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Publications [#332889] of Scott C. Schmidler
Papers Published
- Darnell, CL; Tonner, PD; Gulli, JG; Schmidler, SC; Schmid, AK, Systematic discovery of Archaeal transcription factor functions in regulatory networks through quantitative phenotyping analysis, edited by Shank, EA,
mSystems, vol. 2 no. 5
(October, 2017),
pp. e00032-e00017, American Society for Microbiology [doi]
(last updated on 2024/04/19)
Abstract:
To ensure survival in the face of stress, microorganisms employ inducible damage repair pathways regulated by extensive and complex gene networks. Many archaea, microorganisms of the third domain of life, persist under extremes of temperature, salinity, and pH and under other conditions. In order to understand the cause-effect relationships between the dynamic function of the stress network and ultimate physiological consequences, this study characterized the physiological role of nearly one-third of all regulatory proteins known as transcription factors (TFs) in an archaeal organism. Using a unique quantitative phenotyping approach, we discovered functions for many novel TFs and revealed important secondary functions for known TFs. Surprisingly, many TFs are required for resisting multiple stressors, suggesting cross-regulation of stress responses. Through extensive validation experiments, we map the physiological roles of these novel TFs in stress response back to their position in the regulatory network wiring. This study advances understanding of the mechanisms underlying how microorganisms resist extreme stress. Given the generality of the methods employed, we expect that this study will enable future studies on how regulatory networks adjust cellular physiology in a diversity of organisms.
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