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Deciphering microbial spatial organization: insights from synthetic and engineered communities

Estelle Pignon, Yolanda Schaerli

2025ISME Communications13 citationsDOIOpen Access PDF

Abstract

Microbial communities are frequently organized into complex spatial structures, shaped by intrinsic cellular traits, interactions between community members, initial growth condition or environmental factors. Understanding the mechanisms that drive these spatial patterns is essential for uncovering fundamental principles of microbial ecology and for developing applications. Using genetic engineering and synthetic microbial communities allows us to decipher how specific parameters influence spatial organization. In this review, we highlight recent studies that leverage synthetic microbial communities to deepen our understanding of microbial spatial ecology. We begin by exploring how initial conditions, such as cell density and relative species abundance, influence spatial organization. We then focus on studies that examine the role of individual microbial traits, such as cell shape and motility. Next, we discuss the impact of contact-dependent and long-range interactions, including metabolite exchange and toxin release. Furthermore, we highlight the influence of environmental factors on spatial dynamics. Finally, we address the current limitations of synthetic approaches and propose future directions to bridge the gap between engineered and natural systems.

Topics & Concepts

EcologySpatial ecologySpatial organizationBiologyLeverage (statistics)Microbial population biologyBiochemical engineeringComputer scienceEngineeringArtificial intelligenceGeneticsBacteriaMicrobial Community Ecology and PhysiologyEvolutionary Game Theory and CooperationCell Image Analysis Techniques
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