Catalog |
name |
Description |
price |
R-C-5569 |
16:0 Biotinyl PE CAS:384835-54-5 |
16:0 Biotinyl PE is a modified phospholipid that finds applications in various biochemical and biotechnological assays and techniques. The presence of the palmitic acid acyl chains provides stability and structure to the lipid bilayer, while the biotin modification allows for specific binding to biotin-binding proteins. |
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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. |
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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. |
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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. |
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R-C-5578 |
23:2 Diyne PE [DC(8,9)PE] cas:144750-73-2 |
The combination of these functional groups in 23:2 Diyne PE [DC(8,9)PE] is designed to create a compound that can be used in a variety of applications,including as a lipid bilayer probe and in the development of liposomes for drug delivery. |
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R-C-5593 |
DPPE-PEG2000-DOTA |
DPPE is a phospholipid derivative that provides the amphiphilic properties necessary for the compound to form micelles or liposomes.PEG serves as a flexible and hydrophilic spacer that improves the stability and solubility of the compound.DOTA,on the other hand, is a chelating agent with a high affinity for various metal ions, particularly gadolinium (Gd3+) or lutetium (Lu3+), which are used for imaging purposes. |
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R-C-5594 |
DSPE-PEG-Malt hexasaccharide |
DSPE is a phospholipid derivative that provides amphiphilic properties necessary for the formation of lipid bilayers or micelles. PEG serves as a hydrophilic spacer, enhancing the stability and solubility of the compound. Malt hexasaccharide, on the other hand, is a six-unit long carbohydrate chain derived from maltose. |
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R-C-5595 |
DSPE-PEG350-Malt hexasaccharide |
DSPE is a phospholipid derivative that provides amphiphilic properties necessary for the formation of lipid bilayers or micelles.PEG serves as a hydrophilic spacer,enhancing the stability and solubility of the compound.Malt hexasaccharide,on the other hand, is a six-unit long carbohydrate chain derived from maltose. |
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R-C-5596 |
DSPE-polyethylene glycol550-Malt hexasaccharide |
DSPE is a phospholipid derivative that provides amphiphilic properties necessary for the formation of lipid bilayers or micelles.PEG serves as a hydrophilic spacer,enhancing the stability and solubility of the compound.Malt hexasaccharide,on the other hand, is a six-unit long carbohydrate chain derived from maltose. |
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R-C-5597 |
Malt hexasaccharide-PEG750-DSPE |
DSPE is a phospholipid derivative that provides amphiphilic properties necessary for the formation of lipid bilayers or micelles.PEG serves as a hydrophilic spacer,enhancing the stability and solubility of the compound.Malt hexasaccharide,on the other hand, is a six-unit long carbohydrate chain derived from maltose. |
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