Cheese Whey Catalytic Conversion for Obtaining a Bioactive Hydrolysate With Reduced Antigenicity-Reference-Cited by-同舟云学术

Cheese Whey Catalytic Conversion for Obtaining a Bioactive Hydrolysate With Reduced Antigenicity

Published:2016-10-13 Issue:Special-Issue-October Volume:4 Page:182-196
ISSN:2347-467X
Container-title:Current Research in Nutrition and Food Science Journal
language:
Short-container-title:Curr Res Nutr Food Sci

Author:

Torkova Anna¹,Ryazantzeva Kseniya²,Agarkova Evgeniya²,Tsentalovich Mikhail¹,Kruchinin Aleksandr²,Fedorova Tatyana¹

Affiliation:

1. Federal Research Centre “Fundamentals of Biotechnology” of The Russian Academy of Sciences 119071, Russia, Moscow, Leninskiy Prospekt, 33, bld. 2

2. Federal State Budgetary Scientific Institution “All-Russian Research Institute of Dairy Industry” 115093, Russia, Moscow, Lusinovskaya str., 35, bld. 7.

Abstract

Bioinformatics was used to design a procedure for industrial enzymatic proteolysis of cheese whey. The specificity rules for commercial enzymes were applied to in silico proteolysis of cheese whey proteins. The pattern of antigens was considered, along with molecular descriptors of bitter taste, antioxidant capacity, and anti-hypertensive activity. The main objective was to obtain hydrolysates with reduced antigenicity and satisfactory sensory properties; an additional goal was to characterize their bioactivity profiles. Protamex/Alcalase mixtures were first used as multienzyme compositions to obtain non-bitter cheese whey hydrolysates. The multifactor optimization performed for degree of hydrolysis, free amino acid content, and residual antigenicity has revealed the optimal Protamex/Alcalase ratio of 3.5:0.5 and the optimal hydrolysis duration of 90 min. The hydrolysate obtained using Protamex/Alcalase 3.5:0.5 mixture had a double antioxidant capacity and a 15 times lower ACE-I inhibition concentration IC50 compared to cheese whey concentrate, and an 11 times lower β-LG residual antigenicity.

Publisher

Enviro Research Publishers

Subject

Medicine (miscellaneous),Food Science

Reference88 articles.

1. United States Department of Agriculture. Dairy: World Markets and Trade. (2015). Available online: http://apps.fas.usda.gov/psdonline/circulars/dairy.pdf Accessed 20.07.16.

2. FAO (2015). Statistics division. Production – livestock processed. Available online: http://faostat3.fao.org/compare/E Accessed 24.05.2016.

3. Korhonen, H. (2009). Milk-derived bioactive peptides: From science to applications. Journal of Functional Foods, 1(2), 177-187.

4. CrossRef

5. Cheison, S. C., and Kulozik, U. (2015). Impact of the environmental conditions and substrate pre-treatment on whey protein hydrolysis: A review. Critical reviews in food science and nutrition, (just-accepted).

Cited by 9 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Effect of hydrolysis degree with Alcalase on antioxidant and antigenic properties of whey and colostrum protein hydrolysates;Journal of Agriculture and Food Research;2024-03

2. Process design for the production of peptides from whey protein isolate with targeted antimicrobial functionality;International Journal of Food Science & Technology;2023-03-20

3. Proteolysis of Bovine Whey, Milk and Colostrum with Serine Endopeptidases;Lecture Notes in Networks and Systems;2022

4. Development of whey and turmeric based functional synbiotic product;Environmental Sustainability;2021-12

5. Quality Control of Colostrum and Protein Calf Milk Replacers;Food Processing: Techniques and Technology;2021-03-25