Chapter 11: Impact of Synthetic Biology on Secondary Metabolite Biosynthesis

Fredarla S. Miller, Michael F. Freeman

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

Natural products are structurally diverse bioactive secondary metabolites produced by a wide range of microorganisms, fungi, and plants. Recent advances in (meta)genome sequencing have led to an explosive identification of putative secondary metabolic pathways. The number of known natural products is now dwarfed by the sum of putative pathways encoded in the genomes of highly characterized organisms, uncultivated microbes, and even those from completely unknown sources. The normal route of secondary metabolite discovery from bioactivity, to structure elucidation, to biosynthetic pathway - the bedrock of the natural products field - now has to be often approached in a reversed workflow. New methods to quickly identify structural novelty and predict bioactivity need to be developed, as well as efficient ways to produce natural products and manipulate their pathways in heterologous hosts. The nascent field of synthetic biology has the potential to effectively tackle problems faced by this generation's natural products researchers. Born out of systems biology and genetic engineering, synthetic biology applications attempt to decouple unknown metabolic and regulatory constraints from native pathways to rationally and predictably control the biosynthesis of a metabolite of interest. This chapter highlights the recent progress and influence synthetic biology has had on natural product discovery, production, and diversification. Looking to the future, synthetic biology principles will inevitably be needed to unlock Nature's true potential to inspire the next generation of therapeutics and biomaterials.

Original languageEnglish (US)
Title of host publicationBiocatalysis
Subtitle of host publicationAn Industrial Perspective
EditorsMelanie Hall, Gavin J. Williams
PublisherRoyal Society of Chemistry
Pages287-320
Number of pages34
Edition32
DOIs
StatePublished - Jan 1 2018

Publication series

NameRSC Catalysis Series
Number32
Volume2018-January
ISSN (Print)1757-6725
ISSN (Electronic)1757-6733

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