(S)-1-(2-fluorophenyl) ethylamine plays a crucial role as a chiral building block in pharmaceutical synthesis. ω-transaminases are widely recognized as environmentally friendly and efficient catalysts for the preparation of chiral amines. In this study, we isolated a novel ω-transaminase, PfTA, from Pseudogulbenkiania ferrooxidans through gene mining in the NCBI database. By employing semi-rational design, we obtained a Y168R/R416Q variant with enhanced enzyme activity. This variant exhibited the ability to catalyze the synthesis of (S)-1-(2-fluorophenyl) ethylamine from 2-fluorophenone, achieving a yield of 83.58% and an enantioselectivity exceeding 99% after a 10 h reaction. Compared to the wild type, the specific enzyme activity of the Y168R/R416Q variant reached 47.04 U/mg, which represents an increase of 11.65 times. Additionally, the catalytic efficiency, as measured by kcat/Km, was increased by 20.9 times. Molecular docking and structural simulation analysis revealed that the primary factor contributing to the improved catalytic efficiency is the expansion of the enzyme's active pocket and the alleviation of steric hindrance.
Keywords: (S)-1-(2-fluorophenyl) ethylamine; semi-rational design; steric hindrance; ω-transaminase.