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Cellular Longevity Research Bundle (MOTS-c, Epithalon, Vesugen)

Original price was: $215.00.Current price is: $170.00.

Three of our top-tier metabolic and bioregulator peptides, including MOTS-c (10mg), Epithalon (10mg), and Vesugen (20mg) bundled together to provide everything needed to investigate mitochondrial function, cellular senescence, and endothelial pathways in one convenient, cost-effective package.

Total Value: $215.00
Bundle Price: $170.00 (You Save $45.00)
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Research use only. Not for human use or consumption.

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MOTS-c

Buy MOTS-c 10mg-20mg online at Protide Health. Mitochondrial peptide for energy, metabolism & endurance research studies. 99% purity, USA-made, third-party tested (HPLC/Mass Spec).

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10mg

Epithalon 10mg

Epithalon: A Synthetic Tetrapeptide for Telomere and Aging Research
Epithalon is used in research to explore cellular longevity, senescence, and age-related degeneration in controlled settings

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Vesugen 20mg

Vesugen, a synthetic peptide derived from vascular endothelial tissue, has been studied for its potential role in supporting heart function, improving circulation, and enhancing vascular repair. Research has explored its ability to optimize blood vessel elasticity, reduce cardiovascular stress, and promote overall vascular health, making it a focus in longevity and cardiovascular studies.

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99% Purity (HPLC-MS Verified)
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Disclaimer: This product is intended solely for laboratory research purposes. It is not for human consumption, medical use, veterinary use, or household application. All product information on this website is provided for educational purposes only. Researchers must handle this product with appropriate safety protocols and comply with all applicable regulations. Please review our Terms & Conditions before purchasing.

Investigating the Cellular Longevity Research Bundle

The Cellular Longevity Research Bundle combines three specific compounds for laboratory investigation into metabolic, chromosomal, and vascular pathways. Researchers utilize this combination to examine the molecular mechanisms of cellular decline in controlled environments. Human evidence remains absent.

MOTS-c and Metabolic Research Peptides

MOTS-c is a 16-amino-acid peptide encoded within the mitochondrial genome. Laboratory studies investigate its role as a retrograde signal from mitochondria to the nucleus.

Preclinical models measure:

Activation of AMPK (a cellular energy-sensing pathway)
Regulation of adaptive gene expression
Modulation of mitochondrial bioenergetics

In vitro studies observe AMPK pathway activation and nuclear translocation under metabolic stress (PubMed). Investigators often review peptide categories to understand these specific mitochondrial-derived peptides. Researchers note that physical activity induces endogenous expression in laboratory models (Nature Communications).

Epithalon in Chromosomal Models

Epithalon is a synthetic tetrapeptide (Ala-Glu-Asp-Gly) based on pineal gland extracts. Research examines its influence on the chromosomal clock within isolated cellular cultures.

Laboratory investigations focus on:

Induction of hTERT (the catalytic subunit of telomerase)
Activation of telomerase enzymatic activity
Elongation of telomeres in somatic cells

In vitro models show measurable telomere elongation and hTERT mRNA expression across multiple cell types (PubMed). Additional analyses evaluate the Alternative Lengthening of Telomeres (ALT) pathway (PMC).

Vesugen and Endothelial Investigation

Vesugen is a synthetic tripeptide (Lys-Glu-Asp) classified as a vasoprotective bioregulator. Preclinical models evaluate its epigenetic regulation of vascular endothelial cell function.

Studies investigate Vesugen for:

Stimulation of Ki-67 (a cellular proliferation marker)
Normalization of endothelin-1 signaling
Interaction with the MKI67 gene promoter

Molecular docking analyses demonstrate interaction with the core promoter of specific genes associated with cellular proliferation (PubMed). For broader context on peptide bioregulators, scientists can explore comprehensive peptide guides. In related structural models, research examines changes in dendritic arborization (PMC).

Cellular Longevity Research Bundle Components

Parameter	MOTS-c	Epithalon	Vesugen
Structure	16-amino-acid peptide	Tetrapeptide (AEDG)	Tripeptide (KED)
Primary Target	AMPK/CK2α	Telomerase (hTERT)	Ki-67/SIRT1
Research Focus	Metabolic pathways	Chromosomal maintenance	Vascular endothelial function

Frequently Asked Questions

Why use this specific research combination?

The framework allows investigators to study metabolic, chromosomal, and vascular pathways simultaneously. This approach helps researchers examine interconnected feedback loops in preclinical models.

How do peptide bioregulators function in vitro?

Peptide bioregulators are hypothesized to interact directly with DNA and histone proteins. Laboratory analyses measure these tissue-specific interactions without utilizing clinical outcome variables.

Where can laboratories acquire these materials?

Qualified researchers can source these compounds through the shop at Protide Health. For analytical documents or specific assay inquiries, investigators can use the contact page.

The Cellular Longevity Research Bundle provides a comprehensive toolkit for investigating the molecular mechanisms of cellular models. By targeting mitochondrial, telomere, and vascular pathways, researchers can execute multi-target laboratory investigations. Human evidence is limited, and these compounds are strictly for research application.

References

Reynolds JC et al. MOTS-c is an exercise-induced mitochondrial-encoded regulator of age-dependent physical decline and muscle homeostasis. Nature Communications. Nature Communications
Wan W et al. MOTS-c activates AMPK through the folate-AICAR pathway and undergoes nuclear translocation under metabolic stress. Cell Metabolism. PubMed
Khavinson VK et al. Epithalon peptide induces telomerase activity and telomere elongation in human somatic cells. Bulletin of Experimental Biology and Medicine. PubMed
Araj SK et al. Epitalon increases telomere length in human cell lines through telomerase upregulation or ALT activity. PMC. PMC
Khavinson VK et al. Epigenetic aspects of peptidergic regulation of vascular endothelial cell proliferation during aging. Advances in Gerontology. PubMed
Kraskovskaya N et al. Short peptides protect fibroblast-derived induced neurons from age-related changes. International Journal of Molecular Sciences. PMC

Legal Disclaimer

The information provided is for educational and research purposes only. The compounds included in this bundle are intended solely for investigational use in controlled laboratory and in vitro settings by qualified researchers. Protide Health does not endorse or promote the use of these compounds for the diagnosis, treatment, cure, or prevention of any disease. Products sold by Protide Health are strictly for laboratory research purposes and are not intended for human consumption, medical use, or veterinary application.