Efficient and sustainable utilization of global resources represents a grand but achievablechallenge. By leveraging biology, we can transform abundant, but recalcitrant resources like lignin
to products ranging from fuel to medicine to polymers. Efforts to do so are expansive, but
challenges remain, due in no small part to the difficulty...
While metabolic engineering can enable the sustainable bioproduction of new materials, efforts are often impeded by pathway bottlenecks. To mitigate the effects of toxic or reactive intermediates and resource competition resulting from heterologous pathway incorporation, bacterial microcompartments (MCPs) have recently been considered for engineered compartmentalization in bacterial host organisms. MCPs...
The fields of metabolic engineering and synthetic biology have emerged in recent years with the heavily overlapping goals of sustainable bioproduction of chemical goods and predictable and precise engineering of biological function.1 However, efforts to reach commercially relevant titers have stalled.2 Many challenges arise during optimization of each production platform,...