School of Biotechnology and Key Laboratory of Industrial Biotechnology, Ministry of Education, Jiangnan University, Wuxi, 214122, China.
Suqian Industrial Technology Research Institute of Jiangnan University, Suqian, 223814, China.
Appl Microbiol Biotechnol. 2021 May;105(9):3625-3634. doi: 10.1007/s00253-021-11323-w. Epub 2021 Apr 30.
L-tert-leucine (L-Tle) is widely used as vital chiral intermediate for pharmaceuticals and as chiral auxiliarie for organocatalysis. L-Tle is generally prepared via the asymmetric reduction of trimethylpyruvate (TMP) catalyzed by NAD-dependent leucine dehydrogenase (LeuDH). To improve the catalytic efficiency and coenzyme affinity of LeuDH from Bacillus cereus, mutation libraries constructed by error-prone PCR and iterative saturation mutation were screened by two kinds of high-throughput methods. Compared with the wild type, the affinity of the selected mutant E24V/E116V for TMP and NADH increased by 7.7- and 2.8-fold, respectively. And the k/K of E24V/E116V on TMP was 5.4-fold higher than that of the wild type. A coupled reaction comprising LeuDH with glucose dehydrogenase of Bacillus amyloliquefaciens resulted in substrate inhibition at high TMP concentrations (0.5 M), which was overcome by batch-feeding of the TMP substrate. The total turnover number and specific space-time conversion of 0.57 M substrate increased to 11,400 and 22.8 mmol·h·L·g, respectively. KEY POINTS: • The constructed new high-throughput screening strategy takes into account the two indicators of catalytic efficiency and coenzyme affinity. • A more efficient leucine dehydrogenase (LeuDH) mutant (E24V/E116V) was identified. • E24V/E116V has potential for the industrial synthesis of L-tert-leucine.
L-叔亮氨酸(L-Tle)被广泛用作药物的重要手性中间体和有机催化的手性助剂。L-Tle 通常通过 NAD 依赖性亮氨酸脱氢酶(LeuDH)催化的三甲基丙酮酸(TMP)的不对称还原来制备。为了提高来自蜡状芽孢杆菌的 LeuDH 的催化效率和辅酶亲和力,通过易错 PCR 和迭代饱和突变构建的突变文库通过两种高通量方法进行筛选。与野生型相比,选择的突变体 E24V/E116V 对 TMP 和 NADH 的亲和力分别提高了 7.7 倍和 2.8 倍。并且 E24V/E116V 对 TMP 的 k/K 比野生型高 5.4 倍。包含解淀粉芽孢杆菌葡萄糖脱氢酶的 LeuDH 的偶联反应在高 TMP 浓度(0.5 M)下导致底物抑制,通过分批进料 TMP 底物克服了这种抑制。0.57 M 底物的总转化数和比时空转化率分别增加到 11,400 和 22.8 mmol·h·L·g。关键点:• 构建的新高通量筛选策略考虑了催化效率和辅酶亲和力这两个指标。• 鉴定出更有效的亮氨酸脱氢酶(LeuDH)突变体(E24V/E116V)。• E24V/E116V 具有用于 L-叔亮氨酸工业合成的潜力。
