Fluorescent DOTAP
≥95%
- Product Code: 186755
Alias:
Fluorescent DOTAP; NBD-DOTAP
CAS:
1010076-97-7
| Molecular Weight: | 710.34 g./mol | Molecular Formula: | C₃₆H₆₀ClN₅O₇ |
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| Density: | Storage Condition: | -20°C |
Product Description:
Fluorescent DOTAP is widely used in cellular and molecular biology for tracking and visualizing lipid-based transfection processes. Its fluorescent tag allows real-time monitoring of liposome uptake into cells, making it valuable in gene delivery studies. It is commonly applied in transfection reagents to deliver nucleic acids such as DNA, RNA, and siRNA into mammalian cells, where the fluorescence helps assess transfection efficiency without needing additional labeling steps.
Due to its positive charge, it interacts effectively with negatively charged cell membranes, enhancing cellular uptake. This property is exploited in drug delivery systems, especially for developing targeted therapies where visualization of carrier distribution is critical. It is also used in apoptosis studies, membrane labeling, and intracellular trafficking research, providing insights into the dynamics of lipid movement and organelle localization within live cells. Its ability to integrate into lipid bilayers makes it a useful tool for membrane fusion and endocytosis experiments.
Sizes / Availability / Pricing:
| Size | Availability | Price | Quantity |
|---|---|---|---|
| 1mg | 10-20 days | ฿19,440.00 |
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Fluorescent DOTAP
Fluorescent DOTAP is widely used in cellular and molecular biology for tracking and visualizing lipid-based transfection processes. Its fluorescent tag allows real-time monitoring of liposome uptake into cells, making it valuable in gene delivery studies. It is commonly applied in transfection reagents to deliver nucleic acids such as DNA, RNA, and siRNA into mammalian cells, where the fluorescence helps assess transfection efficiency without needing additional labeling steps.
Due to its positive charge, it interacts effectively with negatively charged cell membranes, enhancing cellular uptake. This property is exploited in drug delivery systems, especially for developing targeted therapies where visualization of carrier distribution is critical. It is also used in apoptosis studies, membrane labeling, and intracellular trafficking research, providing insights into the dynamics of lipid movement and organelle localization within live cells. Its ability to integrate into lipid bilayers makes it a useful tool for membrane fusion and endocytosis experiments.
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