Biophysical Modeling of Lipopolysaccharides in Gram-Negative Bacteria: From Atomic to Colloidal Models
Alexander N. Shvirst, Timur V. Mamedov, Andrey A. Butanaev, Alexander G. Pogorelov, Gennady N. Chuev

TL;DR
This paper reviews how the structure of lipopolysaccharides in bacteria affects their physical properties and functions, from atomic to colloidal levels.
Contribution
The paper provides a comprehensive analysis of biophysical models of LPSs and their relationship to bacterial functions and material design.
Findings
LPS molecular organization strongly influences bacterial membrane stability and adhesion.
Different modeling approaches reveal structure–property relationships critical for antimicrobial strategies.
Theoretical frameworks help predict the performance of anti-adhesive and bactericidal materials.
Abstract
Lipopolysaccharides (LPSs) are key components of the bacterial outer envelope, determining its structural integrity, barrier properties, and interactions with the surrounding environment. This review analyzes the relationship between the molecular architecture of LPSs and their physicochemical properties. Particular attention is being paid to the organization of LPS-containing supramolecular assemblies, including bacterial outer membranes, bilayers, micelles, and LPS brushes. The review further focuses on theoretical frameworks employed to describe LPS layers and discusses the physical meaning of the parameters involved in these models. The simulations involve a wide range of approaches starting from all-atom molecular treatment and up to polymer and colloidal approaches. When considering these models, we focus on the relationships between parameters that are addressed at each level of…
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Taxonomy
TopicsImmune Response and Inflammation · Bacterial biofilms and quorum sensing · Antimicrobial Peptides and Activities
