Authors
Shaqed Carasso, Melody Kasher-Dvora, Tal Gefen, Naama Geva-Zatorsky
Published in
Gut microbes. Volume 18. Issue 1. Pages 2687913. Dec 31, 2026. Epub Jun 17, 2026.
Abstract
The human gut microbiome represents a dynamic microbial ecosystem profoundly influencing host physiology, immune development, and disease susceptibility. While metagenomic approaches have advanced our understanding of microbial composition and functional potential, they remain insufficient to capture the real-time molecular events governing host‒microbe interactions. Taxonomic abundance and genomic content alone do not reflect active gene expression or phenotypic output, and functional roles cannot be reliably inferred from phylogenetic identity, given the substantial heterogeneity observed even within species. Central to bridging this gap is the concept of bacterial functional plasticity, with a focus on phase-mediated functional plasticity, the intrinsic capacity of microbes to rapidly remodel their activity and phenotype in response to environmental and host-derived cues. This review highlights phase variation as a prominent and evolutionarily conserved mechanism underlying plasticity, encompassing DNA inversions, short-sequence repeat modifications, and broader structural genomic variation. Emerging evidence demonstrates not only the prevalence of phase-variable mechanisms across diverse gut taxa but also their significant regulatory, ecological, and immunological consequences. These findings reframe the microbiome from a static consortium of species to a functionally dynamic system capable of rapid rewiring in response to environmental pressures. By integrating genomic, ecological, and host-response data, this review lays the groundwork for mechanistic frameworks that could explain how flexible microbial strategies influence bacterial behavior and host outcomes. Moving beyond cataloging microbial composition toward deciphering the logic of functional adaptation will be essential for translating microbiome research into predictive, diagnostic, and therapeutic applications.
PMID:
42307633
Bibliographic data and abstract were imported from PubMed on 17 Jun 2026.
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