Lytic polysaccharide monooxygenases (LPMOs) are metalloenzymes that cleave structural polysaccharides through an oxidative mechanism. The enzymatic activity of LPMOs relies on the presence of a Cu2+ histidine-brace motif in their flat catalytic surface. Upon reduction by an external electron donor and in the presence of its co-substrates, O2 or H2O2, LPMOs can generate reactive oxygen species to oxidize the substrates. Fungal and bacterial LPMOs are involved in the catabolism of polysaccharides, such as chitin, cellulose, and hemicelluloses, and virulence mechanisms. Based on the reports on the discovery of LPMOs from the family AA15 in termites, firebrats, and flies, the functional role of the LPMO in the biosphere could expand, as these enzymes may be correlated with chitin remodeling and molting in insects. However, there is limited knowledge of AA15 LPMOs due to difficulties in recombinant expression of soluble proteins and purification protocols. In this study, we describe a protocol for the cloning, expression, and purification of insect AA15 LPMOs from Arthropoda, mainly from termites, followed by the expression and purification of an AA15 LPMO from the silkworm Bombyx mori, which contains a relatively high number of disulfide bonds. We also report the recombinant expression and purification of a protein with homology to AA15 family from the western European honeybee Apis mellifera, an LPMO-like enzyme lacking the canonical histidine brace. Therefore, this work can support future studies concerning the role of LPMOs in the biology of insects and inspire molecular entomologists and insect biochemists in conducting activities in this field.
Keywords: AA15; His-brace; LPMO-Like; LPMOs; Periplasmic expression; Termites.
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