Biocatalytic Construction of Spiro-Oxazolidinones via Halohydrin Dehalogenase-Catalyzed Ring Expansion of Spiro-Epoxides

Ma, Jin-Mei; Wang, Yuan-Fei; Miao, Run-Ping; Jin, Xiao; Wang, Hui-Hui; Chen, Yong-Zheng; Wan, Nan-Wei

doi:10.1021/acscatal.4c02122

ACS Catal.

2024

DOI: 10.1021/acscatal.4c02122

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Biocatalytic Construction of Spiro-Oxazolidinones via Halohydrin Dehalogenase-Catalyzed Ring Expansion of Spiro-Epoxides

Jin-Mei Ma,

Yuan-Fei Wang,

Run-Ping Miao

et al.

Abstract: Spiro-oxazolidinones are highly valuable compounds in the fields of medicinal and organic chemistry; however, the methods for synthesizing these compounds have not been well established. Herein, we present a biocatalytic methodology for the construction of spirooxazolidinones through the halohydrin dehalogenase-catalyzed ring expansion of spiro-epoxides. By performing screening and protein engineering of halohydrin dehalogenases, both chiral and racemic spirooxazolidinones were synthesized in 24−47% yields (90… Show more

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A Dynamic Loop in Halohydrin Dehalogenase HheG Regulates Activity and Enantioselectivity in Epoxide Ring Opening

Staar,

Ahlborn,

Estévez-Gay

et al. 2024

ACS Catal.

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Halohydrin dehalogenase HheG and its homologues are remarkable enzymes for the efficient ring opening of sterically demanding internal epoxides using a variety of nucleophiles. The enantioselectivity of the respective wild-type enzymes, however, is usually insufficient for application and frequently requires improvement by protein engineering. We herein demonstrate that the highly flexible N-terminal loop of HheG, comprising residues 39 to 47, has a tremendous impact on the activity as well as enantioselectivity of this enzyme in the ring opening of structurally diverse epoxide substrates. Thus, highly active and enantioselective HheG variants could be accessed through targeted engineering of this loop. In this regard, variant M45F displayed almost 10-fold higher specific activity than wild type in the azidolysis of cyclohexene oxide, yielding the corresponding product (1S,2S)-2-azidocyclohexan-1-ol in 96%eeP (in comparison to 49%eeP for HheG wild type). Moreover, this variant was also improved regarding activity and enantioselectivity in the ring opening of cyclohexene oxide with other nucleophiles, demonstrating even inverted enantioselectivity with cyanide and cyanate. In contrast, a complete loop deletion yielded an inactive enzyme. Concomitant computational analyses of HheG M45F in comparison to wild type enzyme revealed that mutation M45F promotes the productive binding of cyclohexene oxide and azide in the active site by establishing noncovalent C–H ··π interactions between epoxide and F45. These interactions further position one of the two carbon atoms of the epoxide ring closer to the azide, resulting in higher enantioselectivity. Additionally, stable and enantioselective cross-linked enzyme crystals of HheG M45F were successfully generated after combination with mutation D114C. Overall, our study highlights that a highly flexible loop in HheG governs the enzyme’s activity and selectivity in epoxide ring opening and should thus be considered in future protein engineering campaigns of HheG.

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A Dynamic Loop in Halohydrin Dehalogenase HheG Regulates Activity and Enantioselectivity in Epoxide Ring Opening

Staar,

Ahlborn,

Estévez-Gay

et al. 2024

ACS Catal.

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show abstract

Enzyme-Catalyzed Access to Spiro-Oxazolidinones

2024

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Biocatalytic Construction of Spiro-Oxazolidinones via Halohydrin Dehalogenase-Catalyzed Ring Expansion of Spiro-Epoxides

Cited by 2 publications

References 58 publications

A Dynamic Loop in Halohydrin Dehalogenase HheG Regulates Activity and Enantioselectivity in Epoxide Ring Opening

A Dynamic Loop in Halohydrin Dehalogenase HheG Regulates Activity and Enantioselectivity in Epoxide Ring Opening

Enzyme-Catalyzed Access to Spiro-Oxazolidinones

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