Abstract
Bacteria inhabit all known ecological niches and establish interactions with organisms from all kingdoms of life. These interactions are mediated by a wide variety of mechanisms and very often involve the secretion of diverse molecules from the bacterial cells. The Type VI secretion system (T6SS) is a bacterial protein secretion system that uses a bacteriophage-like machinery to secrete a diverse array of effectors, usually translocating them directly into neighbouring cells. These effectors display toxic activity in the recipient cell, making the T6SS an effective weapon during inter-bacterial competition and interactions with eukaryotic cells. Over the last two decades, microbiology research has experienced a shift towards using systems-based approaches to study the interactions between diverse organisms and their communities in an ecological context. Here, we focus on this aspect of the T6SS. We consider how our perspective of the T6SS has developed and examine what is currently known about the impact that bacteria deploying the T6SS can have in diverse environments, including niches associated with plants, insects and mammals. We consider how T6SS-mediated interactions can affect host organisms by shaping their microbiota, as well as the diverse interactions that can be established between different microorganisms through the deployment of this versatile secretion system.
Highlights
The microbiota of any ecological niche is formed by the complex community of bacteria, fungi, archaea, protists and viruses that inhabit it
This study suggested that the presence of multiple T6SS gene clusters in the same genome could be due to horizontal gene transfer (HGT), and proposed a classification system for T6SS gene clusters, dividing them into four groups based on a maximum parsimony analysis of concatenated sequences of TssB and TssC
This study indicated that the T6SS has a inhibitory effect on root nodulation in peas, but it did not establish if the system was responsible for direct interactions between bacteria and plant cells
Summary
The microbiota of any ecological niche is formed by the complex community of bacteria, fungi, archaea, protists and viruses that inhabit it. V. cholerae strain V52 has been shown to be able to use its T6SS to outcompete bacteria, avoid amoebal predation, and as an anti-host mechanism by delivering diverse T6SS effectors (Pukatzki et al 2006; Ma and Mekalanos 2010; Unterweger et al 2014).
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