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Distinct Survival, Growth Lag, and rRNA Degradation Kinetics during Long-Term Starvation for Carbon or Phosphate

Yusuke Himeoka, Bertil Gummesson, Michael A. Sørensen, Sine Lo Svenningsen, Namiko Mitarai

2022mSphere21 citationsDOIOpen Access PDF

Abstract

The exponential growth of bacterial populations is punctuated by long or short periods of starvation lasting from the point of nutrient exhaustion until nutrients are replenished. To understand the consequences of long-term starvation for Escherichia coli cells, we performed month-long carbon and phosphorus starvation experiments and measured three key phenotypes of the cultures, namely, the survival of the cells, the time needed for them to resume growth after nutrient replenishment, and the levels of intact rRNA preserved in the cultures. The starved cultures' concentration of rRNA dropped with starvation time, as did cell survival, while the lag time needed for regrowth increased. While all three phenotypes were more severely affected during starvation for phosphorus than for carbon, our results demonstrate that neither survival nor lag time is correlated with ribosome content in a straightforward manner.

Topics & Concepts

KineticsPhosphateLagTerm (time)Degradation (telecommunications)StarvationChemistryBiologyBiochemistryComputer scienceEndocrinologyPhysicsTelecommunicationsComputer networkQuantum mechanicsDNA Repair MechanismsMitochondrial Function and PathologyMolecular Biology Techniques and Applications