Separation and Purification of Glucose in Sake for Carbon Stable Isotope Analysis

Abstract

An existing procedure for the separation and purification of glucose in sake for compound-specific carbon stable isotope analysis was examined with a view to reducing the sample amount required and process complexity, with a focus on the freeze-drying, solid-phase extraction (SPE), and high-performance liquid chromatography (HPLC) steps. In the revised procedure, the carbon stable isotopic composition, as indicated by δ13C values, of glucose was not significantly affected by glucose concentration in the range 0.25–1.00 mg mL−1, solvent (water or 80% aqueous acetonitrile), or HPLC procedure. Glucose freeze-dried after separation and purification by SPE and HPLC exhibited procedure-induced carbon isotopic discrimination of ≤ 0.1‰. The isolation procedure achieved the same accuracy in glucose δ13C values as that achieved with traditional ion-exchange procedures while requiring a sample volume (1 mL) only 4% that of the usual volume. The improved method enables cost-effective, labor-efficient, small-scale, compound-specific carbon stable isotope analyses of glucose in sake.