Synthetic Control of Protein Degradation during Cell Proliferation and Developmental Processes

Abstract

Synthetic tools for the control of protein function are valuable for biomedical research to characterize cellular functions of essential proteins or if a rapid switch in protein activity is necessary. The ability to tune protein activity precisely opens another level of investigations that is not available with gene deletion mutants. Control of protein stability is a versatile approach to influence the activity of a target protein by its cellular abundance. Diverse strategies have been developed to achieve efficient proteolysis using external inducers or differentiation-coupled signals. The latter is especially important for the inactivation of a protein during a developmental process. Recently, several approaches to achieve this have been engineered. In this article, we present current synthetic tools for regulation of protein stability that allow fine-tuning of protein abundance, their advantages and disadvantages with an emphasis on methods applicable in the context of cell differentiation and development. We give an outlook toward future developments and discuss main applications of these tools. ©