Effects of thermal denaturation on the solid-state structure and molecular mobility of glycinin.

The effects of moisture and thermal denaturation on the solid-state structure and molecular mobility of soy glycinin powder were investigated using multiple techniques that probe over a range of length and time scales. In native glycinin, increased moisture resulted in a decrease in both the glass transition temperature and the denaturation temperature. The sensitivity of the glass transition temperature to moisture is shown to follow the Gordon-Taylor equation, while the sensitivity of the denaturation temperature to moisture is modeled using Flory's melting point depression theory.

Structure and molecular mobility of soy glycinin in the solid state.

We report a multitechnique study of structural organization and molecular mobility for soy glycinin at a low moisture content (<30% w/w) and relate these to its glass-to-rubber transition. Small-angle X-ray scattering (SAXS), differential scanning calorimetry (DSC), Fourier transform infrared (FTIR) spectroscopy, and nuclear magnetic resonance (NMR) spectroscopy are used to probe structure and mobility on different length and time scales. NMR (approximately 10(-6) to 10(-3) s) reveals transitions at a higher moisture content (>17%) than DSC or SAXS, which sample for much longer times (approximately 10 to 10(3) s) and where changes are detected at >13% water content at 20 degrees C.

Processing of novel elevated amylose wheats: functional properties and starch digestibility of extruded products.

Different types of novel wheat lines with different starch contents and amylose/amylopectin ratios, relating to defined alterations in the number and activity of starch synthase IIa genes, were processed by pilot-plant extrusion. Two types of products were produced: pure wholemeal products and breakfast cereals made from wholemeal/maize blends. Lower apparent shear viscosity was obtained in the extruder with lower starch content and higher amylose/amylopectin ratio flours (SSIIa-deficient line).

Influence of storage conditions on the structure, thermal behavior, and formation of enzyme-resistant starch in extruded starches.

Starch structures from an extrusion process were stored at different temperatures to allow for molecular rearrangement (retrogradation); their thermal characteristics (DSC) and resistance to amylase digestion were measured and compared. The structure of four native and processed starches containing different amylose/amylopectin compositions (3.5, 30.

Gelled emulsion particles for the controlled release of lipophilic volatiles during eating.

Gelled emulsion particles are discussed in relation to controlling the release of lipophilic volatiles in the mouth during eating, using a mass spectroscopic technique that enables real time measurement of volatiles on the breath. Our studies have demonstrated that by encapsulating triglyceride oil droplets within biopolymer gelled particles (70-5000 microm), the initial flavour release maxima were reduced by kinetically inhibiting the mass transfer of flavour through the particle. An important feature of this approach was that it was the oil droplets and not the volatiles that were encapsulated.