The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion

Pectin, a complex hydrocolloid, attracts extensive attention and application stemming from its good emulsification. However, the source of emulsification remains a conundrum. In this experiment, the structures of six kinds of commercial pectin, including LM 101 AS (101), LM 104 AS (104), 121 SLOW SE...

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Autores principales: Shuai, Xixiang, Chen, Jun, Liu, Qi, Dong, Haolan, Dai, Taotao, Li, Zhaoying, Liu, Chengmei, Wang, Risi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9658436/
https://www.ncbi.nlm.nih.gov/pubmed/36360057
http://dx.doi.org/10.3390/foods11213444
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author Shuai, Xixiang
Chen, Jun
Liu, Qi
Dong, Haolan
Dai, Taotao
Li, Zhaoying
Liu, Chengmei
Wang, Risi
author_facet Shuai, Xixiang
Chen, Jun
Liu, Qi
Dong, Haolan
Dai, Taotao
Li, Zhaoying
Liu, Chengmei
Wang, Risi
author_sort Shuai, Xixiang
collection PubMed
description Pectin, a complex hydrocolloid, attracts extensive attention and application stemming from its good emulsification. However, the source of emulsification remains a conundrum. In this experiment, the structures of six kinds of commercial pectin, including LM 101 AS (101), LM 104 AS (104), 121 SLOW SET (121), YM 150 H (150), LM 13 CG (13CG), and β-PECTIN (β-P) were determined, and the effects of pectin structure on emulsion emulsification, rheology and in vitro digestibility were studied. The results showed that the β-P pectin contained a higher content of protein, ferulic acid, and acetyl and had a lower interfacial tension; this pectin-stabilized emulsion exhibited a smaller droplet size and superior centrifugal and storage stability. The results showed that β-P pectin had higher contents of protein, ferulic acid, and acetyl and lower interfacial tension than other pectins, and its stabilized emulsion exhibited smaller droplet size and superior centrifugation and storage stability. Furthermore, the emulsion formed by the pectin with high molecular weight and degree of methoxylation (DM) had a higher viscosity, which can inhibit the aggregation of emulsion droplets to some extent. However, the DM of pectin affected the charge and digestion behavior of pectin emulsion to a great extent. The smaller the DM, the more negative charge the emulsion carried, and the higher the release rate of free fatty acids. The results provided a basis for the rational selection and structural design of the pectin emulsifier.
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spelling pubmed-96584362022-11-15 The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion Shuai, Xixiang Chen, Jun Liu, Qi Dong, Haolan Dai, Taotao Li, Zhaoying Liu, Chengmei Wang, Risi Foods Article Pectin, a complex hydrocolloid, attracts extensive attention and application stemming from its good emulsification. However, the source of emulsification remains a conundrum. In this experiment, the structures of six kinds of commercial pectin, including LM 101 AS (101), LM 104 AS (104), 121 SLOW SET (121), YM 150 H (150), LM 13 CG (13CG), and β-PECTIN (β-P) were determined, and the effects of pectin structure on emulsion emulsification, rheology and in vitro digestibility were studied. The results showed that the β-P pectin contained a higher content of protein, ferulic acid, and acetyl and had a lower interfacial tension; this pectin-stabilized emulsion exhibited a smaller droplet size and superior centrifugal and storage stability. The results showed that β-P pectin had higher contents of protein, ferulic acid, and acetyl and lower interfacial tension than other pectins, and its stabilized emulsion exhibited smaller droplet size and superior centrifugation and storage stability. Furthermore, the emulsion formed by the pectin with high molecular weight and degree of methoxylation (DM) had a higher viscosity, which can inhibit the aggregation of emulsion droplets to some extent. However, the DM of pectin affected the charge and digestion behavior of pectin emulsion to a great extent. The smaller the DM, the more negative charge the emulsion carried, and the higher the release rate of free fatty acids. The results provided a basis for the rational selection and structural design of the pectin emulsifier. MDPI 2022-10-30 /pmc/articles/PMC9658436/ /pubmed/36360057 http://dx.doi.org/10.3390/foods11213444 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Shuai, Xixiang
Chen, Jun
Liu, Qi
Dong, Haolan
Dai, Taotao
Li, Zhaoying
Liu, Chengmei
Wang, Risi
The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title_full The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title_fullStr The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title_full_unstemmed The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title_short The Effects of Pectin Structure on Emulsifying, Rheological, and In Vitro Digestion Properties of Emulsion
title_sort effects of pectin structure on emulsifying, rheological, and in vitro digestion properties of emulsion
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9658436/
https://www.ncbi.nlm.nih.gov/pubmed/36360057
http://dx.doi.org/10.3390/foods11213444
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