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Gene Methylation Affects Salivary Levels of the Taste Buds' Trophic Factor, Gustin Protein.

Melania MelisEleonora LoiMariano MastinuLala Chaimae NaciriPatrizia ZavattariIole Tomassini Barbarossa
Published in: Nutrients (2024)
The salivary protein, Gustin/carbonic anhydrase VI, has been described as a trophic factor responsible for the growth of taste buds. We found, in a genetically homogeneous population, that the polymorphism rs2274333 (A/G) of the Gustin gene is crucial for the full functionality of the protein and is associated with taste sensitivity. However, other studies have failed to find this evidence. Here, we verified if Gustin gene methylation can affect the salivary levels of the protein, also concerning the polymorphism rs2274333 and PROP bitter responsiveness. The Gustin gene methylation profiling and the quantification of the Gustin salivary levels were determined in sixty-six volunteers genotyped for the polymorphism rs2274333 (A/G) (Ser90Gly in the protein sequence). The fungiform papillae density was also determined. The results confirm our earlier observations by showing that AA genotypes had a greater density of fungiform taste papillae, whereas the GG genotypes showed a lower density. We also found variations in the protein levels in the three genotype groups and an inverse relationship between Gustin gene methylation and the salivary levels of the protein, mostly evident in AA and ST volunteers, i.e., in volunteers who would be carriers of the functional isoform of the protein. These findings could justify the conflicting data in the literature.
Keyphrases
  • genome wide
  • protein protein
  • copy number
  • binding protein
  • dna methylation
  • systematic review
  • small molecule
  • gene expression
  • machine learning
  • single cell
  • artificial intelligence