Fermentation of 6-Deoxyhexoses by Bacillus macerans.

Under anaerobic conditions Bacillus macerans ATCC 7068 fermented 6-deoxyhexoses (l-rhamnose, l-fucose, and d-fucose) to a mixture of 1,2-propanediol (PD), acetone, H(2), CO(2), and ethanol. The final PD concentration was proportional to the amount of l-rhamnose fermented ( approximately 0.9 mol of PD per mol of rhamnose). PD was not produced from hexoses (e.g., d-glucose or l-mannose), despite active fermentation of these substrates. Relative to the fermentation of d-glucose, the fermentation of l-rhamnose was accompanied by a twofold reduction in yield of H(2), CO(2), and cell mass. Exposure of cell extracts to l-rhamnose resulted in the transient appearance of an aldehyde intermediate. Cell extracts contained a pyridine nucleotide-linked lactaldehyde reductase activity which converted synthetic d- or l-lactaldehyde to PD. The data suggest an Embden-Meyerhof pathway for 6-deoxyhexose catabolism, with the formation of lactaldehyde by a conventional aldolase cleavage reaction and subsequent reduction to PD.