Transcriptomics

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The timing of transcription of RpoS-dependent genes varies across multiple stresses


ABSTRACT: The alternative sigma factor RpoS regulates transcription of many genes in Escherichia coli in response to many different stresses. The rate of change of RpoS levels in response to stress, and the consequences of that change for the temporal patterns of expression of RpoS-regulated genes has not been described. We measured the temporal pattern of RpoS levels in response to the entry to stationary phase, high osmolarity, or low temperature. We found that RpoS levels peaked 50 minutes after osmolarity increased, but took 240 minutes to peak in response to lowered temperature. We quantified the transcriptome across these stresses using RNA-seq. Stresses differed in the number of differentially expressed genes, with 1379 DE genes were identified in in stationary phase, 633 in high osmolarity, and 302 in cold shock. We attempted to fit sigmoid or double sigmoid models to each individual differentially expressed genes in each stress, and fit 47 to 62% of all DE genes, depending on the stress. During the entry into stationary phase, genes whose expression rose earlier tended to be those that had been found to respond most strongly to low levels of RpoS.The timing of individual genes expression was not correlated across stresses. Taken together, our results demonstrate E. coli activates RpoS with different timing in response to different stresses, which in turn generates a unique pattern of timing of the transcription response in each stress.

ORGANISM(S): Escherichia coli

PROVIDER: GSE224463 | GEO | 2023/08/23

REPOSITORIES: GEO

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