A screening for oxalate degrading abilities was initially carried on within Lactic Acid Bacteria cultures of different food origin. Seventy-nine strains were drop-inoculated onto MRS agar plates containing calcium oxalate. By comparing colonies diameters, 31 strains were used to inoculate, in parallel, MRS and MRS modified by sodium oxalate addition. Differences in the strains’ growth were assessed by CFU counts. For two strains, the growth in oxalate enriched medium was significantly higher; while for eleven strains an opposite behaviour was recorded. Two strains - probiotic Lactobacillus rhamnosus LbGG and Enterococcus faecalis 59 - were chosen. The first strain appeared able to metabolize oxalate more efficiently than the other tested cultures, while strain 59 appeared unable to gather advantage by oxalates and, indeed, appeared to be inhibited by the salt presence in the medium. Outcomes revealed that higher glucose concentrations may favou oxalates utilization. In MRS with oxalate, but without glucose, citrate was completely metabolized. Evaluation along time confirmed that the oxalate degradation is more significant in presence of glucose. Outcomes may represent a good start for the development of a safe and even probiotic culture able to lower the oxalates content of food.

Screening of oxalate degrading lactic acid bacteria of food origin

SANTONICOLA, SERENA;
2017-01-01

Abstract

A screening for oxalate degrading abilities was initially carried on within Lactic Acid Bacteria cultures of different food origin. Seventy-nine strains were drop-inoculated onto MRS agar plates containing calcium oxalate. By comparing colonies diameters, 31 strains were used to inoculate, in parallel, MRS and MRS modified by sodium oxalate addition. Differences in the strains’ growth were assessed by CFU counts. For two strains, the growth in oxalate enriched medium was significantly higher; while for eleven strains an opposite behaviour was recorded. Two strains - probiotic Lactobacillus rhamnosus LbGG and Enterococcus faecalis 59 - were chosen. The first strain appeared able to metabolize oxalate more efficiently than the other tested cultures, while strain 59 appeared unable to gather advantage by oxalates and, indeed, appeared to be inhibited by the salt presence in the medium. Outcomes revealed that higher glucose concentrations may favou oxalates utilization. In MRS with oxalate, but without glucose, citrate was completely metabolized. Evaluation along time confirmed that the oxalate degradation is more significant in presence of glucose. Outcomes may represent a good start for the development of a safe and even probiotic culture able to lower the oxalates content of food.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11695/86508
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