AUTHOR=Pomraning Kyle R. , Deng Shuang , Duong Rylan D. , Czajka Jeffrey J. , Bohutskyi Pavlo 

TITLE=Identification of Yarrowia lipolytica as a platform for designed consortia that incorporate in situ nitrogen fixation to enable ammonia-free bioconversion

JOURNAL=Frontiers in Industrial Microbiology

VOLUME=2

YEAR=2024

URL=https://www.frontiersin.org/journals/industrial-microbiology/articles/10.3389/finmi.2024.1473316

DOI=10.3389/finmi.2024.1473316

ISSN=2813-7809

ABSTRACT=<p>Bioconversion processes require nitrogen for growth and production of intracellular enzymes to produce biofuels and bioproducts. Typically, this is supplied as reduced nitrogen in the form of ammonia, which is produced offsite from N<sub>2</sub> and H<sub>2</sub> via the Haber-Bosch process. While this has revolutionized industries dependent on fixed nitrogen (e.g., modern agriculture), it is highly energy-intensive and its reliance on natural gas combustion results in substantial global CO<sub>2</sub> emissions. Here we investigated the feasibility of <italic>in situ</italic> biological nitrogen fixation from N<sub>2</sub> gas as a strategy to reduce greenhouse gas impacts of aerobic bioconversion processes. We developed an efficient and cost-effective method to screen fungal bioconversion hosts for compatibility with the free-living diazotrophic bacterium <italic>Azotobacter vinelandii</italic> under nitrogen fixing conditions. Our screening revealed that the genus <italic>Yarrowia</italic> is particularly enriched during co-culture experiments. Follow-up experiments identified four <italic>Y. lipolytica</italic> strains (NRRL Y-11853, NRRL Y-7208, NRRL Y-7317, and NRRL YB-618) capable of growth in co-culture with <italic>A. vinelandii</italic>. These strains utilize ammonium secreted during diazotrophic fixation of N<sub>2</sub>, which is provided as a component of the air input stream during aerobic fermentation. This demonstrates the feasibly of <italic>in situ</italic> biological nitrogen fixation to support heterotrophic fermentation processes for production of fuels and chemicals.</p>