ABSTRACT
The preferences of consumers for different flavours and aromas in wine are varied and may be explained by inherent factors such as cultural background, wine education and personal taste of the wine consumer. Wine flavour as perceived in the mouth includes aroma compounds released through the retronasal pathway which are shaped by interactions with saliva. Saliva and wine interactions could provide an explanation as to why wine tasters express different preferences for wine. To test this hypothesis, 13 Western and 13 Chinese experienced wine tasters were recruited. Sensory evaluation was performed in formal surroundings to acquire free description-based and perceived sensory intensity data using the Pivot® Profile and continuous scale assessment, respectively. Participants’ saliva samples were collected before the sensory evaluation and spiked into a wine sample to investigate the impact on the wine volatile release using GC×GC−MS. Saliva samples were subjected to enzyme activity assays and protein composition profiling by Tandem Mass Tag (TMT) quantitative proteomics. The wine tasters showed differences in wine flavour perception, which was supported by the difference in wine volatile release resulting from the addition of saliva. The two groups of participants did not have significant differences in total salivary protein concentrations or the amounts of esterase and α-amylase. However, statistically significant variations in the concentrations of specific proteins (proline-rich proteins (PRPs) and lipocalin-1 (LCN-1); p < 0.01) were found between the two groups. Significant correlations between perceived intensities of wine attributes and concentrations of PRPs and LCN-1 were observed. These results indicate that the composition of proteins in saliva are a factor that influences wine perception and preference. Our results provide a biochemical basis to understanding preference for food based on interactions between aroma compounds and salivary proteins and could be used to suggest foods or beverages to particular cultural groups.
Competing Interest Statement
The authors have declared no competing interest.
Abbreviations:
- HS-SPME/GC×GC−MS
- headspace solid-phase microextraction/comprehensive two-dimensional gas chromatography−mass spectrometry
- LC−MS/MS
- liquid chromatography−tandem mass spectrometry
- SPE
- solid phase extraction
- TPC
- total phenolic content
- CTC
- total condensed tannin content
- TA
- titratable acidity
- PRP
- proline-rich protein
- LCN-1
- lipocalin-1
- BLG
- β-lactoglobulin protein
- PRH1
- salivary acidic proline-rich phosphoprotein 1
- PRB2
- basic salivary proline-rich protein 2
- PRB3
- basic salivary proline-rich protein 3
- OBP
- odourant-binding protein
- OR
- olfactory receptors
- PCA
- principal component analysis
- CA
- correspondence analysis