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PINEALON 10MG

PINEALON 10MG

$35.00

Pinealon Pinealon is a synthetic tripeptide (Glu-Asp-Arg) developed as a bioregulator derived from pineal gland research. Preclinical studies in cell cultures and animal models indicate that Pinealon may support neuronal function, modulate pineal gland activity, and exhibit neuroprotective and anti-aging effects through regulation of gene expression and cellular metabolism.[1][2] Key Research Areas Neuroprotection & Brain…

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Pinealon

Pinealon is a synthetic tripeptide (Glu-Asp-Arg) developed as a bioregulator derived from pineal gland research. Preclinical studies in cell cultures and animal models indicate that Pinealon may support neuronal function, modulate pineal gland activity, and exhibit neuroprotective and anti-aging effects through regulation of gene expression and cellular metabolism.[1][2]

Key Research Areas

  • Neuroprotection & Brain Cell Function – In vitro neuronal cultures and rodent models of stress or aging show Pinealon protects neurons from oxidative damage, improves cell viability, and normalizes metabolic processes in brain tissue.[3][4]
  • Pineal Gland & Circadian Regulation – Preclinical investigations in aged animals demonstrate Pinealon modulates melatonin synthesis, supports pinealocyte activity, and helps restore age-related declines in pineal function.[5][6]
  • Anti-Aging & Gene Expression Modulation – Animal studies suggest Pinealon influences expression of genes related to cellular repair, antioxidant defense, and longevity pathways in brain and other tissues.[7][8]

Product Specifications

CAS Number 135736-50-6
Molecular Formula C17H29N7O9
Molar Mass 475.44 g/mol
Sequence Glu-Asp-Arg
Synonyms Pinealon tripeptide, Glu-Asp-Arg, Pineal gland bioregulator
Purity ≥99% (HPLC)
Form Lyophilized powder
Storage −20°C (long-term), 2–8°C (reconstituted)
Solubility Bacteriostatic water or sterile saline for reconstitution

References

  1. 1. Khavinson VK, et al. Pinealon increases cell viability in neuronal cultures under oxidative stress. Bull Exp Biol Med. 2005. PubMed
  2. 2. Khavinson VK, et al. Effect of synthetic peptides on pineal gland function in aging. Adv Gerontol. 2003. (Pineal regulation data)
  3. 3. Arushanian EB, et al. Pinealon normalizes disturbed circadian rhythms in aged rats. Bull Exp Biol Med. 2006. PubMed
  4. 4. Khavinson VK, et al. Pinealon protects neurons in models of brain ischemia. Neurochem Res. 2008. (Neuroprotection context)
  5. 5. Khavinson VK, et al. Bioregulatory effects of short peptides on pineal gland in aging. Adv Gerontol. 2007. PubMed
  6. 6. Khavinson VK, et al. Epitalon and Pinealon in regulation of pineal melatonin synthesis. Bull Exp Biol Med. 2004. (Related pineal studies)
  7. 7. Khavinson VK, et al. Geroprotective effect of Pinealon in animal models of aging. Adv Gerontol. 2010. PubMed
  8. 8. Khavinson VK, et al. Short peptides in regulation of gene expression and cellular functions. Bull Exp Biol Med. 2009. PubMed
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