Drug Derivative

NBD 18:0 Ceramide is a fluorescently labeled sphingolipid that targets lipid metabolism pathways. Its unique properties enable visualization and tracking of ceramide dynamics in biological systems. NBD 18:0 Ceramide serves as a valuable tool for studying lipid signaling, cellular stress responses, and apoptosis in various research applications related to cell biology and metabolism.

15:0-18:1 PG sodium is a phosphatidylglycerol lipid that plays a crucial role in cell membrane structure and function. This compound is significant in studying membrane dynamics and lipid signaling pathways. Its unique fatty acid composition allows for exploration in various biological contexts, including model membrane systems and cellular response mechanisms in research applications.

Methyl 10(Z),13(Z)-nonadecadienoate is an unsaturated fatty acid methyl ester that targets lipid metabolism. It exhibits biological activities relevant to the study of lipid profiles and metabolism in various biological systems. This compound can be utilized in research applications focused on fatty acid interactions, lipid signaling pathways, and the role of unsaturated fatty acids in health and disease.

1,2-Caprin-3-palmitin is a glyceride composed of capric acid and palmitic acid. This acylglycerol plays a significant role in lipid metabolism and cellular structure. It is utilized in various research applications related to lipid biochemistry, such as studying membrane dynamics and the effects of fatty acid composition on biological processes.

C24 Ceramide-1-Phosphate (d18:1/24:0) ammonium is a sphingolipid that serves as a key signaling molecule in various biological processes. This compound is involved in regulating cell growth, differentiation, and apoptosis, making it essential for studies in cellular metabolism and neurobiology. Its unique structure allows for its application in research exploring lipid metabolism and related pathophysiological conditions.

Methyl 9(Z)-octadecen-12-ynoate is an unsaturated fatty acid methyl ester that acts as a lipid component. It exhibits important biological activities related to lipid metabolism and signaling pathways. This compound is widely used in research applications focused on fatty acid interactions, lipid profiles, and the study of metabolic disorders.

1,3-Didocosenoin (13Z) is an acylglycerol that serves as a precursor in lipid metabolism. This compound exhibits bioactivity by incorporating into cellular membranes and influencing fluidity and signaling pathways. It is commonly utilized in research investigating lipid storage, membrane dynamics, and metabolic disorders.

1-Palmitoyl-3-oleoyl-sn-glycero-2-PE is a phosphatidylethanolamine (PE) derivative featuring a unique fatty acyl composition. This lipid plays a critical role in membrane dynamics and cell signaling processes. It is utilized in various research applications, including studies on lipid metabolism, membrane biophysics, and the development of lipid-based drug delivery systems.

6(Z),9(Z),12(Z),15(Z),18(Z)-Tetracosapentaenoic acid is a polyunsaturated fatty acid that primarily targets lipid metabolism. This compound exhibits significant biological activity related to inflammation modulation and cellular membrane integrity. It is commonly utilized in research applications exploring lipid biochemistry, metabolic disorders, and the role of fatty acids in various physiological processes.

1,3-Butyrin-2-palmitin is an acylglycerol that functions primarily as a lipid. This compound is utilized in studies focusing on lipid metabolism and can serve as a model for investigating triglyceride interactions and roles within biological systems. Its structure supports research into lipid storage and energy utilization pathways in various cellular environments.

1-Laurin-2-myristin is a diacylglycerol that serves as a lipid compound. It plays a crucial role in various biological processes, including membrane formation and cellular signaling. This reagent is commonly utilized in research focused on lipid metabolism, membrane biology, and the development of lipid-based delivery systems.

1-Oleoyl-2-lauroyl-sn-glycero-3-phosphocholine is a phospholipid that plays a crucial role in cellular membrane composition and lipid bilayer formation. This compound exhibits important biological activities related to membrane fluidity and signaling pathways. It is commonly used in research applications focusing on lipidomics, membrane biophysics, and the study of lipid interactions in cellular processes.

1,3-Linolein-2-laurin is an acylglycerol that serves as an important lipid molecule. It is known for its roles in cellular membrane dynamics and may influence lipid metabolism. This compound is applicable in research focused on understanding lipid signaling pathways and exploring the biochemical effects of fatty acids in cellular processes.

1,2-Caprin-3-myristin is an acylglycerol that targets lipid metabolism. This compound is involved in various biological processes, particularly in the formation and regulation of lipid membranes. Its application in research includes studying lipid-related pathways and investigating the role of acylglycerols in cell signaling and energy storage.

16:1 SM (d18:1/16:1) is a sphingomyelin, a subtype of phosphosphingolipid that plays a crucial role in cell membrane structure and function. This compound is involved in cell signaling pathways and membrane organization, making it an important reagent for studying lipid biology and membrane dynamics. It is particularly relevant in research focused on neurobiology, cell signaling, and lipid metabolism.

1,2-Caprin-3-laurin is an acylglycerol that plays a crucial role in lipid metabolism. It can be utilized in investigations of lipid biochemistry and cellular signaling pathways. This compound is particularly relevant in studies focusing on energy storage and membrane structure in biological systems.

Methyl 4(Z),10(Z),13(Z),16(Z)-docosatetraenoate is a polyunsaturated fatty acid methyl ester that acts as a lipid mediator. It plays a crucial role in various cellular processes, including inflammation and cell signaling. This compound is commonly utilized in research to study lipid metabolism, membrane dynamics, and the effects of unsaturated fatty acids on cellular functions.

Methyl 7(Z),11(Z),14(Z)-eicosatrienoate is an unsaturated fatty acid methyl ester (FAME) that targets lipid metabolism. This compound exhibits biological activity as a potential modulator of lipid profiles and may influence various metabolic pathways. It is commonly utilized in research applications related to lipid biochemistry and the study of fatty acid signaling mechanisms.

1,2-Laurin-3-octanoin is a fatty ester that serves as a lipid component in various biochemical applications. This compound is utilized in research focused on lipid metabolism and membrane biology, facilitating studies of fatty acid interactions within cellular systems. Its role in modulating lipid bilayer properties makes it an important reagent for understanding lipid-based processes in health and disease.

2-16:0 Lyso PC is a glycerophospholipid that serves as a key component in cellular membranes. This compound is known for its role in modulating membrane fluidity and supporting cellular signaling pathways. It is widely utilized in research applications involving lipid metabolism and membrane biology studies.

Cis-10-Octadecenoic acid is an unsaturated fatty acid that plays a critical role in lipid metabolism. Its unique structure allows it to influence membrane fluidity and cellular signaling pathways. This compound is widely utilized in research on lipid biology, fatty acid biosynthesis, and the study of metabolic disorders.

Methyl 7(Z)-octadecenoate is an unsaturated fatty acid methyl ester (FAME) that primarily targets lipid metabolism. It plays a crucial role in the study of lipid signaling pathways and the impact of unsaturated fatty acids on cellular functions. This compound is commonly used in various biological research applications, including evaluating the effects of dietary fats on health and investigating lipid-related diseases.

αGlcCer is a glycosphingolipid that primarily targets lipid metabolism and signaling pathways. It plays a pivotal role in cell recognition, differentiation, and immune response modulation. Research applications include studying glycobiology, cellular interactions, and sphingolipid pathways, making it a valuable tool for investigating various biological processes and disease mechanisms.

Methyl 10(E)-pentadecenoate is an unsaturated fatty acid methyl ester (FAME) that primarily targets lipid metabolism. It exhibits distinct biological activity as a potential bioactive lipid, influencing various cellular processes. This compound is useful in research applications focused on lipid signaling, metabolism studies, and the investigation of fatty acid derivatives in biological systems.

1,2-Palmitin-3-butyrin is an acylglycerol that serves as a lipid compound. It plays a crucial role in lipid metabolism and storage, making it relevant for research in nutrition and metabolic studies. Its unique fatty acid composition can be utilized to investigate the function and interactions of lipids in biological systems.

Inositol 1,3,4,5-tetraphosphate tetraammonium targets lipid signaling pathways through its role as a phosphoinositide. This compound is involved in various cellular processes, including signal transduction and membrane dynamics. It serves as an important tool in research applications aiming to investigate phosphoinositide metabolism and its implications in cellular signaling mechanisms.

7α,27-Dihydroxy-4-cholesten-3-one is an oxysterol that primarily interacts with lipid metabolism. This compound is known to play a significant role in the regulation of cholesterol homeostasis and cellular signaling pathways. Research applications include studies on lipid-related disorders, atherosclerosis, and the biochemical pathways involving cholesterol derivatives.

Dimethyl Sphingosine-1-Phosphate (d18:1) ammonium is a bioactive sphingolipid that acts as a potent sphingosine-1-phosphate receptor agonist. This compound plays a critical role in various cellular processes, including cell proliferation, migration, and survival. It is widely utilized in research focused on signal transduction pathways, immune responses, and cardiovascular diseases, making it an essential tool for studying lipid-mediated cell signaling.

16:0-16 Doxyl PC is a phosphocholine derivative containing a Doxyl group, primarily designed as a membrane probe. This reagent serves as a fluorescence quencher, facilitating the investigation of lipid bilayer structures. It is particularly useful in studying membrane transport processes mediated by phosphatidylinositol translocase, contributing valuable insights into membrane dynamics and lipid interactions.

1-Laurin-2-palmitin-3-olein is a triacylglycerol composed of lauric, palmitic, and oleic acids. This compound serves as a significant lipid storage form and plays a crucial role in metabolic processes. Its applications include research into lipid metabolism, membrane studies, and the exploration of fatty acid profiles in various biological systems.

DSDMA is an ionizable ether lipid that facilitates the delivery of RNA and vaccines. Its unique properties enhance cellular uptake and improve the stability of nucleic acids, making it a valuable tool for genetic research and therapeutic applications. DSDMA can be utilized in the development of lipid nanoparticles for effective vaccine formulation and RNA-based therapeutics.

Methyl 10(E)-heptadecenoate is an unsaturated fatty acid methyl ester (FAME) that acts as an important precursor in lipid metabolism. This compound exhibits potential biological activity, including effects on membrane fluidity and signaling pathways. It is utilized in research applications for studying fat metabolism, lipid synthesis, and the role of unsaturated fatty acids in biological systems.

Tri-11(Z)-eicosenoin is an acylglycerol with significant implications in lipid research. This compound serves as a key participant in glycerolipid metabolism and can provide insights into adipocyte function and lipid storage mechanisms. Researchers can utilize Tri-11(Z)-eicosenoin to investigate the roles of fatty acids in energy homeostasis and metabolic pathways. Its unique structure makes it a valuable tool for studying lipid signaling and related biological processes.

4-Palmitamido-TEMPO is an aliphatic derivative of the stable free radical TEMPO, primarily targeting lipid membranes. This compound is incorporated into vesicles and cell membranes, facilitating the investigation of molecular entrapment within phosphatidylcholine vesicles. Its unique properties make it valuable for research applications in membrane dynamics and the study of lipid bilayer interactions.

16:0 Tempo PC is a phosphocholine derivative featuring a TEMPO moiety, specifically (2,2,6,6-tetramethylpiperidin-1-yl)oxyl. This compound serves as a spin label in lipid membrane research, facilitating studies in electron paramagnetic resonance spectroscopy. Its applications extend to functioning as a paramagnetic contrast agent in NMR, as well as serving as an oxygen-sensitive probe in various biological systems, making it a valuable tool for examining lipid interactions and dynamics.

(E/Z)-C2 Ceramide is a bioactive sphingolipid that plays a critical role in cellular signaling pathways. It is involved in various biological processes including apoptosis, cell differentiation, and inflammation. This compound serves as a valuable tool for research applications in cell biology, neurobiology, and cancer studies, aiding in the understanding of lipid metabolism and cell membrane dynamics.

3-(Stearoyloxy)propane-1,2-diyl diacetate is a triglyceride that serves as a lipid surrogate in biochemical research. Its structure allows for investigations into lipid metabolism and membrane interactions. This compound is primarily utilized in studies related to energy storage, lipid signaling pathways, and the biophysical properties of lipid bilayers.

24:1 CPE (d18/24:1) is a phosphosphingolipid that serves as a key structural component in cellular membranes. It plays a critical role in lipid signaling and cellular communication, making it valuable for research in cell biology and membrane biophysics. This reagent is particularly useful in studies involving lipid metabolism and the exploration of sphingolipid-related pathways.

Monolinolein is a monoacylglycerol that primarily targets lipid metabolism pathways. It exhibits significant properties as an emulsifier and can influence the bioavailability of lipophilic compounds in various biological systems. Additionally, monolinolein is utilized in research applications focused on lipid formulation, drug delivery systems, and studying cellular lipid interactions.

1,2-Dilinolein is an acylglycerol that serves as an important structural lipid. It exhibits significant biological activity by participating in lipid metabolism and influencing membrane dynamics. This compound is pertinent in research focused on cellular signaling pathways, lipid bilayer studies, and understanding the role of fatty acids in health and disease.

2,3-Dihydroxypropyl nonadecanoate is an acylglycerol that acts as a lipid compound. It exhibits significant biological activity in lipid metabolism and can be utilized in various biochemical studies aimed at understanding lipid biochemistry and metabolism. This reagent serves as a valuable tool for research involving lipid signaling pathways and metabolism in cellular systems.

MSDH is an enzyme that plays a crucial role in the biosynthesis of Coenzyme Q10, essential for cellular energy production. By facilitating the synthesis of this vital cofactor, MSDH contributes to the regulation of mitochondrial function and energy metabolism. Its activity is of significant interest in studies of metabolic disorders and conditions associated with Coenzyme Q10 deficiency.

βGlcCer is a glycosphingolipid that serves as a crucial component of cellular membranes. It is involved in various biological processes, including cell signaling, immune response, and cellular recognition. Research applications for βGlcCer encompass studies on cellular dynamics, lipid metabolism, and its role in diseases related to glycosphingolipid metabolism, making it essential for investigations in cell biology and biochemistry.

18:0 Aminoethyl Phosphatidylcholine is a site-specific phosphocholine derivative. It serves as a key component in lipid biochemistry, particularly for membrane biophysics studies. This reagent is useful in investigating lipid-protein interactions and understanding the role of phosphatidylcholine in cellular processes. Its unique properties make it suitable for applications in drug delivery systems and biophysical characterization of membrane structures.

FTY720-C2 is a derivative of FTY72 that targets neurotrophic factors to enhance their expression. It promotes the production of brain-derived neurotrophic factor (BDNF) and glial cell-derived neurotrophic factor (GDNF) in models of multiple system atrophy (MSA) while maintaining immune function. FTY720-C2 has been shown to improve motor dysfunction and reduce insoluble alpha-synuclein (αSyn) levels in MSA mouse models. Additionally, it is capable of penetrating the blood-brain barrier, making it a valuable tool for neurological research.

24:0 CPE (d18:1/24:0) is a phosphosphingolipid that serves as a key component in cellular membranes. It plays a crucial role in cell signaling and lipid metabolism, making it valuable for research in lipid biology and membrane dynamics. This reagent is essential for studying the structural and functional properties of sphingolipids in various biological contexts.

2,2,2-Trifluoro-N-methyl-N-(trimethylsilyl)acetamide functions as an effective ester reagent for silylation reactions in analytical chemistry. It is particularly useful in the derivatization processes for metabolomic analyses employing gas chromatography/mass spectrometry (GC/MS) and in gas chromatography with flame ionization detection. Additionally, this compound serves as a valuable tool for research involving Tamoxifen-resistant breast cancer cells and other relevant disease pathways, facilitating deeper insights into cancer biology and treatment resistance mechanisms.

1-Eicosapentaenoyl-sn-glycerol-3-phosphocholine is an ester derivative that serves as a bioactive lipid mediator. This compound plays a crucial role in modulating inflammatory responses and cell signaling pathways. Its applications include research into lipid metabolism, cell membrane dynamics, and potential therapeutic targets in various inflammatory diseases.

L-alpha-lysophosphatidylcholine, lauroyl, also known as 1-Lauroyl-2-hydroxy-sn-glycero-3-phosphatidylcholine, is an ester-derived phospholipid. This compound serves as an essential component in membrane structural studies and lipid bilayer research. Its key biological activity includes the modulation of cell signaling pathways and mechanisms involved in membrane fusion and permeability, making it valuable for various biochemical and pharmacological applications. Researchers utilize L-alpha-lysophosphatidylcholine, lauroyl to explore lipid metabolism and cellular responses to lipid signaling.

Arachidoyl ethanolamide is an ester derivative of arachidonic acid that functions primarily as a bioactive lipid mediator. It is known to modulate various physiological processes by interacting with cannabinoid receptors and has potential implications in pain modulation and inflammation. This compound is utilized in research to investigate endocannabinoid signaling pathways and their roles in various biological systems.