Efficient glycerol transformation by resting Gluconobacter cells

This work addresses the biological transformation of the industrial by ‐product crude glycerol to glyceric acid and dihydroxyacetone using strains of Gluconobacter. The novelty relies on the use of metabolically active nongrowing resting cells suspended solely in water during the transformation. Simplification of the reaction media and reduction of the total reaction volume, while maintaining high productivities, provide a facile, greener, and cost‐effective process alternative. AbstractIn the present work, glycerol biotransformation usingGluconobacter strains was studied with a process intensification perspective that facilitated the development of a cleaner and more efficient technology from those previously reported. Starting from the industrial by ‐product, crude glycerol, resting cells ofGluconobacter frateurii andGluconobacter oxydans were able to convert glycerol under batch reactor conditions in water with no other additive but for the substrate. The study of strains, biomass:solution ratio, pH, growth stage, and simplification of media composition in crude glycerol bioconversions facilitated productivities of glyceric acid of 0.03  g/L.h and 2.07 g/L.h (71.5 g/g % pure by NMR) of dihydroxyacetone (DHA). Productivities surmounted recent reported fermentative bioconversions of crude glycerol and were unprecedented for the use of cell suspended solely in water. This work proposes a novel approach that allows higher productivi ties, cleaner production, and reduc...
Source: MicrobiologyOpen - Category: Microbiology Authors: Tags: ORIGINAL ARTICLE Source Type: research
More News: Microbiology | Study