Design of a PL18 alginate lyase with flexible loops and broader entrance to enhance the activity and thermostability

Abstract

Alginate oligosaccharides are enzymolysis products of alginate with versatile bioactivities and their industrial preparation was limited by the insufficient activity and unsatisfying thermostability of alginate lyases. The structure-function information about PL18 alginate lyases was seldom reported since which few positive mutants of PL18 alginate lyases were generated. In present study, a mutant of PL18 alginate lyase E226K was expressed intracellularly and taken as parent for further modification. Site I211 at the lid loop 1 and sites E276, Y292 and R294 at the predicted entrance were chosen as engineering targets based on the E226K-PM4 binding mode in prereaction-state MD simulation and 29 mutants were constructed, from those, the variant E226K/I211T/R294V was screened out as the best mutant (showing 4.78-fold increased catalytic efficiency and the half-time t1/245℃ increased up to 557 min from 89 min). MD simulations indicated that the affinity of E226K/I211T/R294V towards alginate was improved due to the optimized energy distribution of active center, more flexible loops around catalytic cleft and larger substrate entrance. The more efficient proton transmitting endowed E226K/I211T/R294V higher activity and the more complicated intraprotein interactions together with stronger backbone rigidity were responsible for the improved thermostability of E226K/I211T/R294V than E226K. The success in this study enriches the structure-function information of PL18 alginate lyases and provides hints for their further design.