SPI/SA microgels prepared by phase separation improved the water retention and sensory perception of low-salt pork gels

SPI/SA microgels prepared by phase separation improved the water retention and sensory perception of low-salt pork gels

The SPI/SA microgels was prepared using protein-polysaccharide phase separation technology. The morphology, secondary structure, rheological properties and physical properties of the SPI/SA microgels were characterized and evaluated. SPI/SA microgels were added to low-salt pork gels to evaluate thei...

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Veröffentlicht in:Food hydrocolloids 2024-11, Vol.156, p.110370, Article 110370
Hauptverfasser: Yu, Rikuan, Zheng, Meixia, Zhou, Fuzhen, Hou, Guohua, Zou, Zhongai, Miao, Song, Zhang, Longtao, Zheng, Baodong
Format: Artikel
Sprache:eng
Schlagworte:
gel strength
gelation
heat
hydrocolloids
hydrophobicity
Low-salt pork gels
Microgel
microgels
particle size
Phase separation
pork
sensation
sensory evaluation
separation
Sodium alginate
Soy protein isolate
storage modulus
temperature
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container_end_page
container_issue
container_start_page 110370
container_title Food hydrocolloids
container_volume 156
creator Yu, Rikuan
Zheng, Meixia
Zhou, Fuzhen
Hou, Guohua
Zou, Zhongai
Miao, Song
Zhang, Longtao
Zheng, Baodong
description The SPI/SA microgels was prepared using protein-polysaccharide phase separation technology. The morphology, secondary structure, rheological properties and physical properties of the SPI/SA microgels were characterized and evaluated. SPI/SA microgels were added to low-salt pork gels to evaluate their effect on water retention and mechanical properties. The results indicated that the phase separation of SA and SPI in the mixed solution facilitated the formation of a SPI-rich region, reaching the gelation concentration. Upon heating, the hydrophobic groups in the SPI folded inward, resulting in a decrease in α-helix content and an increase in β-sheet content. This led to the formation of SPI/SA microgels with specific storage modulus and swelling properties. The microgels exhibited a uniform particle size, which could be precisely controlled by adjusting the concentrations of SPI and SA or the heating temperature. The addition of SPI/SA microgels improved sensory evaluation and gel strength, increased water holding capacity, and reduced cooking loss of low-salt pork gels. In addition, the SPI/SA microgels have the ability to convert free water into fixed water that is contained within the structure of the SPI/SA microgels in low-salt pork gel, thereby improving their properties in low-salt pork gels. [Display omitted] •Varying temperatures and concentrations can adjust the sizes of SPI/SA microgels.•SPI/SA microgels improved the water holding capacity and texture of meat gel.•SPI/SA microgels can transform free water into fixed water in low-salt pork gel.
doi_str_mv 10.1016/j.foodhyd.2024.110370
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The morphology, secondary structure, rheological properties and physical properties of the SPI/SA microgels were characterized and evaluated. SPI/SA microgels were added to low-salt pork gels to evaluate their effect on water retention and mechanical properties. The results indicated that the phase separation of SA and SPI in the mixed solution facilitated the formation of a SPI-rich region, reaching the gelation concentration. Upon heating, the hydrophobic groups in the SPI folded inward, resulting in a decrease in α-helix content and an increase in β-sheet content. This led to the formation of SPI/SA microgels with specific storage modulus and swelling properties. The microgels exhibited a uniform particle size, which could be precisely controlled by adjusting the concentrations of SPI and SA or the heating temperature. The addition of SPI/SA microgels improved sensory evaluation and gel strength, increased water holding capacity, and reduced cooking loss of low-salt pork gels. In addition, the SPI/SA microgels have the ability to convert free water into fixed water that is contained within the structure of the SPI/SA microgels in low-salt pork gel, thereby improving their properties in low-salt pork gels. 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The morphology, secondary structure, rheological properties and physical properties of the SPI/SA microgels were characterized and evaluated. SPI/SA microgels were added to low-salt pork gels to evaluate their effect on water retention and mechanical properties. The results indicated that the phase separation of SA and SPI in the mixed solution facilitated the formation of a SPI-rich region, reaching the gelation concentration. Upon heating, the hydrophobic groups in the SPI folded inward, resulting in a decrease in α-helix content and an increase in β-sheet content. This led to the formation of SPI/SA microgels with specific storage modulus and swelling properties. The microgels exhibited a uniform particle size, which could be precisely controlled by adjusting the concentrations of SPI and SA or the heating temperature. The addition of SPI/SA microgels improved sensory evaluation and gel strength, increased water holding capacity, and reduced cooking loss of low-salt pork gels. In addition, the SPI/SA microgels have the ability to convert free water into fixed water that is contained within the structure of the SPI/SA microgels in low-salt pork gel, thereby improving their properties in low-salt pork gels. 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The morphology, secondary structure, rheological properties and physical properties of the SPI/SA microgels were characterized and evaluated. SPI/SA microgels were added to low-salt pork gels to evaluate their effect on water retention and mechanical properties. The results indicated that the phase separation of SA and SPI in the mixed solution facilitated the formation of a SPI-rich region, reaching the gelation concentration. Upon heating, the hydrophobic groups in the SPI folded inward, resulting in a decrease in α-helix content and an increase in β-sheet content. This led to the formation of SPI/SA microgels with specific storage modulus and swelling properties. The microgels exhibited a uniform particle size, which could be precisely controlled by adjusting the concentrations of SPI and SA or the heating temperature. The addition of SPI/SA microgels improved sensory evaluation and gel strength, increased water holding capacity, and reduced cooking loss of low-salt pork gels. In addition, the SPI/SA microgels have the ability to convert free water into fixed water that is contained within the structure of the SPI/SA microgels in low-salt pork gel, thereby improving their properties in low-salt pork gels. [Display omitted] •Varying temperatures and concentrations can adjust the sizes of SPI/SA microgels.•SPI/SA microgels improved the water holding capacity and texture of meat gel.•SPI/SA microgels can transform free water into fixed water in low-salt pork gel.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.foodhyd.2024.110370</doi><orcidid>https://orcid.org/0009-0002-4961-9990</orcidid></addata></record>
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source Elsevier ScienceDirect Journals
subjects gel strength
gelation
heat
hydrocolloids
hydrophobicity
Low-salt pork gels
Microgel
microgels
particle size
Phase separation
pork
sensation
sensory evaluation
separation
Sodium alginate
Soy protein isolate
storage modulus
temperature
title SPI/SA microgels prepared by phase separation improved the water retention and sensory perception of low-salt pork gels
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