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Items 9801-9850 of 13502

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  1. Ester Product

    Cis-9,10-Epoxystearic acid methyl ester is an ester product characterized by its epoxy functional group. It exhibits potential biological activity in lipid metabolism studies and can be used as a substrate for lipase assays. This compound is valuable for researchers investigating the biochemical pathways involving fatty acid metabolism and the impact of lipid modifications on cellular functions.
  2. Ester Product

    1-Oleoyl-2-stearoyl-3-chloropropanediol is an ester compound that serves as a lipid-based intermediary in various biochemical research applications. Its unique structure enables modulation of membrane properties and interaction with lipid bilayers, making it a valuable tool for studying lipid metabolism and cellular signaling pathways. This compound is suitable for investigations into drug delivery systems and the development of lipid-based formulations.
  3. Ester Product

    Cis-11,12-Epoxy-14(Z)-eicosenoic acid is an ester product recognized for its role in biological systems. This compound is utilized in research focused on lipid chemistry and metabolic pathways, providing insights into the functions of fatty acid derivatives. Its unique epoxy structure makes it a valuable reagent for examining the interactions between lipids and proteins, as well as studying their physiological effects in various cellular contexts.
  4. Biochemical Assay Reagent

    3'-O-Methylguanosine-5'-diphosphate is a biochemical assay reagent that functions as a nucleotide analog. It serves as a valuable tool in examining RNA metabolism and synthesis pathways. This compound is particularly useful in research applications involving the study of RNA modification and enzymatic activities related to nucleotide binding.
  5. Biochemical Assay Reagents

    16-Hexadecanolide is a lactone that serves as a key reagent in biochemical assays and ring-opening polymerization reactions. Its unique structure allows for enzyme-catalyzed polymer formation, facilitating rapid polymerization rates. This compound is valuable for research applications in polymer chemistry and material science.
  6. Ester Product

    Hexadecyl oleate is an ester formed from hexadecanol and oleic acid, primarily targeting lipid metabolism. This compound exhibits surfactant properties, making it useful in various biological applications, including drug delivery systems and as a model membrane lipid. Research applications include investigating membrane dynamics and studying interactions between lipids and proteins.
  7. Ester Product

    10(E)-Pentadecenol, also known as trans-10-Pentadecen-1-ol, functions primarily as an ester product. This compound is relevant in the study of lipid metabolism and can be utilized in the synthesis of bioactive lipids for various biological research applications. Its structural properties may also be advantageous for investigations in the field of organic chemistry.
  8. Ester Product

    Linolenyl myristoleate is an ester compound known for its potential as a lipid mediator. It exhibits intriguing biological activities, including anti-inflammatory effects and modulation of cellular processes. This compound may be useful in research applications focused on lipid metabolism and the investigation of ester derivatives in various biological systems.
  9. Biochemical Assay Reagent

    BP Fluor 546 DBCO is an azide-reactive probe designed for imaging azide-tagged biomolecules through a copper-free click reaction. This reagent offers a stable triazole formation without the need for copper catalysts or elevated temperatures, making it suitable for applications sensitive to copper. The water-soluble, orange-fluorescent dye exhibits absorption and emission maxima at 554 nm and 570 nm, respectively, and is compatible with 488 nm and 532 nm laser lines. BP Fluor 546 DBCO can be conjugated to various biomolecules, including antibodies, peptides, and proteins, facilitating reliable signal generation in imaging and flow cytometry.
  10. Biochemical Reagent

    1,3-Dipalmitoyl-2-elaidoyl glycerol is a specialized biochemical reagent primarily utilized in lipid research. This compound serves as a model substrate for studying membrane dynamics and lipid bilayer properties. Its unique structure allows for investigations into the effects of trans and cis fatty acid configurations on biological membranes, aiding in the understanding of lipid-related cellular processes.
  11. Biochemical Assay Reagent

    1,3-Myristin-2-octanoin is a fatty ester that serves as a useful biochemical assay reagent. It is primarily employed in studies requiring medium-chain fatty acids, providing insights into lipid metabolism and fatty acid synthesis. This compound is relevant for research applications in biochemistry and molecular biology, particularly those focusing on metabolic pathways and enzyme activity related to lipid function.
  12. Ester Product

    Arachidyl myristate, an ester derived from arachidic and myristic acids, serves as an important model compound in chemical research. It exhibits amphiphilic properties, making it useful in the study of lipid bilayers and membrane interactions. This compound is often utilized in the development of drug delivery systems and for investigating the physicochemical properties of lipid formulations.
  13. Ester Product

    1-Palmitoyl-3-bromopropanediol is an ester compound that acts as a versatile reagent in chemical research. Its primary mechanism involves esterification, making it valuable for synthesizing various lipid-based molecules. This compound is utilized in studies focused on lipid metabolism, membrane dynamics, and as a precursor for the development of surfactants or emulsifiers in pharmaceutical formulations.
  14. Biochemical Assay Reagent

    Rac 1-Palmitoyl-2-chloropropanediol is a monoacylglycerol featuring palmitic acid at the sn-1 position and a chloride functional group at the sn-2 position. Its hydroxyl group allows for subsequent derivatization, while the chlorine atom serves as a favorable leaving group in substitution reactions. This compound is primarily utilized as a biochemical assay reagent, facilitating various research applications in lipid biochemistry and synthetic chemistry.
  15. Ester Product

    Myristoleyl arachidonate is an ester product that consists of myristoleic acid and arachidonic acid. This compound is utilized in research to study lipid metabolism and membrane dynamics. Its biological activity includes influencing cell signaling pathways and inflammatory responses, making it valuable for investigations in pharmacology and biochemistry.
  16. Biochemical Assay Reagent

    4-(Benzyloxy)butanal functions as a biochemical assay reagent characterized by its acid-labile benzyl protecting group and reactive primary aldehyde. The primary aldehyde readily engages in reactions with hydrazide and aminooxy groups, facilitating the labeling and crosslinking of carbonyls, particularly in oxidized carbohydrates. This compound is valuable for various applications in biomolecular probing and assay development.
  17. Ester Product

    12-Hydroxy-9(Z),13(E)-octadecadienoic acid is an ester derivative that exhibits significant biological activity. It has been identified as a key player in inflammation and lipid metabolism, making it a valuable compound for research in these areas. This reagent is suitable for studies focused on mediating cellular responses and exploring metabolic pathways involving fatty acids.
  18. Ester Product

    1-Oleoyl-2-linoleoyl-3-chloropropanediol is an ester compound characterized by its unique structure and properties. This reagent serves as a valuable tool in lipid research, enabling studies on lipid metabolism and signaling pathways. Its application extends to the exploration of membrane dynamics and the investigation of lipid-based drug delivery systems.
  19. Biochemical Assay Reagent

    3-(Octadecyloxy)-2,2-bis[(octadecyloxy)methyl]-1-propanol is a biochemical assay reagent that functions primarily as a surfactant and solubilizing agent. Its unique structure provides hydrophobic characteristics, making it suitable for enhancing the solubility of various organic compounds in biological systems. This compound is commonly utilized in life science research, particularly in studies involving membrane proteins and lipid bilayer interactions.
  20. Biochemical Assay Reagent

    Acetyl-L-carnitine-d3-2 hydrochloride is a deuterated form of Acetyl-L-carnitine, primarily utilized as a biochemical assay reagent. This compound functions as an orally active regulator of mitochondrial energy metabolism and exhibits neuroprotective properties, allowing it to effectively cross the blood-brain barrier. Its applications extend to studies related to energy metabolism and neurological health.
  21. Ester Product

    Nonadecaprenal (C95) is an ester compound known for its role as a synthetic intermediate in organic chemistry. It exhibits potential utility in various research applications where esterification processes are of interest, particularly in the synthesis of complex organic molecules and derivatives. Its chemical properties make it a valuable reagent for studying reaction mechanisms involving ester formation and cleavage.
  22. Ester Product

    14(Z)-Tricosenol is a fatty alcohol ester that serves as a key research tool in lipid biochemistry. It exhibits biological activity as a pheromone component and is utilized in studies related to insect communication, metabolism, and ecological interactions. Its role in signaling pathways makes it valuable for investigating lipid-mediated biological processes.
  23. Ester Product

    Valeryl-L-carnitine chloride is an ester derivative of L-carnitine, primarily functioning as a carnitine acyltransferase substrate. Its biological activity includes the facilitation of fatty acid transport into mitochondria, playing a crucial role in energy metabolism. This compound is utilized in research focused on metabolic disorders, mitochondrial dysfunction, and the study of fatty acid oxidation.
  24. Biochemical Assay Reagent

    10,12-cis, cis-Octadecadienoic acid is a biochemical assay reagent that modulates lipid metabolism and serves as a precursor in the biosynthesis of bioactive lipids. This organic compound is utilized in life science research to investigate cellular processes, inflammation, and metabolic pathways. Its unique structure and biological activity make it valuable for studies involving fatty acid signaling and related disease models.
  25. Ester Product

    Arachidyl linolenate is an ester compound characterized by its structure as Icosyl(9E,12E,15E)-octadeca-9,12,15-trienoate. It exhibits significant biological activity as a fatty acid ester, making it relevant for studies in lipid metabolism and membrane biophysics. This compound is often utilized in research applications related to dietary lipids, inflammation, and cell signaling pathways.
  26. Ester Product

    Erythro-9,10-Dihydroxyoctadecanoic acid is an ester derivative that serves as a key intermediate in lipid biochemistry. It exhibits significant biological activity, particularly in the modulation of membrane lipid composition and influence on cell signaling pathways. This compound is utilized in research applications involving lipid metabolism and the study of fatty acid derivatives.
  27. Ester Product

    Heptadecyl methane sulfonate is an ester compound characterized by its long hydrophobic heptadecyl chain. This reagent serves as a versatile tool in organic synthesis and materials science, particularly in the development of surfactants and emulsifiers. Its unique properties make it suitable for various chemical research applications, including the modification of surface characteristics and the formulation of complex mixtures.
  28. Ester Product

    2-Hydroxy-9(Z),12(Z),15(Z)-octadecatrienoic acid is an ester derived from fatty acid precursors. This compound exhibits biological activities that may influence metabolic processes and cellular signaling pathways. It is of particular interest in research focused on lipids, inflammation, and metabolic regulation.
  29. Biochemical Assay Reagent

    1-Azidopentane is a biochemical assay reagent characterized by its azide functional group attached to a five-carbon alkyl chain. This compound is utilized primarily in click chemistry applications, facilitating the preparation of advanced materials such as multi-axis liquid crystal refrigeration. Its chemical structure allows for versatile applications in synthetic organic chemistry and material science research.
  30. Biochemical Reagent

    Tetradecylphosphonic acid is a biochemical reagent primarily used for its role in various life science research applications. This compound serves as a surfactant and stabilizer, aiding in the formulation of lipid-based systems and biomaterials. Its utility extends to studies involving membrane interactions, drug delivery systems, and the development of nanocarriers in pharmaceutical research.
  31. Ester Product

    Propyl oleate is an ester formed from propanol and oleic acid. It serves as a solvent and a surfactant, demonstrating effective emulsification properties. This compound is widely utilized in biochemical research, particularly in the formulation of lipid-based systems and as a vehicle for drug delivery studies. Its significant role in various biological applications makes it a valuable tool in life sciences research.
  32. Biochemical Assay Reagent

    Sulfo-PBA is a biochemical assay reagent that serves as a versatile tool for life sciences research. This compound is designed to facilitate various biochemical interactions, enabling enhanced detection and quantification of biomolecules. It is particularly useful in applications such as affinity chromatography and the study of protein interactions, contributing to advancements in molecular biology and biochemistry research.
  33. Ester Product

    Docosyl methane sulfonate is an ester compound that serves as a versatile reagent in organic synthesis. This compound demonstrates key biological activity, making it suitable for a variety of research applications, including the development of surfactants and other functional materials. Its stability and reactivity enhance its utility in chemical research, particularly in the fields of materials science and biochemical studies.
  34. Biochemical Assay Reagent

    2-Chlorooctadecanoic acid, also known as 2-Chlorostearic acid, serves as a biochemical assay reagent. This compound is utilized in various life science research applications, particularly in the study of lipid metabolism and membrane biology. Its unique chemical properties allow for detailed investigation of biological processes involving fatty acids, making it a valuable tool for researchers exploring cellular mechanisms and signaling pathways.
  35. Ester Product

    Ethyl 6(Z),9(Z),12(Z),15(Z),18(Z),21(Z)-tetracosahexaenoate is a long-chain ester compound that serves as a fatty acid derivative. This reagent is utilized in lipid research, particularly in studies investigating the structural and functional properties of membrane lipids. Its unique configuration of multiple double bonds makes it valuable in the synthesis of bioactive lipids and in understanding their biological roles.
  36. Ester Product

    4(Z), 7(Z), 10(Z), 13(Z), 16(Z), 19(Z)-Docosahexaenol is a polyunsaturated fatty acid ester known for its role in various biological processes. This compound exhibits anti-inflammatory and neuroprotective properties, making it relevant for research in areas such as cardiovascular health and neurological disorders. Its manipulation in experimental setups contributes to understanding fatty acid metabolism and cellular signaling pathways.
  37. Biochemical Assay Reagent Control

    N-Octylnortadalafil is a biochemical assay reagent that functions as a control in experimental settings. It exhibits activity relevant for studying phosphodiesterase (PDE) interactions, particularly PDE5. This compound is utilized in various research applications, including drug development and pharmacological assays, to assess the efficacy and specificity of PDE inhibitors.
  38. Biochemical Assay Reagent

    6(Z)-Monooctadecenoin is an acylglycerol that serves as a valuable biochemical assay reagent. This compound is primarily utilized in lipid metabolism studies and fatty acid signaling research. Its ability to influence cellular processes makes it essential for exploring lipid-related biological pathways and their implications in various physiological conditions.
  39. Ester Product

    11-Methyltridecanoic acid is an ester characterized by a long-chain fatty acid structure. It exhibits potential applications in lipid metabolism studies and may serve as a valuable standard in the analysis of fatty acid profiles. This compound is relevant in researching metabolic disorders and lipid-related enzymatic pathways.
  40. Ester Product

    2-Oxo-9(Z),12(Z),15(Z)-octadecatrienoic acid is an ester derivative known for its role in biochemical research. This compound serves as a key intermediate in the synthesis of bioactive lipids, contributing to studies focused on lipid metabolism and signaling pathways. Its biological activity may facilitate investigations into inflammation and other metabolic disorders.
  41. Ester Product

    10-Hydroxy-11(E)-octadecenoic acid is an ester compound that acts as a bioactive lipid mediator. It is known to participate in various cellular processes, influencing inflammation and metabolism. This compound is utilized in research applications focused on lipid signaling pathways and the study of metabolic disorders.
  42. Biochemical Assay Reagents

    Phenyl α-D-thiomannopyranoside serves as a key reagent in biochemical assays, specifically targeting glycosylation processes. This compound is utilized in glycobiology research to study carbohydrate-protein interactions and glycan profiling. Its unique structural features facilitate the exploration of glycan roles in biological systems, aiding in the understanding of various cellular functions and mechanisms.
  43. Metal-organic Framework

    2,2,4,4,6,6-Hexakis(4-bromophenoxy)-1,3,5,2l5,4l5,6l5-triazatriphosphinine is a metal-organic framework that exhibits significant potential for gas capture and storage applications due to its high surface area and tunable pore structure. This compound's unique architecture allows for selective adsorption of gases, making it valuable for research in environmental science and materials chemistry. Its structural versatility enhances its utility in various catalytic processes and the development of advanced materials.
  44. Metal-organic Framework

    4'-(Bromomethyl)-4,2':6',4''-terpyridine serves as a key ligand in the formation of metal-organic frameworks (MOFs). This compound exhibits a strong ability to coordinate with metal ions, facilitating the construction of stable and porous structures. It is applicable in various fields, including gas storage, catalysis, and sensing technologies, making it a valuable reagent for researchers investigating advanced materials and nanostructures.
  45. Metal-organic Framework

    1,3,5-Tris(3,4-dichlorophenyl)-1,3,5-triazinane-2,4,6-trione acts as a precursor for metal-organic frameworks (MOFs), exhibiting potential for the coordination of metal ions. This compound demonstrates significant biological activity as a ligand, facilitating the formation of diverse crystalline structures. Its applications extend to catalysis, gas storage, and separation processes in chemical research, making it valuable for exploring new materials with enhanced properties.
  46. Metal-organic Framework

    2-Methyl-5,6-di(pyridin-2-yl)-2,3-dihydropyrazine is a versatile ligand commonly employed in the formation of metal-organic frameworks (MOFs). This compound serves as a building block in the synthesis of MOFs, showcasing enhanced stability and tunable properties. Its unique structural characteristics enable a variety of applications, including gas storage, catalysis, and environmental remediation research.
  47. Metal-organic Framework

    2-((Isonicotinoyloxy)methyl)-2-methylpropane-1,3-diyl diisonicotinate is a metal-organic framework (MOF) defined by its unique bonding structure. This compound exhibits notable porosity and surface area, making it suitable for gas adsorption studies and catalysis applications. Research involving this MOF can facilitate advancements in material science and environmental remediation, contributing to the development of novel separation techniques and storage solutions.
  48. Metal-organic Framework

    2,2'-Bis(trifluoromethyl)-[1,1'-biphenyl]-4,4'-dicarboxylic acid serves as a building block for metal-organic frameworks (MOFs), exhibiting remarkable coordination properties. This compound contributes to the formation of highly stable and porous structures, making it valuable for applications in gas storage, separation technologies, and catalysis. Its unique trifluoromethyl groups enhance the interaction with metal centers, providing versatile functionality in advanced materials research. Researchers focusing on MOF design and applications will find this compound essential for exploring innovative solutions in various fields.
  49. Metal-organic Framework

    4,4'-(Buta-1,3-diyne-1,4-diyl)dibenzoic acid is a versatile precursor for the synthesis of metal-organic frameworks (MOFs). Its unique structural features enable the formation of stable frameworks with controlled porosity and surface area. This compound is particularly useful in applications involving gas adsorption, catalysis, and sensing. Researchers can leverage its properties to develop advanced materials for various technological applications in areas such as environmental remediation and energy storage.
  50. Metal-organic Framework

    2-Acetylterephthalic acid is a versatile building block for the synthesis of metal-organic frameworks (MOFs). It acts as a ligand that coordinates with metal ions, facilitating the formation of porous structures with potential applications in gas storage, separation processes, and catalysis. This compound is particularly valuable in materials science and chemical research focusing on the design of functionalized MOFs for advanced applications.

Items 9801-9850 of 13502

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