DSIP
DSIP is supplied strictly as a laboratory research peptide for analytical and scientific use only. Available to qualified researchers, laboratories, and institutions in Perth and across Western Australia, with Australian-based fulfilment.
Intended for in-vitro research, assay development, method validation, and controlled scientific investigation conducted by appropriately qualified professionals.
Product details
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Product: DSIP (Delta Sleep-Inducing Peptide)
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Molecular Formula: C35H48N10O15
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Strength / size: 5mg & 10mg
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Category: Research peptide / laboratory compound
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Use: Laboratory research only
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Certification: Certificate of Analysis (COA) / batch documentation (where available)
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Supply: Perth & Western Australia (AU shipping)
DSIP is a naturally occurring neuropeptide made of 9 amino acids that may influence diverse endocrine and physiological pathways involved in the central nervous system. DSIP is of key interest as it was developed to help combat oxidative stress and normalize myocardial contractility. The peptide is considered a potential research candidate in studies of major depressive disorder. Delta sleep-inducing peptide (DSIP) is a naturally occurring peptide of short length. The molecule’s name came about due to researchers’ speculation of its potential to induce sleep in rabbits and because it was first isolated from the brains of rats during slow-wave sleep (in 1977). Slow Wave Sleep (SWS), often referred to as deep sleep, is considered a pivotal phase within the overall sleep architecture, which is composed of non-rapid eye movement (NREM) sleep and rapid eye movement (REM) sleep. Sleep architecture itself exhibits a cyclical pattern, typically oscillating between NREM and REM phases multiple times throughout the duration of total sleep. Predominantly classified under the NREM sleep category, SWS is characterized by its distinctive low-frequency, high-amplitude delta brainwaves, as observed in electroencephalogram (EEG) recordings. The sleep cycle initiates with NREM sleep, which is further divided into three phases: N1, N2, and N3. The initial stages, N1 and N2, represent lighter sleep phases, whereas N3, equated with SWS, signifies the deepest phase of sleep. Upon completion of the deep sleep phase, the cycle transitions to REM sleep, marked by heightened brain activity and dreaming. Researchers have gradually explored its function in different endocrine and physiological roles. In addition to its potential influence on sleep patterns, DSIP appears to influence levels of corticotropin, inhibit the production of somatostatin, reduce stress hormone secretion, maintain normal blood pressure, alter sleep patterns and also may impact pain perception.
