Exploring the potential of high hydrostatic pressure and ionic polysaccharides in improving interfacial stability of sweet potato protein hydrolysate emulsions-Reference-Cited by-同舟云学术

Exploring the potential of high hydrostatic pressure and ionic polysaccharides in improving interfacial stability of sweet potato protein hydrolysate emulsions

Published:2024-04-12 Issue:6 Volume:59 Page:3883-3894
ISSN:0950-5423
Container-title:International Journal of Food Science & Technology
language:en
Short-container-title:Int J of Food Sci Tech

Author:

Khan Nasir Mehmood¹²^ORCID,Sun Hong‐Nan¹^ORCID,Zhang Miao¹,Mu Tai‐Hua¹^ORCID,Ahmad Shujaat¹³,Liu Hui¹

Affiliation:

1. Laboratory of Food Chemistry and Nutrition Sciences, Institute of Food Science and Technology, Chinese Academy of Agriculture Sciences, Key Laboratory of Agro‐Products Processing, Ministry of Agriculture and Rural Affairs No.2 Yuan Ming Yuan West Road, Haidian District, P.O. Box 5109 Beijing 100193 China

2. Department of Agriculture Shaheed Benazir Bhutto University Sheringal 18000 Upper Dir, KPK Pakistan

3. Department of Pharmacy Shaheed Benazir Bhutto University Sheringal 18000 Upper Dir, KPK Pakistan

Abstract

SummaryThis study aims to explore the potential of high hydrostatic pressure (HHP, 300–500 MPa) and ionic polysaccharides (sodium alginate, SA; chitosan, CH) in improving interfacial stability of sweet potato protein hydrolysate (SPPH) emulsions. HHP markedly improved emulsifying performance of SPPH with SA and CH at different concentrations (0.02% and 0.06%, w/v) and enhanced the apparent viscosities of their emulsions. SPPH‐CH0.02% at 400 MPa showed the highest emulsifying stability index (ESI, 255.96 min) and zeta potential absolute value (54.13 mV), and its emulsion exhibited the highest adsorbed peptide and CH at interface (31.72% and 1.51%, respectively) and oxygen radical absorbance capacity (ORAC) value of interfacial layer (264.56 μg TE mL−1). Additionally, multiple potential antioxidant peptides were obtained from interfacial layer of emulsion stabilised with SPPH‐CH0.02% at 400 MPa through LC‐MS/MS, and the relationship between their structure and emulsion stability was analysed. Therefore, HHP has great application potential in production of SPPH‐CH emulsion with enhanced stability.

Publisher

Wiley

Reference24 articles.

1. Effects of High-Pressure Treatments (Ultra-High Hydrostatic Pressure and High-Pressure Homogenization) on Bighead Carp (Aristichthys nobilis) Myofibrillar Protein Native State and Its Hydrolysate

2. Interfacial Adsorption of Peptides in Oil-in-Water Emulsions Costabilized by Tween 20 and Antioxidative Potato Peptides

3. Antioxidant and emulsifying properties of potato protein hydrolysate in soybean oil-in-water emulsions

4. Whey protein and maltodextrin-stabilized oil-in-water emulsions: Effects of dextrose equivalent

5. Hybridising plasma functionalized water and ultrasound pretreatment for enzymatic protein hydrolysis of Larimichthys polyactis: Parametric screening and optimization