Catalog No.
Product Name
Application
Product Information
Citations
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Stable Isotope
1-Bromo-2-chlorobenzene-d4 is a stable isotope-labeled compound that serves as a deuterated analogue of 1-bromo-2-chlorobenzene. This compound is primarily utilized in analytical chemistry for studies involving isotopic labeling, including NMR spectroscopy and mass spectrometry. Its deuteration enhances the precision of structural and dynamics analysis in various biological and chemical research applications. -
Stable Isotope
2-Chlorobenzoic acid-d4 is a deuterium-labeled derivative of 2-Chlorobenzoic acid, serving as a stable isotope standard. This compound is utilized in various biological and analytical research applications, including isotopic labeling studies and quantitative analysis in mass spectrometry. Its stable isotopic nature allows for enhanced accuracy in tracking biochemical processes and understanding metabolic pathways. -
Stable Isotope
CMPF-d5 is a deuterium-labeled derivative of CMPF, serving as a stable isotope reference standard. This compound is primarily used in metabolomic studies and isotopic labeling experiments to enhance the detection and quantification of CMPF in biological samples. Its use facilitates accurate tracking of metabolic pathways and helps in understanding biochemical processes involving CMPF. -
Stable Isotope
15:0-18:1 DG-d7 is a deuterated stable isotope form of 15:0-18:1 diacylglycerol. It serves as a valuable tracer for metabolic studies, allowing researchers to investigate lipid metabolic pathways and dynamics in various biological systems. Its unique isotopic labeling enhances analytical precision in mass spectrometry and other applications focused on lipidomics and cellular signaling research. -
Stable Isotope
(-)-2-Methyl-isoborneol-d3 is a deuterium-labeled derivative of (1R,2R,4R)-1,2,7,7-Tetramethylbicyclo[2.2.1]heptan-2-ol. This stable isotope is primarily utilized in metabolic studies and environmental research, allowing for precise tracking of chemical pathways and understanding the behavior of volatile organic compounds. Its unique isotopic labeling makes it an essential tool in various analytical applications, including mass spectrometry and tracer studies. -
Stable Isotope
3-Hydroxy benzopyrene-d11 is a deuterium-labeled derivative of 3-Hydroxy benzopyrene, a key metabolite of benzopyrene. This stable isotope is valuable for use in analytical studies, particularly in tracing metabolic pathways and understanding the environmental fate of polycyclic aromatic hydrocarbons. Its application extends to research involving cancer biology and toxicology, facilitating insights into the biochemical effects of benzopyrene exposure. -
Stable Isotope
C18 Dihydroceramide-d3-1 is a stable isotope-labeled form of C18 Dihydroceramide, specifically deuterium-labeled at the C3 position. This compound serves as a useful internal standard for quantitative analysis in lipid metabolism studies. Its key applications include tracing metabolic pathways and elucidating the role of dihydroceramides in cellular signaling and disease models. -
Stable Isotope
2-Chloroaniline hydrochloride-13C6 is a stable isotope-labeled form of 2-Chloroaniline hydrochloride, offering enhanced analytical capabilities for research. This compound serves as a valuable tracer in metabolic studies and dynamic reaction monitoring, making it essential for investigations in chemical biology and pharmacology. Its stable isotope labeling allows for precise quantification and tracking in various biological assays. -
Stable Isotope
4-Bromo-N-(4-bromophenyl)benzenamine-d8 is a stable isotope-labeled compound designed for use in isotope labeling experiments and mass spectrometry. This deuterium-labeled derivative of 4-Bromo-N-(4-bromophenyl)benzenamine facilitates the tracking of biochemical pathways and metabolic processes. Its unique isotopic signature enables enhanced sensitivity and specificity in analytical applications, making it a valuable reagent for chemical and biological research. -
Stable Isotope
Cyclopropylamine-d5 is a deuterated form of cyclopropanamine, serving as a stable isotope for research applications. Its unique isotopic labeling allows for improved tracking and analysis in various biochemical studies, such as metabolic pathways and reaction mechanisms. This compound is particularly useful in mass spectrometry and NMR spectroscopy to enhance the detection and quantification of target molecules. -
Stable Isotope
Lyso-PAF C-16-d4 is a deuterium-labeled derivative of Lyso-PAF (Platelet-Activating Factor). This stable isotope is primarily utilized in mass spectrometry applications for accurate quantification and tracing of lipid signaling pathways. Its incorporation into experimental designs enables researchers to gain insights into the roles of phospholipids in various biological processes and disease states. -
Stable Isotope
Piperidin-4-ol-d9 is a deuterated derivative of Piperidin-4-ol, serving as a stable isotope for research applications. This compound is utilized in various biochemical studies, particularly in mass spectrometry and metabolic tracing, providing enhanced analytical precision. Its stable isotopic labeling allows for the investigation of biochemical pathways and the identification of metabolites in biological systems. -
Stable Isotope
Dimethyl succinate-d4 is a deuterated analogue of dimethyl succinate, which serves as a stable isotope standard in chemical research. The incorporation of deuterium allows for enhanced analytical methods such as NMR and mass spectrometry. This reagent is useful in metabolic studies, tracer experiments, and the investigation of succinate metabolism in biological systems. -
Stable Isotope
4,4'-Dinitrocarbanilide-d8 is a deuterium-labeled derivative of 4,4'-Dinitrocarbanilide, primarily utilized as a stable isotope in chemical research. This compound serves as a valuable internal standard for mass spectrometry applications, facilitating the quantification of target compounds in complex biological matrices. Its isotopic labeling enhances the sensitivity and accuracy of analytical assays in pharmacokinetics and toxicology studies. -
Stable Isotope
Baloxavir-d4 is a deuterium-labeled derivative of Baloxavir, specifically designed as a stable isotope. It functions as a potent and selective inhibitor of cap-dependent endonuclease (CEN) within the polymerase PA subunit of influenza A and B viruses. Baloxavir-d4 effectively inhibits viral RNA transcription and replication, demonstrating significant antiviral activity. This reagent is valuable for research applications focused on understanding the mechanisms of influenza virus infection and for the development of antiviral therapies. -
Stable Isotope
N,N,N-Trimethylhexadecan-1-aminium-d42 chloride is a deuterium-labeled derivative of N,N,N-Trimethylhexadecan-1-aminium chloride. This stable isotope is primarily utilized in mass spectrometry and nuclear magnetic resonance (NMR) applications to trace compounds in complex biochemical systems. Its incorporation into research enables precise quantification and tracking of lipid interactions and membrane dynamics in biological studies. -
Stable Isotope
N-Methylbenzylamine-d3 is a stable isotope-labeled form of N-Methylbenzylamine, a compound belonging to the phenylmethylamine class. This deuterated variant serves as a valuable tool for tracing and quantifying N-Methylbenzylamine levels in various biological samples. Its presence in carrots indicates its potential utility as a biomarker for dietary intake of this specific food group, advancing research in nutritional studies and metabolomics. -
Stable Isotope
Colfosceril miristate-d9 is a deuterium-labeled analog of Colfosceril miristate, a synthetic phospholipid that plays a pivotal role in the formation of liposomes. This stable isotope enables advanced studies in lipid monolayers and bilayers, facilitating research on drug delivery mechanisms and lipid behavior in biological systems. Its unique properties make it an essential tool for understanding membrane dynamics and developing novel therapeutic strategies. -
Stable Isotope
1,4-Butanediol mononitrate-d8 is the deuterium-labeled derivative of 1,4-Butanediol mononitrate, serving as a stable isotope for research applications. This compound is utilized in pharmacokinetic studies and metabolic labeling to trace biological pathways involving nitrates. Its stable isotopic nature aids in the precise quantification of metabolites in complex biological matrices, contributing to the understanding of drug metabolism and interactions. -
Stable Isotope
Morpholine-d4 hydrochloride is a stable isotope-labeled compound derived from morpholine hydrochloride. It serves as a valuable tool in metabolic studies and tracer applications, facilitating the tracking of biomolecules in biochemical research. This reagent is particularly useful in drug development and pharmacokinetics, allowing for enhanced sensitivity and accuracy in analytical methodologies. -
Stable Isotope
Dexmedetomidine-d4 L-tartrate (-d4-major) is a deuterium-labeled derivative of Dexmedetomidine L-tartrate, serving as a stable isotope for research applications. This compound is primarily utilized in pharmacokinetic studies and metabolic labeling, enabling accurate tracking of drug disposition and action mechanisms. It supports investigations into alpha-2 adrenergic receptor modulation and sedation research, providing insights into the pharmacological properties of its parent compound. -
Stable Isotope
Acetophenone-13C6 is a stable isotope of acetophenone, incorporating six carbon-13 atoms. This isotopically labeled compound is primarily utilized in NMR spectroscopy for quantitative analysis and metabolic studies. Its incorporation in research facilitates tracer studies in metabolic pathways and increases the accuracy of mass spectrometry analyses, making it a valuable tool for biochemical and pharmaceutical research applications. -
Isotope-Labeled Compound
Triclocarban-13C6 is an isotope-labeled derivative of Triclocarban, specifically designed for use in research involving isotope tracing. This broad-spectrum antibacterial compound is commonly employed in the formulation of personal care products such as soaps, skin creams, and deodorants. As a potential endocrine disruptor, Triclocarban-13C6 can help investigate its effects on androgen and estrogen modulation, as well as other hormone-mediated biological processes. This compound is essential for studies focusing on environmental impacts and human health implications of antibacterial agents. -
Stable Isotope
Iron-57 (57Fe) is a stable isotope of iron utilized in various scientific applications. Its unique nuclear properties make it valuable for studies involving bioavailability, metabolic tracking, and structural analysis in biochemical research. Iron-57 is commonly employed in techniques such as nuclear magnetic resonance (NMR) spectroscopy and Mössbauer spectroscopy for investigating iron-containing compounds and proteins. -
Stable Isotope
1,2-Dihexanoyl-sn-glycero-3-phosphocholine-d22 is a deuterium-labeled analog of 1,2-Dihexanoyl-sn-glycero-3-phosphocholine, functioning as a stable isotope. This reagent is primarily used in mass spectrometry and NMR studies to enhance the spectral resolution of phospholipids and lipid metabolism pathways. Its incorporation into lipid bilayers facilitates detailed investigations of membrane dynamics and biological processes involving phospholipids. -
Stable Isotope
Dothiepin-d3 is a deuterium-labeled analog of Dothiepin, an antidepressant primarily acting as a norepinephrine and serotonin reuptake inhibitor. This stable isotope is utilized in pharmacokinetic studies, enabling researchers to trace metabolic pathways and quantify drug concentrations in biological samples. Dothiepin-d3 is essential for developing a deeper understanding of drug behavior and efficacy in clinical and preclinical research. -
Stable Isotope
3-Mercaptopropionic acid-d4 is a deuterium-labeled derivative of 3-Mercaptopropionic acid, primarily utilized as a stable isotope in biochemical research. This compound can serve as a tracer in metabolic studies, aiding in the investigation of thiol-related pathways and the interaction of mercaptans in biological systems. Its unique isotopic signature allows for enhanced detection and quantification in analytical techniques such as mass spectrometry. -
Stable Isotope
D-Erythrose-4-13C is a stable isotope-labeled form of D-Erythrose, distinguished by the incorporation of the carbon-13 isotope. This compound is primarily utilized in metabolic studies to trace carbon flux and analyze metabolic pathways. Its stable isotope properties make it a valuable tool for research applications in fields such as biochemistry, cellular biology, and metabolic engineering. -
Stable Isotope
Benzoate-d5 sodium is a stable isotope-labeled form of sodium benzoate, featuring five deuterium atoms. This reagent is primarily used in metabolic studies and isotopic tracing experiments, providing valuable insights into biochemical pathways and the pharmacokinetics of compounds. Its specific labeling helps in enhancing the accuracy of quantitative analyses and elucidating molecular interactions in various biological systems. -
Stable Isotope
1,4-Diazabicyclo[2.2.2]octane-d12 is a deuterium-labeled derivative of 1,4-Diazabicyclo[2.2.2]octane. This stable isotope is primarily utilized in chemical research for tracing and dynamic studies of complex biological systems. Its unique properties enhance the understanding of metabolic pathways and molecular interactions in pharmacology and biochemistry applications. -
Stable Isotope
Trilaurin-d15 is a deuterated form of Trilaurin, primarily utilized as a stable isotope in biochemical research. This compound serves as a valuable tracer in metabolic studies, particularly in lipid metabolism and lipid-related processes. Its unique isotopic signature allows researchers to investigate complex biological pathways with enhanced precision and sensitivity in analytical techniques such as mass spectrometry. -
Stable Isotope
15:0-18:1-15:0 TG-d7 is a deuterium-labeled triglyceride that serves as a stable isotope tracer. It is utilized in metabolic studies to investigate lipid metabolism and the pathways of fatty acid synthesis and degradation. This compound is valuable for research applications in nutrition, endocrinology, and metabolic disease studies, enabling precise tracking of triglyceride dynamics within biological systems. -
Stable Isotope
Nitrofurazone-13C,15N2 is a stable isotope-labeled derivative of Nitrofurazone, incorporating 13C and 15N isotopes. This compound exhibits potential antibacterial properties, primarily used in topical applications for the treatment of wounds, burns, ulcers, and skin infections against a range of microorganisms. Additionally, Nitrofurazone has been shown to influence ecosystem dynamics in marine environments and may impact the functional processes of epiphytic fauna, making it relevant for various ecological and microbiological research applications. -
Stable Isotope
27-Hydroxy cholesterol-d6 is a deuterium-labeled derivative of 27-Hydroxy cholesterol. This stable isotope is utilized in analytical chemistry and biological research for metabolic studies and tracing experiments. Its incorporation in research helps elucidate cholesterol metabolism and its role in various physiological processes, aiding in the understanding of cholesterol-related diseases. -
Isotope-Labeled Compound
Deoxynivalenol-13C15 is an isotope-labeled compound derived from Deoxynivalenol, featuring carbon-13 isotopes. This compound is primarily utilized in toxicological studies and food safety research to trace mycotoxin metabolism and its effects on biological systems. Its incorporation of stable isotopes allows for precise quantification in mass spectrometry applications, facilitating deeper insights into the biological activities and mechanisms of Deoxynivalenol. -
Stable Isotope
N-Methylacetamide-d6 is a deuterated stable isotope of N-Methylacetamide, serving as an important solvent and reagent in chemical synthesis and analytical chemistry. It is utilized in NMR spectroscopy and mass spectrometry studies, providing enhanced resolution and sensitivity for the characterization of molecular structures. This compound is particularly valuable in research applications requiring isotopic labeling for mechanistic studies and metabolic flux analysis. -
Stable Isotope
Tripropyl phosphate-d21 is a deuterated form of Tripropyl phosphate, functioning as a stable isotope. It is utilized primarily in tracer studies and analytical applications in chemical research. This compound enables precise monitoring of chemical reactions and processes, aiding in the understanding of metabolic pathways and kinetics in various biological systems. -
Isotope-Labeled Compound
Adenine-15N5 hydrochloride is a stable isotope-labeled compound targeting nucleotide synthesis. This nitrogen-15 labeled version of adenine serves as an important tool in metabolic studies and tracer experiments, enabling researchers to track and analyze nucleic acid dynamics in various biological systems. Its applications extend to fields such as biochemistry, molecular biology, and pharmacology, where understanding purine metabolism is essential. -
Stable Isotope
Cholesterol stearate-d6 is a deuterium-labeled derivative of cholesterol stearate, serving as a stable isotope. This compound is utilized in metabolic studies and tracer experiments, enabling precise tracking of lipid metabolic pathways in biological systems. Its use in research assists in understanding cholesterol metabolism and dynamics in various physiological and pathological contexts. -
Stable Isotope
(Rac)-8-Hydroxy-efavirenz-d4 is a deuterium-labeled stable isotope of rac-8-Hydroxy-efavirenz, featuring an alkyne moiety. This compound serves as a valuable click chemistry reagent, facilitating copper-catalyzed azide-alkyne cycloaddition (CuAAc) with azide-containing molecules. Its unique isotopic labeling enables precise tracking and analysis in various biochemical studies, enhancing research in drug metabolism and pharmacokinetics. -
Stable Isotope
C22 Glucosylceramide (d18:1/22:0)-d4 is a deuterium-labeled derivative of C22 Glucosylceramide (d18:1/22:0), featuring a stable isotopic composition. This compound serves as a valuable tool for quantitative analysis of glucosylceramide metabolism and functions in cellular lipid research. Its utilization in mass spectrometry enables tracking and characterization of lipid pathways, enhancing understanding of associated biological processes and disorders. -
Stable Isotope
N-Boc-piperazine-d4 is a deuterium-labeled derivative of N-Boc-piperazine, serving as a stable isotope. It is primarily utilized in mass spectrometry and NMR studies to improve the accuracy of quantitative analysis and the elucidation of molecular structures. This compound is essential for researchers investigating pharmacokinetics, drug metabolism, and other areas where isotopic labeling enhances experimental precision. -
Stable Isotope
BMY 28674-d8 is a deuterium-labeled derivative of BMY 28674, serving as a stable isotope for enhanced analytical precision. This reagent is primarily used in mass spectrometry applications to improve the accuracy of quantification in biochemical studies and pharmacokinetic research. Its stable isotope labeling enables detailed investigation of metabolic pathways and compound behavior in biological systems. -
Stable Isotope
C18 Glucosyl(β) ceramide-d5 is a stable isotope-labeled lipid that serves as a valuable tool for metabolic tracing and analytical studies. Its unique deuterium labeling allows for enhanced detection and quantification in mass spectrometry applications. This compound is essential for investigating glycosphingolipid metabolism, cellular signaling pathways, and related biological processes in various research settings. -
Stable Isotope
Ethylene-d4-diamine is a stable isotope-labeled form of ethylene-diamine, featuring four deuterium atoms. This compound is utilized as a tracer in various biochemical assays and research applications, including metabolic studies and reaction mechanisms investigation. Its incorporation in experimental designs allows for enhanced accuracy in quantifying and analyzing chemical processes involving ethylene-diamine derivatives. -
Stable Isotope
Boscalid-d4 is a deuterium-labeled analogue of Boscalid, serving as a stable isotope for research applications. This compound is primarily utilized in studies involving pesticide metabolism and environmental fate, allowing for precise tracking and quantification in biological matrices. Its isotopic labeling enhances the sensitivity and accuracy of analytical methods such as mass spectrometry, facilitating the investigation of Boscalid’s effects and interactions in various biological systems. -
Stable Isotope
N-(4-Aminobenzoyl)-L-glutamic acid-d4 is a deuterium-labeled derivative of N-(4-Aminobenzoyl)-L-glutamic acid. This stable isotope serves as a valuable tool in analytical chemistry, enabling precise quantification and tracking of glutamic acid derivatives in biological studies. Its incorporation into research can facilitate investigations into metabolic pathways and the physiological role of glutamic acid in various biological processes. -
Stable Isotope
3-Methyluric Acid-13C4,15N3 is a stable isotope-labeled derivative of 3-Methyluric Acid, incorporating four carbon-13 and three nitrogen-15 isotopes. This compound is primarily utilized in isotopic labeling studies, providing a powerful tool for metabolic tracing and pharmacokinetic research. It aids in elucidating metabolic pathways and understanding the biological dynamics of purine metabolism in various biological systems. -
Stable Isotope
Aprepitant-d4 is a deuterium-labeled analogue of Aprepitant, functioning primarily as a stable isotope. This compound is utilized in pharmacokinetic studies and metabolic research to trace the behavior of Aprepitant and its metabolites in biological systems. Its stable isotopic nature allows for enhanced detection and quantification in various analytical applications, facilitating a deeper understanding of drug interactions and pharmacodynamics. -
Stable Isotope
Acetophenone-13C is a stable isotope-labeled derivative of acetophenone, which serves as a key reference standard in isotopic studies. This compound is utilized in various applications including metabolic tracking and quantitative analysis in mass spectrometry. The incorporation of the 13C isotope allows for enhanced monitoring of metabolic pathways and the elucidation of reaction mechanisms in chemical research.
