| Catalog | name | Description | price |
|---|---|---|---|
| R-M2-10603 | Biotin-L-Octanoylcarnitine | Biotin labeled L-Octanoylcarnitine/L-Octanoylcarnitine,Biotin labeled is a functional derivative. This derivative can be used as a bio coupling probe for targeted tracking of fatty acid metabolism processes, and can also rely on the biotin avidin system to achieve separation and enrichment of related metabolic complexes, providing a tool for lipid metabolism related research. | price> |
| R-M2-10613 | Biotin-Ginsenoside Rg1 | Biotin labeled Ginnoside Rg1 is a functional derivative obtained by covalently binding biotin with ginsenoside Rg1. Based on the highly specific interaction between biotin and streptavidin, this derivative can be used for target protein fishing and in vivo metabolic tracking of ginsenoside Rg1, helping to elucidate its mechanism of action in vivo. It is an important tool probe for traditional Chinese medicine pharmacological research. | price> |
| R-M2-10620 | PAGln-Biotin | Phenylacetylglutamine-Biotin/Biotin-Phenylacetylglutamine/Biotin-PAGln is a biotinylated probe. Using the high affinity capture of biotin avidin, isolate and identify target proteins that directly bind to PAGln in cells or tissues, clarify the molecular targets of PAGln action, such as studying the mechanism of PAGln binding to adrenergic receptors through validation experiments. It can be used to enrich low abundance PAGln in complex biological samples (plasma, feces, cell lysate), improve the sensitivity of subsequent mass spectrometry and other detection methods, and assist in accurately quantifying endogenous PAGln levels in samples. | price> |
| R-M2-10623 | Biotin-Hypoxanthine | Hypoxanthine-Biotin/Biotin labeled Hypoxanthine is a scientific labeling reagent obtained by coupling hypoxanthine with biotin. It can be used for tracing experiments of hypoxanthine, clearly observing the behavior of the heterocyclic molecule in mixed systems, and simplifying the tracing experimental process. It is applied in molecular affinity recognition research, relying on the exclusive binding properties of biotin to explore the microscopic interaction principles between purine structures and other molecules. | price> |
| R-M2-10626 | Wogonin-biotin | Biotin-Wogonin/Biotin labeled Wogonin is a functionalized molecular probe obtained by chemically covalently linking the natural flavonoid compound baicalein with biotin. It can only be used in scientific research scenarios and cannot be applied in human experiments. Relying on the highly specific binding properties of biotin and streptavidin, protein and nucleic acid targets that interact with baicalein can be efficiently separated through affinity enrichment, and their regulatory pathways in cells can be analyzed. It is a commonly used tool for studying the mechanism of action of natural products. It can be used to construct targeted delivery prodrugs or drug carriers, utilizing the affinity of biotin to deliver baicalein to target tissues in a targeted manner, enhancing its bioavailability and reducing potential toxic side effects. | price> |
| R-M2-10627 | Dioscin-Biotin | Biotin-Dioscin/Biotin labeled Dioscin is a labeling reagent exclusively designed for scientific research scenarios. As a targeted tracing tool, it is used to track the distribution and metabolic processes of dioscin in organisms, clarify its localization and signal transduction mechanism in cells, and accurately screen and verify the direct target of dioscin through pull-down experiments. It can also be used for pharmacokinetic studies of dioscin, and based on the targeted binding properties of biotin avidin, a targeted delivery system can be constructed to deliver dioscin to specific tissues, enhancing drug efficacy while reducing side effects on normal tissues. By utilizing the high sensitivity of the biotin avidin system, specific quantitative detection of dioscin in biological samples can be achieved, significantly improving detection accuracy and providing support for drug quality control. | price> |
| R-M2-10635 | 3-Methylglutaconic acid-biotin | Biotin-3-Methylglutaconic acid is a research specific probe obtained by covalently coupling biotin with 3-methylglutaric acid. It can be used for the study of metabolic mechanisms related to 3-methylglutaraturia, relying on the biotin streptavidin system to enrich and screen the binding targets of this metabolite, assisting in the analysis of its specific pathway of inducing oxidative stress in the cerebral cortex. It can only be used in scientific research scenarios and is strictly prohibited from being directly applied to the human body. | price> |
| R-M2-10636 | Biotin-Gambogenic acid | Gambogenic acid-Biotin is a research specific probe obtained by covalently coupling biotin with 3-methylglutaric acid. It can be used for the study of metabolic mechanisms related to 3-methylglutaraturia, relying on the biotin streptavidin system to enrich and screen the binding targets of this metabolite, assisting in the analysis of its specific pathway of inducing oxidative stress in the cerebral cortex. It can only be used in scientific research scenarios and is strictly prohibited from being directly applied to the human body. | price> |
| R-M2-10641 | Biotin-Nicotinamide | Biotin labeled Nicotinamide/Nicotinamide-Biotin is a labeled biochemical reagent designed for scientific research scenarios. It combines the functional properties of biotin and nicotinamide, with the biotin portion being able to achieve targeted labeling through highly specific biotin avidin interactions. The nicotinamide portion can serve as a precursor for NAD+and participate in research related to cellular energy metabolism and DNA repair. Currently, it has been applied in metabolomics related experiments in transitional cows, which can increase serum ATP content and enhance cellular antioxidant capacity. | price> |
| R-M2-10647 | Abscisic acid-Biotin | Biotin-Abscisic acid/Biotin labeled Abscisic acid is a functionalized scientific research derivative obtained through covalent coupling. It can be used for the construction of plant hormone related biosensors, relying on the high affinity binding of biotin streptavidin to achieve high-sensitivity quantitative detection of abscisic acid in samples. It can also be used for protein capture experiments to enrich and isolate abscisic acid targeted binding proteins in plants, and to decipher the signaling regulatory pathway of abscisic acid. | price> |

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