Effect of mutation at positively charged residues (K329 and R330) in a flexible region of firefly luciferase on structure and kinetic properties

Abstract

Firefly luciferase as a bioluminescent enzyme has many applications in various fields from scientific research to commercial goals. This enzyme is relatively unstable with low functional capacity due to rapid inactivation in physiological temperature, low in vitro stability and high susceptibility to proteolytic degradation. Based on previous studies, two regions 206–220 and 329–341 on N-domain of Photinus pyralis luciferase are known accessible and flexible. Flexible regions may lead to protein instability. Here, the effect of mutation at positively charged residues Lys(K)329 and Arg(R)330 on the stability of luciferase was studied. Furthermore, the role of these mutations on the structure and function was evaluated. Introducing of these point mutations did not affect the orientation of critical residues in bioluminescence color determination. The kinetic studies showed that thermostability and Km value for luciferin in both mutants were decreased as compared to wild type. However, optimum pH and optimum temperature showed no significant changes in both mutants. Moreover, the structural data revealed an increase in tryptophan fluorescence intensity and secondary structure content for R330Q in compared with wild type, while intrinsic fluorescence and far-UV CD intensity in K329I mutant was decreased.