Rheological Properties of (1→3),(1→4)‐β‐ d ‐Glucans from Raw, Roasted, and Steamed Oat Groats

Effects of hydrothermal treatments (steaming, roasting) of oat grain on β‐glucan extractability and rheological properties were tested on oat cultivars with low (Robert) and high (Marion) β‐glucan content. Steaming of grain reduced the amount of β‐glucan that could be extracted, compared with raw or roasted grain, but the extracts from steamed grain had much greater viscosity. Increased extraction temperatures increased the amount and the average relative molecular mass ( M r ) value of β‐glucan extracted. In boiling water extractions, the average M r values among raw, roasted and steamed oat samples were equivalent, but extracts from steamed oat grain had significantly higher intrinsic viscosity than the extracts from roasted or raw oat grains. β‐glucan solutions purified from steamed grain extracts were very viscous and highly pseudoplastic, as described by the power law equation. Oat β‐glucan from steamed samples were more viscoelastic than β‐glucan from roasted or raw oat samples. Because viscous properties of β‐glucan from boiling water extracts are influencedhydrothermal treatments without affecting polymer molecular weight, polymer interaction with the solvent must be affected. Steaming may disrupt intramolecular cross‐linkings in native β‐glucan, allowing a linear chain configuration to generate greater viscosity.