Qingdao Shengshi Zhiyang Import and Export Co., Ltd.
 
 
Pinealon Neuro-Regulatory Tripeptide
  • Brand:Shengshizhiyang
  • Model:1*1
  • Purity:99%
  • Cas:175175-23-2
  • Createtime: 2026-07-08
  • Updatetime: 2026-06-30
Product Details
One box 10vials
useage Short peptide for brain aging, memory and neuroprotection lab research
deliveryInfo
appearance White lyophilized powder
aliasen
supplyCapacity 100G/Day
harbor Hong Kong
minorder 1G
Payment method Alibaba, PayPal, USDT, bank card, Western Union remittance
Delivery date 10 days
Whatsapp +86 155 1138 8892

Name: Pinealon

Alias: EDR Tripeptide, Pineal Gland Bioregulator Peptide
CAS Registry number: 175175-23-2
Sequence:
Glu-Asp-Arg-OH
Molecular Formula: C??H??N?O?
Molecular Weight: 418.4 Da
Purity: ≥99% (by HPLC)
Appearance: White lyophilized powder
Packing: 5mg10vials / 10mg10vials / 20mg*10vials
Product Group: Pineal gland derived neuro-regulatory short peptide

Storage Conditions: Store at -20℃ in a dry, dark place; avoid repeated freeze-thaw cycles.


Brief Introduction:

Pinealon is a synthetic tripeptide belonging to Khavinson organ-specific bioregulator peptide series, exclusively for laboratory research. It can cross cell and nuclear membranes to directly bind chromatin and regulate neuronal gene expression, different from receptor-dependent peptides. It blocks ERK1/2 signaling, eliminates intracellular ROS, upregulates antioxidant enzymes and downregulates pro-apoptotic proteins p53 & caspase-3 to reduce spontaneous neuronal death. It boosts neural precursor cell proliferation, enhances serotonin secretion, stabilizes circadian rhythm, improves learning and memory, and alleviates brain hypoxia & ischemia injury. Widely applied in brain aging, cognitive function, pineal gland regulation, neurogenesis and epigenetic peptide research.


Main Research Applications:
Aging cognitive research: Used in cell and animal models to study memory retention and senile brain function recovery mechanisms.
Neuronal oxidative stress research: Suitable for exploring ROS clearance and anti-apoptotic neuronal protection pathways.
Circadian rhythm & pineal gland research: Applied to investigate melatonin-related gene regulation and sleep cycle stabilization.
Brain ischemia & hypoxia research: For comparative analysis of cerebral nerve cell damage mitigation.
Short peptide epigenetic regulation research: Study chromatin-targeted gene modulation effects of organ bioregulators.


Note:

This product is for laboratory research use only. It is not intended for human or animal therapeutic use, clinical trials, or any form of in vivo administration without prior ethical approval and regulatory authorization.


Contact
Phone:+852 5426 4167
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Whatsapp:852 5426 4167