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Cholesteryl BODIPY 576/589 C11
| Catalog Number | F01-0201 |
| Category | BODIPY |
| Molecular Formula | C51H74BF2N3O2 |
| Molecular Weight | 809.96 |
* Please be kindly noted products are not for therapeutic use. We do not sell to patients.
Product Introduction
Cholesteryl BODIPY 576/589 C11 is an orange-fluorescent and lipophilic probe for detection of cholesterol uptake and transport, endocytosis of lipoproteins in live cells.
Chemical Information
Application
| Synonyms | Cholesteryl EverFluor 576/589 C11 |
| Appearance | Solid Powder |
Cholesteryl BODIPY 576/589 C11 is a fluorescent lipid probe used in a variety of biological studies due to its distinctive properties. Here are some key applications of Cholesteryl BODIPY 576/589 C11:
Lipid Trafficking Studies: Cholesteryl BODIPY 576/589 C11 is utilized in tracking and visualizing the movement of cholesterol within cellular systems. Researchers can observe how cholesterol is transported across different cellular compartments under various conditions. This information is vital for understanding cholesterol metabolism and its role in cellular functions and disorders.
Membrane Dynamics Analysis: This fluorescent probe is instrumental in examining the dynamics and organization of cellular membranes. It integrates into lipid bilayers, allowing scientists to study processes such as membrane fusion, fluidity, and phase separation. These studies shed light on membrane-associated phenomena, including signaling mechanisms and membrane protein interactions.
Atherosclerosis Research: Cholesteryl BODIPY 576/589 C11 is employed to study cholesterol’s involvement in atherosclerosis, a leading cause of cardiovascular diseases. By labeling cholesterol, researchers can investigate its accumulation and distribution in vascular tissues and plaque formations. This aids in identifying potential therapeutic targets for treating or preventing atherosclerosis.
Lipid-Protein Interaction Studies: The probe can be used to explore interactions between lipids and proteins in biological membranes. By visualizing how proteins associate with cholesterol-containing domains, scientists can gain insights into protein functions and lipid raft dynamics. Understanding these interactions is crucial for elucidating cellular processes and developing lipid-based therapeutic strategies.
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