Improved immobilization of Lactobacillus rhamnosus ATCC 7469 in polyacrylamide gel, preventing cell leakage during lactic acid fermentation

摘要

A new procedure for improved immobilization of Lactobacillus rhamnosus ATCC 7469, producing solely l(+)-lactic acid, in polyacrylamide was developed. A series of gels with varied ingredients concentrations and order of addition was prepared and were tested in batch and repeat-batch processes. Our results revealed that the crucial step for successful immobilization was the initial incubation of the cells in pure 10% AA that leads to improved entrapment in the polyacrylamide gel. In contrast, all gels derived from previously prepared stock AA/MBAA released high amount of cells and free biomass was formed. The most efficient immobilization was achieved using gel, containing L. rhamnosus, incubated in 10% AA (acrylamide) and with 1% MBAA (N,N′-methylene-bis-acrylamide) added. This gel possessed optimal permeation characteristics and at the same time, the cells were completely retained in the polymer lattice (0.03 g free biomass/l at 48 h of the batch process). In addition, it yielded highly concentrated lactic acid: the conversion ratio was about 85% without pH-control for initial lactose concentrations of up to 30 g/l. A series of additional immobilization experiments showed the potential of physicochemical interactions between the monomers of acrylamide and the cell surface of L. rhamnosus.