Investigating and Modeling the Factors That Affect Genetic Circuit Performance

Abstract: Over the past 2 decades, synthetic biology has yielded ever more complex genetic circuits that are able to perform sophisticated functions in response to specific signals. Yet, genetic circuits are not immediately transferable to an outside-the-lab setting where their performance is highly compromised. We propose introducing a broader test step to the design−build−test− learn workflow to include factors that might contribute to unexpected genetic circuit performance. As a proof of concept, we have designed and… Show more

“…Expression of synthetic gene cassettes further places stress on engineered populations, increasing sensitivity to external disturbances (11). Thus, gene circuits that behave consistently in nutrient-rich growth conditions in the lab can oftentimes break down when transferred to more complex and non-traditional environments (12).…”

Host evolution improves genetic circuit function in complex growth environments

“…Expression of synthetic gene cassettes further places stress on engineered populations, increasing sensitivity to external disturbances (11). Thus, gene circuits that behave consistently in nutrient-rich growth conditions in the lab can oftentimes break down when transferred to more complex and non-traditional environments (12).…”

Host evolution improves genetic circuit function in complex growth environments

Engineering metabolic flux for the microbial synthesis of aromatic compounds