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Auteurs principaux: Naghdi, Shahab, Rezaei, Masoud, Tabarsa, Mehdi, Abdollahi, Mehdi
Format: Artículo científico
Langue:en
Publié: Food science & nutrition 2025
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40741093/
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author Naghdi, Shahab
Rezaei, Masoud
Tabarsa, Mehdi
Abdollahi, Mehdi
author_facet Naghdi, Shahab
Rezaei, Masoud
Tabarsa, Mehdi
Abdollahi, Mehdi
Naghdi, Shahab
Rezaei, Masoud
Tabarsa, Mehdi
Abdollahi, Mehdi
collection PubMed - marine biology
contents Expanding the pH-Shift Technique for Sequential Extraction of Intact Proteins and Sulfated Polysaccharide From Fish Heads: A Novel Biorefinery Approach. Naghdi, Shahab Rezaei, Masoud Tabarsa, Mehdi Abdollahi, Mehdi The pH-shift technology was successfully expanded for the sequential recovery of proteins and sulfated polysaccharides (SPs) from rainbow trout heads. Adjusting the pH of the remaining process water after protein recovery at their isoelectric point to 8 enabled precipitation and recovery of SPs with the aid of ethanol at both alkaline and acid process versions and named SP-11.5 and SP-2.5, respectively. The mass yield of SPs recovered using the alkaline process version was 3.25%, nearly double that of SP (1.75%) from the acid version. SP-11.5 contained higher levels of carbohydrates (61.22%), proteins (13.29%), and sulfates (12.13%) compared to SP-2.5. FTIR, DSC, and XRD analyses showed no significant differences in the structural properties of the recovered SPs as a function of the pH-shift process version. However, SP-11.5 exhibited better antioxidant activity in DPPH, ABTS, and metal chelating tests and superior antibacterial properties against and than SP-2.5. This study suggests that the pH-shift process can be effectively extended for sequential extraction of both protein isolates and SPs from fish by-products for a multiple product biorefinery where the alkaline version outperformed.
format Artículo científico
id pubmed_40741093
institution PubMed
language en
publishDate 2025
publisher Food science & nutrition
record_format pubmed
spellingShingle Expanding the pH-Shift Technique for Sequential Extraction of Intact Proteins and Sulfated Polysaccharide From Fish Heads: A Novel Biorefinery Approach.
Naghdi, Shahab
Rezaei, Masoud
Tabarsa, Mehdi
Abdollahi, Mehdi
Expanding the pH-Shift Technique for Sequential Extraction of Intact Proteins and Sulfated Polysaccharide From Fish Heads: A Novel Biorefinery Approach. Naghdi, Shahab Rezaei, Masoud Tabarsa, Mehdi Abdollahi, Mehdi The pH-shift technology was successfully expanded for the sequential recovery of proteins and sulfated polysaccharides (SPs) from rainbow trout heads. Adjusting the pH of the remaining process water after protein recovery at their isoelectric point to 8 enabled precipitation and recovery of SPs with the aid of ethanol at both alkaline and acid process versions and named SP-11.5 and SP-2.5, respectively. The mass yield of SPs recovered using the alkaline process version was 3.25%, nearly double that of SP (1.75%) from the acid version. SP-11.5 contained higher levels of carbohydrates (61.22%), proteins (13.29%), and sulfates (12.13%) compared to SP-2.5. FTIR, DSC, and XRD analyses showed no significant differences in the structural properties of the recovered SPs as a function of the pH-shift process version. However, SP-11.5 exhibited better antioxidant activity in DPPH, ABTS, and metal chelating tests and superior antibacterial properties against and than SP-2.5. This study suggests that the pH-shift process can be effectively extended for sequential extraction of both protein isolates and SPs from fish by-products for a multiple product biorefinery where the alkaline version outperformed.
title Expanding the pH-Shift Technique for Sequential Extraction of Intact Proteins and Sulfated Polysaccharide From Fish Heads: A Novel Biorefinery Approach.
url https://pubmed.ncbi.nlm.nih.gov/40741093/