Escherichia coli Has a Unique Transcriptional Program in Long-Term Stationary Phase Allowing Identification of Genes Important for Survival
Abstract
Experimental evolution studies have elucidated evolutionary processes, but usually in chemically well-defined and/or constant environments. Using complex environments is important to begin to understand how evolution may occur in natural environments, such as soils or within a host. However, characterizing the stresses that cells experience in these complex environments can be challenging. One way to approach this is by determining how cells biochemically acclimate to heterogenous environments. In this study, we began to characterize physiological changes by analyzing the transcriptome of cells in a dynamic complex environment. By characterizing the transcriptional profile of cells in long-term stationary phase, a heterogenous and stressful environment, we can begin to understand how cells physiologically and biochemically react to the laboratory environment, and how this compares to more-natural conditions.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Aug 25, 2020
- Source ID
- 10.1128/msystems.00364-20
Entities
People
- Autumn L. Henderson
- Karin E Kram
- Steven E. Finkel
Organizations
- Army Research Office
- California State University
- National Science Foundation
- University of Southern California