Abstract

BackgroundCold-active enzymes, sourced from cold-adapted organisms, are characterized by high catalytic efficiencies at low temperatures compared with their mesophilic counterparts, which have poor activity. This property makes them advantageous for biotechnology applications as it: (i) saves energy costs, (ii) shortens the times for processes operated at low temperatures, (iii) protects thermosensitive substrates or products of the enzymatic reaction, (iv) prevents undesired chemical transformations, and (v) prevents the loss of volatile compounds.ResultsA bglMKg gene that encodes a monomeric cold-active glycoside hydrolase family 1 enzyme with an apparent molecular mass of 50 kDa was isolated by the functional screening of a marine metagenomic library. The BglMKg enzyme was expressed in E. coli, purified by FPLC and characterized. The recombinant BglMKg could effectively hydrolyze various chromogenic substrates and β-linked oligosaccharides, and had remarkably high β-galactosidase, β-glucosidase and β-fucosidase activities. Because of the lack of information about the usefulness of β-fucosidases in industry, further characterization of the enzymatic properties of BglMKg was only carried out with substrates specific for β-glucosidase or β-galactosidase. The BglMKg had maximal β-galactosidase and β-glucosidase activities at approximately 40°C and 45°C, respectively. The optimum pH for β-galactosidase activity was 6.5, whereas the optimum pH for β-glucosidase activity was 7.5. In general, the enzyme was stable below 30°C and from pHs 6.0 to 8.0. The results of the kinetic studies revealed that BglMKg more efficiently hydrolyzed β-glucosidase substrates than β-galactosidase ones.ConclusionsBglMKg is a small, monomeric, cold-active β-glucosidase with additional enzymatic activities. It was efficiently expressed in E. coli indicating that BglMKg might be a candidate for industrial applications.

Highlights

  • Cold-active enzymes, sourced from cold-adapted organisms, are characterized by high catalytic efficiencies at low temperatures compared with their mesophilic counterparts, which have poor activity

  • Construction of a metagenomic library and screening for clones encoding β-galactosidase activity To isolate the gene encoding the enzyme with βgalactosidase activity, a metagenomic library containing about 1100 clones was constructed using DNA

  • The products of hydrolysis, such as cellobiose or gentiobiose, are taken up by the predicted BglT transporter into the cytoplasm, where they are hydrolyzed by the BglAI enzyme [11]

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Summary

Results

A bglMKg gene that encodes a monomeric cold-active glycoside hydrolase family 1 enzyme with an apparent molecular mass of 50 kDa was isolated by the functional screening of a marine metagenomic library. The BglMKg enzyme was expressed in E. coli, purified by FPLC and characterized. The recombinant BglMKg could effectively hydrolyze various chromogenic substrates and β-linked oligosaccharides, and had remarkably high βgalactosidase, β-glucosidase and β-fucosidase activities. Because of the lack of information about the usefulness of β-fucosidases in industry, further characterization of the enzymatic properties of BglMKg was only carried out with substrates specific for β-glucosidase or β-galactosidase. The BglMKg had maximal β-galactosidase and β-glucosidase activities at approximately 40°C and 45°C, respectively. The results of the kinetic studies revealed that BglMKg more efficiently hydrolyzed βglucosidase substrates than β-galactosidase ones

Conclusions
Background
Results and discussion
Conclusion
Methods
Wong D

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