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Email:sales@ruixibiotech.com
Tel.:02988811435
| Catalog | name | Description | price |
|---|---|---|---|
| R-M2-9336 | Biotin-trehalose | Biotin-trehalose is a molecular complex formed by linking biotin, a vitamin that plays a critical role in various biological processes, with trehalose, a natural sugar with stabilizing properties. This conjugate has applications in molecular biology, biochemistry, and biotechnology. | price> |
| R-M2-9340 | Biotin-ginsenoside RG3 | Biotin-ginsenoside RG3 is a molecular complex. The conjugation of biotin with ginsenoside RG3 provides a versatile tool for targeted delivery and studying the biological activities of ginsenosides, potentially enhancing their therapeutic applications in medicine and biotechnology. | price> |
| R-M2-9361 | Biotin-oleic acid | Biotin-oleic acid could be utilized in research, cosmetic formulations, or nutritional supplements where the properties of both biotin and oleic acid are desired. The conjugation of biotin with oleic acid might be used to improve the delivery, stability, or efficacy of biotin, especially in contexts where the fatty acid component can enhance absorption or bioavailability. | price> |
| R-M2-9398 | Biotin-Salvianolic acid B | Biotin-Salvianolic acid B is a compound that combines the beneficial properties of biotin and salvianolic acids B. Biotin has been shown to enhance the absorption and bioavailability of certain nutrients and drugs, while salvianolic acid B has potent antioxidant and anti-inflammatory effects. Therefore, this complex structure may improve the delivery and efficacy of salvianolic acid B in various biological systems. Overall, Biotin-Salvianolic acid B may have potential applications in the treatment of diseases associated with oxidative stress and inflammation, including cardiovascular disease, cancer, and neurodegenerative diseases. | price> |
| R-M2-9403 | Triclosan-BIOTIN | Triclosan Biotin can be used for targeted antimicrobial therapy, immunoassays, etc. The biotin component can allow for the incorporation of the triclosan agent in systems that utilize streptavidin-biotin interactions, facilitating various applications in biosensing or drug delivery.Helps study antimicrobial resistance or the effectiveness of triclosan in a more controlled manner within cellular or animal models due to the biotin label. | price> |
| R-M2-9404 | Bisphenol A-BIOTIN | Bisphenol A-Biotin could be explored for novel therapeutic approaches to target tissues potentially affected by BPA exposure, making it a dual-purpose tool in both drug delivery and metabolic studies. | price> |
| R-M2-9405 | Emodin-biotin | The emodin portion of Emodin-Biotin can provide therapeutic effects, while the biotin part can facilitate targeted delivery to cells that express the biotin receptor, enhancing therapeutic efficacy and minimizing side effects. Emodin-biotin can be used as a tool in biochemical assays. The biotin component allows for easy detection and isolation of emodin in biological samples through streptavidin-based techniques. Given emodin anti-cancer properties, the conjugate can be explored in cancer treatment strategies. By incorporating biotin, the potential exists for more selective targeting of cancer cells, improving the therapeutic index. Biotinylated compounds are often used in biosensor applications, where the binding affinity of biotin to streptavidin can allow for the sensitive detection of emodin or its metabolites in various samples. The compound could be utilized in metabolic studies to observe how emodin influences various metabolic pathways, with biotin serving to track its biological activity. | price> |
| R-M2-9406 | Biotin-Spermine | Biotin-Spermine is a conjugate that merges the biochemical properties of biotin and spermine, potentially offering novel applications in drug delivery, metabolic studies, and molecular biology research. | price> |
| R-M2-9412 | Biotin-Diammonium glycyrrhizinate | Biotin-Diammonium Glycyrrhizinate can be used to tag proteins for purification through avidin or streptavidin affinity chromatography. The strong interaction between biotin and avidin provides a powerful method to isolate specific proteins. The compound can be used in cell culture systems to study the effects of glycyrrhizic acid on cellular responses, possibly facilitating adhesion or internalization of glycyrrhizic acid in cells. In various assays, this bioconjugate can be employed for detecting specific proteins or biological targets. Using biotin as a probe allows for the development of sensitive detection methods. | price> |
| R-M2-9414 | Biotin-Spermidine | Biotin-Spermidine represents a versatile compound in biochemistry and molecular biology, serving as a useful tool for studying cellular mechanisms, facilitating protein purification, and exploring potential therapeutic applications. The biotin-spermidine conjugate can be used in various cellular assays to study the effects of spermidine on cell functions, such as growth, apoptosis, and stress responses, while tracking the conjugate’s presence using biotin’s detection capabilities. By linking biotin-spermidine to a fluorescent reporter (in a more complex design), researchers could visualize interactions with cellular components in real-time using fluorescence microscopy. Biotin-spermidine could be utilized in drug delivery systems targeting specific cells, especially since biotin can facilitate receptor-mediated endocytosis, allowing for targeted delivery of spermidine or spermidine-based therapeutics. | price> |
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