Bovine Hemoglobin Enzymatic Hydrolysis by a New Ecoefficient Process—Part I: Feasibility of Electrodialysis with Bipolar Membrane and Production of Neokyotorphin (α137-141)

Bovine Hemoglobin Enzymatic Hydrolysis by a New Ecoefficient Process—Part I: Feasibility of Electrodialysis with Bipolar Membrane and Production of Neokyotorphin (α137-141)

Neokyotorphin (α137-141) is recognized as an antimicrobial peptide and a natural meat preservative. It is produced by conventional enzymatic hydrolysis of bovine hemoglobin, a major component of cruor, a by-product of slaughterhouses. However, during conventional hydrolysis, chemical agents are nece...

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Bibliographic Details
Published in:Membranes (Basel) Vol. 10; no. 10; p. 257
Main Authors: Abou-Diab, Mira, Thibodeau, Jacinthe, Deracinois, Barbara, Flahaut, Christophe, Fliss, Ismail, Dhulster, Pascal, Nedjar, Naima, Bazinet, Laurent
Format: Journal Article
Language:English
Published: Basel MDPI AG 25-09-2020
MDPI
Subjects:
Abattoirs
Acidification
Antiinfectives and antibacterials
Antimicrobial agents
Antimicrobial peptides
Blood
bovine hemoglobin
Chemical agents
Consumption
Electrodes
Electrodialysis
electrodialysis with bipolar membrane
Environmental Sciences
enzymatic hydrolysis
Enzymes
Experiments
Feasibility
Fouling
Hemoglobin
Hydrolysates
Hydrolysis
Interfaces
Life Sciences
Meat
membrane fouling
Membranes
neokyotorphin
Peptides
Preservatives
Proteins
Salts
Canada
United States > US
Japan
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Summary:Neokyotorphin (α137-141) is recognized as an antimicrobial peptide and a natural meat preservative. It is produced by conventional enzymatic hydrolysis of bovine hemoglobin, a major component of cruor, a by-product of slaughterhouses. However, during conventional hydrolysis, chemical agents are necessary to adjust and regulate the pH of the protein solution and the mineral salt content of the final hydrolysate is consequently high. To produce this peptide of interest without chemical agents and with a low salt concentration, electrodialysis with bipolar membrane (EDBM), an electromembrane process recognized as a green process, with two different membrane configurations (cationic (MCP) and anionic (AEM) membranes) was investigated. Hydrolysis in EDBM showed the same enzymatic mechanism, “Zipper”, and allowed the generation of α137-141 in the same concentration as observed in conventional hydrolysis (control). EDBM-MCP allowed the production of hydrolysates containing a low concentration of mineral salts but with fouling formation on MCP, while EDBM-AEM allowed the production of hydrolysates without fouling but with a similar salt concentration than the control. To the best of our knowledge, this was the first time that EDBM was demonstrated as a feasible and innovative technology to produce peptide hydrolysates from enzymatic hydrolysis.
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PMCID: PMC7600281
These authors contributed equally to this work.
ISSN:2077-0375
2077-0375
DOI:10.3390/membranes10100257