Acrylamide Formation Mechanism in Heated Foods

Overview

Journal J Agric Food Chem

Specialties Chemistry
Nutritional Sciences

Date 2004 Jan 7

PMID 14705913

Citations 88

Authors

David V Zyzak

Robert A Sanders

Marko Stojanovic

Daniel H Tallmadge

B Loye Eberhart

Deborah K Ewald

David C Gruber

Thomas R Morsch

Melissa A Strothers

George P Rizzi

Maria D Villagran

Affiliations

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Abstract

Recent findings of a potential human carcinogen, acrylamide, in foods have focused research on the possible mechanisms of formation. We present a mechanism for the formation of acrylamide from the reaction of the amino acid asparagine and a carbonyl-containing compound at typical cooking temperatures. The mechanism involves formation of a Schiff base followed by decarboxylation and elimination of either ammonia or a substituted imine under heat to yield acrylamide. Isotope substitution studies and mass spectrometric analysis of heated model systems confirm the presence of key reaction intermediates. Further confirmation of this mechanism is accomplished through selective removal of asparagine with asparaginase that results in a reduced level of acrylamide in a selected heated food.

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