KTH Royal Institute of Technology, Division of Biochemistry, School of Biotechnology, AlbaNova University Centre, SE-106 91 Stockholm, Sweden.
Org Biomol Chem. 2012 Jul 28;10(28):5466-70. doi: 10.1039/c2ob25893e. Epub 2012 Jun 12.
For biocatalytic production of pharmaceutically important chiral amines the ω-transaminase enzymes have proven useful. Engineering of these enzymes has to some extent been accomplished by rational design, but mostly by directed evolution. By use of a homology model a key point mutation in Chromobacterium violaceum ω-transaminase was found upon comparison with engineered variants from homologous enzymes. The variant Trp60Cys gave increased specificity for (S)-1-phenylethylamine (29-fold) and 4'-substituted acetophenones (∼5-fold). To further study the effect of the mutation the reaction rates were Swain-Lupton parameterised. On comparison with the wild type, reactions of the variant showed increased resonance dependence; this observation together with changed pH optimum and cofactor dependence suggests an altered reaction mechanism.
对于生物催化生产具有重要药用价值的手性胺,ω-转氨酶酶已被证明是有用的。这些酶的工程改造在一定程度上通过合理设计完成,但主要通过定向进化完成。通过同源建模,在与同源酶的工程变体进行比较时,发现了紫色色杆菌ω-转氨酶的一个关键点突变。与野生型相比,该变体色氨酸 60 半胱氨酸(Trp60Cys)对(S)-1-苯乙胺(29 倍)和 4'-取代苯乙酮(~5 倍)的特异性增加。为了进一步研究突变的影响,对反应速率进行了斯温-卢普顿参数化。与野生型相比,变体的反应显示出增加的共振依赖性;这一观察结果以及改变的 pH 最佳值和辅因子依赖性表明反应机制发生了改变。
