Oxytocin Acetate – Aliquot
Data Sheet
| Application | Binds to oxytocin receptors in the uterine myometrium |
| CAS | 50-56-6 |
| Molar Mass | 1007.20 g/mol |
| Chemical Formula | C43H66N12O12S2 |
| Amino Acid Sequence | H-CYIQNCPLG-OH |
| Synonyms | OXYTOCIN, 50-56-6, Pitocin, Ocytocin, Syntocinon, Endopituitrina, Orasthin, Oxitocina, Oxytocine, Oxytocinum, Oxytocin acetate, (1-Hemicystine)oxytocin, Piton S, 3-Isoleucine-8-leucine vasopressin, UNII-1JQS135EYN, Oxytocic hormone, alpha-Hypophamine, 1JQS135EYN, CHEBI:7872, CHEMBL395429, MFCD00076731, Oxystin, Partocon, Synthetic oxytocin, OXT, Ocytocinum, Ossitocina |
| Storage | Store at ≤4°C, tightly sealed, away from heat, light and moisture. |
| Solubility | Soluble in water |
| Organoleptic Profile | Fine white powder in 3mL glass aliquot |
| Composition | Each aliquot contains Oxytocin, Acetate (counterion) |
| Specification | Oxytocin content (per aliquot): Oxytocin 5mg ±15% Oxytocin 6mg ±15% |
| 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. |
Neuropeptide Hormone Compound for Research Use
Oxytocin Acetate is a research-grade peptide hormone widely studied for its role in neuroendocrine signaling, social behavior pathways, smooth muscle physiology, and receptor-mediated signaling mechanisms. As a naturally occurring peptide produced in the hypothalamus, Oxytocin has attracted significant research interest in models involving bonding behavior, stress modulation, reproductive physiology, and central nervous system signaling.
Beyond its classical endocrine roles, Oxytocin has also been investigated in emerging research related to emotional processing, metabolic signaling, and neuromodulation.
Supplied as a laboratory-grade aliquot for analytical and research applications.
Common Research Areas
- Neuropeptide Signaling Research
- Oxytocin Receptor Studies
- Social Behavior Models
- Stress and Neuromodulation Research
- Reproductive Physiology Investigation
How Oxytocin Acetate Works
Oxytocin acts through oxytocin receptors distributed in both central and peripheral tissues, where it has been studied for its involvement in neurotransmission, smooth muscle signaling, and hormonal regulation. Researchers have investigated its effects on pathways associated with social bonding, stress response, and neuroendocrine communication.
Its broad physiological relevance has made Oxytocin a notable subject in both behavioral and endocrine research.
Research Overview
Oxytocin Acetate has been explored in a wide range of research models involving social cognition, receptor signaling, autonomic regulation, and neuroendocrine function.
Areas of scientific interest include:
- Oxytocin receptor pathway research
- Behavioral and social signaling studies
- Stress and emotional modulation models
- Neuroendocrine communication research
- Reproductive hormone signaling investigations
Its unique position at the intersection of neuroscience and endocrinology has contributed to sustained scientific interest.
Oxytocin vs Related Peptide Compounds
Oxytocin vs Vasopressin
While Oxytocin is commonly researched for social and neuroendocrine signaling, Vasopressin is often investigated for fluid balance, vascular signaling, and overlapping behavioral pathways.
Oxytocin vs Kisspeptin
Kisspeptin is typically studied in reproductive signaling pathways, while Oxytocin has broader applications in neuromodulation and social behavior research.
Frequently Asked Questions
What is Oxytocin Acetate studied for?
It is commonly researched in neuropeptide signaling, social behavior, stress modulation, and endocrine models.
What does the acetate form mean?
The acetate designation refers to the salt form commonly used in peptide preparation.
How should Oxytocin Acetate be stored?
Lyophilized peptide aliquots are generally stored refrigerated according to laboratory handling protocols.
