Abstract

Backgroundβ-Mannanase catalyzes the cleavage of β-1,4-linked internal linkages of mannan backbone randomly to produce new chain ends. Alkaline and thermostable β-mannanases provide obvious advantages for many applications in biobleaching of pulp and paper, detergent industry, oil grilling operation and enzymatic production of mannooligosaccharides. However, only a few of them are commercially exploited as wild or recombinant enzymes, and none heterologous and secretory expression of alkaline β-mannanase in Bacillus subtilis expression system was reported. Alkaliphilic Bacillus clausii S10 showed high β-mannanase activity at alkaline condition. In this study, this β-mannanase was cloned, purified and characterized. The high-level secretory expression in B. subtilis was also studied.ResultsA thermo-alkaline β-mannanase (BcManA) gene encoding a 317-amino acid protein from alkaliphilic Bacillus clausii strain was cloned and expressed in Escherichia coli. The purified mature BcManA exhibited maximum activity at pH 9.5 and 75 °C with good stability at pH 7.0–11.5 and below 80 °C. BcManA demonstrated high cleavage capability on polysaccharides containing β-1,4-mannosidic linkages, such as konjac glucomannan, locust bean gum, guar gum and sesbania gum. The highest specific activity of 2366.2 U mg−1 was observed on konjac glucomannan with the Km and kcat value of 0.62 g l−1 and 1238.9 s−1, respectively. The hydrolysis products were mainly oligosaccharides with a higher degree of polymerization than biose. BcManA also cleaved manno-oligosaccharides with polymerization degree more than 3 without transglycosylation. Furthermore, six signal peptides and two strong promoters were used for efficiently secreted expression optimization in B. subtilis WB600 and the highest extracellular activity of 2374 U ml−1 with secretory rate of 98.5% was obtained using SPlipA and P43 after 72 h cultivation in 2 × SR medium. By medium optimization using cheap nitrogen and carbon source of peanut meal and glucose, the extracellular activity reached 6041 U ml−1 after 72 h cultivation with 6% inoculum size by shake flask fermentation.ConclusionsThe thermo-alkaline β-mannanase BcManA showed good thermal and pH stability and high catalytic efficiency towards konjac glucomannan and locust bean gum, which distinguished from other reported β-mannanases and was a promising thermo-alkaline β-mannanase for potential industrial application. The extracellular BcManA yield of 6041 U ml−1, which was to date the highest reported yield by flask shake, was obtained in B. subtilis with constitutive expression vector. This is the first report for secretory expression of alkaline β-mannanase in B. subtilis protein expression system, which would significantly cut down the production cost of this enzyme. Also this research would be helpful for secretory expression of other β-mannanases in B. subtilis.

Highlights

  • Background βMannanase, as one of the mannan-degrading enzymes, plays an important role in the hydrolysis of hemicellulose and catalyzes the cleavage of β-1,4-linked internal linkages of mannan backbone randomly to produce new chain ends [1, 2]. β-mannanases have many potential applications in industrial processes such as biobleaching of pulp and paper, detergent industry, food and feed industry, coffee processing industry, oil and gas industry, pharmaceutical applications, and second generation biofuel [1]

  • Gene cloning and sequence analysis of BcManA The alkaliphilic strain B. clausii S10 isolated from a soda lake in Inner Mongolia of China showed high β-mannanase activity under alkaline condition

  • The deduced protein sequence of BcManA showed the highest identity of 93% to the directly submitted endoglucanase sequence from B. clausii

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Summary

Introduction

Background βMannanase, as one of the mannan-degrading enzymes, plays an important role in the hydrolysis of hemicellulose and catalyzes the cleavage of β-1,4-linked internal linkages of mannan backbone randomly to produce new chain ends [1, 2]. β-mannanases have many potential applications in industrial processes such as biobleaching of pulp and paper, detergent industry, food and feed industry, coffee processing industry, oil and gas industry, pharmaceutical applications, and second generation biofuel [1]. Β-mannanases have many potential applications in industrial processes such as biobleaching of pulp and paper, detergent industry, food and feed industry, coffee processing industry, oil and gas industry, pharmaceutical applications, and second generation biofuel [1]. They are involved in breaking down plant tissues in the cell walls [3] as well as digesting and absorbing nutrients in lower animals by degrading mannan polymers [4]. Thermo-alkaline β-mannanases were usually used in biobleaching of pulp and paper, detergent industry, oil grilling operation and enzymatic production of mannooligosaccharides because of their high activity and good stability at high pH value and temperature [1]. There is still a pressing need to seek for new enzymes that are efficient and stable at alkaline or high temperature conditions to promote the development of the industrial application of β-mannanases

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