%0 Journal Article
%T High-level intracellular expression of heterologous proteins in Brevibacillus choshinensis SP3 under the control of a xylose inducible promoter
%A DĄŻUrzo Nunzia
%A Martinelli Manuele
%A Nenci Chiara
%A Brettoni Cecilia
%J Microbial Cell Factories
%D 2013
%I BioMed Central
%R 10.1186/1475-2859-12-12
%X Background In past years research has focused on the development of alternative Gram positive bacterial expression systems to produce industrially relevant proteins. Brevibacillus choshinensis is an easy to handle non-sporulating bacterium, lacking extracellular proteases, that has been already shown to provide a high level of recombinant protein expression. One major drawback, limiting the applicability of the Brevibacillus expression system, is the absence of expression vectors based on inducible promoters. Here we used the PxylA inducible promoter, commonly employed in other Bacillae expression systems, in Brevibacillus. Results Using GFP, ŠÁ-amylase and TcdA-GT as model proteins, high level of intracellular protein expression (up to 250 mg/L for the GFP) was achieved in Brevibacillus, using the pHis1522 vector carrying the B. megaterium xylose-inducible promoter (PxylA). The GFP expression yields were more than 25 fold higher than those reported for B. megaterium carrying the same vector. All the tested proteins show significant increment in their expression levels (2-10 folds) than those obtained using the available plasmids based on the P2 constitutive promoter. Conclusion Combining the components of two different commercially available Gram positive expression systems, such as Brevibacillus (from Takara Bio) and B. megaterium (from Mobitec), we demonstrate that vectors based on the B. megaterium PxylA xylose inducible promoter can be successfully used to induce high level of intracellular expression of heterologous proteins in Brevibacillus.
%K Brevibacillus
%K Xylose inducible promoter
%K Xylose uptake
%K Green fluorescent protein
%K TcdA-GT
%K Recombinant protein expression
%K Gram positive bacteria
%U http://www.microbialcellfactories.com/content/12/1/12