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Three-dimensional biofilm colony growth supports a mutualism involving matrix and nutrient sharing

Heidi A. Arjes, Lisa Willis, Haiwen Gui, Yangbo Xiao, Jason M. Peters, Carol A. Gross, Kerwyn Casey Huang

2021eLife24 citationsDOIOpen Access PDF

Abstract

Life in a three-dimensional biofilm is typical for many bacteria, yet little is known about how strains interact in this context. Here, we created essential gene CRISPR interference knockdown libraries in biofilm-forming Bacillus subtilis and measured competitive fitness during colony co-culture with wild type. Partial knockdown of some translation-related genes reduced growth rates and led to out-competition. Media composition led some knockdowns to compete differentially as biofilm versus non-biofilm colonies. Cells depleted for the alanine racemase AlrA died in monoculture but survived in a biofilm colony co-culture via nutrient sharing. Rescue was enhanced in biofilm colony co-culture with a matrix-deficient parent due to a mutualism involving nutrient and matrix sharing. We identified several examples of mutualism involving matrix sharing that occurred in three-dimensional biofilm colonies but not when cultured in two dimensions. Thus, growth in a three-dimensional colony can promote genetic diversity through sharing of secreted factors and may drive evolution of mutualistic behavior.

Topics & Concepts

BiofilmMutualism (biology)BiologyBacillus subtilisMicrobiologyGene knockdownBacteriaGeneGeneticsEcologyBacterial biofilms and quorum sensingEvolutionary Game Theory and CooperationEvolution and Genetic Dynamics
Three-dimensional biofilm colony growth supports a mutualism involving matrix and nutrient sharing | Litcius