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Autores principales: Liu, Meng, Wu, Ming-Xuan, Gong, Fei-Fei, Sun, Zhao-Min, Li, Ying, Huan, Fei, Chen, Gui-Xia, Liu, Qing-Mei, Liu, Hong, Liu, Guang-Ming
Formato: Artículo científico
Lenguaje:en
Publicado: Food chemistry 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/39423529/
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author Liu, Meng
Wu, Ming-Xuan
Gong, Fei-Fei
Sun, Zhao-Min
Li, Ying
Huan, Fei
Chen, Gui-Xia
Liu, Qing-Mei
Liu, Hong
Liu, Guang-Ming
author_facet Liu, Meng
Wu, Ming-Xuan
Gong, Fei-Fei
Sun, Zhao-Min
Li, Ying
Huan, Fei
Chen, Gui-Xia
Liu, Qing-Mei
Liu, Hong
Liu, Guang-Ming
Liu, Meng
Wu, Ming-Xuan
Gong, Fei-Fei
Sun, Zhao-Min
Li, Ying
Huan, Fei
Chen, Gui-Xia
Liu, Qing-Mei
Liu, Hong
Liu, Guang-Ming
collection PubMed - marine biology
contents Optimized carbonylation treatment of Litopenaeus vannamei matrix decreased its immunoreactivity and improved edible quality, simultaneously. Liu, Meng Wu, Ming-Xuan Gong, Fei-Fei Sun, Zhao-Min Li, Ying Huan, Fei Chen, Gui-Xia Liu, Qing-Mei Liu, Hong Liu, Guang-Ming Animals Penaeidae Shellfish Protein Carbonylation Humans Allergens Food Handling The study aimed to investigate how carbonylation affects the immunoreactivity and edible quality of the Litopenaeus vannamei matrix. The carbonylation treatment conditions of the shrimp matrix were optimized. Firstly, the treatment condition is optimized with 1.0 mmol/L malonaldehyde at 37 °C, 12 h. The optimized carbonylated shrimp showed lower immunoreactivity, carbonyl group, and free amino acids. Then the edible quality was evaluated, optimized carbonylated shrimp matrix presented better digestibility and the continuous digestion products showed lower immunoreactivity. Optimized carbonylated shrimp for the other sensory indicators showed better texture properties and an inviting appearance. Looser microstructure by scanning electron microscopy contributed to the higher digestibility, lower immunoreactivity, and better edible quality for optimized carbonylated shrimp matrix. Besides, more potentially modified amino acid residues exposed on the allergen surface may be the other reason. In conclusion, optimized carbonylation treatment reduced the immunoreactivity and improved the edible quality of shrimp.
format Artículo científico
id pubmed_39423529
institution PubMed
language en
publishDate 2025
publisher Food chemistry
record_format pubmed
spellingShingle Optimized carbonylation treatment of Litopenaeus vannamei matrix decreased its immunoreactivity and improved edible quality, simultaneously.
Liu, Meng
Wu, Ming-Xuan
Gong, Fei-Fei
Sun, Zhao-Min
Li, Ying
Huan, Fei
Chen, Gui-Xia
Liu, Qing-Mei
Liu, Hong
Liu, Guang-Ming
Animals
Penaeidae
Shellfish
Protein Carbonylation
Humans
Allergens
Food Handling
Optimized carbonylation treatment of Litopenaeus vannamei matrix decreased its immunoreactivity and improved edible quality, simultaneously. Liu, Meng Wu, Ming-Xuan Gong, Fei-Fei Sun, Zhao-Min Li, Ying Huan, Fei Chen, Gui-Xia Liu, Qing-Mei Liu, Hong Liu, Guang-Ming Animals Penaeidae Shellfish Protein Carbonylation Humans Allergens Food Handling The study aimed to investigate how carbonylation affects the immunoreactivity and edible quality of the Litopenaeus vannamei matrix. The carbonylation treatment conditions of the shrimp matrix were optimized. Firstly, the treatment condition is optimized with 1.0 mmol/L malonaldehyde at 37 °C, 12 h. The optimized carbonylated shrimp showed lower immunoreactivity, carbonyl group, and free amino acids. Then the edible quality was evaluated, optimized carbonylated shrimp matrix presented better digestibility and the continuous digestion products showed lower immunoreactivity. Optimized carbonylated shrimp for the other sensory indicators showed better texture properties and an inviting appearance. Looser microstructure by scanning electron microscopy contributed to the higher digestibility, lower immunoreactivity, and better edible quality for optimized carbonylated shrimp matrix. Besides, more potentially modified amino acid residues exposed on the allergen surface may be the other reason. In conclusion, optimized carbonylation treatment reduced the immunoreactivity and improved the edible quality of shrimp.
title Optimized carbonylation treatment of Litopenaeus vannamei matrix decreased its immunoreactivity and improved edible quality, simultaneously.
topic Animals
Penaeidae
Shellfish
Protein Carbonylation
Humans
Allergens
Food Handling
url https://pubmed.ncbi.nlm.nih.gov/39423529/