Identification of a newly isolated Rhodotorula mucilaginosa NQ1 and its development for the synthesis of bulky carbonyl compounds by whole-cell bioreduction.

Abstract

A strain NQ1, which showed efficient asymmetric reduction of 3,5-bis(trifluoromethyl) acetophenone (BTAP) to enantiopure (S)-[3,5-bis(trifluoromethyl)phenyl]ethanol ((S)-BTPE), which is the key intermediate for the synthesis of a receptor antagonist and antidepressant, was isolated from a soil sample. Based on its morphological and internal transcribed spacer sequence, the strain NQ1 was identified to be Rhodotorula mucilaginosa NQ1. Some key reaction parameters involved in the bioreduction catalyzed by whole cells of R. mucilaginosa NQ1 were subsequently optimized, and the optimized conditions for the synthesis of (S)-BTPE were determined to be as follows: 5·0ml phosphate buffer (200mmoll-1 , pH 7·0), 80mmoll-1 of BTAP, 250g (wet weight) l-1 of resting cell, 35gl-1 of glucose and a reaction for 18h at 30°C and 180rev min-1 . The strain NQ1 exhibited a best yield of 99% and an excellent enantiomeric excess of 99% for the preparation of (S)-BTPE under the above optimal conditions, and could also asymmetrically reduce a variety of bulky prochiral carbonyl compounds to their corresponding optical hydroxyl compound with excellent enantioselectivity. These results indicated that R. mucilaginosa NQ1 had a good capacity to reduce BTAP to its corresponding (S)-BTPE, and might be a new potential biocatalyst for the production of valuable chiral hydroxyl compounds in industry.