Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating
Conjugation via MR consider as the safest and potential method in food industry. However, it is important to control the extent of conjugation via MR since the browning effect could lead to the health issues. There is great interest to understand the chemistry of MR, to improve the physicochemical p...
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my.ums.eprints.330532022-07-12T00:11:47Z https://eprints.ums.edu.my/id/eprint/33053/ Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating Norliza Julmohammad Otter, Don Hemar, Yacine Umi Hartina Mohd Razali Sarizan Sabari Food processing and manufacture Conjugation via MR consider as the safest and potential method in food industry. However, it is important to control the extent of conjugation via MR since the browning effect could lead to the health issues. There is great interest to understand the chemistry of MR, to improve the physicochemical properties, and to discover the potential of Maillard products with various functionalities. Whey protein isolate (WPI) has become an important source of functional ingredients in various health-promoting foods. However, WPI have problem with thermal instability that present during food processing. Therefore, this study aims to investigate the effect of dry-heating at different incubation time, then monitor the physicochemical properties and heat stability of WPI-Lactose conjugates. Conjugation of WPI with lactose was achieved by dry‐heating with the ratio of lactose to WPI 1:0.4 (wt/wt). Incubation time varying from 0 to 10 days at 40°C and water activity Aw = 0.79. opthaldialdehyde (OPA) assay was used to monitor the extent of conjugation. An incubation time of 3 days was selected as the standard conjugation time based on conjugation rates and the degree of Maillard browning. The result revealed that WPILactose conjugates at 3 days incubation has slightly improved heat stability of protein. Thus, a new approach of WPI-Lactose conjugates has potential to produce better heat resistance milk protein products in the future. UniSE Press 2021 Article PeerReviewed text en https://eprints.ums.edu.my/id/eprint/33053/1/Physicochemical%20Properties%20and%20Heat%20Stability%20of%20Whey%20Protein%20Isolate-Lactose%20Conjugates%20Formed%20by%20Dry-Heating.pdf text en https://eprints.ums.edu.my/id/eprint/33053/2/Physicochemical%20Properties%20and%20Heat%20Stability%20of%20Whey%20Protein%20Isolate-Lactose%20Conjugates%20Formed%20by%20Dry-Heating%20_ABSTRACT.pdf Norliza Julmohammad and Otter, Don and Hemar, Yacine and Umi Hartina Mohd Razali and Sarizan Sabari (2021) Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating. Transactions on Science and Technology, 8 (2). pp. 191-198. ISSN 2289-8786 http://tost.unise.org/pdfs/vol8/no3-2/ToST-CoFA2020-191-198-OA.pdf |
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Food processing and manufacture Norliza Julmohammad Otter, Don Hemar, Yacine Umi Hartina Mohd Razali Sarizan Sabari Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
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Conjugation via MR consider as the safest and potential method in food industry. However, it is important to control the extent of conjugation via MR since the browning effect could lead to the health issues. There is great interest to understand the chemistry of MR, to improve the physicochemical properties, and to discover the potential of Maillard products with various functionalities. Whey protein isolate (WPI) has become an important source of functional ingredients in various health-promoting foods. However, WPI have problem with thermal instability that present during food processing. Therefore, this study aims to investigate the effect of dry-heating at different incubation time, then monitor the physicochemical properties and heat stability of WPI-Lactose conjugates. Conjugation of WPI with lactose was achieved by dry‐heating with the ratio of lactose to WPI 1:0.4 (wt/wt). Incubation time varying from 0 to 10 days at 40°C and water activity Aw = 0.79. opthaldialdehyde (OPA) assay was used to monitor the extent of conjugation. An incubation time of 3 days was selected as the standard conjugation time based on conjugation rates and the degree of Maillard browning. The result revealed that WPILactose conjugates at 3 days incubation has slightly improved heat stability of protein. Thus, a new approach of WPI-Lactose conjugates has potential to produce better heat resistance milk protein products in the future. |
format |
Article |
author |
Norliza Julmohammad Otter, Don Hemar, Yacine Umi Hartina Mohd Razali Sarizan Sabari |
author_facet |
Norliza Julmohammad Otter, Don Hemar, Yacine Umi Hartina Mohd Razali Sarizan Sabari |
author_sort |
Norliza Julmohammad |
title |
Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
title_short |
Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
title_full |
Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
title_fullStr |
Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
title_full_unstemmed |
Physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
title_sort |
physicochemical properties and heat stability of whey protein isolate-lactose conjugates formed by dry-heating |
publisher |
UniSE Press |
publishDate |
2021 |
url |
https://eprints.ums.edu.my/id/eprint/33053/1/Physicochemical%20Properties%20and%20Heat%20Stability%20of%20Whey%20Protein%20Isolate-Lactose%20Conjugates%20Formed%20by%20Dry-Heating.pdf https://eprints.ums.edu.my/id/eprint/33053/2/Physicochemical%20Properties%20and%20Heat%20Stability%20of%20Whey%20Protein%20Isolate-Lactose%20Conjugates%20Formed%20by%20Dry-Heating%20_ABSTRACT.pdf https://eprints.ums.edu.my/id/eprint/33053/ http://tost.unise.org/pdfs/vol8/no3-2/ToST-CoFA2020-191-198-OA.pdf |
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