Project information
Genetic code expansion for biocatalysis and enzyme engineering doctoral network (BiocatCodeExpander)

Project Identification
101072686
Project Period
1/2023 - 12/2026
Investor / Pogramme / Project type
European Union
MU Faculty or unit
Faculty of Science
Cooperating Organization
University of Groningen
Vrije Universiteit Amsterdam
Österreich Institut GmbH
Graz University of Technology
University of Uppsala
Universitat Rovira i Virgili

The expansion of the genetic code for the incorporation of non-canonical amino acids (NCAA) in proteins provides biotechnologists with an amazing kit of novel tools. NCAA can be used in multiple applications such as investigation of the structure and dynamics of proteins, as handles for protein imaging and spectroscopy, metal chelators or as click chemistry reagents. Yet, only a few cases exist where NCAA are used in enzyme engineering to explore, improve or install new enzymatic activities. Further development has been restricted by the limited efficiency and flexibility of tools for their incorporation. This is mainly caused by the field developing separately and not being driven by desired target catalytic activities and needs of protein engineers. Therefore, this DN proposal aims to bridge this gap and bring experts from different fields together to ensure the development of the methodologies in a collaborative manner. With a threefoldtraining structure Learn–Teach–Create, the DN trains 10 PhDs at the boundaries of biocatalysis, synthetic biology, peptide chemistry and computational biology and brings together a team of academic and industrial partners to increase the European research capacity. The efficiency and flexibility in NCAA incorporation are decisive for successful catalytic application; use of NCAA for selective protein conjugation facilitates application in site-selective immobilization; combination of protein folding analyses in high-throughput-screens with automatization fosters the application of NCAA in directed evolution to engineer reactivity and stability of enzymes; going a step further, NCAA can provide functional groups for designed biocatalysts for new-to-nature reactions. The proposed research affords new tools and applications.

You are running an old browser version. We recommend updating your browser to its latest version.