Litcius/Paper detail

Microbial phenazines: biosynthesis, structural diversity, evolution, regulation, and biological significance

Dmitri V. Mavrodi, Wulf Blankenfeldt, Olga V. Mavrodi, David M. Weller, Linda S. Thomashow

2025Microbiology and Molecular Biology Reviews11 citationsDOIOpen Access PDF

Abstract

SUMMARYPhenazines are small, redox-active secondary metabolites produced by various bacterial species. These compounds participate in electron-transfer reactions, aiding microbes in surviving stressful or oxygen-limited environments. In this review, we examine the extensive structural diversity of phenazines and trace the evolutionary history of their biosynthetic pathways, which often move between distantly related species through horizontal gene transfer. We also explore how environmental factors such as nutrient levels and cell-to-cell signaling regulate phenazine production. Beyond their roles in microbial physiology, phenazines influence interactions among organisms, acting as antimicrobial agents, signaling molecules, and factors that shape microbiome dynamics in soils, plant roots, and other habitats. A better understanding of phenazine biology reveals how microbes adapt and thrive in diverse environments and emphasizes the potential applications of these compounds in agriculture and human health.

Topics & Concepts

BiologyMicrobiomePhenazineGeneEcologyMicrobial ecologyComputational biologyThree-domain systemEvolutionary biologyMicrobial geneticsBiological evolutionMetagenomicsEnvironmental biotechnologyGeneticsHuman pathogenMicrobial metabolismHuman microbiomeBacteriaBacterial proteinGut microbiomePhylogeneticsMechanism (biology)Secondary metabolismBiotechnologyHuman evolutionary geneticsBacterial geneticsMetabolic pathwayMicrobial Community Ecology and PhysiologyBacterial biofilms and quorum sensingPlant-Microbe Interactions and Immunity