State Key Laboratory of Pharmaceutical Biotechnology, School of Life Science, Nanjing University, Nanjing 210093, People's Republic of China.
Amino Acids. 2011 Jan;40(1):215-20. doi: 10.1007/s00726-010-0637-9. Epub 2010 Jun 1.
In this research, an improved method for preparation of optically pure β-hydroxy-α-amino acids, catalyzed by serine hydroxymethyl transferase with threonine aldolase activity, is reported. Using recombinant serine hydroxymethyl transferase (SHMT), an enzymatic resolution process was established. A series of new substrates, β-phenylserine, β-(nitrophenyl) serine and β-(methylsulfonylphenyl) serine were used in the resolution process catalyzed by immobilized Escherichia coli cells with SHMT activity. It was observed that the K (m) for L: -threonine was 28-fold higher than that for L: -allo-threonine, suggesting that this enzyme can be classified as a low-specificity L: -allo-threonine aldolase. The results also shows that SHMT activity with β-phenylserine as substrate was about 1.48-fold and 1.25-fold higher than that with β-(methylsulfonylphenyl) serine and β-(nitrophenyl) serine as substrate, respectively. Reaction conditions were optimized by using 200 mmol/l β-hydroxy-α-amino acid, and 0.1 g/ml of immobilized SHMT cells at pH 7.5 and 45°C. Under these conditions, the immobilized cells were continuously used 10 times, yielding an average conversion rate of 60.4%. Bead activity did not change significantly the first five times they were used, and the average conversion rate during the first five instances was 84.1%. The immobilized cells exhibited favourable operational stability.
本文报道了一种利用丝氨酸羟甲基转移酶(SHMT)和苏氨酸醛缩酶活性催化制备光学纯β-羟基-α-氨基酸的改进方法。采用重组丝氨酸羟甲基转移酶(SHMT),建立了酶法拆分体系。利用固定化大肠杆菌细胞中的 SHMT 活性,对一系列新的底物β-苯丙氨酸、β-(硝苯基)丝氨酸和β-(甲基磺酰基苯基)丝氨酸进行了拆分研究。结果表明,L:-苏氨酸的 K(m)比 L:-别苏氨酸高 28 倍,表明该酶可归类为低特异性 L:-别苏氨酸醛缩酶。结果还表明,以β-苯丙氨酸为底物时,SHMT 活性约为以β-(甲基磺酰基苯基)丝氨酸和β-(硝苯基)丝氨酸为底物时的 1.48 倍和 1.25 倍。在 200mmol/Lβ-羟基-α-氨基酸、0.1g/ml 固定化 SHMT 细胞、pH7.5 和 45°C 的条件下优化了反应条件。在这些条件下,固定化细胞连续使用 10 次,转化率平均为 60.4%。前 5 次使用时,珠粒活性没有明显变化,前 5 次的平均转化率为 84.1%。固定化细胞表现出良好的操作稳定性。
