A Brevibacillus choshinensis system that secretes cytoplasmic proteins.

Brevibacillus choshinensis has previously been shown to be a useful strain for the secretion of heterologous proteins via the Sec secretory pathway. This pathway involves the secretion of proteins prior to folding, whereas the alternative TAT (twin-arginine translocation) pathway enables pre-folded proteins to be secreted. We have modified the signal peptide of the Brevibacillus expression vector pNCMO2 to accommodate a Sec avoidance signal as well as the twin arginines required for secretion via the TAT system. Use of this modified signal peptide with the phosphotriesterase OpdA enabled B. choshinensis transformants to express and secrete the enzyme in an active and substantially pure form. The system was also used successfully to secrete two cytoplasmic proteins, the phosphotriesterase HocA from Pseudomonas monteilii and the phenylcarbamate-degrading enzyme, PCD, from Arthrobacter oxydans. The inhibitors carbonyl cyanide m-chlorophenyl hydrazine and sodium azide were used to confirm that secretion was occurring via the TAT secretion pathway. The modified B. choshinensis system we have developed may have general utility in secreting a wide range of heterologous proteins in active and conveniently processed form.