Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases
Baeyer–Villiger monooxygenases (BVMOs) are flavin-dependent oxidative enzymes capable of catalyzing the insertion of an oxygen atom between a carbonylic Csp<sup>2</sup> and the Csp<sup>3</sup> at the alpha position, therefore transforming linear and cyclic ketones into esters...
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MDPI AG
2021-05-01
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| Series: | Catalysts |
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| Online Access: | https://www.mdpi.com/2073-4344/11/5/605 |
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doaj-b840be18bc344fc99c7c9f8a8e1f180f2021-05-31T23:29:10ZengMDPI AGCatalysts2073-43442021-05-011160560510.3390/catal11050605Multienzymatic Processes Involving Baeyer–Villiger MonooxygenasesGonzalo de Gonzalo0Andrés R. Alcántara1Organic Chemistry Department, University of Sevilla, c/Profesor García González 2, 41012 Sevilla, SpainUnit of Organic and Pharmaceutical Chemistry, Department of Chemistry in Pharmaceutical Sciences, Faculty of Pharmacy, Complutense University of Madrid, Plaza de Ramón y Cajal, s/n, 28040 Madrid, SpainBaeyer–Villiger monooxygenases (BVMOs) are flavin-dependent oxidative enzymes capable of catalyzing the insertion of an oxygen atom between a carbonylic Csp<sup>2</sup> and the Csp<sup>3</sup> at the alpha position, therefore transforming linear and cyclic ketones into esters and lactones. These enzymes are dependent on nicotinamides (NAD(P)H) for the flavin reduction and subsequent reaction with molecular oxygen. BVMOs can be included in cascade reactions, coupled to other redox enzymes, such as alcohol dehydrogenases (ADHs) or ene-reductases (EREDs), so that the direct conversion of alcohols or α,β-unsaturated carbonylic compounds to the corresponding esters can be achieved. In the present review, the different synthetic methodologies that have been performed by employing multienzymatic strategies with BVMOs combining whole cells or isolated enzymes, through sequential or parallel methods, are described, with the aim of highlighting the advantages of performing multienzymatic systems, and show the recent advances for overcoming the drawbacks of using BVMOs in these techniques.https://www.mdpi.com/2073-4344/11/5/605biocatalysiswhole cellscascade reactionsredox enzymesmonooxygenasesBaeyer–Villiger alcohol dehydrogenases |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Gonzalo de Gonzalo Andrés R. Alcántara |
| spellingShingle |
Gonzalo de Gonzalo Andrés R. Alcántara Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases Catalysts biocatalysis whole cells cascade reactions redox enzymes monooxygenases Baeyer–Villiger alcohol dehydrogenases |
| author_facet |
Gonzalo de Gonzalo Andrés R. Alcántara |
| author_sort |
Gonzalo de Gonzalo |
| title |
Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases |
| title_short |
Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases |
| title_full |
Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases |
| title_fullStr |
Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases |
| title_full_unstemmed |
Multienzymatic Processes Involving Baeyer–Villiger Monooxygenases |
| title_sort |
multienzymatic processes involving baeyer–villiger monooxygenases |
| publisher |
MDPI AG |
| series |
Catalysts |
| issn |
2073-4344 |
| publishDate |
2021-05-01 |
| description |
Baeyer–Villiger monooxygenases (BVMOs) are flavin-dependent oxidative enzymes capable of catalyzing the insertion of an oxygen atom between a carbonylic Csp<sup>2</sup> and the Csp<sup>3</sup> at the alpha position, therefore transforming linear and cyclic ketones into esters and lactones. These enzymes are dependent on nicotinamides (NAD(P)H) for the flavin reduction and subsequent reaction with molecular oxygen. BVMOs can be included in cascade reactions, coupled to other redox enzymes, such as alcohol dehydrogenases (ADHs) or ene-reductases (EREDs), so that the direct conversion of alcohols or α,β-unsaturated carbonylic compounds to the corresponding esters can be achieved. In the present review, the different synthetic methodologies that have been performed by employing multienzymatic strategies with BVMOs combining whole cells or isolated enzymes, through sequential or parallel methods, are described, with the aim of highlighting the advantages of performing multienzymatic systems, and show the recent advances for overcoming the drawbacks of using BVMOs in these techniques. |
| topic |
biocatalysis whole cells cascade reactions redox enzymes monooxygenases Baeyer–Villiger alcohol dehydrogenases |
| url |
https://www.mdpi.com/2073-4344/11/5/605 |
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AT gonzalodegonzalo multienzymaticprocessesinvolvingbaeyervilligermonooxygenases AT andresralcantara multienzymaticprocessesinvolvingbaeyervilligermonooxygenases |
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