$55.00
Bioregulator
Contents: 10mg of Pinealon
Form: Lyophilized Powder
Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested)
Verification: Verifiable COA’s
Emerging Research Evidence:
Pinealon 10mg is researched to investigate the pathways of intensive neural-rhythm mapping and signaling synchronization. This concentrated tripeptide format allows for the observation of comprehensive nuclear saturation and gene-expression resilience in controlled environments. Research focuses on enhanced cognitive pathway harmony and signal precision, providing a broadened technical framework for understanding how high-density signals support biological rhythm and systemic coordination at a molecular level.
Keep product in cool, dark place.
Sold for Research Use Only / Not FDA Regulated
In stock
Pinealon 10mg is an intensive-format tripeptide utilized in laboratory models to study enhanced neural-rhythm mapping and circadian signaling synchronization. This higher-capacity format allows researchers to observe how molecules achieve comprehensive nuclear signaling saturation and maintain intracellular harmony within a controlled environment. Investigators use this research compound to track gene-expression resilience and the long-term maintenance of neural signaling pathways.
Researchers employ Pinealon to analyze how tripeptide concentration influences the precision of transcription-associated communication and pathway modulation. By mapping these high-density signaling cascades, investigators gather technical data on how systems manage neuro-alignment and maintain biological agility at a molecular level.
Current studies focus on exploring the saturation dynamics of signal specificity and cellular response patterns. This 10mg vial provides a broadened technical framework for investigating the complex signaling networks that support systemic integrity, offering an expansive look at molecular coordination without focusing on memory, aging, or neuroprotection outcomes.
CAS Number: 175175-23-2
Molecular Formula: C₁₅H₂₆N₆O₈
Molecular Weight: 418.40 g/mol
Monoisotopic Mass: 418.1812 Da
Parent Compound:
Tripeptide Glu-Asp-Arg (L-glutamic acid, L-aspartic acid, L-arginine).
Pinealon is utilized in pre-clinical research models across the following areas:
Short-Chain Peptide Signaling Research
Investigating intracellular signaling behavior and pathway modulation mediated by small peptide regulators.
Gene-Expression & Transcriptional Pathway Studies
Studying peptide-associated regulation of gene-expression patterns in laboratory systems.
Cellular Stress-Response Signaling Models
Examining signaling pathway adaptation and molecular response behavior under controlled experimental stress conditions.
Intracellular Communication & Pathway Coordination
Researching signaling integration between cytoplasmic and nuclear pathways in experimental environments.
Peptide-Mediated Biomarker Modulation
Evaluating changes in signaling biomarkers associated with short-chain peptide exposure in pre-clinical models.
Pinealon 10mg is a high-capacity research analyte used to explore the pathways of enhanced neural-rhythm mapping and signaling synchronization. In laboratory settings, this tripeptide format allows researchers to observe how concentrated interactions coordinate nuclear signaling saturation and maintain gene-expression resilience within a controlled environment. These exploratory studies focus on mapping the depth of intracellular communication and how high-density signals support cognitive pathway harmony, providing expansive technical data on signaling behavior without any focus on neurological, cognitive, or therapeutic results.
Pinealon is intended for laboratory research use only. Not for human or veterinary consumption. Not approved by the FDA for therapeutic or diagnostic use. All referenced studies are pre-clinical and exploratory.
For Research Use Only — Not for Human or Veterinary Use. Not evaluated or approved by the FDA. Not intended to diagnose, treat, cure, or prevent any disease. All information on this website is provided strictly for laboratory research and educational purposes. Nothing herein constitutes medical, clinical, or legal advice, nor an endorsement of non-laboratory use. Any discussion of specific peptides or potential research findings is informational only and must not be interpreted as guidance for use in or on humans or animals.
