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Main Authors: Lin, Jiaofen, Zeng, Jian, Shi, Guozong, Zhuo, Zesheng, Guan, Yanyun, Li, Zhipeng, Ni, Hui, Fei, Peng, Huang, Bingqing
Format: Artículo científico
Language:en
Published: Foods (Basel, Switzerland) 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40238234/
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author Lin, Jiaofen
Zeng, Jian
Shi, Guozong
Zhuo, Zesheng
Guan, Yanyun
Li, Zhipeng
Ni, Hui
Fei, Peng
Huang, Bingqing
author_facet Lin, Jiaofen
Zeng, Jian
Shi, Guozong
Zhuo, Zesheng
Guan, Yanyun
Li, Zhipeng
Ni, Hui
Fei, Peng
Huang, Bingqing
Lin, Jiaofen
Zeng, Jian
Shi, Guozong
Zhuo, Zesheng
Guan, Yanyun
Li, Zhipeng
Ni, Hui
Fei, Peng
Huang, Bingqing
collection PubMed - marine biology
contents Caffeic Acid-Modified Mushroom Chitosan as a Natural Emulsifier for Soybean Oil-Based Emulsions and Its Application in β-Carotene Delivery. Lin, Jiaofen Zeng, Jian Shi, Guozong Zhuo, Zesheng Guan, Yanyun Li, Zhipeng Ni, Hui Fei, Peng Huang, Bingqing In this study, we developed a soybean oil-based emulsion system stabilized by caffeic acid-modified mushroom-derived chitosan, significantly enhancing its functional properties. The modification increased the grafting ratio from 5.02% to 8.26%, which greatly improved antioxidant activity and antimicrobial efficacy against Escherichia coli and Staphylococcus aureus. The modified chitosan exhibited superior rheological properties, including increased viscosity and elasticity, contributing to improved emulsification performance. Emulsions stabilized with caffeic acid-modified chitosan showed smaller and more uniform droplet sizes, along with greater stability, as indicated by a higher zeta potential (55.63 mV). These modifications resulted in enhanced β-carotene encapsulation efficiency (up to 87.46%) and improved bioaccessibility (up to 52.13%), highlighting the system's potential as an efficient food-grade carrier for hydrophobic bioactive compounds. In conclusion, caffeic acid-modified mushroom chitosan is an effective natural emulsifier, enhancing stability, antioxidant activity, and nutrient delivery, and has promising applications in functional foods and nutraceuticals.
format Artículo científico
id pubmed_40238234
institution PubMed
language en
publishDate 2025
publisher Foods (Basel, Switzerland)
record_format pubmed
spellingShingle Caffeic Acid-Modified Mushroom Chitosan as a Natural Emulsifier for Soybean Oil-Based Emulsions and Its Application in β-Carotene Delivery.
Lin, Jiaofen
Zeng, Jian
Shi, Guozong
Zhuo, Zesheng
Guan, Yanyun
Li, Zhipeng
Ni, Hui
Fei, Peng
Huang, Bingqing
Caffeic Acid-Modified Mushroom Chitosan as a Natural Emulsifier for Soybean Oil-Based Emulsions and Its Application in β-Carotene Delivery. Lin, Jiaofen Zeng, Jian Shi, Guozong Zhuo, Zesheng Guan, Yanyun Li, Zhipeng Ni, Hui Fei, Peng Huang, Bingqing In this study, we developed a soybean oil-based emulsion system stabilized by caffeic acid-modified mushroom-derived chitosan, significantly enhancing its functional properties. The modification increased the grafting ratio from 5.02% to 8.26%, which greatly improved antioxidant activity and antimicrobial efficacy against Escherichia coli and Staphylococcus aureus. The modified chitosan exhibited superior rheological properties, including increased viscosity and elasticity, contributing to improved emulsification performance. Emulsions stabilized with caffeic acid-modified chitosan showed smaller and more uniform droplet sizes, along with greater stability, as indicated by a higher zeta potential (55.63 mV). These modifications resulted in enhanced β-carotene encapsulation efficiency (up to 87.46%) and improved bioaccessibility (up to 52.13%), highlighting the system's potential as an efficient food-grade carrier for hydrophobic bioactive compounds. In conclusion, caffeic acid-modified mushroom chitosan is an effective natural emulsifier, enhancing stability, antioxidant activity, and nutrient delivery, and has promising applications in functional foods and nutraceuticals.
title Caffeic Acid-Modified Mushroom Chitosan as a Natural Emulsifier for Soybean Oil-Based Emulsions and Its Application in β-Carotene Delivery.
url https://pubmed.ncbi.nlm.nih.gov/40238234/