Catalog No.
Product Name
Application
Product Information
Citations
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Ester Product
11(E)-Octadecenol, a long-chain unsaturated alcohol, functions as a lipid-derived ester product. Known for its role in various biochemical pathways, it serves as an important reagent in lipid metabolism studies and the synthesis of bioactive compounds. This compound is particularly relevant in research exploring fatty acid derivatives and their biological implications. -
Ester Product
Sphinganine-1-phosphate (d17:0) is a bioactive sphingolipid that functions as a signaling molecule by modulating various cellular processes. It plays a crucial role in cell growth, differentiation, and survival, making it significant in studies related to cancer, neurodegeneration, and immune response. This compound serves as a valuable tool for researchers investigating sphingolipid metabolism and its implications in disease pathology. -
Ester Product
7(E)-Nonadecenol is an ester product primarily involved in lipid metabolism. This compound exhibits significant biological activity as it can function as a pheromone in various organisms, potentially influencing behavioral responses. Research applications may include studies on chemical signaling and lipid interactions in biological systems. -
Ester Product
Linolenyl oleate is an ester derived from linolenic acid and oleic acid. This compound exhibits potential biological activity relevant to lipid metabolism and cellular signaling processes. Linolenyl oleate is utilized in various research applications including studies focusing on fatty acid interactions and their effects on cell function and development. -
Ester Product
Heptyl methane sulfonate is an ester compound known for its alkylating properties. It serves as a versatile reagent in organic synthesis, often utilized in the synthesis of various derivatives and as a precursor for more complex molecules. Its unique structure and reactivity make it suitable for applications in medicinal chemistry and drug development research. -
Ester Product
1,2-Didecanoyl-3-chloropropanediol is an ester product that acts as a versatile chemical intermediate in organic synthesis. This compound is primarily utilized in the preparation of lipophilic prodrugs and other derivatives for biomedical research. Its unique chemical structure facilitates various applications in drug development and formulation studies, making it valuable for exploring lipid-based delivery systems. -
Ester Product
Myristoleyl myristoleate is an ester compound that serves as a lipid molecule involved in various biological processes. It exhibits properties that may influence membrane fluidity and cellular signaling. This compound is primarily utilized in research applications focusing on lipid metabolism, cell membrane dynamics, and the study of fatty acid-derived signaling pathways. -
Ester Product
13-Hydroxy-6(Z),9(Z)-octadecadienoic acid is an ester compound that plays a significant role in lipid signaling pathways. This fatty acid derivative has been shown to exhibit various biological activities, including anti-inflammatory properties and modulation of cell growth. Its research applications extend to studies on metabolic processes, cardiovascular health, and the exploration of lipid mediators in physiological and pathological conditions. -
Ester Product
D-Threo-sphingosine is an ester product of sphingolipid metabolism that functions primarily as a sphingosine analog. Its structure allows it to modulate cellular signaling pathways, influencing cell proliferation, differentiation, and apoptosis. This compound is utilized in research exploring the roles of sphingolipids in various biological processes and diseases, including cancer and neurodegenerative disorders. -
Ester Product
Gamma linolenyl methane sulfonate is an ester compound that serves as a key intermediate in organic synthesis. It is utilized in various research applications, including the study of lipid metabolism and the development of bioactive molecules. Its unique structure allows for exploration of its biological activities and potential therapeutic uses. -
Ester Product
Linolenyl Palmitoleate is an ester compound characterized by its unique fatty acid composition, combining linolenic and palmitoleic acids. This reagent is utilized in various biochemical research applications, particularly in lipid metabolism studies and the exploration of membrane dynamics. Its potential role in influencing cellular signaling pathways makes it a valuable tool in the investigation of metabolic disorders and inflammatory processes. -
Ester Product
Ethyl 6(Z)-octadecenoate is an ester compound primarily utilized in biochemical research. This compound exhibits significant properties related to lipid biosynthesis and serves as an important model for studying fatty acid metabolism. It is relevant in various applications, including cell culture studies and examining metabolic pathways involving lipids. -
Ester Product
Lauryl linoleate is a fatty acid ester known for its role as a surfactant and emollient in biological systems. It exhibits hydrophobic properties, making it useful in formulations for enhancing skin penetration and solubility of lipophilic compounds. Lauryl linoleate is commonly utilized in pharmaceutical and cosmetic research to study drug delivery mechanisms and skin permeability. -
Ester Product
Tetradecyl methane sulfonate is an ester compound known for its surface-active properties. It is commonly utilized in biological research for its ability to form micelles, which can enhance the solubility of hydrophobic compounds. This reagent is valuable in studies involving drug formulation, membrane interactions, and various biochemical assays. Its applications extend to the development of novel therapeutic agents and understanding lipid bilayer dynamics. -
Ester Product
N-Oleoyl sphinganine, a long-chain sphinganine derivative, is an ester product involved in sphingolipid metabolism. This compound exhibits significant biological activity in cellular signaling pathways and is utilized in studies exploring lipid biology, membrane dynamics, and the regulation of cell growth and apoptosis. Its role in modulating sphingolipid profiles makes it a valuable tool for researchers investigating diseases related to lipid dysregulation. -
Ester Product
Linolenic acid glycidyl ester is an ester derived from linolenic acid, primarily functioning as a reactive intermediate in synthetic chemistry. This compound exhibits significant biological activity due to the presence of its unsaturated fatty acid moiety, making it useful in various applications, including lipid research and the development of functional materials. It serves as a valuable reagent for studying lipid interactions and modifications in biochemical pathways. -
Ester Product
C85-Dolichol, a dolichol ester, plays a crucial role in glycoprotein biosynthesis and protein glycosylation. This compound is essential for the synthesis of dolichol phosphate, which acts as a carrier molecule in the assembly of oligosaccharides on nascent polypeptides. C85-Dolichol is utilized in research applications focusing on cell signaling, membrane biogenesis, and the study of endoplasmic reticulum function. -
Ester Product
Hexaprenol is an ester compound known for its role as a lipid precursor. It is primarily involved in membrane synthesis and cellular communication. This reagent is valuable in studies focusing on biosynthetic pathways and the functional roles of lipids in various biological systems. Hexaprenol can aid researchers investigating the effects of lipid composition on membrane integrity and cellular signaling processes. -
Ester Product
Ethyl 9(E)-tetradecenoate is an ester compound characterized by its unique long-chain structure. This reagent plays a significant role in the synthesis of various bioactive molecules and is commonly employed in the study of lipid metabolism and fatty acid derivatives. Its applications extend to the development of surfactants and emulsifiers in biochemical research, facilitating the exploration of membrane interactions and lipid-based technologies. -
Ester Product
Methyl 3-hydroxyundecanoate is an ester derivative that serves as a key intermediate in the synthesis of various bioactive compounds. This compound exhibits potential biological activity, making it relevant for applications in chemical research, particularly in the study of fatty acid metabolism and lipid biosynthesis pathways. Its structural properties may facilitate investigations into pharmaceutical formulations and the development of novel therapeutic agents. -
Ester Product
Myristylmyristate, also known as Tetradecyl tetradecanoate, is an ester compound commonly utilized in various biochemical applications. It exhibits properties beneficial for formulations in drug delivery systems and as a solubilizing agent due to its hydrophobic nature. Myristylmyristate is particularly useful in enhancing the stability and bioavailability of lipophilic drugs, making it relevant for pharmacological research and development. -
Ester Product
15(Z)-Nervonyl acetate is an ester compound known for its role in lipid metabolism. This reagent serves as an important intermediate in the synthesis of bioactive lipids and can be utilized in research focused on neurobiology and metabolic disorders. Its unique structure provides insights into fatty acid signaling and membrane dynamics, making it valuable for studies on cell function and communication. -
Ester Product
Butyryl coenzyme A lithium is an ester compound that serves as a key metabolic intermediate in fatty acid metabolism. This reagent is primarily utilized in studies evaluating acylation processes and enzyme reaction dynamics related to acyl-CoA structures. Its role in cellular metabolism makes it valuable for research applications in lipid biochemistry and metabolic regulation. -
Ester Product
1-Chloro-3-(oleoyloxy)propan-2-yl (9Z,12Z,15Z)-octadeca-9,12,15-trienoate is an ester compound that serves as a lipid-based research reagent. This compound is utilized to study lipid metabolism and membrane dynamics due to its unique structural properties. It is particularly relevant in investigations involving fatty acid binding and cellular signaling pathways. -
Ester Product
4(Z),7(Z),10(Z),13(Z),16(Z),19(Z)-Docosahexaenyl acetate is an ester product derived from docosahexaenoic acid (DHA). This compound is primarily utilized in biological research to study lipid metabolism and membrane dynamics. Its unique structure makes it a valuable tool for investigating the roles of polyunsaturated fatty acids in various cellular processes and signaling pathways. -
Ester Product
N-Hexanoyl-L-erythro-sphingosine is an ester product that functions as a ceramide analog. This compound plays a critical role in cellular signaling and membrane integrity, making it particularly useful in studies of lipid metabolism and cell differentiation. It is commonly applied in research focused on understanding sphingolipid pathways and their implications in various physiological and pathological processes. -
Ester Product
Hexadecaprenol is an ester product that serves as a critical lipid component in various biological membranes. It possesses significant roles in cell signaling and membrane fluidity. Hexadecaprenol is widely used in research applications focused on lipid metabolism, cellular function, and the study of membrane dynamics. -
Ester Product
Eicosyl methane sulfonate is an ester compound that serves as a critical biochemical reagent. It is utilized in various chemical synthesis processes and can facilitate the development of surfactants and emulsifiers in biological and industrial applications. Its unique structure allows for potential applications in lipid-based studies and formulations in life science research. -
Ester Product
Methyl (9R,10S)-9,10-dihydroxyoctadecanoate is an ester compound characterized by its hydroxy functional groups. This reagent exhibits significant biological activity associated with lipid metabolism and can be utilized in various biochemical studies. Its applications include research on fatty acid synthesis, lipid signaling pathways, and the exploration of metabolic diseases. -
Ester Product
Ethyl 5(Z)-eicosenoate is an ester compound that primarily functions as a fatty acid derivative. This reagent exhibits significant hydrophobic characteristics, making it valuable in studies of lipid metabolism and membrane dynamics. Its application extends to research on the biosynthesis of fatty acids and the analysis of lipid bilayer structures. -
Ester Product
Methyl (Z)-11-methyloctadec-6-enoate is an ester compound characterized by its long-chain fatty acid structure. This compound serves as an important intermediate in organic synthesis and lipid chemistry. It is utilized in various research applications, including the study of lipid metabolism and the development of bioactive lipid derivatives for pharmaceutical purposes. -
Ester Product
Nonadecanyl acetate is an ester compound known for its role in organic synthesis. It serves as a versatile building block in the development of various chemical formulations. Research applications include studies in lipid metabolism and the design of fragrance and flavor compounds, making it valuable in both academic and industrial settings. -
Ester Product
Methyl 2-Hydroxydocosanoate is an ester product derived from docosanoic acid. It acts as a key intermediate in the synthesis of fatty acid derivatives and can be utilized in various biochemical applications. This compound is of particular interest in research focused on lipid metabolism and the development of novel biomaterials. -
Ester Product
Lauryl palmitate is an ester compound that serves as a surfactant and emulsifying agent. It exhibits hydrophobic properties, making it useful in formulations for enhancing solubility and stability of lipophilic compounds. This reagent is widely applied in pharmaceutical, cosmetic, and food industries for its ability to improve texture and promote ingredient interaction. Additionally, it may be utilized in research involving lipid-based systems and drug delivery mechanisms. -
Ester Product
Coronaric acid methyl ester is an ester derivative that serves as a key synthetic intermediate in organic chemistry. This compound is primarily utilized in the development of pharmaceuticals and natural products, facilitating various biochemical reactions. Its unique structural properties enable its applications in biochemical research and synthetic processes. -
Ester Product
5(Z), 8(Z), 11(Z), 14(Z), 17(Z)-Eicosapentaenol is an ester derived from eicosapentaenoic acid, primarily targeting lipid metabolism. This compound exhibits significant biological activity as a fatty acid that can influence inflammatory responses and cell signaling pathways. It is commonly used in research applications focused on cardiovascular health, lipid biochemistry, and nutritional studies. -
Ester Product
13(Z),16(Z)-Docosadienol is an ester compound known for its role as a lipid mediator. It demonstrates significant biological activity by influencing cell signaling pathways and modulating inflammation. This compound is primarily utilized in studies related to lipid metabolism and the effects of polyunsaturated fatty acids on health and disease. Its applications extend to research in cardiovascular health, neurobiology, and metabolic disorders. -
Ester Product
Phosphatidylinositol 3-phosphate 1,2-dipalmitoyl ammonium is an ester compound that selectively targets lipid membranes. This reagent is crucial for studying lipid signaling pathways and membrane dynamics in various biological systems. It is particularly valuable in research focusing on cellular processes such as growth, proliferation, and apoptosis, where phosphatidylinositol signaling plays a significant role. -
Ester Product
Pentadecanoate sodium is a sodium salt of pentadecanoic acid, functioning as a fatty acid ester. It has been utilized in various biochemical research applications, particularly in studies related to lipid metabolism and fatty acid signaling pathways. Additionally, it serves as a model compound for understanding the behavior of long-chain fatty acids in biological systems. -
Ester Product
trans-12,13-Epoxy-9(Z)-octadecenoic acid is an ester derivative known for its role as an epoxy fatty acid. It exhibits potential biological activity, including modulation of lipid metabolism and influence on cellular signaling pathways. This compound may be utilized in research focusing on fatty acid interactions in biological systems and the examination of lipid-derived mediators in various physiological processes. -
Ester Product
Erythro-9,10-Dihydroxy-12(Z)-octadecenoic acid is an ester compound known for its role in various biological processes. It exhibits significant biological activity, making it useful in the study of lipid metabolism and the regulation of inflammatory responses. This compound serves as a valuable reagent in research applications focusing on cellular signaling pathways and the exploration of therapeutic targets in metabolic disorders. -
Ester Product
Methyl 13(S)-hydroxy-14(S),15(S)-epoxy-5(Z),8(Z),11(Z)-eicosatrienoate is an ester derivative with potential implications in biochemical research. This compound is known for its bioactive properties, particularly in the modulation of inflammatory processes and cellular signaling pathways. Its applications include studies on lipid mediators and the exploration of mechanisms underlying various physiological conditions. -
Ester Product
Palmityl myristoleate is an ester compound formed from palmitic and myristoleic acid. This molecule is of interest for its potential biological activities, including modulating lipid metabolism and influencing membrane fluidity. Its applications in research span the study of metabolic disorders and the exploration of novel therapeutic strategies in related fields. -
Ester Product
Glycidyl myristate is an ester derived from myristic acid. This compound exhibits potential applications in lipid formulations and as a reactive diluent in polymer production. Glycidyl myristate may be useful in chemical research, particularly in studies related to drug delivery systems and surface modifications. -
Ester Product
11,14-Eicosadienoate sodium is an ester compound that serves as a versatile reagent in biochemical research. It exhibits significant biological activity in lipid metabolism and cellular signaling pathways. This compound is widely used in studies related to fatty acid profiles and the effects of polyunsaturated fatty acids on cellular functions. -
Ester Product
Methyl 9,10-cis-methylene-12(Z)-octadecenoate is an ester compound that serves as a versatile building block in organic synthesis. This compound exhibits unique structural properties that make it suitable for various applications, including the synthesis of bioactive molecules and lipid mediators. Its distinctive configuration allows for potential exploration in biochemical studies, particularly in investigating lipid metabolism and related pathways. -
Ester Product
N-Tetracosanoyl-phytosphingosine is an ester compound that plays a significant role in lipid signaling pathways. This sphingolipid derivative exhibits bioactive properties and is utilized in studies related to cellular regulation, membrane dynamics, and metabolic processes. Its application is valuable in research focusing on skin biology, cell growth, and differentiation. -
Ester Product
Palmityl Linoleate is an ester compound derived from palmitic acid and linoleic acid. It exhibits emulsifying properties and is utilized in various biochemical and biophysical research applications. This reagent is particularly valuable in studies focusing on lipid metabolism, membrane dynamics, and the formulation of lipid-based delivery systems. -
Ester Product
Myristoleyl laurate, an ester derived from myristoleic acid and lauric acid, exhibits potential applications in biochemical research. It serves as a lipid mediator and can influence cellular processes such as membrane fluidity and signaling. This compound is valuable for studying lipid metabolism, cellular responses to fatty acids, and the role of esters in biological systems. -
Ester Product
Ethyl 10(E)-pentadecenoate is an ester compound with potential applications in biochemistry and organic synthesis. It serves as a valuable building block for the formation of various lipids and fatty acid derivatives. This compound may be utilized in research involving metabolic pathways and lipidomics, contributing to the understanding of fatty acid metabolism and the role of esters in biological systems.
