microbial-plasticity
Microbial plasticity refers to the ability of microorganisms associated with plants—such as those in the rhizosphere or phyllosphere—to rapidly adapt their physiology, metabolism, and behavior in response to changing environmental conditions. This adaptive flexibility is critical in plant science because it shapes how microbial communities influence plant health, nutrient cycling, and stress tolerance. Understanding microbial plasticity helps researchers harness beneficial plant-microbe interactions to improve crop resilience and sustainable agricultural practices.
open_in_new WikipediaPubMed · 2026-04-11
Scientists discovered that a beneficial bacterium living inside plants can dramatically shapeshift — switching between thread-like and ball-like forms — while staying metabolically active in both states. This flexibility may help it spread through plant tissues and strengthen plant defenses against fungal disease.
Chitinophaga pinensis switches between two morphologically distinct states — filamentous and spherical — each driven by a unique gene expression program
Spherical cells remain metabolically active and continue replicating despite lacking the structural markers normally associated with dormancy or spore-like states
The spherical cell form enables surfactin-assisted 'hitchhiking' motility, a cheating strategy that co-opts surfactants produced by neighboring microbes to achieve dispersal without producing those compounds itself