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izvor podataka: crosbi

Biocatalytic approach to chiral fluoroaromatic scaffolds (CROSBI ID 317855)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Dokli, Irena ; Brkljača, Zlatko ; Švaco, Petra ; Tang, Lixia ; Stepanić, Višnja ; Majerić Elenkov, Maja Biocatalytic approach to chiral fluoroaromatic scaffolds // Organic & biomolecular chemistry, 20 (2022), 9734-9741. doi: 10.1039/D2OB01955H

Podaci o odgovornosti

Dokli, Irena ; Brkljača, Zlatko ; Švaco, Petra ; Tang, Lixia ; Stepanić, Višnja ; Majerić Elenkov, Maja

engleski

Biocatalytic approach to chiral fluoroaromatic scaffolds

Ten different fluorinated aromatic epoxides have been tested as potential substrates for halohydrin dehalogenase (HHDH) HheC. Majority of investigated epoxides are useful building blocks in synthetic chemistry applications, with a number of them being polysubstituted. Moderate to high enantioselectivities (E = 15 - >200) were observed in azidolysis, allowing the synthesis of enantioenriched (R)-azido alcohols containing fluorine in the molecule. In the case where a reaction runs over 50% conversion, enantiopure (S)-epoxides are also available. While o-F-styrene oxide was easily converted to a product, sterically challenging o-CF3-derivative was not accepted by HheC. In silico probing of the binding site indicates that, in order to accommodate o-CF3-derivative in HheC active site, it is necessary to eliminate steric hindrance. Hence, we extended our research by probing several available HheC variants containing relevant modifications in the active site. The active mutant P84V/F86P/T134A/N176A (named HheC-M4) was identified, showing not only high activity towards o-CF3-styrene oxide, but also inverted enantioselectivity (E = 27). Since (S)-enantioselective HHDHs are rare, and therefore valuable for the synthetic application, this enzyme was screened on the initial panel of substrates. The observed (S)-enantioselectivity (E = 1 - 111) is ascribed to formation of the additional space by introduced mutations in HheC-M4, which is also confirmed by classical MD simulations. The successive molecular docking demonstrated that this newly formed tunnel located close to the protein surface is a critical feature of HheC-M4, representing a novel binding site.

biocatalysis ; HHDH ; epoxides ; fluoroaromatic ; kinetic resolution ; computational analysis

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Podaci o izdanju

20

2022.

9734-9741

objavljeno

1477-0520

1477-0539

10.1039/D2OB01955H

Povezanost rada

Kemija

Poveznice
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