Tripeptide

A tripeptide is a peptide made of three amino acids linked together by two peptide bonds.

  • Tri–” means three
  • A tripeptide forms when three amino acids join in a specific sequence through peptide bonds (dehydration reactions)

It’s one step more complex than a dipeptide and still considered an oligopeptide — a short-chain peptide.

🔗 How Is a Tripeptide Formed?

  • The carboxyl group (-COOH) of the first amino acid bonds with the amino group (-NH₂) of the second.
  • Then the second’s carboxyl group bonds with the third’s amino group.
  • This forms two peptide bonds and releases two molecules of water (H₂O).

🧪 Examples of Tripeptides

TripeptideAmino AcidsFunction
GlutathioneGlutamate + Cysteine + GlycinePowerful antioxidant, detoxification, immune function
TRHGlutamic acid + Histidine + ProlineStimulates TSH and prolactin from the pituitary
L-carnosine (dipeptide often combined into tripeptide forms in supplements)Brain and muscle antioxidant

🔬 Biological Importance

  • Tripeptides are involved in:
    • Antioxidant defense (e.g., glutathione neutralizes free radicals)
    • Hormonal regulation (e.g., TRH triggers thyroid hormone pathways)
    • Immune system support
    • Cell signaling and metabolic regulation
  • Many tripeptides are also rapidly absorbed and utilized by the body, making them useful in medical and nutritional therapies.

🍽️ Tripeptides in Digestion

  • Proteins are broken down into smaller peptides (including tripeptides) during digestion.
  • Tripeptides are absorbed efficiently in the small intestine via PEPT1 transporters.
  • Once inside cells, they may:
    • Be further broken down into amino acids
    • Be used directly for signaling or metabolic purposes

🧠 Summary Table:

FeatureTripeptide
Composition3 amino acids
Bonds2 peptide bonds
TypeOligopeptide
Biological rolesAntioxidant, hormonal, immune, metabolic signaling
Common examplesGlutathione, TRH
Importance in healthDetoxification, hormone regulation, cell protection