Humanin – Aliquot, 10mg

Data Sheet

Application	Humanin binds to cell surface receptors CNTFR/WSX-1/gp130 and formyl-peptide receptor-like-1 (FPRL1)
CAS	330936-69-1
Molar Mass	2687.2 g/mol
Chemical Formula	C119H204N34O32S2
Amino Acid Sequence	MAPRGFSCLLLLTSEIDLPVKRRA
Synonyms	Humanin, 330936-69-1, H975EUX36G, DTXSID70186749, DTXCID60109240, HUMANIN TRIFLUOROACETATE, formyl humanin, Protein Humanin (human), 1-24-Protein humanin (human), Protein (human clone 1 humanin sequence homolog), 1-24-Protein humanin, GTPL1047, orb1981427, CHEMBL4447799, SCHEMBL29370426, PHN-4384-V
Storage	Store at ≤4°C, tightly sealed, away from heat, light and moisture.
Solubility	Soluble in BAC Water
Organoleptic Profile	White powder in 3mL glass aliquot
Composition	Each aliquot contains Humanin, Acetate
Specification	Humanin content (per aliquot): Humanin 10mg ±10%
Terms	This material is sold for laboratory research use only. Terms of sale apply. Not for human consumption, nor medical, veterinary, or household uses. Please familiarize yourself with our Terms & Conditions prior to ordering.

Mitochondrial-Derived Peptide for Cytoprotection and Longevity Research

Humanin is a research-grade mitochondrial-derived peptide widely studied for its potential relevance in cytoprotective signaling, mitochondrial resilience pathways, cellular stress-response research, and longevity biology investigations. As an endogenous peptide of significant interest in aging and neuroprotection science, Humanin has attracted scientific attention in models involving mitochondrial signaling, apoptotic regulation pathways, and metabolic resilience mechanisms.

Researchers have investigated Humanin in studies involving peptide-mediated cytoprotection, oxidative stress-associated signaling, neuroprotective mechanisms, and age-associated cellular biology research. Its investigational profile has made it a notable compound in advanced peptide and longevity science.

Supplied as a laboratory-grade aliquot for analytical and research applications.

Common Research Areas

• Mitochondrial Signaling Research
• Cytoprotective Pathway Studies
• Cellular Resilience Investigation
• Longevity and Healthy Aging Models
• Peptide Biology Research

How Humanin Works

Humanin has been studied for its potential interaction with pathways associated with mitochondrial signaling, cellular defense mechanisms, and stress-response regulation. Researchers have explored its relevance in models involving apoptotic signaling pathways, metabolic resilience biology, and peptide-mediated cytoprotection research.

Its endogenous peptide profile has made it a recurring subject in advanced longevity research.

Research Overview

Humanin has been investigated across a range of research models involving aging biology, mitochondrial pathways, and cellular resilience signaling.

Areas of scientific interest include:

• Mitochondrial pathway studies
• Cytoprotective signaling investigations
• Cellular resilience research models
• Healthy aging mechanism studies
• Peptide longevity pathway research

Its broad research relevance continues to make it a notable compound in peptide science.

Humanin vs Related Compounds

Humanin vs MOTS-c

Humanin is often researched in mitochondrial-derived cytoprotective models, while MOTS-c is commonly investigated in mitochondrial metabolic signaling pathways.

Humanin vs Epitalon

Epitalon has drawn interest in telomerase and longevity-associated investigations, whereas Humanin is more strongly associated with mitochondrial resilience research.

Frequently Asked Questions

What is Humanin studied for?

It is commonly researched in mitochondrial signaling, cytoprotection, cellular resilience, and longevity-associated models.

What type of compound is Humanin?

Humanin is classified as a mitochondrial-derived research peptide.

How should Humanin be stored?

Lyophilized peptide aliquots are generally stored refrigerated according to laboratory handling protocols.