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Email:sales@ruixibiotech.com
Tel.:02988811435
| Catalog | name | Description | price |
|---|---|---|---|
| R-Mcs-057 | PC:Chol:NBD-lipid (64:35:1 molar ratio) | PC:Chol:NBD-lipid/L-alpha-Phosphatidylcholine:Cholesterol:1,2-dioleoyl-sn-glycero-3-phosphoethanolamine-N-(7-nitro-2-1,3-benzoxadiazol-4-yl) (ammonium salt) (NBD PE) (64:35:1 molar ratio) is a fluorescent neutral adenosine triphosphate liposomes.The PC:Chol:NBD-lipid (64:35:1) formulation provides a robust basis for studying lipid dynamics and membrane behavior. The specific combination of phosphatidylcholine and cholesterol creates conditions that closely mimic biological membranes, while the NBD-labeled lipid allows for the tracking and study of lipid interactions, mobility, and the organization of lipid domains. Such formulations are essential in membrane biophysics, cell biology, and pharmacology. | price> |
| R-Mcs-058 | DOPC:DOPE:Chol:NBD-lipid (49:30:20:1 molar ratio) | DOPC:DOPE:Chol:NBD-lipid/1,2-dioleoyl-sn-glycero-3-phosphocholine:1,2-dioleoyl-sn-glycero-3-phosphoethanolamine:Cholesterol:1,2-dioleoyl-sn-glycero-3-phosphoethanolamine-N-(7-nitro-2-1,3-benzoxadiazol-4-yl) (ammonium salt) (NBD PE) (49:30:20:1 molar ratio) is a fluorescent neutral adenosine triphosphate liposomes.The DOPC:DOPE:Chol:NBD-lipid (49:30:20:1) formulation provides a versatile system for studying lipid membranes structural and dynamic properties. It offers a balance between fluidity, stability, and the ability to visualize lipid interactions, making it an essential tool in membrane biology, drug delivery research, and the study of membrane-related processes in cellular biology. | price> |
| R-Mcs-059 | PC:Rhod-lipid (99:1 molar ratio) | PC:Rhod-lipid/L-alpha-Phosphatidylcholine:1,2-dioleoyl-sn-glycero-3-phosphoethanolamine-N-(lissamine rhodamine B sulfonyl) (ammonium salt) (Rhod PE) (99:1 molar ratio) is a fluorescent neutral adenosine triphosphate liposomes.The PC:Rhod-lipid (99:1) serves as a powerful tool in membrane research. Its high fluidity, characteristic of phosphatidylcholine, combined with the ability to visualize dynamics through the fluorescent properties of Rhod-lipid, makes it ideal for various applications including studying membrane fusion, lipid rafts, and other important cellular processes. | price> |
| R-Mcs-060 | PC:Chol:Rhod-lipid (64:35:1 molar ratio) | PC:Chol:Rhod-lipid/L-alpha-Phosphatidylcholine:Cholesterol:1,2-dioleoyl-sn-glycero-3-phosphoethanolamine-N-(lissamine rhodamine B sulfonyl) (ammonium salt) (Rhod PE) (64:35:1 molar ratio) is a fluorescent neutral adenosine triphosphate liposomes. Studying Membrane Fluidity: Analyzing how different lipids (PC and Chol) impact the fluidity and stability of the lipid bilayer. Membrane Dynamics: Using the Rhod-lipid for fluorescence microscopy to visualize and track the movement and interaction of lipids within the membranes. Modeling Biological Membranes: Creating model systems that mimic the properties of cellular membranes for drug delivery studies, receptor-ligand interactions, or membrane protein studies. | price> |
| R-Mcs-061 | DOPC:DOPE:Chol:Rhod-lipid (49:30:20:1 molar ratio) | DOPC:DOPE:Chol:Rhod-lipid (49:30:20:1 molar ratio) is a fluorescent neutral adenosine triphosphate liposomes.It provides a versatile system for studying lipid membranes structural and dynamic properties. It offers a balance between fluidity, stability, and the ability to visualize lipid interactions, making it an essential tool in membrane biology, drug delivery research, and the study of membrane-related processes in cellular biology. | price> |
| R-Mcs-063 | HSPC:Cholesterol:Fluorescent Lipid DiA(59.5:40:0.5 molar ratio) | HSPC:Cholesterol:Fluorescent Lipid DiA(59.5:40:0.5 molar ratio) can be applied to drug delivery, cellular imaging, and membrane studies. This combination allows researchers to leverage the advantages of each component, leading to effective studies on lipid behavior in biological systems. | price> |
| R-Mcs-064 | HSPC:Cholesterol:Fluorescent Lipid DiD(59.5:40:0.5 molar ratio) | HSPC:Cholesterol:Fluorescent Lipid DiD(59.5:40:0.5 molar ratio) can be applied to drug delivery, cellular imaging, and membrane studies. This combination allows researchers to leverage the advantages of each component, leading to effective studies on lipid behavior in biological systems. | price> |
| R-Mcs-065 | HSPC:Cholesterol:Fluorescent Lipid DiI(59.5:40:0.5 molar ratio) | HSPC:Cholesterol:Fluorescent Lipid DiI/Hydrogenated Soy PC:Cholesterol:Fluorescent Lipid DiI (59.5:40:0.5 molar ratio) can be applied to drug delivery, cellular imaging, and membrane studies. This combination allows researchers to leverage the advantages of each component, leading to effective studies on lipid behavior in biological systems. | price> |
| R-Mcs-066 | HSPC:Cholesterol:Fluorescent Lipid DiO (59.5:40:0.5 molar ratio) | HSPC:Cholesterol:Fluorescent Lipid DiO/Hydrogenated Soy PC:Cholesterol:Fluorescent Lipid DiO (59.5:40:0.5 molar ratio) can be applied to drug delivery, cellular imaging, and membrane studies. This combination allows researchers to leverage the advantages of each component, leading to effective studies on lipid behavior in biological systems. | price> |
| R-Mcs-067 | HSPC:Cholesterol:Fluorescent Lipid DiR(59.5:40:0.5 molar ratio) | HSPC:Cholesterol:Fluorescent Lipid DiR/Hydrogenated Soy PC:Cholesterol:Fluorescent Lipid DiR(59.5:40:0.5 molar ratio) can be applied to drug delivery, cellular imaging, and membrane studies. This combination allows researchers to leverage the advantages of each component, leading to effective studies on lipid behavior in biological systems. | price> |
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Email: sales@ruixibiotech.com
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