Authors
Robson Tramontina, Iara Ciancaglini, Ellen KB Roman, Micaela G Chacón, Thamy LR Corrêa, Neil Dixon, Timothy DH Bugg, Fabio Marcio Squina
Publication date
2023/7
Source
Applied microbiology and biotechnology
Volume
107
Issue
13
Pages
4165-4185
Publisher
Springer Berlin Heidelberg
Description
The biorefinery concept, in which biomass is utilized for the production of fuels and chemicals, emerges as an eco-friendly, cost-effective, and renewable alternative to petrochemical-based production. The hydroxycinnamic acid fraction of lignocellulosic biomass represents an untapped source of aromatic molecules that can be converted to numerous high-value products with industrial applications, including in the flavor and fragrance sector and pharmaceuticals. This review describes several biochemical pathways useful in the development of a biorefinery concept based on the biocatalytic conversion of the hydroxycinnamic acids ferulic, caffeic, and p-coumaric acid into high-value molecules.
Key points
• The phenylpropanoids bioconversion pathways in the context of biorefineries
• Description of pathways from hydroxycinnamic acids to high-value compounds
• Metabolic engineering and synthetic biology advance …
Total citations
Scholar articles
R Tramontina, I Ciancaglini, EKB Roman, MG Chacón… - Applied microbiology and biotechnology, 2023