Catalog No.
Product Name
Application
Product Information
Citations
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Ester Product
15-Oxo-9(Z),12(Z)-octadecadienoic acid is an ester compound that serves as an important intermediate in biochemical research. This molecule plays a crucial role in lipid metabolism and inflammatory processes. Its biological activity makes it useful for studies investigating fatty acid synthesis, signaling pathways, and the development of therapeutic strategies targeting metabolic disorders. -
Ester Product
3-Hydroxy-8(Z),11(Z),14(Z)-eicosatrienoic acid is a fatty acid derivative that serves as an ester product. This compound exhibits significant biological activity, including anti-inflammatory and cytoprotective effects. It is utilized in research to investigate lipid signaling pathways and cardiovascular health, as well as in studies exploring the modulation of various biological processes. -
Ester Product
9(E)-Octadecenoyl chloride is an acyl chloride derived from oleic acid, functioning primarily as an esterifying agent. It is used in various chemical syntheses, including the preparation of fatty acid derivatives and lipids. This compound finds applications in lipid biochemistry and the development of pharmaceutical formulations. -
Ester Product
1,2-Diheptadecenoyl-sn-glycero-3-phosphatidylcholine is a phospholipid compound that acts as an ester product. It is utilized in lipid bilayer studies and membrane biophysics, serving as a component for formulating liposomes and studying cellular membrane properties. This compound plays a significant role in research applications aimed at understanding membrane dynamics and lipid signaling pathways. -
Ester Product
13(Z),16(Z)-Docosadienyl acetate is an ester compound known for its fatty acid profile. This reagent serves as a valuable tool in lipid metabolism studies and can be utilized in various research applications, including the analysis of fatty acid synthesis and cellular signaling pathways. The compound may also aid in investigations exploring the biochemical effects of unsaturated fatty acids on cell function. -
Ester Product
N-Hexanoylsphingosylphosphorylcholine is an ester compound that plays a pivotal role in lipid metabolism and membrane biology. It is involved in the modulation of sphingolipid signaling pathways, impacting cellular processes such as proliferation and apoptosis. This compound is valuable for research focused on cell signaling, neurobiology, and studies of membrane dynamics. -
Ester Product
N,N-Dimethyl sphinganine is a sphingoid base and an important ester product that functions as a bioactive lipid mediator. It plays a crucial role in various cellular processes, including cell signaling, inflammation, and apoptosis. Research applications include the investigation of sphingolipid metabolism, cellular stress responses, and the study of its effects on cancer biology. This compound is valuable for studying the biochemical pathways involving sphingolipids and their implications in disease mechanisms. -
Ester Product
Methyl 12(R),13(S)-epoxy-9(S)-hydroxy-10(E),15(Z)-octadecadienoate is an ester compound characterized by its epoxy and hydroxyl functional groups. This reagent exhibits significant biological activity and plays a crucial role in lipid metabolism studies. It is primarily used in research applications focused on the elucidation of metabolic pathways and the exploration of bioactive lipid interactions. -
Ester Product
11-Eicosenate sodium is a sodium salt of an unsaturated fatty acid ester. It exhibits potential biological activity related to membrane fluidity and cellular signaling. This compound is utilized in research applications involving lipid metabolism and the study of fatty acid derivatives in various biological systems. -
Ester Product
13(E)-Brassidyl acetate is an ester derivative known for its role in biological systems. This compound is primarily utilized in research focusing on brassinosteroid activity, which is important for plant growth and development. Its applications span various fields including plant physiology and biochemistry, making it a valuable reagent for studying plant hormone signaling pathways and their effects on cellular processes. -
Ester Product
Methyl 27-hydroxyheptacosanoate is an ester compound that exhibits unique biochemical properties. It plays a role in lipid metabolism and has potential applications in biochemical research related to fatty acid synthesis and metabolism. This reagent can be utilized in studies investigating the structure-activity relationships of long-chain fatty acids and their derivatives. -
Ester Product
Methyl 10-methyloctadecanoate is an ester compound that serves as a valuable reagent in chemical research. It is commonly utilized in studies focused on lipid metabolism and the synthesis of fatty acids. This compound can be applied in various biological assays to explore its effects on cellular functions and metabolic pathways. -
Ester Product
Methyl 10(S),11(S)-epoxy-9(S)-hydroxy-12(Z)-octadecenoate is a bioactive ester compound known for its role in lipid metabolism. This compound exhibits significant biological activities relevant to the study of fatty acid derivatives and their physiological effects. It serves as a useful reagent in research applications investigating the biochemical pathways and potential therapeutic targets related to lipid signaling and inflammation. -
Ester Product
Trans-9,10-Epoxyhexadecanoic acid is an ester compound that serves as a valuable building block in organic synthesis. Its unique structure allows for various chemical modifications, making it useful in the development of novel bioactive molecules. This compound is relevant in research applications focused on lipid chemistry and the synthesis of epoxide-containing derivatives. -
Ester Product
15(Z)-Tetracosenol is an ester product characterized by its long-chain fatty alcohol structure. This compound exhibits potential biological activities, including antimicrobial properties, and is utilized in various biochemical research applications. It serves as a valuable reagent for studying lipid metabolism and the roles of fatty alcohols in biological systems. -
Ester Product
Ethyl 14(Z)-tricosenoate is an ester compound characterized by its unique long-chain fatty acid structure. This compound exhibits significant potential in various biochemical applications, particularly in the study of lipid metabolism and cellular signaling pathways. Ethyl 14(Z)-tricosenoate may serve as a valuable reagent in researching the role of fatty acid derivatives in biological systems and their implications in health and disease. -
Ester Product
Octadecanoyl-L-threo-sphingosine is an ester derivative that serves as a crucial component in the study of sphingolipid metabolism. This compound has been shown to modulate cellular signaling pathways and can be utilized in research applications exploring lipid-related cellular processes, including apoptosis and cell differentiation. Its structural properties make it a valuable tool for investigating the roles of sphingosines in various biochemical assays and therapeutic contexts. -
Ester Product
Palmitoleyl myristate is an ester compound that serves as a valuable research tool in lipid biology. It exhibits important biological activities, including modulation of membrane fluidity and potential influence on cell signaling pathways. This reagent is utilized in studies focused on lipid metabolism, membrane dynamics, and cellular interactions, making it relevant for investigations in fields such as biochemistry and pharmacology. -
Ester Product
3-Chloro-2-hydroxypropyl decanoate is an ester compound known for its chemical versatility. This reagent serves as a valuable intermediate in organic synthesis and can be utilized in various applications, including pharmaceutical development and material science. Its structural characteristics facilitate research in areas such as medicinal chemistry and polymer chemistry, providing a tool for the design of new compounds and materials. -
Ester Product
Vaccenic acid chloride (11(E)-Octadecenoyl chloride) is an acyl chloride that serves as an important building block for the synthesis of esters. This compound enhances the development of various lipid-based products and can be utilized in biochemical research for the preparation of fatty acid derivatives. Its applications extend to studies on lipid metabolism and the formulation of specialized reagents in organic synthesis. -
Ester Product
Heptadecanoate sodium is a sodium salt of heptadecanoic acid, categorized as an ester. It is primarily utilized in biochemical research as a fatty acid derivative. This compound can be employed in studies investigating lipid metabolism and cellular signaling pathways. Its unique properties make it valuable for exploring mechanisms of fatty acid interactions with biological membranes. -
Ester Product
Ethyl heneicosanoate, an ester derived from heneicosanoic acid, serves as a versatile chemical compound in various research applications. It exhibits a unique fatty acid profile, making it valuable for studies involving lipid metabolism and membrane biology. This reagent is suitable for use in the synthesis of complex lipid derivatives and can aid in understanding fatty acid interactions in biological systems. -
Ester Product
9(S),10(S),13(S)-Trihydroxy-11(E),15(Z)-octadecadienoic acid, an ester product, is a bioactive lipid compound that plays a crucial role in various physiological processes. This compound exhibits anti-inflammatory properties and is involved in the regulation of cellular signaling pathways. Its applications in research include studies on lipid metabolism, inflammation, and the modulation of immune responses. -
Ester Product
Lauryl linolenate is an ester compound derived from octadeca-9,12,15-trienoic acid. It exhibits potential applications in lipid biochemistry and may serve as a surfactant due to its amphiphilic properties. This compound is useful for studying lipid interactions and membrane dynamics in various biological systems. -
Ester Product
Acetyl-D-carnitine chloride is an ester derivative of D-carnitine that enhances cellular metabolism by facilitating the transport of fatty acids into the mitochondria. It exhibits neuroprotective properties and plays a role in cognitive function, making it useful in research related to neurodegenerative diseases and age-related cognitive decline. This compound is commonly utilized in studies investigating energy metabolism and mitochondrial function. -
Ester Product
Lauryl arachidonate is an ester derivative of arachidonic acid. It serves as a lipid mediator, influencing various biological processes, including inflammation and cell signaling pathways. This compound is utilized in research applications related to lipid metabolism and the modulation of inflammatory responses in cellular models. -
Ester Product
Methyl 2-Hydroxyicosanoate is an ester compound that serves as a precursor in the synthesis of bioactive lipids. This reagent is crucial in studying fatty acid metabolism and evaluating the effects of long-chain fatty acids on cellular processes. It is also applicable in research involving inflammation, signaling pathways, and cell membrane dynamics, providing a valuable tool for lipidomic studies. -
Ester Product
Linoelaidate sodium is an ester compound that serves as a versatile biochemical reagent. It is primarily utilized in various chemical synthesis processes and may exhibit biological activities relevant to lipid metabolism studies. Its applications include research in emulsification properties and the investigation of lipid-based formulations in pharmaceutical and nutraceutical development. -
Ester Product
Dimethyl nonanedioate, an ester product, serves as an important chemical reagent in organic synthesis. This compound can be used as a building block in the preparation of various esters and intermediates in chemical research. Its versatile properties make it valuable for applications in the development of pharmaceuticals and agrochemicals. -
Ester Product
10-Oxo-11(E),15(Z)-octadecadienoic acid is an ester compound that serves as a valuable intermediate in biochemical research. This molecule is involved in various metabolic processes and can be utilized in studies focusing on lipid metabolism and signaling pathways. Its unique structure positions it as a useful tool for investigating the roles of fatty acid derivatives in cellular functions and disease mechanisms. -
Ester Product
9(E)-Tetradecenoyl chloride is an ester compound characterized by a long-chain fatty acyl chloride. This reagent plays a crucial role in chemical synthesis, particularly in the formation of esters and amides. It is widely used in lipid biochemistry and the synthesis of complex molecules for research applications in fields such as drug development and materials science. Its reactivity allows for the modification of various substrates, facilitating the study of lipid metabolism and cellular interactions. -
Ester Product
Tridecanoyl chloride is an acyl chloride utilized primarily in ester synthesis. It serves as a reagent for the preparation of tridecanoate esters, which are valuable in various biochemical and material science applications. Its ability to facilitate the formation of ester bonds makes it a key compound in fatty acid modification and the development of surfactants and emulsifiers in chemical research. -
Ester Product
Erythro-12,13-Dihydroxy-9(Z)-octadecenoic acid is an ester compound known for its role in lipid metabolism. It exhibits significant biological activity related to cellular signaling and membrane structure. This compound is utilized in research applications focused on fatty acid synthesis, lipid biochemistry, and the exploration of metabolic pathways in various biological systems. -
Ester Product
1-Docosahexaenoyl-2-stearoyl-sn-glycero-3-phosphatidylcholine is an ester compound that serves as a phospholipid. It is primarily utilized in lipidomics research and membrane biology studies due to its relevance in cell membrane structure and function. This reagent is particularly valuable for investigating the roles of fatty acid composition in cellular signaling and membrane dynamics. -
Ester Product
Methyl 3(R,S)-hydroxy-13(Z),16(Z),19(Z)-docosatrienoate is an ester compound known for its role in lipid research. This molecule exhibits biological activity as a fatty acid derivative, making it relevant for studies focusing on lipid metabolism and signaling pathways. It serves as a valuable tool for investigating the biological effects of polyunsaturated fatty acids in various cellular contexts. -
Corticosteroid
Fluocortolone pivalate is an ester derivative of Fluocortolone and functions as a corticosteroid. It exhibits anti-inflammatory and immunosuppressive properties, making it useful in the study of various skin disorders. This compound enables researchers to investigate corticosteroid mechanisms in dermatological applications and contributes to the understanding of skin inflammation and related conditions. -
Product of ADC payload release
STING agonist-49-CO-C2-mal-Cys is a derivative of the STING agonist designed to facilitate the catabolism of antibody-drug conjugates (ADCs) and promote payload release. This compound exhibits significant antitumor activity in vivo, making it a valuable tool in cancer research. Its unique structure provides essential interactions with target proteins and E3 ligases, contributing to its efficacy in therapeutic applications. -
Pheromone
5-Methyldecane is a volatile hydrocarbon identified as a pheromone, primarily sourced from the plant Cordia Africana. This compound has been observed to be released by the marine annelid Platynereis dumerilii, contributing to its role in chemical communication. Its biological activity makes it valuable for research in behavioral ecology and pheromone signaling mechanisms. -
Drug Derivative
N-(4-Hydroxyphenylacetyl)spermine is a drug derivative that acts as a potent cellular growth regulator. It exhibits significant biological activity by modulating polyamine metabolism and influencing cell signaling pathways. This compound is commonly utilized in cancer research to study its effects on cell proliferation and apoptosis, making it a valuable tool for investigating therapeutic strategies in oncology. -
Drug Derivative
L-670,548 is a selective inhibitor of the neurokinin-1 (NK1) receptor, functioning as a drug derivative in research applications. It displays significant anti-nociceptive properties, making it relevant for studies in pain modulation and neurobiology. Researchers utilize L-670,548 to explore the mechanisms of pain signaling and potential therapeutic targets for pain management. -
Drug Derivative
AHN 086 is a small molecule drug derivative that acts as a selective inhibitor of histone deacetylases (HDACs). It exhibits significant anti-proliferative effects in various cancer cell lines by disrupting histone and non-histone protein deacetylation, thus influencing gene expression. This compound is primarily utilized in cancer research and studies investigating epigenetic regulation mechanisms. -
Drug Derivative
SRX251 is a drug derivative that acts primarily as a serotonin receptor antagonist. It demonstrates significant biological activity in modulating serotonergic signaling pathways, which may be relevant in the study of neuropsychiatric disorders. This compound is utilized in research focused on understanding the therapeutic potential of serotonin modulation in various clinical applications. -
Drug Derivative
MDPT (tBuONE) is a derivative of 3',4'-Methylenedioxy-N-tert-butylcathinone, primarily targeting monoamine transporters. This compound exhibits stimulant properties, making it relevant for research focusing on neuropharmacology and the mechanisms of drug addiction. Its structural similarity to known psychoactive substances enables investigations into their pharmacodynamic profiles and potential therapeutic applications. -
Drug Derivative
LB30870 is a drug derivative that demonstrates active pharmacological properties. This compound is utilized in research applications aimed at investigating its potential biological activities and therapeutic effects. Its specific mechanisms and pathways are of interest in the development of novel treatments. -
Drug Derivative
2-Methyl-1-naphthol acts as a crucial precursor in the biosynthesis of Vitamin K3. This compound is relevant for studying Vitamin K deficiency, aiding in the exploration of its implications in various biological processes and potential therapeutic applications. Its derivatives are utilized in research focused on enhancing understanding of Vitamin K's role in health and disease. -
Drug Derivative
NC-1300-B is a potent drug derivative that exhibits significant biological activity through its interaction with specific molecular targets. This compound is primarily used in research focused on drug development and mechanism studies, enabling scientists to explore its therapeutic potential in various disease models. Its specific structural properties make it a valuable tool for investigating novel treatment pathways in pharmacology. -
Drug Derivative
Dactylocycline D is a drug derivative that functions primarily as an antibiotic by inhibiting bacterial protein synthesis. It exhibits potent antibacterial activity against a variety of gram-positive and gram-negative bacteria, making it valuable in pharmacological research focused on antimicrobial mechanisms. This compound is applicable in studies that aim to explore its efficacy, resistance mechanisms, and potential therapeutic uses in infectious diseases. -
Drug Derivative
α-Pyrrolidinocyclohexanophenone hydrochloride is a psychostimulant compound primarily targeting the dopamine transporter. It demonstrates notable biological activity as a potent reuptake inhibitor, leading to increased dopaminergic signaling. This compound is primarily utilized in neurological research, particularly in studies exploring the pharmacological effects on mood, cognition, and addiction mechanisms. -
Drug Derivative
4-Hydroxyisophorone is a derivative of abscisic acid that exhibits a weak inhibitory effect on plant growth. This compound is utilized in research to explore plant hormone interactions and their physiological effects. It serves as a valuable tool for investigating the mechanisms of plant development and response to environmental stressors. -
Drug Derivative
(R)-ADR 882, a derivative of the drug class, exhibits potent biological activity by interacting with specific cellular targets. This compound is primarily utilized in research applications focused on pharmacological studies and the development of therapeutic agents. Its efficacy in modulating biological pathways makes it a valuable tool for investigating disease mechanisms and evaluating potential drug candidates.

