Effects of pH and Ionic Salts on the Emulsifying and Rheological Properties of Acorn Protein Isolate.
Nasir Mehmood KhanMuhammad SaeedFarman Ali KhanShujaat AhmadMuhammad Asif NawazZia Ullah KhanMuhammad ShafiqueMazen M AlmehmadiOsama AbdulazizAbid UllahPublished in: Molecules (Basel, Switzerland) (2022)
This study was designed to evaluate the emulsifying and rheological properties of acorn protein isolate (API) in different pH mediums (pH 3, 7 and 9) and in the presence of ionic salts (1 M NaCl and 1 M CaCl 2 ). API shows higher solubility in distilled water at pH 7, while at the same pH, a decrease in solubility was observed for API in the presence of CaCl 2 (61.30%). A lower emulsifying activity index (EAI), lower stability index (ESI), larger droplet sizes and slight flocculation were observed for API in the presence of salts at different pHs. Importantly, CaCl 2 treated samples showed relevantly higher EAI (252.67 m 2 /g) and ESI (152.67 min) values at all pH as compared to NaCl (221.76 m 2 /g), (111.82 min), respectively. A significant increase in interfacial protein concentration (4.61 mg/m 2 ) was observed for emulsion at pH 9 with CaCl 2 , while the major fractions of API were observed in an interfacial layer after SDS-PAGE analysis. All of the emulsion shows shear thinning behavior (τ c > 0 and n < 1), while the highest viscosity was observed for emulsion prepared with CaCl 2 at pH 3 (11.03 ± 1.62). In conclusion, API, in the presence of ionic salts at acidic, neutral and basic pH, can produce natural emulsions, which could be substitutes for synthetic surfactants for such formulations.