Spatiotemporal development of growth and death zones in expanding bacterial colonies driven by emergent nutrient dynamics

Kavli Affiliate: David Kleinfeld

| Authors: Harish Kannan, Paul Sun, Tolga Çağlar, Pantong Yao, Brian R Taylor, Kinshuk Sahu, Daotong Ge, Matteo Mori, Mya Warren, David Kleinfeld, JiaJia Dong, Bo Li and Terence Hwa

| Summary:

Bacterial colony growth on hard agar is commonplace in microbiology; yet, what occurs inside a growing colony is complex even in the simplest cases. Robust colony expansion kinetics featuring a linear radial growth and a saturating vertical growth indicates a common developmental program which is elucidated here for Escherichia coli cells using a combination of modeling and experiments. Radial colony expansion is found to be limited by mechanical factors rather than nutrients as commonly assumed. In contrast, vertical expansion is limited by glucose depletion inside the colony, an effect compounded by reduced growth yield due to anaerobiosis. Carbon starvation in the colony interior results in substantial cell death within 1-2 days, with a distinct death zone that expands with the growing colony. Overall, the development of simple colonies lacking EPS production and differentiation is dictated by an interplay of mechanical constraints and emergent nutrient gradients arising from obligatory metabolic processes.

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