Naslov
Halohydrin dehalogenase-catalysed synthesis of enantiopure fluorinated building blocks: bottlenecks found and explained by applying a reaction engineering approach

Autori
Milčić, Nevena ; Sudar, Martina ; Dokli, Irena ; Majerić Elenkov, Maja ; Findrik Blažević, Zvjezdana

Izvornik
Reaction chemistry & engineering (2058-9883) 8 (2023), 3; 673-686

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
fluorinated building blocks ; halohydrin dehalogenase ; enzyme kinetics ; mathematical modelling ; reaction engineering ; reaction bottlenecks

Sažetak
Optically pure fluorinated organic azides represent synthetically valuable building blocks in a range of industrial applications. Since direct fluorination of molecules is challenging from both economic and environmental perspective, the development of novel methods for modifying existing fluorinated synthons is highly desirable. In this work, enantioselective azidolysis of fluorinated aromatic epoxides catalysed by halohydrin dehalogenase (HHDH) was explored. A series of 11 fluorinated epoxides were evaluated as substrates from the viewpoint of hydrolytic stability and enzyme kinetics. Synthesis of enantiopure (R)-2-azido-1-[4-(trifluoromethyl)phenyl]ethanol with HheC-W249P variant was selected for detailed kinetic investigation. Reaction bottlenecks were identified and discussed from the reaction engineering perspective. Epoxide hydrolysis, enzyme inhibitions and operational stability decay were found to undesirably affect the reaction outcome. Understanding the kinetic limitations and applying model-based process simulations enabled the selection of reactor type and initial conditions favouring biotransformation. High substrate loadings are not suitable since they support hydrolysis, enzyme deactivation, and substrate inhibition. By selecting a repetitive batch reactor set-up, the reaction yield of 95% could be obtained, together with the increase in the reaction selectivity of 100% compared to the batch reactor. To the best of our knowledge, the developed mathematical model represents so far the first of its kind with HHDH enzymes, thus bringing valuable insights into kinetic and catalytic performance of this enzyme group, as well as the reaction type. It is expected that, with minor adaptations, it could be generalized and applied to give qualitative insight into behaviour of similar systems.

Izvorni jezik
Engleski

Znanstvena područja
Kemijsko inženjerstvo

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