Inside Out Computational Redesign of Cavities for Improving Thermostability and Catalytic Activity of <i>Rhizomucor Miehei</i> Lipase
Zehua Zhang, Mengfei Long, Nan Zheng, Xiang Lü, Cailin Zhu, Tolbert Osire, Xiaole Xia
Abstract
In the present study, R. miehei lipase, which is widely used in various industries, provides an opportunity to explore the effects of internal cavities on the thermostability and catalytic activity of enzymes. Here, we execute high hydrostatic pressure molecular dynamics (HP-MD) simulations to screen the critical internal cavity and reshape the internal cavities through site-directed mutation. We show that as the global internal cavity volume decreases, cavity rearrangement can improve the stability of the protein while optimizing the substrate channel to improve the catalytic efficiency. Our results provide significant insights into understanding the mechanism of action of the internal cavity. Our strategy is expected to be applied to other enzymes to promote increases in thermostability and catalytic activity.