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Catalog	name	Description	price
R-C-5570	18:1 Biotinyl PE CAS：384835-53-4	18:1 Biotinyl PE is often used in bioconjugation processes and biotechnological applications. The presence of the oleic acid acyl chain provides stability and structure to the lipid bilayer, while the biotinyl modification enables specific binding to biotin-binding proteins.	price>
R-M2-9588	FITC-PDL10	FITC-PDL10 to study cell adhesion properties and interactions with different substrates. The fluorescence offers an easy way to visualize and quantify how well cells are adhering to surfaces coated with PDL10. FITC-PDL10 can also be used as a model for drug delivery where it may help in targeting cells with incorporated therapeutic agents while monitoring the uptake via fluorescence. FITC-PDL10 can be utilized in fluorescent microscopy, allowing for real-time imaging of interactions between cells and surfaces or materials modified with PDL10. This is particularly useful in understanding cell behavior in tissue engineering or regenerative medicine. FITC-PDL10 can help in studying the morphology and growth patterns of different cell types in culture and understanding how synthetic peptides can enhance or influence biological responses.	price>
R-M-7058	mPEG-BA	Methoxypoly(ethylene glycol) butanoic acid (mPEG-BA)is formed by a degradable linker connecting PEG polymer chain and thecarboxyl group, which is reactive with amine on protein.	price>
R-C-5571	16:0 Cyanur PE CAS：1246304-37-9	16:0 Cyanur PE is used in bioconjugation processes and biotechnological applications where the phospholipid can be incorporated into liposomes or lipid-based systems and subsequently conjugated with molecules of interest through the cyanur group.The presence of the palmitic acid acyl chains provides stability and structure to the lipid bilayer,while the cyanur modification allows for specific covalent attachment to amine-containing molecules.	price>
R-M2-9589	TPP-PDL10	TPP-Right-handed polylysine/TPP-Poly-D-Lysine10/TPP-PDL10 can be designed as a carrier for drugs or gene therapy agents, specifically targeting mitochondria within cells. This targeting is particularly beneficial for treating diseases where mitochondrial dysfunction is implicated, such as neurodegenerative diseases, cancer, and metabolic disorders. The positive charge from both TPP and Poly-D-Lysine may improve the uptake of the conjugate into cells through endocytosis. This characteristic can be harnessed for efficient delivery of therapeutic proteins, nucleic acids (like siRNA or DNA), or any hydrophilic compounds that have poor cellular permeability. If the TPP-Poly-D-Lysine conjugate is tagged with a fluorescent dye, it can be utilized for imaging mitochondria in live cells. This can help in studies aimed at elucidating mitochondrial dynamics, morphology, and their role in various cellular processes.	price>
R-M-7059	mpeg-propanoic Acid	mpeg-propanoic Acid,Methoxypolyethylene glycol propionic acid is a peg derivative.	price>
R-C-5572	Tetramyristoylcardiolipin,Ammonium salt CAS：63988-20-5	The Tetramyristoyl part indicates that all of the four acyl chains of the cardiolipin molecule are myristic acid chains.Myristic acid is a 14-carbon saturated fatty acid commonly found in biological membranes. The presence of myristic acid acyl chains in cardiolipin can influence its physical properties,such as membrane fluidity and protein interaction.	price>
R-M2-9590	Cholesterol-PEG2K-mal-cys-THRSSVVC-K-FAM	Cholesterol-PEG2K-mal-cys-THRSSVVC-K-FAM is a sophisticated lipid-peptide conjugate that can contribute significantly to the fields of drug delivery and cellular Imaging,biosensing. FAM can be used to visualize the delivery and uptake of the lipid-peptide conjugate in cells.The peptide may be designed to recognize specific cell surface receptors, enabling targeted drug delivery to diseased tissues (e.g., cancer cells).The fluorescent properties of FAM combined with the specificity of the peptide can be employed in biosensors for detecting cellular events.	price>
R-M-7060	IRDye® 800CW Protein Labeling Kits, high molecular weight kit	The IRDye 800CW Protein Labeling Kit-High MW is optimized to label proteins for use with the Odyssey® Infrared Imaging System, Aerius Automated Imaging System, or other in vivo imaging systems with near-infrared detection. Labeled proteins may be used for Western blots,In-Cell Western™ (ICW) immunofluorescent assays, in vivo imaging, and other applications.	price>
R-C-5573	DSPE-PEG2000-acryloyl chloride	The DSPE component allows for the incorporation of the compound into lipid-based drug delivery systems.due to its amphiphilic nature. The PEG chain provides steric stability and prevents opsonization and clearance by the immune system, allowing for prolonged circulation time in the body. The acryloyl chloride group can react with amine-containing molecules or polymers to form covalent bonds, enabling the attachment of targeting ligands, imaging agents, or therapeutic drugs to the DSPE-PEG2000 backbone.	price>
R-M2-9591	FITC-Sodium valproate	By tagging sodium valproate with FITC, researchers can use fluorescence microscopy to study how the drug enters cells and its intracellular localization.FITC-Sodium valproate/FITC-labeled sodium valproate could be used to develop drug delivery vehicles that target specific cells or tissues.Researchers could use the labeled compound to determine the pharmacokinetic profile of valproate, including absorption, distribution, metabolism, and excretion.	price>
R-M-7061	t-Boc-N-amido-PEG-amine/NH2	t-Boc-N-amido-PEG-amine has a t-Boc protecing group and free amine which can be used in direct coupling with succinimidyl or PFP ester via amide bond formation. The t-Boc can be easily removed under acidic condition to produce a free primary amine. Reagent grade, for research use only.	price>
R-C-5574	DOPA-PEG5K-Mannose	1,2-Dioleoyl-sn-glycero-3-PA is a phospholipid containing the long-chain (18:1) fatty acid oleic acid inserted at the sn-1 and sn-2 positions. It has been used in the generation of micelles, liposomes, and other artificial membranes.Mannose is a sugar that can specifically interact with mannose receptors, which are located on certain cells of the immune system. The mannose receptor-mediated endocytosis can be exploited for targeted drug delivery or immunotherapy.	price>
R-M2-9592	Au@silver nanoparticles	Au@silver nanoparticles/Gold coated silver nanoparticles are effective in catalyzing various chemical reactions due to their unique electronic properties. They are used in drug delivery systems, photothermal therapy, and in imaging due to their biocompatibility and optical properties. They can be employed in biosensing platforms for the detection of biological molecules, owing to their unique plasmonic properties. Utilized in sensors, fuel cells, and batteries due to their enhanced electrical conductivity. Provides enhanced signals for Raman spectroscopy, making them useful for trace detection of molecules.	price>
R-M-7062	TTQ-F-COOH	TTQ-F-COOH can be used for near-infrared two zone fluorescence imaging.	price>
R-C-5575	DOPA-PEG-Angiope	1,2-Dioleoyl-sn-glycero-3-PA is a phospholipid containing the long-chain (18:1) fatty acid oleic acid inserted at the sn-1 and sn-2 positions. It has been used in the generation of micelles, liposomes, and other artificial membranes.Angiopep-2 was originally identified through phage display, a technique used to identify peptides with specific binding properties. It has been found to bind to the low-density lipoprotein receptor-related protein-1 (LRP-1), which is expressed on the luminal side of brain capillary endothelial cells. By binding to LRP-1, Angiopep-2 can undergo receptor-mediated transcytosis, a process that allows it to cross the BBB.	price>
R-M2-9593	DBCO-NOTA	DBCO-NOTA,Dibenzocyclooctyne-NOTA can be used to label biological targeting molecules with radiometals (e.g., gallium-68) for PET imaging.The DBCO-NOTA conjugate allows for the selective labeling of biomolecules without interfering with their biological functions.	price>
R-M-7063	TTQ-T	TTQ-T can be used for near-infrared two zone fluorescence imaging.	price>
R-C-5576	16:0-23:2 Diyne PC cas :84271-00-1	16:0-23:2 Diyne PC CAS:84271-00-1 is a type of phospholipid molecule that is composed of several functional groups. The “16:0-23:2” part of the name refers to the fatty acid composition of the molecule, with “16:0” indicating a saturated 16-carbon fatty acid chain, and “23:2” indicating a diunsaturated 23-carbon fatty acid chain with two double bonds.	price>
R-M2-9594	FITC-TPP-PDL10-Cyanine2	FITC-TPP-PDL10-Cyanine2 has applications in biochemical or cellular imaging, possibly targeting specific cells or structures (like mitochondria, due to TPP) and allowing visualization through fluorescence (via FITC and Cyanine2).	price>

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