Mining genomes to illuminate the specialized chemistry of life

All organisms produce specialized organic molecules, ranging from small volatile chemicals to large gene-encoded peptides, that have evolved to provide them with diverse cellular and ecological functions. As natural products, they are broadly applied in medicine, agriculture and nutrition. The rapid accumulation of genomic information has revealed that the metabolic capacity of virtually all organisms is vastly underappreciated. Pioneered mainly in bacteria and fungi, genome mining technologies are accelerating metabolite discovery. Recent efforts are now being expanded to all life forms, including protists, plants and animals, and new integrative omics technologies are enabling the increasingly effective mining of this molecular diversity. Omics methods can be used to mine the genomes of diverse organisms, from microorganisms to plants and animals, for the discovery of natural products and their biosynthetic genes. In this Review, the authors review the why, what, where and how of genome mining.

Automated summary

Organisms produce specialized organic molecules for various functions, with genome mining technologies accelerating the discovery of these molecules. Efforts have expanded to all life forms, with new technologies enabling more effective exploration of molecular diversity.