Peptides

PT-141 (Bremelanotide) is a synthetic melanocortin peptide studied in peptide research for its interaction with melanocortin receptors involved in neurological signaling. The PT-141 peptide is derived from melanocortin-related peptides and is investigated for its ability to influence pathways in the central nervous system. Because melanocortin peptides play a role in several physiological signaling mechanisms, the PT-141 peptide has become an important peptide of interest in studies related to neurological peptides, regulatory peptides, and melanocortin receptor research.

CD5 Peptide is a synthetic immune-regulating peptide designed to study the modulation of immune cell activity and immune system signaling. The CD5 peptide is derived from the CD5 glycoprotein, an important receptor expressed on T lymphocytes and certain B lymphocytes that plays a role in immune regulation. In peptide research, the CD5 peptide is investigated for its potential influence on signal transduction pathways involved in immune tolerance and inflammatory responses. Because regulatory peptides such as the CD5 peptide interact with immune signaling mechanisms, this peptide has become a subject of interest in studies exploring immune modulation, inflammation pathways, and peptide-based immune research.

AOD-9604 is a synthetic peptide derived from the C-terminal fragment of human growth hormone (hGH). The AOD-9604 peptide has been developed and studied in peptide research for its potential role in fat metabolism and metabolic signaling pathways. Unlike some growth hormone–related peptides, the AOD-9604 peptide appears to target mechanisms involved in lipolysis and fat metabolism without significantly influencing growth hormone or IGF-1 levels. Because of this selective activity, the AOD-9604 peptide has become an important peptide of interest in studies focused on metabolism, fat metabolism research, and peptide-based metabolic regulation.

DSIP (Delta Sleep-Inducing Peptide) is a naturally occurring neuropeptide that has been studied for its role in sleep regulation and stress response. The DSIP peptide is of particular interest in peptide research because it appears to influence biological mechanisms associated with deep and restorative sleep. Researchers investigate the DSIP peptide for its potential effects on sleep quality, emotional balance, and cognitive function. In addition, this peptide is explored in studies related to stress regulation, pain modulation, and metabolic processes. Due to these properties, the DSIP peptide remains an important peptide of interest in neuroscience and sleep-related peptide research.

NAD+ (Nicotinamide Adenine Dinucleotide) is a vital cellular coenzyme found in all living cells. NAD+ plays a central role in cellular energy metabolism, mitochondrial function, and redox reactions that convert nutrients into ATP. This molecule is also essential for DNA repair, cellular signaling, and the activation of enzymes such as sirtuins and PARPs that regulate metabolic health and cellular stress responses. Because NAD+ levels naturally decline with age, NAD+ has become an important focus of research related to aging, metabolic function, and cellular health.

Selank is a synthetic peptide and a heptapeptide analog of the natural human tetrapeptide tuftsin. This research peptide is widely studied for its potential anxiolytic (anti-anxiety), nootropic (cognitive-enhancing), and neuroprotective properties. The Selank peptide is of particular interest in peptide research because it appears to influence key neurotransmitter systems such as serotonin and dopamine. Due to these mechanisms, the Selank peptide is frequently investigated in studies related to mental health, stress resilience, and cognitive performance. Researchers continue to explore this peptide to better understand how peptides may support neurological balance and brain function.

Semax is a synthetic peptide derived from a fragment of adrenocorticotropic hormone (ACTH). This research peptide is widely studied in scientific laboratories for its potential nootropic and neuroprotective properties. The Semax peptide has been investigated for its ability to support cognitive function, improve memory, and promote brain health in experimental settings. Researchers often explore this peptide for its potential role in protecting neural tissue and supporting neurorestorative processes. Due to its unique structure, the Semax peptide continues to be an important peptide of interest in neuroscience and peptide research.

Epithalon is a synthetic bioregulatory peptide composed of four amino acids: alanine, glutamic acid, aspartic acid, and glycine. This Epithalon peptide was developed based on research into epithalamin, a naturally occurring peptide produced by the pineal gland. The Epithalon peptide is widely studied in peptide research for its potential role in regulating biological rhythms and cellular aging processes. Researchers investigate this peptide for its possible influence on telomerase activity, which is associated with cellular lifespan and telomere maintenance. Due to these characteristics, the Epithalon peptide has become an important peptide of interest in studies focused on aging, cellular regeneration, and peptide-based bioregulation.

CJC-1295 is a synthetic peptide composed of 30 amino acids that is designed to mimic the biological activity of growth hormone–releasing hormone (GHRH). The CJC-1295 peptide is widely studied in peptide research for its potential ability to stimulate the GHRH receptors in the pituitary gland. Through this mechanism, the CJC-1295 peptide may influence the natural signaling pathways involved in growth hormone (GH) release and IGF-1 production. Due to structural modifications, the CJC-1295 peptide demonstrates an extended half-life compared to many other GHRH-related peptides. Because of these characteristics, this peptide has become an important peptide of interest in studies focused on endocrine signaling, metabolic regulation, and peptide-based hormone research.

BAC Water (Bacteriostatic Water) for peptides is a sterile, non-pyrogenic solution containing 0.9% benzyl alcohol, designed for the reconstitution and dilution of peptides in laboratory and research settings. It inhibits bacterial growth after initial puncture, allowing for extended usability while maintaining solution integrity.

BAC Water (Bacteriostatic Water) for peptides is a sterile, non-pyrogenic solution containing 0.9% benzyl alcohol, designed for the reconstitution and dilution of peptides in laboratory and research settings. It inhibits bacterial growth after initial puncture, allowing for extended usability while maintaining solution integrity.

CJC-1295 is a synthetic peptide composed of 30 amino acids that is designed to mimic the biological activity of growth hormone–releasing hormone (GHRH). The CJC-1295 peptide is widely studied in peptide research for its potential ability to stimulate the GHRH receptors in the pituitary gland. Through this mechanism, the CJC-1295 peptide may influence the natural signaling pathways involved in growth hormone (GH) release and IGF-1 production. Due to structural modifications, the CJC-1295 peptide demonstrates an extended half-life compared to many other GHRH-related peptides. Because of these characteristics, this peptide has become an important peptide of interest in studies focused on endocrine signaling, metabolic regulation, and peptide-based hormone research.