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Catalog	name	Description	price
R-C-5442	DOPE-FITC	1,2-Dioleoyl-sn-glycero-3-phosphoethanolamine-Fluorescein, also known as DOPE-Fluorescein, is a specific compound used in molecular biology research and experimentation. It is a fluorescent lipid probe that is often used to label and track cellular membranes. This molecule consists of a phospholipid backbone (dioleoyl-sn-glycero-3-phosphoethanolamine) with a fluorescein dye attached to it.	price>
R-M2-9460	Stearic acid-PEG-benzaldehyde	Stearic acid-PEG-benzaldehyde is a versatile compound with numerous potential applications in drug delivery, bioconjugation, and material science. The combination of stearic acid, PEG, and benzaldehyde provides a means to create multifunctional agents that can significantly enhance drug solubility, stability, and targeting capabilities in pharmaceutical applications.	price>
R-M-6027	BODIPY FL, STP Ester, Sodium Salt	BODIPY FL, STP Ester, Sodium Salt is a green-fluorescent dye that is reactive with primary amines on peptides, proteins, modified nucleotides, biopolymers and other amine-containing biomolecules. The water solubility is improved by STP ester compared to NHS esters.	price>
R-C-5443	β-CD-g-PLGA5k	The β-Cyclodextrin component allows the copolymer to form inclusion complexes with hydrophobic drugs or molecules, enhancing their solubility and stability. This property is particularly useful for drug delivery purposes, as it can increase the bioavailability and therapeutic efficacy of poorly soluble drugs.PLGA provides the copolymer with biodegradability, biocompatibility, and controlled release characteristics.	price>
R-M2-9461	Stearic acid-BSA	Potential Applications of Stearic Acid-BSA/Stearic acid-bovine serum albumin： Drug Delivery: Enhanced Solubility: Stearic acid can help solubilize lipophilic drugs when formulated with BSA. This is particularly useful for oral and parenteral drug formulations. Controlled Release: Fatty acid-BSA complexes could be designed for controlled release of therapeutic agents, potentially improving the pharmacokinetics of the drug. Nutritional Studies: Mixed with BSA, stearic acid can be utilized to study lipid metabolism, absorption mechanisms, and the role of fatty acids in various physiological processes. Emulsification and Stabilization: In food and cosmetic formulations, stearic acid-BSA mixtures can serve as emulsifiers or stabilizers, improving the texture and shelf-life of products. Cellular Uptake Studies: Researchers can use stearic acid-BSA complexes to study cellular uptake mechanisms of fatty acids and their derivatives, as BSA can help mimic physiological conditions in vitro. Bioconjugation and Targeted Drug Delivery: The affinity of BSA for various ligands can allow for targeted delivery strategies where stearic acid or drugs conjugated to it can be selectively transported to specific tissues or cells.	price>
R-M-6028	BODIPY 493/503 NHS Ester (Succinimidyl Ester)	BODIPY 493/503 NHS Ester is a green-fluorescent dye that is reactive with primary amines on peptides, proteins, modified nucleotides, biopolymers, and other amine-containing biomolecules. This compound is relatively insensitive to environment and pH changes.	price>
R-C-5444	DSPE-TK-PEG5000-Borneol	DSPE is a commonly used lipid in nanoparticle formulations due to its ability to form stable lipid bilayers. It can provide structural integrity and stability to the nanoparticles. PEG is a hydrophilic polymer that can be used as a coating material to improve the stability and pharmacokinetics of nanoparticles. Borneol is a natural bicyclic monoterpene alcohol that has been used in traditional medicine for various purposes, including enhancing drug delivery.	price>
R-M-6029	BODIPY FL Penicillin	BODIPY FL Penicillin is a conjugation of the green-fluorescent dye and the antibiotic penicillin for investigations of bacterial penicillin binding proteins (PBPs). PBPs are membrane-bound enzymes and targets of β-lactam antibiotics. BODIPY FL Penicillin has been utilized to study the mechanisms of bacterial resistance to β-lactam antibiotics.	price>
R-C-5445	DSPE-PEG3400-ACA	DSPE is a lipid that is commonly used in nanoparticle formulations due to its ability to form stable lipid bilayers.PEG is a hydrophilic polymer. When included in the formulation, it can serve as a coating material to improve the stability and biocompatibility of nanoparticles. acrylic acid, is a monomer that can be used in the synthesis of polymers.DSPE-PEG-ACA can enable the attachment of various molecules, such as targeting ligands or therapeutic agents, to the nanoparticle surface, enhancing their specific delivery to target cells or tissues.	price>
R-M2-9463	endo-BCN-CY5.5	endo-BCN-CY5.5 is a versatile and powerful tool in the fields of biological research, diagnostics, and therapeutic development. Its ability to link specific biomolecules and enable imaging in the near-infrared range makes it valuable for both fundamental and applied science.	price>
R-M-6030	BODIPY 493/503 Methyl Bromide	BODIPY 493/503 Methyl Bromide is a cell-permeant, green-fluorescent dye for long-term staining of live cells. It is well retained in the cell and the methyl bromide group reacts with internal cell components, presumably glutathione, yielding membrane-impermeant, green-fluorescent adducts.	price>
R-C-5446	DSPE-PEG2K-KTLLPTP	DSPE is a lipid commonly used in nanoparticle formulations due to its ability to form stable lipid bilayers.PEG is a hydrophilic polymer that can be used as a coating material to improve the stability and biocompatibility of nanoparticles.KTLLPTP is a specific peptide sequence that is often used for targeting purposes in nanoparticle formulations.The choice of this specific peptide sequence suggests that the formulation is designed to target cells or tissues that express receptors or proteins that have an affinity for this peptide. By incorporating the KTLLPTP sequence,the nanoparticles can specifically bind to these receptor-bearing cells,enhancing the accumulation of the nanoparticles at the target site.	price>
R-M2-9464	endo-BCN-GAL	The combination of endo-BCN with galactose(endo-BCN-galactose) can have several applications, especially in the fields of biochemistry and medicinal chemistry: The endo-BCN can react with azide-containing species through a rapid and selective click reaction. This feature allows researchers to label or modify galactose or galactose-containing biomolecules selectively, allowing for traceable modifications. By attaching bioactive molecules or drugs to galactose, researchers can create targeted drug delivery systems. Many cells have receptors that specifically recognize galactose, allowing for more precise targeting of therapies, especially in tissues where galactose is a more prevalent ligand. This compound could potentially be used to create biosensors. By incorporating it into a biosensor platform, it may be possible to detect specific interactions between galactose and its binding partners, with BCN facilitating easy coupling of labels or signal-generating groups.	price>
R-M-6031	BODIPY TR Cadaverine	BODIPY TR Cadaverine is an aliphatic-amine analog of the red-fluorescent dye, of which the primary amine can be coupled to aldehydes and ketones to yield a reversible Schiff Base product that can be transformed to a stable amine derivative using a reducing agent like sodium borohydride or sodium cyanoborohydride.	price>
R-C-5447	DSPE-PEG2000-WLSEAGPVVTVRALRGTGSW	DSPE is a lipid commonly used in nanoparticle formulations due to its ability to form stable lipid bilayers.PEG is a hydrophilic polymer that can be used as a coating material to improve the stability and biocompatibility of nanoparticles. The peptide sequence WLSEAGPVVTVRALRGTGSW is derived from a protein and is likely chosen for its specific binding affinity to a receptor or target molecule of interest. By incorporating this peptide sequence, the DSPE-PEG2000-WLSEAGPVVTVRALRGTGSW nanoparticles can achieve targeted binding to cells or tissues expressing the corresponding receptor, improving the delivery and accumulation of the nanoparticles at the desired site.	price>
R-M2-9465	PAMAM G5-CY5	Applications of CY5-PAMAM Generation 5/Cyanine5-Polyamidoamine Generation 5: Fluorescent Imaging: This conjugate can be used in biological imaging applications, allowing researchers to visualize biomolecules or cells in live samples due to CY5 fluorescent properties. Drug Delivery: The structure of dendrimer allows for encapsulation or attachment of therapeutic agents or nucleic acids, enabling targeted delivery and controlled release. Biosensors: CY5-PAMAM can be integrated into biosensing platforms to enhance detection sensitivity and specificity due to its fluorescent signal response. Gene Delivery: PAMAM dendrimers are known carriers for genetic materials (like DNA or RNA). The conjugation of CY5 adds a fluorescent marker that aids in tracking and quantifying the delivery process in cellular studies. Diagnostics: In vitro and in vivo diagnostic applications can benefit from the bright fluorescence of CY5 for detecting specific biological markers.	price>
R-M-6032	BODIPY FL Prazosin,cas:175799-93-6	BODIPY FL Prazosin is a green-fluorescent probe for the α1-adrenergic receptor that is used in live cells and flow cytometry.	price>
R-C-5448	PLGA11K-PEG5K-Angiopep-2	PLGA is a biodegradable and biocompatible polymer commonly used in nanoparticle formulations. It allows for the controlled release of encapsulated drugs over time and provides stability to the nanoparticles.PEG is a hydrophilic polymer used as a coating material to enhance the stability, circulation time，and biocompatibility of nanoparticles. Angiopep-2 is a peptide sequence derived from the Kunitz domain of tissue factor pathway inhibitor-2 (TFPI-2).	price>
R-M2cs-9466	FITC and Concanavalin A-PAMAM G5 microspheres@Cannabinoids	The applications of FITC and Concanavalin A-PAMAM G5 microspheres @Cannabinoids: Targeted Drug Delivery: The FITC labeling allows for easy tracking of the delivery system in biological studies, while Con A provides the capability to target cells specifically expressing carbohydrates.Encapsulation of cannabinoids could enhance their delivery to target tissues, potentially for pain management, anti-inflammatory effects, and more. Diagnostics: FITC-modified microspheres could be used in assays or imaging techniques to detect the presence of specific glycoproteins or cells in the sample. Research Tools: The combination of fluorescent tagging and carbohydrate-targeting capability could be utilized in research applications, enabling the study of cannabinoid uptake in various cell types. Therapeutic Applications: This system could facilitate improved therapies for various conditions where cannabinoids are known to have beneficial effects, tailoring the delivery to affected tissue types.	price>
R-M-6033	Pyrromethene 580,cas:151486-56-5	Pyrromethene 580 is a BODIPY dye,it can be used as a laser dye.	price>

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