Xie Dong-Fang, Fang Hui, Mei Jia-Qi, Gong Jin-Yan, Wang Hong-Peng, Shen Xiu-Ying, Huang Jun, Mei Le-He
School of Biological and Chemical Engineering, Zhejiang University of Science and Technology, Hangzhou, People's Republic of China.
Department of Chemical Engineering, University of Utah, Salt Lake City, UT, USA.
Biotechnol Appl Biochem. 2018 Mar;65(2):255-262. doi: 10.1002/bab.1572. Epub 2017 Jul 17.
To improve the thermostability of (R)-selective amine transaminase from Aspergillus terreus (AT-ATA), we used computer software Disulfide by Design and Modelling of Disulfide Bonds in Proteins to identify mutation sites where the disulfide bonds were most likely to form. We obtained three stabilized mutants (N25C-A28C, R131C-D134C, M150C-M280C) from seven candidates by site-directed mutagenesis. Compared to the wild type, the best two mutants N25C-A28C and M150C-M280C showed improved thermal stability with a 3.1- and 3.6-fold increase in half-life (t ) at 40 °C and a 4.6 and 5.1 °C increase in T . In addition, the combination of mutant R131C-D134C and M150C-M280C displayed the largest shift in thermostability with a 4.6-fold increase in t at 40 °C and a 5.5 °C increase in T . Molecular dynamics simulation indicated that mutations of N25C-A28C and M150C-M280C lowered the overall root mean square deviation for the overall residues at elevated temperature and consequently increased the protein rigidity. The stabilized mutation of R131C-D134C was in the region of high mobility and on the protein surface, and the disulfide bond constraints the flexibility of loop 121-136.
为提高来自土曲霉的(R)-选择性胺转氨酶(AT-ATA)的热稳定性,我们使用计算机软件“通过设计形成二硫键及蛋白质中二硫键建模”来确定最有可能形成二硫键的突变位点。通过定点诱变,我们从七个候选突变体中获得了三个稳定的突变体(N25C-A28C、R131C-D134C、M150C-M280C)。与野生型相比,最佳的两个突变体N25C-A28C和M150C-M280C热稳定性提高,在40°C下半衰期(t)分别增加3.1倍和3.6倍,熔点(Tm)分别提高4.6°C和5.1°C。此外,突变体R131C-D134C和M150C-M280C组合显示出最大的热稳定性变化,在40°C下t增加4.6倍,Tm提高5.5°C。分子动力学模拟表明,N25C-A28C和M150C-M280C的突变降低了高温下整体残基的总均方根偏差,从而增加了蛋白质的刚性。R131C-D134C的稳定突变位于高迁移率区域且在蛋白质表面,二硫键限制了121-136环的灵活性。
