Michael P. Thorgersen, Ph.D.
Affiliations: | 2008 | University of Wisconsin, Madison, Madison, WI |
Area:
Microbiology BiologyGoogle:
"Michael Thorgersen"Parents
Sign in to add mentorDiana M. Downs | grad student | 2008 | UW Madison | |
(Insights into metabolic links between cellular iron and sulfur metabolism in Salmonella enterica.) |
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Publications
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Goff JL, Chen Y, Thorgersen MP, et al. (2022) Mixed heavy metal stress induces global iron starvation response. The Isme Journal |
Thorgersen MP, Ge X, Poole FL, et al. (2019) Nitrate-Utilizing Microorganisms Resistant to Multiple Metals from the Heavily Contaminated Oak Ridge Reservation. Applied and Environmental Microbiology |
Ge X, Vaccaro BJ, Thorgersen MP, et al. (2018) Iron- and Aluminum-Induced Depletion of Molybdenum in Acidic Environments Impedes the Nitrogen Cycle. Environmental Microbiology |
Thorgersen MP, Lancaster WA, Ge X, et al. (2017) Mechanisms of Chromium and Uranium Toxicity in Pseudomonas stutzeri RCH2 Grown under Anaerobic Nitrate-Reducing Conditions. Frontiers in Microbiology. 8: 1529 |
Thorgersen MP, Lancaster WA, Rajeev L, et al. (2016) A Highly Expressed High Molecular Weight S-Layer Complex of Pelosinus Strain UFO1 Binds Uranium. Applied and Environmental Microbiology |
Kurczy ME, Forsberg EM, Thorgersen MP, et al. (2016) Global Isotope Metabolomics Reveals Adaptive Strategies for Nitrogen Assimilation in Pseudomonas. Acs Chemical Biology |
Vaccaro BJ, Thorgersen MP, Lancaster WA, et al. (2015) Determining Roles of Accessory Genes in Denitrification by Mutant Fitness Analyses. Applied and Environmental Microbiology |
Thorgersen MP, Lancaster WA, Vaccaro BJ, et al. (2015) Molybdenum Availability is Key to Nitrate Removal in Contaminated Groundwater Environments. Applied and Environmental Microbiology |
Lancaster WA, Menon AL, Scott I, et al. (2014) Metallomics of two microorganisms relevant to heavy metal bioremediation reveal fundamental differences in metal assimilation and utilization. Metallomics : Integrated Biometal Science. 6: 1004-13 |
Thorgersen MP, Lipscomb GL, Schut GJ, et al. (2014) Deletion of acetyl-CoA synthetases I and II increases production of 3-hydroxypropionate by the metabolically-engineered hyperthermophile Pyrococcus furiosus. Metabolic Engineering. 22: 83-8 |