Production of (R)-3′-fluorophenylethan-1-ol by Trichothecium roseum isolate in a laboratory scale bioreactor

Abstract

BACKGROUND: Enantiomerically pure, fluorinated compounds play an important role in medicinal chemistry. Trichothecium roseum strains were isolated for the production of (R)‐3′‐fluorophenylethan‐1‐ol. Biocatalytic production of optically active (R)‐3′‐fluorophenylethan‐1‐ol was achieved by asymmetric reduction of 3′‐fluoroacetophenone in a batch culture of Trichothecium roseum using ram horn peptone (RHP). The reaction conditions (pH, temperature and agitation) required to improve the conversion of 3′‐fluoroacetophenone and enantiomeric excess (ee) of (R)‐3′‐fluorophenylethan‐1‐ol were studied.

RESULTS: The gram scale production of (R)‐3′‐fluorophenylethan‐1‐ol by the most effective biocatalyst, Trichothecium roseum EBK‐11 using RHP was carried out in a fermenter with 1 L working volume. The results showed that the yield with >99% ee of (R)‐3′‐fluorophenylethan‐1‐ol reached 77%. The concentration of (R)‐3′‐fluorophenylethan‐1‐ol at the end of 62 h fermentation was 2.70 g L^−1^.

CONCLUSION: An important chiral intermediate for the pharmaceutical industry using T. roseum EBK‐11 in submerged culture containing RHP from waste material was produced up to gram scale with excellent ee (99%). In this work, T. roseum fungus was used for the first time as a biocatalyst for efficient production of a chiral alcohol. Copyright © 2009 Society of Chemical Industry