Transmembrane effector substrates of type IV secretion systems: mechanisms of secretion and insertion into host cell membranes
Sarah-Maria Trenz, Ann-Kathrin Kuwertz, Josua Carl, Samuel Wagner

TL;DR
This paper reviews how certain bacterial proteins are secreted and inserted into host cell membranes during infection.
Contribution
It provides a conceptual framework for TME translocation and integration mechanisms based on biophysical and structural data.
Findings
TMEs are predicted to integrate into host membranes during infection.
Structural and biophysical analyses help explain TME translocation pathways.
Insights are provided on how TMEs contribute to vacuole formation and remodeling.
Abstract
Intracellular Gram-negative pathogens employ either type IVA or type IVB secretion systems (T4SSs) to translocate effector proteins into host cells, where they modulate cellular processes to facilitate infection and promote intracellular survival. Roughly one-third of these effectors harbor hydrophobic transmembrane domains and are thus destined for integration into host cell membranes during infection. Many of these transmembrane domain-containing effectors (TMEs) localize to the membrane of the pathogen-containing vacuole, thereby contributing to its formation and remodeling. Despite the biological relevance of TMEs, the detailed molecular mechanisms governing their translocation via T4SSs and subsequent membrane integration in the host cell remain insufficiently understood. In this review, the biophysical characteristics of T4SS-secreted TMEs are systematically examined, including…
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Taxonomy
TopicsYersinia bacterium, plague, ectoparasites research · Escherichia coli research studies · Vibrio bacteria research studies
