Journal
MOLECULES
Volume 26, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/molecules26010091
Keywords
plant volatiles; monoterpene biotransformation; valorization of plant material; microbial cell factories; essential oils; beta-pinene; limonene; beta-myrcene
Funding
- project VALEU [PTDC/EAM-AMB/30488/2017]
- Fundacao para a Ciencia e a Tecnologia (FCT) I.P. [UID/BIA/04050/2019]
- European Regional Development Fund (ERDF) through the COMPETE2020-Programa Operacional Competitividade e Internacionalizacao (POCI)
- [PD/BD/146184/2019]
- Fundação para a Ciência e a Tecnologia [UID/BIA/04050/2019, PD/BD/146184/2019] Funding Source: FCT
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Monoterpenes, plant secondary metabolites, are widely used in industrial processes as precursors for important aroma compounds. Biocatalysis, especially using oxidative enzymes, shows promise in overcoming challenges in converting monoterpenes into value-added aromas. Research efforts in molecular analysis of bacterial monoterpene catabolic pathways and biochemical characterization of key oxidative enzymes are expanding the toolbox for sustainable biotechnological production of aroma compounds.
Monoterpenes are plant secondary metabolites, widely used in industrial processes as precursors of important aroma compounds, such as vanillin and (-)-menthol. However, the physicochemical properties of monoterpenes make difficult their conventional conversion into value-added aromas. Biocatalysis, either by using whole cells or enzymes, may overcome such drawbacks in terms of purity of the final product, ecological and economic constraints of the current catalysis processes or extraction from plant material. In particular, the ability of oxidative enzymes (e.g., oxygenases) to modify the monoterpene backbone, with high regio- and stereo-selectivity, is attractive for the production of natural aromas for the flavor and fragrances industries. We review the research efforts carried out in the molecular analysis of bacterial monoterpene catabolic pathways and biochemical characterization of the respective key oxidative enzymes, with particular focus on the most relevant precursors, beta-pinene, limonene and beta-myrcene. The presented overview of the current state of art demonstrates that the specialized enzymatic repertoires of monoterpene-catabolizing bacteria are expanding the toolbox towards the tailored and sustainable biotechnological production of values-added aroma compounds (e.g., isonovalal, alpha-terpineol, and carvone isomers) whose implementation must be supported by the current advances in systems biology and metabolic engineering approaches.
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