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New Trends and Future Opportunities in the Enzymatic Formation of C−C, C−N, and C−O bonds

Jack J. Sangster, James R. Marshall, Nicholas J. Turner, Juan Mangas‐Sánchez

2021ChemBioChem31 citationsDOIOpen Access PDF

Abstract

Organic chemistry provides society with fundamental products we use daily. Concerns about the impact that the chemical industry has over the environment is propelling major changes in the way we manufacture chemicals. Biocatalysis offers an alternative to other synthetic approaches as it employs enzymes, Nature's catalysts, to carry out chemical transformations. Enzymes are biodegradable, come from renewable sources, operate under mild reaction conditions, and display high selectivities in the processes they catalyse. As a highly multidisciplinary field, biocatalysis benefits from advances in different areas, and developments in the fields of molecular biology, bioinformatics, and chemical engineering have accelerated the extension of the range of available transformations (E. L. Bell et al., Nat. Rev. Meth. Prim. 2021, 1, 1-21). Recently, we surveyed advances in the expansion of the scope of biocatalysis via enzyme discovery and protein engineering (J. R. Marshall et al., Tetrahedron 2021, 82, 131926). Herein, we focus on novel enzymes currently available to the broad synthetic community for the construction of new C-C, C-N and C-O bonds, with the purpose of providing the non-specialist with new and alternative tools for chiral and sustainable chemical synthesis.

Topics & Concepts

BiocatalysisBiochemical engineeringChemistryDirected evolutionProtein engineeringSynthetic biologyDrug discoveryEnzyme catalysisGreen chemistryNanotechnologyCombinatorial chemistryCatalysisOrganic chemistryEnzymeComputational biologyMaterials scienceEngineeringBiologyBiochemistryReaction mechanismGeneMutantEnzyme Catalysis and ImmobilizationMicrobial Natural Products and BiosynthesisClick Chemistry and Applications
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