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Environmental and Physiological Factors Affecting High-Throughput Measurements of Bacterial Growth

Esha Atolia, Spencer Cesar, Heidi A. Arjes, Manohary Rajendram, Handuo Shi, Benjamin D. Knapp, Somya Khare, Andrés Aranda-Díaz, Richard E. Lenski, Kerwyn Casey Huang

2020mBio62 citationsDOIOpen Access PDF

Abstract

How starved bacteria adapt and multiply under replete nutrient conditions is intimately linked to their history of previous growth, their physiological state, and the surrounding environment. While automated equipment has enabled high-throughput growth measurements, data interpretation and knowledge gaps regarding the determinants of growth kinetics complicate comparisons between strains. Here, we present a framework for growth measurements that improves accuracy and attenuates the effects of growth history. We determined that background absorbance quantification and multiple passaging cycles allow for accurate growth rate measurements even in carbon-poor media, which we used to reveal growth-rate increases during long-term laboratory evolution of Escherichia coli . Using mathematical modeling, we showed that maximum growth rate depends on initial cell density. Finally, we demonstrated that growth of Bacillus subtilis with glycerol inhibits the future growth of most of the population, due to lipoteichoic acid synthesis. These studies highlight the challenges of accurate quantification of bacterial growth behaviors.

Topics & Concepts

Bacterial growthGrowth rateBacillus subtilisExponential growthBacteriaAbsorbanceEscherichia coliPopulationGlycerolBiological systemChemistryBiologyBiochemical engineeringBiochemistryChromatographyMathematicsGeneGeneticsSociologyEngineeringGeometryDemographyMathematical analysisEvolution and Genetic DynamicsMicrobial Metabolic Engineering and BioproductionBacterial Genetics and Biotechnology