Selective enzymatic hydrolysis of chlorogenic acid lactones in a model system and in a coffee extract. Application to reduction of coffee bitterness

Selective enzymatic hydrolysis of chlorogenic acid lactones in a model system and in a coffee extract. Application to reduction of coffee bitterness

•Reduction of coffee bitterness was significant with hog liver esterase.•Chlorogenic acid lactones were hydrolyzed by esterases and not by lipases.•Hog liver esterase hydrolyzed specifically chlorogenic acid lactones.•Potential use of specific enzymes to reduce the bitterness of coffee. Chlorogenic...

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Veröffentlicht in:Food chemistry 2017-03, Vol.218, p.9-14
Hauptverfasser: Kraehenbuehl, Karin, Page-Zoerkler, Nicole, Mauroux, Olivier, Gartenmann, Karin, Blank, Imre, Bel-Rhlid, Rachid
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Bitterness
Caffeic Acids - analysis
Chlorogenic Acid - analysis
Chlorogenic acid lactones
Chlorogenic acids
Coffee
Coffee - chemistry
Consumer Behavior
Coumaric Acids - analysis
Enzymes
Esterases - metabolism
Humans
Hydrolysis
Lactones - analysis
Lipase - metabolism
Liver - enzymology
Plant Extracts - chemistry
Swine
Taste
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container_end_page 14
container_issue
container_start_page 9
container_title Food chemistry
container_volume 218
creator Kraehenbuehl, Karin
Page-Zoerkler, Nicole
Mauroux, Olivier
Gartenmann, Karin
Blank, Imre
Bel-Rhlid, Rachid
description •Reduction of coffee bitterness was significant with hog liver esterase.•Chlorogenic acid lactones were hydrolyzed by esterases and not by lipases.•Hog liver esterase hydrolyzed specifically chlorogenic acid lactones.•Potential use of specific enzymes to reduce the bitterness of coffee. Chlorogenic acid lactones have been identified as key contributors to coffee bitterness. These compounds are formed during roasting by dehydration and cyclization of their precursors, the chlorogenic acids (CGAs). In the present study, we investigated an approach to decompose these lactones in a selective way without affecting the positive coffee attributes developed during roasting. A model system composed of (3-caffeoylquinic acid lactone (3-CQAL), 4- caffeoyl quinic acid lactone (4-CQAL), and 4-feruloylquinic acid lactone (4-FQAL)) was used for the screening of enzymes before treatment of the coffee extracts. Hog liver esterase (HLE) hydrolyzed chlorogenic acid lactones (CQALs, FQALs) selectively, while chlorogenate esterase hydrolyzed all chlorogenic acids (CQAs, FQAs) and their corresponding lactones (CQALs, FQALs) in a non-selective way. Enzymatically treated coffee samples were evaluated for their bitterness by a trained sensory panel and were found significantly less bitter than the untreated samples.
doi_str_mv 10.1016/j.foodchem.2016.09.055
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subjects Animals
Bitterness
Caffeic Acids - analysis
Chlorogenic Acid - analysis
Chlorogenic acid lactones
Chlorogenic acids
Coffee
Coffee - chemistry
Consumer Behavior
Coumaric Acids - analysis
Enzymes
Esterases - metabolism
Humans
Hydrolysis
Lactones - analysis
Lipase - metabolism
Liver - enzymology
Plant Extracts - chemistry
Swine
Taste
title Selective enzymatic hydrolysis of chlorogenic acid lactones in a model system and in a coffee extract. Application to reduction of coffee bitterness
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