Understanding β-mannanase from Streptomyces sp. CS147 and its potential application in lignocellulose based biorefining

Hydrolytic enzymes such as cellulase and hemicellulase have been attracted in lignocellulose based biorefinery. Especially, mannanase has been a growing interest in industrial applications due to its importance in the bioconversion. In this study, an extracellular endo‐β‐1,4‐D‐mannanase was produced by Streptomyces sp. CS147 (Mn147) and purified 8.5‐fold with a 43.4% yield using Sephadex G‐50 column. The characterization of Mn147 was performed, and the results were as follows: molecular weight of ∼25 kDa with an optimum temperature of 50°C and pH of 11.0. The effect of metal ions and various reagents on Mn147 was strongly activated by Ca+2 but inhibited by Mg+2 , Fe+2 , hydrogen peroxide, EDTA and EGTA. Km and Vmax values of Mn147 were 0.13 mg/mL and 294 μmol/min mg, respectively, when different concentrations (3.1 to 50 mg/mL) of locust bean gum galactomannan were used as substrate. In enzymatic hydrolysis of heterogeneous substrate (spent coffee grounds), Mn147 shows a similar conversion compared to commercial enzymes. In addition, lignocellulosic biomass can be hydrolyzed to oligosaccharides (reducing sugars), which can be further utilized for the production of biomaterials. These results showed that Mn147 is attractive in quest of potential bioindustrial applications. Mannanase has been a growing interest in industrial applications because of its importance in bioconversion. A novel bacterial β‐mannanase is produced by Streptomyces sp. CS147 (Mn147) and purification, identification and biochemical characterization are performed. In enzymatic hydrolysis of spent coffee grounds, Mn147 shows a similar conversion compared with commercial enzymes; it will be a promising isolate in lignocellulose based biorefinery. This article is part of an AFOB (Asian Federation of Biotechnology) Special issue. To learn more about the AFOB, visit www.afob.org.