Engineered sensors and genetic regulatory networks for control of cellular metabolism
Author(s)
Moser, Felix, Ph. D. Massachusetts Institute of Technology
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Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences.
Advisor
Christopher A. Voigt.
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Complex synthetic genetic programs promise unprecedented control over cellular metabolism and behavior. In this thesis, I describe the design and development of a synthetic genetic program to detect conditions underlying acetate formation in Escherichia coli. To construct this program, I first developed sensors that detected and propagated relevant information into genetic circuits. These sensors include a novel sensor for genotoxic methylation exposure in Saccharomyces cerevisiae and sensors for oxygen, acetate, and glycolytic flux in E. coli. The methylation sensor served to prototype generalizable tuning mechanisms and was tuned to a sensitivity and detection threshold useful for several applications, including the detection of Mel formation in methyl halide transferase-expressing cultures of yeast and the detection of Mel in soil. The sensors for oxygen and acetate were integrated into a program that can uniquely detect acetate formation in anaerobic conditions in E. coli. Finally, to validate their use at higher scales in production strains, the oxygen sensor and two genetic programs were characterized in 10 L fed-batch fermentations. Together, this work demonstrates the characterization of novel genetic elements, their integration into genetic programs, and the validation of those programs at industrially relevant scales.
Description
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Brain and Cognitive Sciences, 2013. Cataloged from PDF version of thesis. Includes bibliographical references (pages 114-125).
Date issued
2013Department
Massachusetts Institute of Technology. Department of Brain and Cognitive SciencesPublisher
Massachusetts Institute of Technology
Keywords
Brain and Cognitive Sciences.