Comparative Characterization of Laminarinases from the Filamentous Marine Fungi Chaetomium Indicum Corda and Trichoderma Aureviride Rifai

Marine filamentous fungi (103 strains) isolated from various marine habitats were studied for their ability to produce extracellular O-glycosylhydrolases. Cultural filtrates of these strains were shown to contain a series of glycanases (laminarinases, amylases, cellulases, pustulanases) and glycosidases (β-glucosidases, N-acetyl-β-glucosaminidases, β-galactosidases, α-mannosidases).Two species of marine fungi from different habitats were chosen for isolation of laminarinases and detailed study on enzyme properties. The fungus Chaetomium indicum associated with the alga Fucus evanescens C. Agardh was collected near the Kuril Islands, and T. aureviride was sampled from bottom deposits of South China Sea. Properties of extracellular laminarinases were similar: temperature optimums (40–45 ^∘C), molecular masses (54–56 kDa), K _m (0.1–0.3 mg ml⁻¹). Temperature stability of laminarinase of C. indicum was significantly higher than those from T. aureveride. It is shown that these enzymes are specific to β-1,3-bonds in glucans, release predominantly glucose from laminaran and do not catalyze reaction of transglycosylation. Accoding to these data enzymes are exo-1,3-β-D-glucan-glucanohydrolases (EC 3.2.1.58). Inhibitor analysis demonstrated the significant role of tryptophan and tyrosine residues in the catalytic activity of enzymes. Molecules of T. aureviride laminarinase contained the functionally important thiol group.     

Distribution of O-glycosylhydrolases in marine invertebrates. Enzymes of the marine mollusk Littorina kurila that catalyze fucoidan transformation

The distribution of O-glycosylhydrolases (fucoidan hydrolases, -D-mannosidases, -D-glucosidases, and -D-galactosidases) in 30 species of marine invertebrates occurring in the Sea of Japan was studied. It is shown that fucoidanases and glycosidases are widespread in the animals analyzed. Some molluscan, annelid, and echinoderm species can probably serve as objects for isolation and detailed study of the fucoidan-hydrolyzing enzymes. Fucoidan hydrolase, -L-fucosidase, and arylsulfatase from the marine mollusk Littorina kurila were isolated and described. It was found that -L-fucosidase and arylsulfatase hydrolyze synthetic substrates and cannot hydrolyze natural fucoidan, whereas fucoidan hydrolase cleaves fucoidan to produce sulfated oligosaccharides and fucose.