| Literature DB >> 26471665 |
Rosa M Delgado1, Francisco J Hidalgo1, Rosario Zamora2.
Abstract
The Strecker-type degradation of phenylalanine in the presence of 2-pentanal and phenolic compounds was studied to investigate possible interactions that either promote or inhibit the formation of Strecker aldehydes in food products. Phenylacetaldehyde formation was promoted by 2-pentenal and also by o- and p-diphenols, but not by m-diphenols. This is consequence of the ability of phenolic compounds to be converted into reactive carbonyls and produce the Strecker degradation of the amino acid. When 2-pentenal and phenolic compounds were simultaneously present, an antagonism among them was observed. This antagonism is suggested to be a consequence of the ability of phenolic compounds to either react with both 2-pentenal and phenylacetaldehyde, or compete with other carbonyl compounds for the amino acids, a function that is determined by their structure. All these results suggest that carbonyl-phenol reactions may be used to modulate flavor formation produced in food products by lipid-derived reactive carbonyls.Entities:
Keywords: 1,2,4-Trihydroxybenzene (PubChem ID: 10787); 2-Pentenal (PubChem ID: 5364752); Benzoquinone (PubChem ID: 4650); Carbonyl–amine reactions; Carbonyl–phenol reactions; Catechol (PubChem ID: 289); Hydroquinone (PubChem ID: 785); Lipid oxidation; Maillard reaction; Phenolic compounds; Phenylacetaldehyde (PubChem ID: 998); Phenylalanine (PubChem ID: 994); Phloroglucinol (PubChem ID: 359); Pyrogallol (PubChem ID: 1057); Resorcinol (PubChem ID: 5054); Strecker degradation
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Year: 2015 PMID: 26471665 DOI: 10.1016/j.foodchem.2015.07.126
Source DB: PubMed Journal: Food Chem ISSN: 0308-8146 Impact factor: 7.514