Accessing Nature’s diversity through metabolic engineering and synthetic biology

Author(s)

King, Jason R; Edgar, Steven McBride; Qiao, Kangjian; Stephanopoulos, Gregory

Abstract

In this perspective, we highlight recent examples and trends in metabolic engineering and synthetic biology that demonstrate the synthetic potential of enzyme and pathway engineering for natural product discovery. In doing so, we introduce natural paradigms of secondary metabolism whereby simple carbon substrates are combined into complex molecules through “scaffold diversification”, and subsequent “derivatization” of these scaffolds is used to synthesize distinct complex natural products. We provide examples in which modern pathway engineering efforts including combinatorial biosynthesis and biological retrosynthesis can be coupled to directed enzyme evolution and rational enzyme engineering to allow access to the “privileged” chemical space of natural products in industry-proven microbes. Finally, we forecast the potential to produce natural product-like discovery platforms in biological systems that are amenable to single-step discovery, validation, and synthesis for streamlined discovery and production of biologically active agents.

Date issued

2016-03

URI

http://hdl.handle.net/1721.1/109754

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

F1000Research

Publisher

F1000 Research Ltd

Citation

King, Jason R.; Edgar, Steven; Qiao, Kangjian and Stephanopoulos, Gregory. “Accessing Nature’s Diversity through Metabolic Engineering and Synthetic Biology.” F1000Research 5 (March2 016): 397 © 2016 King JR et al

Version: Final published version

ISSN

2046-1402