TY - JOUR
T1 - Enantiocomplementary Asymmetric Reduction of 2-Haloacetophenones Using TeSADH
T2 - Synthesis of Enantiopure 2-Halo-1-arylethanols
AU - Abdulrasheed, Muhammad
AU - Sardauna, Auwal Eshi
AU - Alhaffar, Mouheddin T.
AU - Takahashi, Masateru
AU - Takahashi, Etsuko
AU - Hamdan, Samir M.
AU - Musa, Musa M.
N1 - Publisher Copyright:
© 2024 The Authors. Published by American Chemical Society.
PY - 2024/8/13
Y1 - 2024/8/13
N2 - Enantiopure 2-halo-1-arylethanols are essential precursors for the synthesis of pharmaceuticals, agrochemicals, and fine chemicals. This study investigates the asymmetric reduction of 2-haloacetophenones and their substituted analogs to obtain their corresponding optically active 2-halo-1-arylethanols using secondary alcohol dehydrogenase from Thermoanaerobacter pseudethanolicus (TeSADH) mutants. Specifically, the ΔP84/A85G and P84S/A85G TeSADH mutants were evaluated for the asymmetric reduction of 2-haloacetophenones, generating their corresponding optically active halohydrins with high enantioselectivities. The asymmetric reduction of 2-haloacetophenones and their substituted analogs using the ΔP84/A85G TeSADH mutant yielded their corresponding (S)-2-halo-1-arylethanols with high enantiopurity in accordance with the anti-Prelog’s rule. Conversely, the P84S/A85G TeSADH mutant produced (R)-alcohols when reducing 2-chloro-4′-chloroacetophenone, 2-chloro-4′-bromoacetophenone, and 2-bromo-4′-chloroacetophenone, while generating the (S)-configured halohydrin from 2-chloro-4′-fluoroacetophenone. Asymmetric reduction of the unsubstituted 2-bromoacetophenone, 2-chloroacetophenone, and 2,2,2-trifluoroacetophenone resulted in production of their (S)-halohydrins with the tested mutants, which reflects the importance of the nature of the substituent on the substrate’s ring in controlling the stereopreference of these TeSADH-catalyzed reduction reactions. These findings contribute to the understanding and application of TeSADH in synthesizing optically active compounds and aid in the design of further mutants with the desired stereopreference.
AB - Enantiopure 2-halo-1-arylethanols are essential precursors for the synthesis of pharmaceuticals, agrochemicals, and fine chemicals. This study investigates the asymmetric reduction of 2-haloacetophenones and their substituted analogs to obtain their corresponding optically active 2-halo-1-arylethanols using secondary alcohol dehydrogenase from Thermoanaerobacter pseudethanolicus (TeSADH) mutants. Specifically, the ΔP84/A85G and P84S/A85G TeSADH mutants were evaluated for the asymmetric reduction of 2-haloacetophenones, generating their corresponding optically active halohydrins with high enantioselectivities. The asymmetric reduction of 2-haloacetophenones and their substituted analogs using the ΔP84/A85G TeSADH mutant yielded their corresponding (S)-2-halo-1-arylethanols with high enantiopurity in accordance with the anti-Prelog’s rule. Conversely, the P84S/A85G TeSADH mutant produced (R)-alcohols when reducing 2-chloro-4′-chloroacetophenone, 2-chloro-4′-bromoacetophenone, and 2-bromo-4′-chloroacetophenone, while generating the (S)-configured halohydrin from 2-chloro-4′-fluoroacetophenone. Asymmetric reduction of the unsubstituted 2-bromoacetophenone, 2-chloroacetophenone, and 2,2,2-trifluoroacetophenone resulted in production of their (S)-halohydrins with the tested mutants, which reflects the importance of the nature of the substituent on the substrate’s ring in controlling the stereopreference of these TeSADH-catalyzed reduction reactions. These findings contribute to the understanding and application of TeSADH in synthesizing optically active compounds and aid in the design of further mutants with the desired stereopreference.
UR - http://www.scopus.com/inward/record.url?scp=85199916456&partnerID=8YFLogxK
U2 - 10.1021/acsomega.4c05151
DO - 10.1021/acsomega.4c05151
M3 - Article
C2 - 39157145
AN - SCOPUS:85199916456
SN - 2470-1343
VL - 9
SP - 35046
EP - 35051
JO - ACS OMEGA
JF - ACS OMEGA
IS - 32
ER -