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17:0-14:1 PI-[d5] Ammonium salt

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Category Standards
Catalog NO. BPG-3170
Product Name 17:0-14:1 PI-[d5] Ammonium salt
CAS 2342575-29-3
Molecular Formula C40H73D5NO13P
Molecular Weight 817.06
17:0-14:1 PI-[d5] Ammonium salt
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Product Information

Synonyms 1-heptadecanoyl-2-myristoleoyl-sn-glycero(d5)-3-phosphoinositol (ammonium salt); 17:0-14:1 PI-d5 sodium salt; 1-Heptadecanoyl-2-(9Z-Tetradecenoyl)-Sn-Glycero-3-Phospho-(1'-Myo-Inositol)-d5 (Ammonium salt); PI(17:0/14:1(9Z))-d5 ammonium salt
Purity >99%
Solubility Soluble in DCM, Methanol
Appearance Liquid
Shelf Life 1 Year
Storage Store at -20°C
Exact Mass 816.55
Hygroscopic No
Light Sensitive No
Percent Composition C 58.80%, H 10.24%, N 1.71%, O 25.46%, P 3.79%

17:0-14:1 PI-[d5] Ammonium salt, a synthetic phosphoinositide, emerges as a versatile compound with myriad applications in bioscience. Acting as a stable isotope-labeled internal standard, this compound finds utility in various research fields. Here are four key applications of 17:0-14:1 PI-[d5] Ammonium salt, presented with heightened perplexity and burstiness:

Lipidomics Research: Central to lipidomics investigations, this labeled phosphoinositide plays a critical role in quantifying and analyzing lipid species. Employing 17:0-14:1 PI-[d5] as an internal standard empowers researchers to achieve precise and reliable mass spectrometry results, enabling in-depth exploration of lipid metabolic pathways and their implications for health and disease.

Signal Transduction Studies: Within cellular signaling research, 17:0-14:1 PI-[d5] Ammonium salt stands out as a key player in deciphering phosphoinositide-dependent signal transduction cascades. Its incorporation facilitates the monitoring of dynamics and localization of phosphoinositides in cells, providing essential insights into the mechanisms driving cellular processes like growth, differentiation, and apoptosis.

Drug Development: An indispensable component in drug discovery, this compound plays a significant role in assessing the impacts of pharmacological agents on phosphoinositide-related pathways. Through meticulous examination of drug-pathway interactions, scientists can identify new therapeutic targets and refine drug candidates, particularly beneficial in diseases characterized by abnormal lipid signaling, such as certain cancers and metabolic disorders.

Biochemical Assays: Extensively utilized in various biochemical assays, 17:0-14:1 PI-[d5] Ammonium salt proves invaluable in measuring enzyme activities, especially those associated with phosphoinositide metabolism. By introducing this labeled lipid into assays, researchers can more precisely evaluate the activities of specific kinases, phosphatases, and lipases, shedding light on enzyme function and regulation, thus enhancing our understanding of cellular biochemistry.

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