Structural characterisation of two medium molecular mass exopolysaccharides produced by the bacterium Lactobacillus fermentum Lf2

RANSOM-JONES, EMMA; MCLAY, NEIL; BINETTI, ANA G.; LAWS, ANDREW P.; SADIQ, SOHAIB; ROJAS, MARÍA F.; COLLETT, ANDREW; AHMED, HAFIZ I.; VITLIC, ANA; ALE, ELISA C.; HUMPHREYS, PAUL N.; RANSOM-JONES, EMMA; MCLAY, NEIL; BINETTI, ANA G.; LAWS, ANDREW P.; SADIQ, SOHAIB; ROJAS, MARÍA F.; COLLETT, ANDREW; AHMED, HAFIZ I.; VITLIC, ANA; ALE, ELISA C.; HUMPHREYS, PAUL N.

CARBOHYDRATE RESEARCH

ELSEVIER SCI LTD

Lugar: Amsterdam; Año: 2020 vol. 488

0008-6215

Under optimized conditions, the lactic acid bacterium Lactobacillus fermentum Lf2 secretes up to 2 gL-1 of a mixture of polysaccharides into the fermentation medium when grown on sucrose. Earlier studies had shown that the mixture is biologically active and work was undertaken to characterise the polysaccharides. Preparative size exclusion chromatography was used to separate a high molecular mass β-glucan (weight average mass of 1.23 × 106 gmol−1) from two medium molecular mass polysaccharides (weight average mass of 8.8 × 104 gmol−1). Under optimized growth conditions, the medium molecular mass polysaccharides accounted for more than 75% of the mixture by weight. Monomer, linkage analysis and NMR spectroscopy of the medium molecular mass polysaccharides, and material isolated after their Smith degradation, was used to identify the structure of the component polysaccharides. The mixture contains two novel polysaccharides. The first has a main chain of β-1,6-linked galactofuranoses which is non-stoichiometrically 2-O-glucosylated. The degree of substitution at the 2-position, with α-D-Glcp, depends on the fermentation conditions; under optimized conditions greater than 80% 2-O-α-D-glucosylation was observed. The second polysaccharide is a heteroglycan with four monosaccharides in the repeat unit: residual signals in the NMR suggest that the sample also contains trace amounts (