Discovery and characterization of a novel PKD-Fn3 domains containing GH44 endoglucanase from a Tibetan metagenomic library.

AIMS: To explore novel microbial endoglucanases with unique properties derived from extreme environments by using metagenomics approach. METHODS AND RESULTS: A Tibetan soil metagenomic library was applied for screening cellulase-active clones by function-based metagenomics. The candidate genes in the active clones were identified through bioinformatic analyses and heterologously expressed using an Escherichia coli system. The recombinant endoglucanases were purified and characterized using enzyme assays to determine their bioactivities, stabilities, substrate specificities, and other enzymatic properties. A novel endoglucanase gene Zfeg1907 was identified, which consisted of a glycoside hydrolase family 44 (GH44) catalytic domain along with a polycystic kidney disease (PKD) domain and a fibronectin type Ⅲ (Fn3) domain at the C terminal. Recombinant enzyme ZFEG1907 and its truncated mutant ZFEG1907t (ΔPKDΔFn3) were successfully expressed and purified. The two recombinants exhibited catalytic activities toward carboxymethyl cellulose, konjac glucomannan (KGM), and lichenan. Both enzymes had an optimal temperature of 50°C and an optimal pH value of 5.0. The catalytic activities of both recombinant enzymes were promoted by adding Zn2+ and Ca2+ at the final concentration of 10 mM. The Km value of ZFEG1907 was lower, while the kcat/Km value of ZFEG1907 was higher than those of of ZFEG1907t when using carboxymethyl cellulose, KGM, and lichenan as substrates. Structure prediction of two recombinants revealed that PKD-Fn3 domains consisted of a flexible linker and formed a ß-sandwich structure. CONCLUSIONS: A novel endoglucanase ZFEG1907 contained a GH44 catalytic domain and a PKD-Fn3 domain was characterized. The PKD-Fn3 domains were not indispensable for the activity but contributed to the enzyme binding of the polysaccharide substrates as a carbohydrate-binding module (CBM).

Discovery of two bifunctional/multifunctional cellulases by functional metagenomics.

Cellulases are widely used in industry, and the usage in bioconversion of biofuels makes cellulases more valuable. In this study, two tandem genes that encoded cellulases ZF994-1 and ZF994-2, respectively, were identified on a cosmid from a soil metagenomic library. Phylogenetic analysis indicated that ZF994-1 and ZF994-2 belonged to glycoside hydrolase family 12 (GH12), and GH3, respectively. Based on the substrate specificity analysis, the recombinant ZF994-1 exhibited weak endoglucanase activity, moderate ß-1,3-glucanase and ß-1,4-mannanase activities, and strong ß-glucosidase activity, while the recombinant ZF994-2 exhibited moderate endoglucanase activity and strong ß-glucosidase activity. More than 45% ß-glucosidase activity of the recombinant ZF994-1 retained in the buffer containing 3 M glucose, indicating the good tolerance against glucose. The recombinant ZF994-2 showed high activity in the presence of metal ions and organic reagents, exhibiting potential industrial applications.

Erratum: [Corrigendum] Expression of porcine protegrin­1 in Pichia pastoris and its anticancer activity in vitro.

[This corrects the article DOI: 10.3892/etm.2015.2202.].

Identification and characterization of a novel endo-ß-1,4-glucanase from a soil metagenomic library.

A cosmid clone cZFYN1413 with CMCase activity was identified from a soil metagenomic library. The sequence analysis of a subclone of cZFYN1413 revealed an endo-ß-1,4-glucanase gene ZFYN1413 belonging to glycoside hydrolase family 6 and a transmembrane region in the N-terminal of ZFYN1413. Expression of ZFYN1413 in Escherichia coli BL21 (DE3) resulted in ZFYN1413-87, which was a truncated protein cleaved in transmembrane region of ZFYN1413. ZFYN1413-87 was expressed and its enzyme properties were studied. ZFYN1413-87 possessed strong endo-ß-1,4-glucanase activity, and 52% of the activity could be retained after the protein was treated in buffer of pH 3.0 for 2 h. The study provided a special example of endo-ß-1,4-glucanase in GH6 family.

Identification and heterologous expression of an isoquinolinequinone biosynthetic gene cluster from Streptomyces albus J1074.

Nitrogen heterocycle small molecules display various pharmaceutically important bioactivities and have great potential in drug development and application. Microbes are an important source for discovering nitrogen heterocycle natural products, and the elucidation of their biosynthetic pathways in microbes facilitates genetic manipulation of new nitrogen heterocycle products. In this study, we isolated three isoquinolinequinones from a Streptomyces albus J1074 conjugant and identified their biosynthetic gene cluster in the S. albus J1074 genome. The function of the biosynthetic gene cluster was confirmed by heterologous expression of the gene cluster in S. coelicolor M1146. This study uncovered a new biosynthetic machinery to produce nitrogen heterocycle natural products in microbes.

Identification and characterization of a novel bifunctional cellulase/hemicellulase from a soil metagenomic library.

Microbes, especially the uncultured microbes, have been considered as an important resource for discovery of novel cellulases. In this study, a novel bifunctional cellulase/hemicellulase (ZFYN184) was identified by functional screening of a soil metagenomic library. Sequence analysis indicated that ZFYN184 shared at best 39% identity with glycoside hydrolase family 44 (GH44) proteins and contained a glutamic acid residue at 235 acting as the catalytic proton donor in hydrolysis of polysaccharides. The recombinant ZFYN184 was expressed in Escherichia coli BL21 (DE3), and the biochemical profiles of the enzyme, including optimum pH and temperature, pH and thermal stabilities, tolerance to various additives, and substrate specificity, were determined. ZFYN184 possessed strong endo-ß-1,4-glucanase and endo-1,4-ß-mannanase activities, as well as weak xylanase activity, while all these hydrolytic activities were derived from a single catalytic domain in this GH44 enzyme. KEY POINTS: • Discovery a novel bifunctional glycosyl hydrolase from uncultured microorganism. • ZFYN184 contains a single catalytic domain belonged to GH44.

[Discovery and analysis of Staphylococcus aureus biofilm inhibitors using functional metagenomics approach].

Although most microbes are not readily cultured in the lab, microbial DNA can be extracted directly from an environmental sample and be functionally expressed in a suitable host for natural products discovery, and this approach has been termed "metagenomics". An E'mei Mountain soil metagenomic library was constructed using an Escherichia coli-Streptomyces shuttle vector for functional based screening of anti-bacterial clones in Streptomyces albus host. Two active clones were obtained and their fermentation broths were studied for the inhibitory effect on Staphylococcus aureus biofilm. Their fermentation products have a good inhibitory effect on the formation of S. aureus biofilm, and the inhibitory effect could exceed 90% when the concentration of sample was 2 MIC (Minimum Inhibitory Concentration). In addition, two samples had significantly effect on S. aureus biofilm dispersal, and the clearance rate of EM110 was higher than EM123. In conclusion, substances with strong bioactivities on biofilm formation and dispersal of S. aureus could be discovered by using metagenomics technology.

Expression of porcine protegrin-1 in Pichia pastoris and its anticancer activity in vitro.

Protegrin-1 (PG-1), a ß-hairpin antimicrobial peptide (AMP), is amongst the shortest AMPs in sequence length while remaining active against a variety of microorganisms. The aim of this study was produce recombinant PG-1 and investigate its anticancer activity. A DNA sequence encoding the mature PG-1, fused with a 6His-tag, was cloned into the pPICZα-A vector and transformed into Pichia pastoris. Expression was induced following culture for ~96 h with 1% methanol at 28°C, and ~15.6 mg PG-1 was expressed in 100 ml culture medium. Following purification using a Ni-chelating Sepharose column, ~20 mg pure active PG-1 was obtained from 500 ml culture broth supernatant. The expressed PG-1/6His exhibited strong dose- and time-dependent anticancer activity against HepG2 cells in vitro.