Search results for "astringency"
showing 10 items of 11 documents
Mechanisms of astringency: Structural alteration of the oral mucosal pellicle by dietary tannins and protective effect of bPRPs
2018
International audience; The interaction of tannins with salivary proteins is involved in astringency. This paper focussed on saliva liningoral mucosae, the mucosal pellicle. Using a cell-based model, the impact of two dietary tannins (EgC and EgCG)on the mucosal pellicle structure and properties was investigated by microscopic techniques. The role of basicProline-Rich-Proteins (bPRPs) in protecting the mucosal pellicle was also evaluated.At low (0.05 mM) tannin concentration, below the sensory detection threshold, the distribution of salivarymucins MUC5B on cells remained unaffected. At 0.5 and 1 mM, MUC5B-tannin aggregates were observed andtheir size increased with tannin concentration and…
Discrimination of astringent and deastringed hard ‘Rojo Brillante’ persimmon fruit using a sensory threshold by means of hyperspectral imaging
2019
[EN] Persimmon fruit cv. 'Rojo Brillante' is an astringent cultivar due to its content of soluble tannins, which are insolubilised during the ripening of the fruit. Traditionally, the consumption of this cultivar has only been possible when the fruit is overripe and the texture is soft. Postharvest treatments based on exposing fruits to high CO2 concentrations allow astringency removal while preserving high flesh firmness. However, the effectiveness of this treatment is controlled by means of slow destructive methods. The aim of this work is to study the application of hyperspectral imaging in the spectral range 450-1040 nm to discriminate astringent (A) and deastringed (DA) fruits non-dest…
Binding site of different tannins on a human salivary proline-rich protein evidenced by dissociative photoionization tandem mass spectrometry
2015
Abstract The sensation of astringency is thought to originate from the interaction occurring between tannins and the salivary proline-rich proteins (PRPs). Astringency perception can be modified by the structure of tannins. Herein, we study the interactions occurring between the human salivary PRP, IB5, and three model tannins with different structure, epigallocatechin gallate and the procyanidin dimers B2 and B2 3′ O -gallate, using the coupling of mass spectrometry and VUV-synchrotron radiation. The results obtained indicate that the structure of tannins, in particular the degree of polymerization and the galloylation, does not modify the binding site on IB5 involved in the interaction.
Preference for astringent foods in children: no link with oral parameters
2006
International audience
Salivary properties involved in astringency sensitivity in human differ as a function of age
2022
Astringency is an important sensory characteristic of foods and beverages containing polyphenols. However, astringency perception in elderly people is not documented. Current hypothesis on astringency mechanism involved aggregation of the mucosal pellicle by tannins and its protective role by salivary proteins in particular proline rich-proteins (PRPs). The aim of the present work was to evaluate sensitivity to astringency in function of age and saliva (flow and composition). Fifty-four panelists including (30 elderlies and 24 young) participated in this study. Astringency was evaluated by 2-Alternative Forced Choice procedure. For salivary PRPs, a western blot methodology was set up to eva…
Impact des mécanismes moléculaires impliquant la muqueuse orale et les protéines salivaires sur la perception de la flaveur : exemples de l’astringen…
2019
Impact of saliva and astringent compounds on tongue mechanical properties : an ex vivo investigation
2018
International audience
Development of a new in vitro model of oral mucosa to investigate a new hypothesis on the molecular origin of astringency
2021
Astringency is described as an oral tactile perception occurring during the consumption of tannin-rich foods. This sensation, mediated by the trigeminal nerves, participates negatively to the flavor of foods leading to the rejection of food with high astringency by the consumer. The exact molecular mechanism of its origin and the nature of the sensory receptors activated are still under debate. Up to recently, the main hypotheses involved changes in the lubrication properties of the oral cavity triggering the activation of mechanoreceptors. Recently, we have put a new hypothesis involving the mucin MUC1 forward as an explanation of the origin of astringency. MUC1 is a transmembrane mucin wi…
Mucin MUC1: a key protein in oral physiology and the molecular mechanisms of sensory perception of astringency
2022
Contribution des interactions tanins - protéines salivaires dans la sensation d'astringence
2015
National audience