Biochemical properties of different entomopathogenic fungi and their virulence against Chilo suppressalis (Lepidoptera: Crambidae) larvae

Abstract

We determined the virulence of Beauveria bassiana, Metarhizium anisopliae, Isaria fumosoroseus and Lecanicilium lecanii against larvae of Chilo suppressalis Walker by bioassay and evaluated several enzymatic and non-enzymatic components. LC50 values of the entomopathogenic fungi revealed 90, 32, 45,000, 4600, 42,000 and 1,540,000 spores/larva for isolates BB1–BB3 of B. bassiana, I. fumosoroseus, M. anisopliae and L. lecanii, respectively. Isolate BB3 and I. fumosoroseus had the highest amounts of total protein and hydrophobin and isolates BB3 and M. anisopliae showed the highest activities of lipases and chitinases. In case of proteases, the highest activities were observed for Pr1 of BB1 and Pr2 of L. lecanii. The highest general esterase activities were obtained in I. fumosoroseus and BB1 when 1-naphtyl acetate and 2-naphtyl acetate were used as substrates. The highest activity of glutathione S-transferase (GST) was observed in I. fumosoroseus by using both reagents but BB1 demonstrated the highest activities of alkaline phosphatase and acid phosphatase. Clustering of the fungi using biochemical enzymes revealed BB2 and BB3 as a separate group of entomopathogenic fungi. In another group, I. fumosoroseus and L. lecanii had the most similarity and were separated from BB1 and M. anisopliae. The fungi exhibited different virulence on larvae of C. suppressalis by producing adhering protein and extracellular enzymes. Overall, results of the bioassays and clustering based on enzymatic activities revealed that isolate BB2 was the most effective fungus against larvae of C. suppressalis.