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  • Screening of raw coffee for thiol binding site precursors using "in bean" model roasting experiments.

Screening of raw coffee for thiol binding site precursors using "in bean" model roasting experiments.

Journal of agricultural and food chemistry (2005-03-31)
Christoph Müller, Thomas Hofmann
ABSTRACT

The purpose of the following study was to investigate the influence of coffee roasting on the thiol-binding activity of coffee beverages, and to investigate the potential of various green bean compounds as precursors of thiol-binding sites by using promising "in bean" model roast experiments. Headspace gas chromatographic analysis on coffee brews incubated in the presence of the roasty-sulfury smelling 2-furfurylthiol for 20 min at 30 degrees C in septum-closed vessels revealed that the amounts of "free" thiol decreased drastically with increasing the roasting degree of the beans used for preparation of the brews. A half-maximal binding capacity (BC(50)) of 183 mg of 2-furfurylthiol per liter of standard coffee beverage was determined for a roasted coffee (CTN value of 67), thus demonstrating that enormous amounts of the odor-active thiol are "bound" by the coffee. Furthermore, biomimetic "in bean" precursor experiments have been performed in order to elucidate the precursor for the thiol-binding sites in the raw coffee bean. These experiments opened the possibility of studying coffee model reactions under quasi-natural roasting conditions and undoubtedly identified chlorogenic acids as well as thermal degradation products caffeic acid and quinic acid as important precursors for low-molecular-weight thiol-binding sites. In particular, when roasted in the presence of transition metal ions, chlorogenic acids and even more caffeic acid showed thiol-binding activity which was comparable to the activity measured for the authentic coffee brew.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Furfuryl mercaptan, ≥97%, FG
Sigma-Aldrich
Furfuryl mercaptan, natural, 98%, FG
Sigma-Aldrich
2-Furanmethanethiol, 98%