Chitinase from the Latex of Ficus benjamina L. Displays Antifungal Activity by Inducing ROS Generation and Structural Damage to the Fungal Cell Wall and Plasma Membrane.

Abstract

Chitinases are plant defense-related proteins with a high biotechnological potential to be applied in agriculture. This study aimed to purify a chitinase from the latex of Ficus benjamina. An antifungal class I chitinase, named FbLx-Chi-1, was purified from the latex of Ficus benjamina after precipitation with 30-60% ammonium sulfate and affinity chromatography on a chitin column and antifungal potential assay against phytopathogenic fungi important to agriculture. FbLx-Chi-1 has 30 kDa molecular mass, as estimated by SDS-PAGE and the optimal pH and temperature for full chitinolytic activity were 5.5 and 60ºC, respectively. FbLx-Chi-1 is a high pH-, ion-tolerant and thermostable protein. Importantly, FbLx-Chi-1 hindered the growth of the phytopathogenic fungi Colletotrichum gloeosporioides, Fusarium pallidoroseum, and Fusarium oxysporum. The action mode of FbLx-Chi-1 to hamper F. pallidoroseum growth seems to be correlated with alterations in the morphology of the hyphal cell wall, increased plasma membrane permeability, and overproduction of reactive oxygen species. These findings highlight the biotechnological potential of FbLx-Chi-1 to control important phytopathogenic fungi in agriculture. In addition, FbLx-Chi-1 could be further explored to be used in industrial processes such as the large-scale environmentally friendly enzymatic hydrolysis of chitin to produce its monomer N-acetyl-β-D-glucosamine, which is employed for bioethanol production, in cosmetics, in medicine, and for other multiple applications.