Research

Current projects

Atmospheric Methane Removal to Slow Global Warming

The rapid pace and dire impacts of climate change urgently require powerful short-term mitigation strategies. We propose to slow global warming by removing methane from the atmosphere at significant scale using methanotrophic bacteria.

Quantification of methanotrophic metabolism

This project involves 13C-based metabolic flux analysis of a type I methanotroph, Methylotuvimicrobium buryatense 5GB1C, and investigation of its metabolic adaptation to varied environments or genetic manipulation.

Past Projects

Decoding gene regulation
Communal methane metabolism
An optimized one-carbon assimilation pathway via enzyme engineering (formolase)
Conversion of natural gas to fuels using methanotrophic bacteria
Systems level insights into alternative methane cycling modes in Lake Washington
Environmental genomics of Methylotrophs
Integrated metabolism
Engineering metabolic pathways for conversion of CO2 to fuels
Methylotrophic metabolism in Methylobacterium extorquens AM1
Single cell analysis
Coupling function to genomics in microbial communities via single-cell analysis (DOE)

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