abstract |
We have shown that the control of solventogenesis and sporulation can be genetically uncoupled in C. acetobutylicum . In strain 824(pASspo), the absence of SpoIIE causes sporulation to be blocked at stage II. The cell remains in a vegetative state, and this allows solvent production to proceed for longer and for solvents to accumulate more rapidly and to a higher concentration. The characteristic drop in OD600 observed in wild type and control strains of C. acetobutylicum after 48-72 hours as the cells transition from the solventogenic phase to sporulation is notably absent in the fermentations of 824(pASspo). Mutant S (wild type background, spoIIE disrupted), Mutant BS (Mutant B background, spoIIE disrupted), Mutant HS (Mutant H background, spoIIE disrupted) and Mutant bukS (buk- background, spoIIE disrupted) were generated to create stable solvent producing bacteria with complete inactivation of the SpoIIE protein. Similarity between the SpoIIE protein of C. acetobutylicum, B. subtilis , and other Clostridial species indicates that the techniques used in C. acetobutylicum can be applied to other solvent producing Clostridia. |