High-Level Expression of Bacillus naganoensis Pullulanase from Recombinant Escherichia coli with Auto-Induction: Effect of lac Operator

Yao Nie,Xiao Qing Mu,Wen Bo Chen,Xinye Wang,Yan Xu,Rong Xiao,Wei Yan,Paul D Riggs

doi:10.1371/journal.pone.0078416

Abstract

Pullulanase plays an important role in specific hydrolysis of branch points in amylopectin and is generally employed as an important enzyme in starch-processing industry. So far, however, the production level of pullulanase is still somewhat low from wide-type strains and even heterologous expression systems. Here the gene encoding Bacillus naganoensis pullulanase was amplified and cloned. For expression of the protein, two recombinant systems, Escherichia coli BL21(DE3)/pET-20b(+)-pul and E. coli BL21(DE3)/pET-22b(+)-pul, were constructed, both bearing T7 promoter and signal peptide sequence, but different in the existance of lac operator and lacI gene encoding lac repressor. Recombinant pullulanase was initially expressed with the activity of up to 14 U/mL by E. coli BL21(DE3)/pET-20b(+)-pul with IPTG induction in LB medium, but its expression level reduced continually with the extension of cryopreservation time and basal expression was observed. However, E. coli BL21(DE3)/pET-22b(+)-pul , involving lac operator downstream of T7 promoter to regulate foreign gene transcription, exhibited pullulanase activity consistently without detected basal expression. By investigating the effect of lac operator, basal expression of foreign protein was found to cause expression instability and negative effect on production of target protein. Thus double-repression strategy was proposed that lac operators in both chromosome and plasmid were bound with lac repressor to repress T7 RNA polymerase synthesis and target protein expression before induction. Consequently, the total activity of pullulanase was remarkably increased to 580 U/mL with auto-induction by lac operator-involved E. coli BL21(DE3)/pET-22b(+)-pul. When adding 0.6% glycine in culture, the extracellular production of pullulanase was significantly improved with the extracellular activity of 502 U/mL, which is a relatively higher level achieved to date for extracellular production of pullulanase. The successful expression of pullulanase with lac operator regulation provides an efficient way for enhancement of expression stability and hence high-level production of target protein in recombinant E. coli.

Highlights

Pullulanase is a kind of enzyme acting on branched substrates, generally used for hydrolysis of glycogen and amylopectin, by cleaving the α-1,6-glucosidic linkages in amylaceous polysaccharides [1,2,3], and belongs to the glycosyl hydrolases (GHase) family 13 that is termed as the α-amylase family [4]
We describe the heterologous expression of the gene encoding the pullulanase from Bacillus naganoensis JNB-1 (PUL) in recombinant E. coli
It was deduced that lac operator regulation would significantly affect the basal expression of foreign protein in the host strain, which might be detrimental to the host and lead to the problems of system instability and negative effects on the accumulation of target protein

Summary

Introduction

Pullulanase (pullulan-6-glucanohydrolase, EC 3.2.1.41) is a kind of enzyme acting on branched substrates, generally used for hydrolysis of glycogen and amylopectin, by cleaving the α-1,6-glucosidic linkages in amylaceous polysaccharides [1,2,3], and belongs to the glycosyl hydrolases (GHase) family 13 that is termed as the α-amylase family [4]. The most important industrial application of pullulanase is the production of glucose and maltose syrups from starch hydrolysis. As an industrially important enzyme, pullulanase is generally employed together with other amylolytic enzymes (α-amylase, β-amylase, glucoamylase) to efficiently break down recalcitrant biomass into fermentable sugars for generating biofuels and other chemical commodities [7,8,9]. Natural protein sources rarely meet the requirements for quantity and ease of isolation

Methods

Results

Conclusion