is its ability to decipher millions of microbial encoded functions in the most complex and crowded microbial ecosystem, including the human gastrointestinal (GI) tract without cultivating the microbes. It is well established that several functions that modulate the human metabolism, nutrient assimilation, immunity, infections, disease severity and therapeutic efficacy of drugs are mostly of microbial origins. In addition, these microbial functions are dynamic and can disseminate between microbial taxa residing in the same ecosystem or other microbial ecosystems through horizontal gene transfer. For clinicians and researchers alike, understanding the toxins, virulence factors and drug resistance traits encoded by the microbes associated with the human body is of utmost importance. Nevertheless, when such traits are genetically linked with mobile genetic elements (MGEs) that make them transmissible, it creates an additional burden to public health. This review mainly focuses on the functions of gut commensals and the dynamics and crosstalk between commensal and pathogenic bacteria in the gut. Also, the review summarises the plethora of MGEs linked with virulence genes present in the genomes of various enteric bacterial pathogens, which are transmissible among other pathogens and commensals.

主要肠道细菌病原体中毒素相关的可移动遗传因子
采用多组学技术研究人类微生物组的一个引人入胜的成果是,它能够在不培养微生物的情况下,在最复杂和拥挤的微生物生态系统(包括人类胃肠道)中破译数百万种微生物编码功能。众所周知,调节人体代谢、营养吸收、免疫、感染、疾病严重程度和药物治疗效果的几种功能大多来自微生物。此外,这些微生物功能是动态的,可以通过水平基因转移在同一生态系统或其他微生物生态系统中的微生物类群之间传播。对于临床医生和研究人员来说,了解与人体相关的微生物编码的毒素、毒力因子和耐药性特征是至关重要的。然而,当这些性状在遗传上与使其具有传染性的移动遗传因子(MGEs)相关联时,就会对公共卫生造成额外负担。本文主要综述了肠道共生菌的功能以及肠道共生菌与致病菌之间的动力学和相互作用。此外,该综述总结了与各种肠道细菌病原体基因组中存在的毒力基因相关的大量MGEs,这些基因在其他病原体和共生体中传播。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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