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Email:sales@ruixibiotech.com
Tel.:02988811435
| Catalog | name | Description | price |
|---|---|---|---|
| R-Mcs-159 | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 5 lipid | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 5 lipid can be used in various applications like tracking cellular interactions, uptake studies, and mechanism research in both in vitro and in vivo settings.These modified liposomes can encapsulate therapeutics and enhance their delivery to target sites. | price> |
| R-Mcs-160 | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 5.5 lipid | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 5.5 lipid can be used in various applications like tracking cellular interactions, uptake studies, and mechanism research in both in vitro and in vivo settings.These modified liposomes can encapsulate therapeutics and enhance their delivery to target sites. | price> |
| R-Mcs-161 | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 7 lipid | DOPG:DOPC:Chol(20:50:30 molar ratio)-based Fluoroliposome Cyanine 7 lipid can be used in various applications like tracking cellular interactions, uptake studies, and mechanism research in both in vitro and in vivo settings.These modified liposomes can encapsulate therapeutics and enhance their delivery to target sites. | price> |
| R-Mcs-162 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiA | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiD may be tailored for delivering therapeutic agents effectively by enhancing stability and cellular interactions, especially for therapeutic RNA, proteins, or small molecule drugs. Due to the PS component, these liposomes can enhance cellular uptake and targeting in various cell types, which is beneficial in studies of cellular biology and drug delivery. The fluorescent DiA dye allows for monitoring the dynamics of the liposomes in real-time within biological systems, making them useful for in vivo imaging studies. | price> |
| R-Mcs-164 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiI | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiI can be employed in Drug Delivery,Vaccine Development,Fluorescence imaging. Carrying therapeutic agents, especially for targeted therapy.The fluorescent properties provide a means of tracking liposome behavior in vivo or vitro.Liposomes can serve as adjuvants or carriers for antigens. | price> |
| R-Mcs-165 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiO | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiO can encapsulate drugs and facilitate targeted delivery, especially to cells that recognize PS (e.g., macrophages or cells involved in the immune response). The incorporation of DiO can be exploited for in vitro and in vivo imaging. DiO-labeled liposomes can be tracked with fluorescence microscopy or flow cytometry to study cellular uptake, distribution, and release behaviors. This formulation may be used in studies examining how liposomes distribute in various tissues, highlighting their utility in drug delivery research. Given the presence of PS, these liposomes might also find utility in therapies related to cancer or immune modulation, where PS exposure can enhance targeting. | price> |
| R-Mcs-166 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiR | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome DiR can be engineered to encapsulate therapeutic agents (such as chemotherapeutics) for targeted delivery, particularly to tumor tissues that can be recognized by the immune system. The PS component enhances interactions with phagocytic cells, making these liposomes suitable for studies aimed at understanding phagocytosis and immune responses. Fluoroliposomes labeled with DiR can be used for non-invasive imaging of biological processes. In vivo imaging studies using NIRF can provide insight into biodistribution, tumor targeting, and clearance processes. | price> |
| R-Mcs-167 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome Dansyl lipid (headgroup) | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome Dansyl lipid (headgroup) can be used to image biological processes and cellular interactions via fluorescence microscopy, allowing researchers to track liposome behavior in live cells. As carriers for both hydrophilic and hydrophobic drugs, they can enhance the delivery efficacy of therapeutic agents, such as anticancer drugs or biologics. They can serve as diagnostic tools for identifying specific cellular processes or markers through fluorescent signals. The fluorescent property allows for tracking the distribution of liposomes in vivo, providing insights into their pharmacokinetics and biodistribution. The system can also be used to study membrane fusion events and lipid dynamics due to the fluorescent properties of the dansyl group. | price> |
| R-Mcs-168 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome NBD lipid (fatty acid tail) | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome NBD lipid (fatty acid tail) can be used to image biological processes and cellular interactions via fluorescence microscopy, allowing researchers to track liposome behavior in live cells. As carriers for both hydrophilic and hydrophobic drugs, they can enhance the delivery efficacy of therapeutic agents, such as anticancer drugs or biologics. They can serve as diagnostic tools for identifying specific cellular processes or markers through fluorescent signals. | price> |
| R-Mcs-169 | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome NBD lipid (headgroup) | PS:PC:Cholesterol(20:50:30 molar ratio)-based Fluoroliposome NBD lipid (headgroup) can be used to image biological processes and cellular interactions via fluorescence microscopy, allowing researchers to track liposome behavior in live cells. As carriers for both hydrophilic and hydrophobic drugs, they can enhance the delivery efficacy of therapeutic agents, such as anticancer drugs or biologics. They can serve as diagnostic tools for identifying specific cellular processes or markers through fluorescent signals. | price> |
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Tel: 02988811435
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Email: sales@ruixibiotech.com
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