Pediococcus parvulus gtf Gene Encoding the GTF Glycosyltransferase and Its Application for Specific PCR Detection of b-D-Glucan–Producing Bacteria in Foods and Beverages

MARÍA LAURA WERNING, ; IDOIA IBARBURU ; MARÍA TERESA DUEÑAS; ANA IRASTORZA; JESÚS NAVAS; PALOMA LÓPEZ

JOURNAL OF FOOD PROTECTION

INT ASSOC FOOD PROTECTION

Año: 2006 p. 161 - 169

0362-028X

Abstract  Exopolysaccharide production by lactic acid bacteria is beneficial in the dairy and oat-based food industries and is used to improve the texture of the fermented products. However, b-D-glucan–producing bacteria are considered spoilage microorganisms in alcoholic beverages because their secreted exopolysaccharides alter the viscosity of cider, wine, and beer, rendering them unpalatable. The plasmidic glycosyltransferase (gtf) gene of the Pediococcus parvulus 2.6 strain isolated from ropy cider has been cloned and sequenced, and its GTF product was functionally expressed in Streptococcus pneumoniae. The GTF protein, which has glycosyltransferase activity, belongs to the COG1215 membrane-bound glycosyltransferase family, and agglutination tests revealed that the enzyme enables S. pneumoniae to synthesize b-D-glucan. PCR amplification and Southern blot hybridization showed that the gtf gene is also present at different genomic locations in the b-D-glucan producers Lactobacillus diolivorans G77 and Oenococcus oeni I4 strains, also isolated from ropy cider. A PCR assay has been developed for the detection of exopolysaccharide-producing bacteria. Forward and reverse primers, included respectively in the coding sequences of the putative glycosyltransferase domain and the fifth trans-membrane segment of the GTF, were designed. Analysis of 76 ropy and nonropy lactic acid bacteria validated the method for specific detection of b-D-glucan homopolysaccharide producer Pediococcus, Lactobacillus, and Oenococcus strains. The limit of the assay in cider was 3 3 102 CFU/ml. This molecular method can be useful for the detection of ropy bacteria in cider before spoilage occurs, as well as for isolation of new exopolysaccharide-producing strains of industrial interest.