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All product information available on this website is for educational purposes only. Any form of bodily introduction into humans or animals is strictly prohibited by law. This product should only be handled by licensed and qualified professionals. It is not a drug, food, or cosmetic, and must not be misbranded, misused, or mislabeled as such.

Pinealon, 20mg

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$57.95
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Pinealon is a synthetic tripeptide composed of three amino acids, studied for its potential neuroprotective and nootropic properties in research models. Research interest centers on its proposed role in circadian rhythm regulation, memory retention, and learning process research, alongside investigation of its capacity to support various cell types against hypoxic stress in experimental settings. Research applications include neuroprotective pathway studies, circadian regulation research, and comparative bioregulatory tripeptide pharmacology.

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3D Molecular Structure

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Chemical Formula C15H26N6O8
Synonyms Glutamylaspartylarginine, T-33 peptide
Molar Mass 418.407 g/mol
CAS Number 175175-23-2
PubChem CID 18220191
Total Compound Content 20mg per vial
Shelf Life 36 months
Pinealon is studied as a synthetic tripeptide with proposed neuroprotective and nootropic research properties. Research models examine its proposed role in regulating circadian rhythm-associated pathways, with particular research interest in memory retention and learning process endpoints in cognitive research models. Studies have also examined Pinealon's proposed capacity to protect various cell types from hypoxic damage in experimental conditions, alongside research into its potential relevance for offsetting age-related changes within central nervous system tissue models. Independently third-party HPLC-tested; COA available per batch.

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What cognitive research models are used to study Pinealon's proposed effects on memory and learning?

Experimental studies commonly utilize in vitro neural network models, organotypic neural tissue cultures, and cellular systems designed to assess neuroplasticity-associated pathways. Endpoints often include changes in synaptic protein expression, neuronal signalling markers, and gene-expression profiles associated with learning and memory processes.

How is Pinealon's proposed hypoxia-related activity investigated in experimental models?

Research frequently employs cell-culture systems exposed to controlled hypoxic or oxygen-glucose deprivation conditions. Common endpoints include cell viability, oxidative stress markers, apoptosis-associated biomarkers, and cellular stress-response pathways. These models allow assessment of concentration-response relationships and characterization of potential mechanisms associated with cellular adaptation to hypoxic stress.

What research models are used to study Pinealon's proposed role in circadian regulation?

Circadian research commonly utilizes cell-based clock-gene reporter systems and tissue-culture models examining expression patterns of core clock genes, including Per, Cry, Bmal1, and Clock. Molecular analyses are used to evaluate changes in circadian-associated signalling pathways and rhythmic gene-expression patterns following experimental exposure.

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