Quantitative precursor studies on Di- and trihydroxybenzene formation during coffee roasting using "in bean" model experiments and stable isotope dilution analysis

Christoph Müller, Roman Lang, Thomas Hofmann

Research output: Contribution to journalArticlepeer-review

47 Scopus citations

Abstract

The objective of this study was to investigate the potential of various raw bean components as precursors of pyrogallol (1), hydroxyhydroquinone (2), catechol (3), 4-ethylcatechol (4), 4-methyl-catechol (5), and 3-methylcatechol (6) under quasi "natural" roasting conditions by using the recently developed "in bean" model roast experiments. Freeze-dried, fully extracted bean shells were loaded with aqueous solutions of either single coffee compounds or fractions isolated from the raw bean solubles. After freeze-drying, these reconstituted beans were roasted, aqueous coffee brews were prepared, and the target phenols were quantified by means of a stable isotope dilution assay with LC-MS/MS detection. On the basis of the quantitative data, it can be concluded that upon coffee bean roasting, catechol (3) is primarily formed by degradation of caffeoylquinic acids from both the caffeic acid and the quinic acid moiety of the molecule, as well as from Maillard-type reactions from carbohydrates and amino acids. In contrast, pyrogallol (1) and hydroxyhydroquinone (2) are efficiently generated from carbohydrates and amino acids and, in addition, from free or chlorogenic acid bound quinic acid moieties. 4-Ethylcatechol (4) is exclusively generated upon thermal breakdown of caffeic acid moieties. 3-Methylcatechol (6) is formed primarily from the Maillard reactions and, to a minor extent, also from various phenolic precursors, whereas 4-methylcatechol (5) is produced in trace amounts only from all of the different precursors investigated. On the basis of this precursor study, reaction routes explaining the formation of the target phenols are proposed.

Original languageEnglish
Pages (from-to)10086-10091
Number of pages6
JournalJournal of agricultural and food chemistry
Volume54
Issue number26
DOIs
StatePublished - 27 Dec 2006
Externally publishedYes

Keywords

  • 3-methylcatechol
  • 4-ethylcatechol
  • 4-methylcatechol
  • Caffeic acid
  • Catechol
  • Chlorogenic acids
  • Coffee
  • Hydroxyhydroquinone
  • Pyrogallol
  • Quinic acid
  • Stable isotope dilution analysis

Fingerprint

Dive into the research topics of 'Quantitative precursor studies on Di- and trihydroxybenzene formation during coffee roasting using "in bean" model experiments and stable isotope dilution analysis'. Together they form a unique fingerprint.

Cite this