Functional properties of soybean isolate protein as influenced by its critical overlap concentration.

The critical overlap concentration (c*) of soy protein isolate (SPI) was studied at a wide range of temperatures (10-90°C). Results obtained indicate that temperature and c* were directly proportional. The c* determined experimentally was similar to the theoretical value that was calculated by the inverse of the intrinsic viscosity, [η]. At c*, SPI solutions can be divided into the dilute and semi-dilute regimes. The [η] values were estimated by four semi-empirical equations: the Huggins equation, the Kraemer equation, the Tanglertaibul-Rao equation, and the Oliver-Ward equation, of which the Oliver-Ward equation was found to be the most suitable. The aggregation behavior of the SPI was confirmed by association with the start of molecular entanglement at c*. Turbidity, foam capacity (FC) and foam stability (FS) increased significantly when solutions concentration reached c* at all experimental temperatures. The rheology measurement results indicated...