Rh()-Catalyzed diastereoselective transfer hydrogenation: an efficient entry to key intermediates of HIV protease inhibitors

Rh()-Catalyzed diastereoselective transfer hydrogenation: an efficient entry to key intermediates of HIV protease inhibitors

A highly efficient diastereoselective transfer hydrogenation of α-aminoalkyl α′-chloromethyl ketones catalyzed by a tethered rhodium complex was developed and successfully utilized in the synthesis of the key intermediates of HIV protease inhibitors. With the current Rh( iii ) catalyst system, a ser...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2020-03, Vol.56 (21), p.3119-3122
Hauptverfasser: Wang, Fangyuan, Zheng, Long-Sheng, Lang, Qi-Wei, Yin, Congcong, Wu, Ting, Phansavath, Phannarath, Chen, Gen-Qiang, Ratovelomanana-Vidal, Virginie, Zhang, Xumu
Format: Artikel
Sprache:eng
Schlagworte:
Antiretroviral drugs
Catalysis
Catalysts
Chemical Sciences
Chemistry
Chemistry, Multidisciplinary
Coordination Complexes - chemistry
Enantiomers
HIV Protease Inhibitors - chemical synthesis
Hydrogenation
Ketones
Ketones - chemistry
Ligands
Molecular Structure
Oxidation-Reduction
Physical Sciences
Protease
Protease inhibitors
Rhodium
Rhodium - chemistry
Science & Technology
Stereoisomerism
Stereoselectivity
Structure-Activity Relationship
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Zusammenfassung:A highly efficient diastereoselective transfer hydrogenation of α-aminoalkyl α′-chloromethyl ketones catalyzed by a tethered rhodium complex was developed and successfully utilized in the synthesis of the key intermediates of HIV protease inhibitors. With the current Rh( iii ) catalyst system, a series of chiral 3-amino-1-chloro-2-hydroxy-4-phenylbutanes were produced in excellent yields and diastereoselectivities (up to 99% yield, up to 99 : 1 dr). Both diastereomers of the desired products could be efficiently accessed by using the two enantiomers of the Rh( iii ) catalyst. A highly efficient diastereoselective transfer hydrogenation of α-aminoalkyl α′-chloromethyl ketones catalyzed by a tethered rhodium complex was developed and successfully utilized in the synthesis of the key intermediates of HIV protease inhibitors.
ISSN:1359-7345
1364-548X
DOI:10.1039/c9cc09793g