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Microbial multi-stress responses: from intracellular networks to communities - Equipment Supplement

$249,508R35FY2023GMNIH

University Of Michigan At Ann Arbor, Ann Arbor MI

Investigators

Linked publications & trials

Abstract

Project Summary/Abstract Bacteria mount a physiologic stress response to survive hostile or stringent conditions. These stress re- sponses shape the microbial communities that live in, on, and around us. Despite the importance of stress responses, we know little about how microbes tolerate complex combinations of stressors. This proposal will answer three overarching questions regarding microbial stress responses. 1.) How do bacteria response to multiple stressors? 2.) How does stress reshape the composition and stability of microbial communities? 3.) How quickly can we learn the stress responses of newly discovered bacteria? In answering these questions, several hypotheses will be evaluated using a consistent experimental and theoretical framework. The stress response networks of pathogenic streptococci will be characterized across multiple scales. Long term, our goal is to develop tools to analyze and target complex stress responses in the human microbiome. We are requesting supplemental funding to purchase an automated confocal imaging plate reader to study stress response networks in multispecies biofilms. Such experiments build on two developments made during this project: 1.) the discovery of a new class of ComRS signaling pathway that regulates intercellular communi- cation in oral streptococci; and 2.) an AI-driven system for characterizing complex phenotypes with automated experiments.

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