Heterologous Production, Assembly, and Secretion of a Minicellulosome by Clostridium acetobutylicum ATCC 824
ABSTRACT The gene man5K encoding the mannanase Man5K from Clostridium cellulolyticum was cloned alone or as an operon with the gene cipC1 encoding a truncated scaffoldin (miniCipC1) of the same origin in the solventogenic Clostridium acetobutylicum. The expression of the heterologous gene(s) was under the control of a weakened thiolase promoter P thl . The recombinant strains of the solventogenic bacterium were both found to secrete active Man5K in the range of milligrams per liter. In the case of the strain expressing only man5K, a large fraction of the recombinant enzyme was truncated and lost the N-terminal dockerin domain, but it remained active towards galactomannan. When man5K was coexpressed with cipC1 in C. acetobutylicum, the recombinant strain secreted almost exclusively full-length mannanase, which bound to the scaffoldin miniCipC1, thus showing that complexation to the scaffoldin stabilized the enzyme. The secreted heterologous complex was found to be functional: it binds to crystalline cellulose via the carbohydrate binding module of the miniscaffoldin, and the complexed mannanase is active towards galactomannan. Taken together, these data show that C. acetobutylicum is a suitable host for the production, assembly, and secretion of heterologous minicellulosomes.