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Effect of Processing on the Structure, Techno-Functional Properties and Nutritional Quality of Animal- and Plant-Based Food Proteins

The processing of animal- and plant-based food proteins significantly impacts their structure, techno-functional properties, and nutritional quality. Techniques such as heating, extrusion, fermentation, and enzymatic hydrolysis alter protein conformation, leading to changes in solubility, emulsifica...

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Định dạng: Online
Ngôn ngữ:Tiếng Anh
Được phát hành: MDPI - Multidisciplinary Digital Publishing Institute 2025
Những chủ đề:
pea protein isolate
salt extraction
pH extraction
ultrafiltration
benchtop versus pilot plant production
protein structure and functionality
ultrasonic treatment
alkaline extraction
solubility
foaming stability
foaming capacity
oxidative modification mechanism
walnut protein isolates
LC-MS/MS identification
aggregates
digestion products
protein
fat replacer
fat mimic
microparticulation
microgels
thermomechanical treatment
complex coacervation
ionic strength
proteins
desalting
membrane filtration
microfiltration
casein micelles
milk protein concentrate
transmembrane pressure
whey protein depletion
meat analogues
plant protein
rheology
Lissajous plot
anisotropy
16S rRNA sequencing
diet
popped amaranth
gut microbiota
short-chain fatty acids
lentil proteins
plant proteins
in-line high-shear mixer
functional properties
plant-based drinks
storage
free amino acids
proteolysis
color
shelf-life
high-moisture extrusion
fibrous structuring
meat analogue
protein texturization
plant-based
n/a
Truy cập trực tuyến:ONIX_20250812T110751_9783725835850_84
Các nhãn: Thêm thẻ
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Tóm tắt:The processing of animal- and plant-based food proteins significantly impacts their structure, techno-functional properties, and nutritional quality. Techniques such as heating, extrusion, fermentation, and enzymatic hydrolysis alter protein conformation, leading to changes in solubility, emulsification, foaming, and gelation properties. For instance, heat treatment can denature proteins, improving digestibility but potentially reducing certain functional properties. Extrusion enhances texturization, making plant proteins more meat-like, while fermentation can improve bioavailability and reduce anti-nutritional factors in plant proteins. However, excessive processing may lead to the loss of essential amino acids or the formation of harmful compounds, such as advanced glycation end products (AGEs). Animal proteins generally exhibit higher stability during processing, whereas plant proteins may require additional modifications to achieve the desired functionalities. Balancing processing conditions is crucial to optimize both the techno-functional and nutritional attributes of proteins, ensuring they meet consumer demands for health, sustainability, and sensory appeal.

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