selected publications
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academic article
- EfgA is a Conserved Formaldehyde Sensor That Leads to Bacterial Growth Arrest in Response to Elevated Formaldehyde. PLOS Biology. 19:e3001208. 2021
- Formaldehyde-Responsive Proteins TtmR and EfgA Reveal a Trade-off between Formaldehyde Resistance and Efficient Transition to Methylotrophy in Methylorubrum extorquens. Journal of Bacteriology. 203:e00589. 2021
- Formaldehyde-responsive Proteins, TtmR and EfgA, Reveal a Tradeoff Between Formaldehyde Resistance and Efficient Transition to Methylotrophy in Methylorubrum Extorquens. Journal of Bacteriology. 2021
- Global Transcriptional Response of Methylorubrum extorquens to Formaldehyde Stress Expands the Role of EfgA and is Distinct from Antibiotic Translational Inhibition. Microorganisms. 9:347. 2021
- Microbial phenotypic heterogeneity in response to a metabolic toxin: Continuous, dynamically shifting distribution of formaldehyde tolerance in Methylobacterium extorquens populations. PLOS Genetics. 15:e1008458. 2019
- Metabolic network structure and function in bacteria goes beyond conserved enzyme components. Microbial Cell. 3:260-262. 2016
- An Unexpected Route to an Essential Cofactor: Escherichia coli Relies on Threonine for Thiamine Biosynthesis. MBio. 7. 2016