Novel Pickering emulsion stabilized by natural fiber polysaccharide-protein extracted from Haematococcus pluvialis residues

As an excellent source of natural astaxanthin, Haematococcus pluvialis (H. pluvialis) is rich in nutritional elements in the residues after extraction of astaxanthin. At present, the residues of H. pluvialis are only used as feed in the breeding industry, but its application in food industry is stil...

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Published inFood hydrocolloids Vol. 134; p. 108048
Main Authors Yin, Zihao, Wang, Mengwei, Zeng, Mingyong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2023
Subjects
astaxanthin
crosslinking
emulsions
energy
food industry
Functional properties
Haematococcus pluvialis
hydrocolloids
molecular weight
oils
particle size
Pickering emulsion
polysaccharides
Protein-polysaccharide complexes
raw materials
Stability
storage quality
Functional properties
Stability
Pickering emulsion
Protein-polysaccharide complexes
Online AccessGet full text
ISSN0268-005X
DOI10.1016/j.foodhyd.2022.108048

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Abstract As an excellent source of natural astaxanthin, Haematococcus pluvialis (H. pluvialis) is rich in nutritional elements in the residues after extraction of astaxanthin. At present, the residues of H. pluvialis are only used as feed in the breeding industry, but its application in food industry is still a challenge. In this study, fiber polysaccharide-protein complex also known as aqueous protein extraction from H. pluvialis residues (APHRs) was successfully extracted from the aqueous extract of H. pluvialis residues (AHRs). The protein and carbohydrate contents of APHRs were 23.6% and 64.9%, respectively. The protein of APHRs was composed of β-sheet (57.6%) and turns, and the molecular weight of protein was about 10 kDa. What's more, APHRs had good emulsifying stability and oil holding capacity. Microscopic images showed that fibrous polysaccharides were connected around protein particles, which can form a stable structural cross-linking. The low energy emulsion formed by APHRs showed the smallest particle size and the best storage stability compared with crude polysaccharides of H. pluvialis residues (CPHRs) and AHRs. The emulsion creaming index of APHRs, CPHRs, and AHRs in high energy emulsion was 1%, 52%, and 61% respectively. Owing to the existence of fibrous polysaccharides, the stability of APHRs emulsion was superior to that of CPHRs and AHRs. In summary, APHRs have excellent safety and stability, and it is likely food-grade raw material for stabilizing Pickering emulsion. [Display omitted] •New materials for forming Pickering emulsions from H. pluvialis residues.•Fiber polysaccharide-protein made the emulsion have excellent stability.•This study expands the application forms of microalgae in food.•Increasing the added value of H. pluvialis, and realizing sustainable development.
AbstractList As an excellent source of natural astaxanthin, Haematococcus pluvialis (H. pluvialis) is rich in nutritional elements in the residues after extraction of astaxanthin. At present, the residues of H. pluvialis are only used as feed in the breeding industry, but its application in food industry is still a challenge. In this study, fiber polysaccharide-protein complex also known as aqueous protein extraction from H. pluvialis residues (APHRs) was successfully extracted from the aqueous extract of H. pluvialis residues (AHRs). The protein and carbohydrate contents of APHRs were 23.6% and 64.9%, respectively. The protein of APHRs was composed of β-sheet (57.6%) and turns, and the molecular weight of protein was about 10 kDa. What's more, APHRs had good emulsifying stability and oil holding capacity. Microscopic images showed that fibrous polysaccharides were connected around protein particles, which can form a stable structural cross-linking. The low energy emulsion formed by APHRs showed the smallest particle size and the best storage stability compared with crude polysaccharides of H. pluvialis residues (CPHRs) and AHRs. The emulsion creaming index of APHRs, CPHRs, and AHRs in high energy emulsion was 1%, 52%, and 61% respectively. Owing to the existence of fibrous polysaccharides, the stability of APHRs emulsion was superior to that of CPHRs and AHRs. In summary, APHRs have excellent safety and stability, and it is likely food-grade raw material for stabilizing Pickering emulsion. [Display omitted] •New materials for forming Pickering emulsions from H. pluvialis residues.•Fiber polysaccharide-protein made the emulsion have excellent stability.•This study expands the application forms of microalgae in food.•Increasing the added value of H. pluvialis, and realizing sustainable development.
As an excellent source of natural astaxanthin, Haematococcus pluvialis (H. pluvialis) is rich in nutritional elements in the residues after extraction of astaxanthin. At present, the residues of H. pluvialis are only used as feed in the breeding industry, but its application in food industry is still a challenge. In this study, fiber polysaccharide-protein complex also known as aqueous protein extraction from H. pluvialis residues (APHRs) was successfully extracted from the aqueous extract of H. pluvialis residues (AHRs). The protein and carbohydrate contents of APHRs were 23.6% and 64.9%, respectively. The protein of APHRs was composed of β-sheet (57.6%) and turns, and the molecular weight of protein was about 10 kDa. What's more, APHRs had good emulsifying stability and oil holding capacity. Microscopic images showed that fibrous polysaccharides were connected around protein particles, which can form a stable structural cross-linking. The low energy emulsion formed by APHRs showed the smallest particle size and the best storage stability compared with crude polysaccharides of H. pluvialis residues (CPHRs) and AHRs. The emulsion creaming index of APHRs, CPHRs, and AHRs in high energy emulsion was 1%, 52%, and 61% respectively. Owing to the existence of fibrous polysaccharides, the stability of APHRs emulsion was superior to that of CPHRs and AHRs. In summary, APHRs have excellent safety and stability, and it is likely food-grade raw material for stabilizing Pickering emulsion.
ArticleNumber 108048
Author Yin, Zihao
Zeng, Mingyong
Wang, Mengwei
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Pickering emulsion
Protein-polysaccharide complexes
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Snippet As an excellent source of natural astaxanthin, Haematococcus pluvialis (H. pluvialis) is rich in nutritional elements in the residues after extraction of...
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SubjectTerms astaxanthin
crosslinking
emulsions
energy
food industry
Functional properties
Haematococcus pluvialis
hydrocolloids
molecular weight
oils
particle size
Pickering emulsion
polysaccharides
Protein-polysaccharide complexes
raw materials
Stability
storage quality
Title Novel Pickering emulsion stabilized by natural fiber polysaccharide-protein extracted from Haematococcus pluvialis residues
URI https://dx.doi.org/10.1016/j.foodhyd.2022.108048
https://www.proquest.com/docview/2718362193
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