Catalog |
name |
Description |
price |
R-C-5784 |
PLGA5000-b-PEOz2000-NHS |
PLGA-b-PEOz-NHS,PLGA-PEOz-NHS,PLGA-PEOz-NHS is an amphiphilic AB diblock copolymer composed of hydrophilic PEOz and hydrophobic poly(D,L-lactide co glycolide).PEOz polymers are capped by active esters and can react with other reactive chemical groups such as amino modified proteins,peptides,and other materials.PEOz can completely replace PEG polyethylene glycol as a drug carrier material and can be used to prepare pH responsive nanoparticles for drug delivery. |
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R-C-5790 |
PLGA5k-TK-amino acid |
PLGA-TK-amino acid refers to a composite material formed by combining PLGA (poly(lactic-co-glycolic acid)) with a specific amino acid sequence that contains a thymidine kinase (TK) domain.It is commonly used in drug delivery systems, tissue engineering, and other biomedical applications due to its controlled release capabilities and compatibility with living organisms. |
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R-C-5793 |
PLGA15K-P1-PEG5K |
PLGA is a biodegradable polymer that has been widely utilized in the pharmaceutical field due to its excellent biocompatibility and controlled release properties. PEG is added to enhance the hydrophilicity and stability of the copolymer.The PEGylation pattern P1 refers to the specific design and arrangement of PEG molecules along the PLGA backbone.Different PEGylation patterns can affect the properties and performance of the copolymer,including drug loading,release kinetics,and biodistribution. |
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R-C-5820 |
PLGA5000-SS-PEI1800 |
PLGA-SS-PEI,PEI-SS-PLGA,Poly(lactic-co-glycolic acid) (PLGA) is a biodegradable and biocompatible polymer commonly used in drug delivery systems and tissue engineering.PLGA offers control over drug release kinetics and can degrade into non-toxic byproducts in the body.The disulfide-containing linker (SS) refers to a chemical group containing a disulfide bond (-SS-).Polyethylenimine (PEI) is a cationic polymer that can complex with DNA, RNA, or other negatively charged molecules, making it suitable for gene delivery applications. PEI can condense nucleic acids into nanoparticles and facilitate their cellular uptake and release into the cell nucleus. |
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R-C-5822 |
PLGA10k-Se-Se-PLGA10k 50:50 |
PLGA-Se-Se-PLGA,PLGA with diselenide-containing linkers,the resulting PLGA-Se-Se-PLGA copolymer can possess controlled drug release properties.The incorporation of diselenide bonds enables the degradation of the copolymer in the presence of reducing agents, such as glutathione,found abundantly inside cells.This behavior allows for the controlled release of encapsulated drugs at targeted sites or within specific cells. |
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R-C-5823 |
PLGA-PEI-PEG-COOH PLGA 36 kDa PEI:25 kDa PEG:2 kDa |
PLGA-PEI-PEG-COOH copolymer provides a multifunctional platform for drug delivery and gene delivery applications. The PLGA component can encapsulate hydrophobic drugs and enable their sustained release. The presence of PEI facilitates the condensation and protection of nucleic acids for gene delivery. PEG enhances the stability and biocompatibility of the copolymer, while the carboxylic acid groups allow for additional functionalization or conjugation with desired molecules. |
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R-C-5828 |
Polosham-SS-PLGA5000 |
PLGA-SS-Polosham,PLGA is a biodegradable and biocompatible polymer commonly used in drug delivery systems and tissue engineering.It can be easily tailored to control the release of drugs or encapsulated biomolecules.The addition of a disulfide bond(SS)introduces a redox-responsive feature, allowing for triggered drug release in response to the intracellular reducing environment.Polosham is a biocompatible and hydrophilic polymer.It has been used in drug delivery and biomaterial applications due to its non-fouling properties and low immunogenicity. |
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R-C-5836 |
PLGA-PEG-GGGGK(TAMRA)PKTRNSQTQTDRRRRRRRR 50:50 |
The PLGA component is a biodegradable and biocompatible polymer commonly used in drug delivery systems.PEG is added to improve the water solubility and stability of the polymer.The GGGGK linker sequence helps in connecting different regions of the polymer,while the TAMRA molecule allows for fluorescence visualization.The product is only used for scientific research and is not suitable for human and clinical experiments. |
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R-C-5837 |
PLGA-PEG350-GGGGK(TAMRA)PKTRNSQTQTDRRRRRRRR |
The PLGA component is a biodegradable and biocompatible polymer commonly used in drug delivery systems.PEG is added to improve the water solubility and stability of the polymer.The GGGGK linker sequence helps in connecting different regions of the polymer,while the TAMRA molecule allows for fluorescence visualization.The product is only used for scientific research and is not suitable for human and clinical experiments. |
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R-C-5838 |
PLGA-polyethylene glycol550-GGGGK(TAMRA)PKTRNSQTQTDRRRRRRRR |
PLGA is commonly used in drug delivery systems due to its biocompatibility and biodegradability properties.PEG550 is often used as a hydrophilic polymer to enhance the water solubility and stability of drugs or molecules.TAMRA stands for 5-carboxytetramethylrhodamine, which is a fluorescent dye. It is often used as a labeling agent for biomolecules to enable their visualization or tracking in biological experiments. |
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