J. Delwiche scite author profile

People vary widely in their sensitivities to bitter compounds, but the intercorrelation of these sensitivities is unknown. Our goal was to investigate correlations as a function of individual sensitivities to several bitter compounds representative of different chemical classes and, from these correlations, infer the number and variety of potential bitterness transduction systems for these compounds. Twenty-six subjects rated and ranked quinine HCl, caffeine, (-)-epicatechin, tetralone, L-phenylalanine, L-tryptophan, magnesium sulfate, urea, sucrose octaacetate (SOA), denatonium benzoate, and npropylthiouracil (PROP) for bitterness. By examining individual differences, ratings and rankings could be grouped into two general clusters-urea/phenylalanine/tryptophan/epicatechin, and quinine/caffeine/SOA/denatonium benzoate/tetralone/magnesium sulfate-none of which contained PROP. When subjects were grouped into the extremes of sensitivity to PROP, a significant difference was found in the bitterness ratings, but not in the rankings. Therefore, there are also subjects who possess diminished absolute sensitivity to bitter stimuli but do not differ from other subjects in their relative sensitivities to these compounds.

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Consumer liking and descriptive analysis of six varieties of organically grown edamame-type soybean

Wszelaki¹,

Delwiche²,

Walker³

et al. 2005

Food Quality and Preference

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You eat with your eyes first

Delwiche

2012

Physiology & Behavior

148

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Relationship of papillae number to bitter intensity of quinine and PROP within and between individuals

Delwiche

Buletic

Breslin

2001

Physiology & Behavior

112

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J. Delwiche

The impact of perceptual interactions on perceived flavor

Covariation in individuals’ sensitivities to bitter compounds: Evidence supporting multiple receptor/transduction mechanisms

Consumer liking and descriptive analysis of six varieties of organically grown edamame-type soybean

You eat with your eyes first

Relationship of papillae number to bitter intensity of quinine and PROP within and between individuals

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