Kisspeptin — Research Peptide
Kisspeptin is a synthetic peptide fragment derived from the larger kisspeptin protein and is supplied for laboratory research purposes. Within scientific literature, this peptide has been referenced in studies examining receptor activity and hormone-associated cellular mechanisms under controlled experimental conditions.
Provided as a lyophilised material, Kisspeptin is utilised in laboratory environments where precise preparation and consistent handling are required for research workflows.
Research Areas of Interest
Scientific literature referencing Kisspeptin includes investigation into areas such as:
• Experimental study of receptor interactions within hormone-related laboratory models
• Investigation of signalling pathways examined within endocrine research environments
• Evaluation of cellular activity associated with regulatory mechanisms studied in laboratory settings
• Exploration of receptor pathway activity within broader cellular signalling research models
These areas reflect ongoing scientific exploration and position Kisspeptin as a subject of continued laboratory research interest.
Technical Information
Product Name: Kisspeptin
Chemical Name: Kisspeptin peptide
Synonyms: Metastin (45–54), KP-10
Molecular Formula: C₅₀H₆₈N₁₄O₁₀
Molecular Weight: ~1302.5 g/mol
Amino Acid Sequence: Tyr-Asn-Trp-Asn-Ser-Phe-Gly-Leu-Arg-Phe-NH₂
Classification: Synthetic decapeptide derived from kisspeptin
Form: Lyophilised powder
Storage Guidelines
Lyophilised material remains stable at room temperature for short periods during laboratory handling.
For extended storage, material should be maintained at −20 °C or below. Following reconstitution, solutions should be stored refrigerated and handled according to standard laboratory protocols.
Solubility
Kisspeptin is typically soluble in sterile laboratory water or suitable aqueous buffers depending on laboratory preparation requirements.
References
Oakley, A. E., Clifton, D. K., & Steiner, R. A. (2009). Kisspeptin signalling pathways examined within experimental brain models. Endocrine Reviews, 30(6), 713–743.
Jayasena, C. N., & Dhillo, W. S. (2013). Studies examining kisspeptin activity within endocrine regulatory research contexts. Frontiers in Endocrinology, 4, 220.
Research Use Notice
This product is supplied strictly for laboratory research purposes only. It is not intended for human or veterinary consumption, therapeutic application, or diagnostic use. Products supplied are not medicines, food products, or cosmetic ingredients.