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biodegradable carriers

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12

Inhibitors & Agonists

7

Biochemical Assay Reagents

3

Oligonucleotides

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-N0322B

    Liposome Endogenous Metabolite Others
    Cholesterol (Excipient, GMP Like) is the GMP Like class Cholesterol (HY-N0322), and can be used as pharmaceutical excipients. Cholesterol is a component of the cell membrane and a precursor of some hormones, vitamin D and bile acid, with oral activity. In Vitro: Cholesterol (200 μg/mL; 40 h) increases the production of newly synthesized β-amyloid protein and enhances the secretion of Aβ1-40 in HEK cells transfected with APP . In Vivo: Cholesterol (0.5% cholesterol in diet; oral; once daily; 7 days) increases plasma cholesterol in the hamster model, while the cholesterol absorption inhibitor SCH 48461 (10 mg/kg; oral gavage; once daily; 7 days) inhibits cholesterol absorption and reduces plasma cholesterol .
    Cholesterol (1% cholesterol + 0.5% bile acid in diet; oral; once daily; 7 days) increases plasma cholesterol levels in the male CD rat model, while SCH 48461 (2 mg/kg; oral; once daily; 7 days) reduces hepatic cholesterol ester accumulation .
    Cholesterol (0.25% cholesterol + 22% saturated fat diet; oral; once daily; 3 weeks) increases VLDL+LDL cholesterol levels in the rhesus monkey model, while SCH 48461 (0.2 mg/kg; oral; once daily; 3 weeks) maintains baseline levels and inhibits cholesterol absorption .
    Cholesterol (Excipient, GMP Like)
  • HY-B2247A
    PLGA (75:25)
    1 Publications Verification

    poly(lactic-co-glycolic acid) (75:25)

    Biochemical Assay Reagents Others
    PLGA (75:25) is a low toxicity, biocompatible and biodegradable controlled drug delivery carrier, can achieve slow release in the organism. PLGA (75:25) is a copolymer of 75% poly lactic acid (PLA) and 25% poly glycolic acid (PGA). PLGA (75:25) has been extensively studied as delivery vehicles for agents, proteins and various other macromolecules such as DNA, RNA and peptides .
    PLGA (75:25)
  • HY-112624K

    Dextran 5; Dextran D5; Dextran T5(MW 4500-5500)

    Apoptosis Autophagy Others
    Dextran T5 (MW 5,000) is a sulfated polysaccharide anti-apoptotic and autophagic agent. Dextran T5 (MW 5,000) has sulfated groups and interacts with cell membranes by mimicking endogenous glycosaminoglycans, inhibiting the mitochondrial apoptotic pathway and delaying DNA fragmentation to exert anti-apoptotic activity. Dextran T5 (MW 5,000) also promotes the conversion of LC3-I to LC3-II and the formation of autophagosomes to activate the autophagic pathway. Dextran T5 (MW 5,000) can prolong the survival cycle of CHO cells and increase the production of recombinant erythropoietin (EPO). The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong drug half-life, increase local concentration and reduce immune clearance activity. The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong the half-life of drugs, increase local concentrations, and reduce the activity of immune clearance .
    Dextran T5 (MW 5,000)
  • HY-W250313

    PLA

    Biochemical Assay Reagents Others Cancer
    Polylactic acid (PLA) is a biodegradable and biocompatible polymer widely used as a carrier for drug delivery systems and a structural material for tissue engineering and medical implants. Polylactic acid acts as a controlled release matrix through the hydrolysis mechanism of ester bonds, gradually releasing the encapsulated drug and metabolizing to non-toxic lactic acid. Polylactic acid has adjustable degradation rate, mechanical properties and the ability to composite with other polymers, and can be used in local or systemic drug delivery, orthopedic fixation devices and 3D printed bone regeneration scaffolds[1][2].
    Polylactic acid
  • HY-158255

    Biochemical Assay Reagents Others
    mPEG-PLGA (2000-80000) (LA/GA 50:50) is a copolymer, which consists of hydrophilic mPEG and biodegradable PLGA (molar ratio is 50:50) with a molecular weight of 2000 (mPEG) + 80000 (PLGA). mPEG-PLGA (2000-80000) (LA/GA 50:50) forms nanoparticles or microparticles, which is stable in aqueous solution at different pH values and elevated temperatures as well as in serum. mPEG-PLGA (2000-80000) (LA/GA 50:50) is utilized as carrier material in drug delivery systems .
    mPEG-PLGA (2000-80000) (LA/GA 50:50)
  • HY-112624B

    Dextran 70; Dextran D70; Dextran T70(MW 64000-76000)

    Bacterial Others
    Dextran 70,000 is a high molecular weight polysaccharide formed by glucose linked by α-(1→6) glycosidic bonds. Dextran 70,000 can expand blood volume through colloidal osmotic pressure effect and inhibit cell adhesion and platelet aggregation through steric hindrance. At the same time, Dextran 70,000 can be used as a drug carrier to achieve targeted delivery through endocytosis. Dextran 70,000 is biologically inert and has low immunogenicity. It can be used for clinical blood volume expansion, anti-thrombotic research, and evaluation of vascular permeability in in vitro experiments. It can also be combined with fluorescent dyes for cell tracking and drug delivery research. The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong the half-life of drugs, increase local concentrations, and reduce the activity of immune clearance.
    Dextran T70 (MW 70,000)
  • HY-112624E

    Dextran 0.8; Dextran D0.8; Dextran T0.8(MW 640-960)

    Biochemical Assay Reagents Others
    Dextran T0.8 (Dextran 0.8; Dextran T0.8(MW 640-960)) is a food additive with a porous network structure that exhibits strong hydration capacity and low browning activity. Dextran T0.8 (MW 800) can improve the coagulation of dairy products and is used as a prebiotic in baked goods. Dextran T0.8 (MW 800) is non-toxic to HeLa cells at a concentration of ~500 μg/mL and has a low relative browning rate in the Maillard reaction. The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong the half-life of drugs, increase local concentrations, and reduce the activity of immune clearance .
    Dextran T0.8 (MW 800)
  • HY-112624J

    Dextran 4; Dextran D4; Dextran T4(MW 3200-4800)

    Bacterial Others
    Dextran 4,000 is a mucus rheology modifier. The dextran molecules in Dextran 4,000 can reduce the cross-link density of mucus through osmotic effects and hydrogen bond substitution, and reduce viscoelasticity and improve the mucociliary/cough clearance index by destroying the DNA-mucin network structure in mucus. Dextran 4,000 has the ability to improve the rheological properties and clearance ability of cystic fibrosis (CF) sputum, and can be used in the study of inhalation therapy or aerosol delivery of mucostatic respiratory diseases. The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong the half-life of drugs, increase local concentrations, and reduce the activity of immune clearance .
    Dextran T4 (MW 4,000)
  • HY-156598

    Biochemical Assay Reagents Others
    1,3-Bis (carboxyphenoxy) propane is one of the monomer raw materials for aromatic polyanhydrides. 1,3-Bis (carboxyphenoxy) propane has been used as biodegradable carriers for drug delivery applications. 1,3-Bis (carboxyphenoxy) can be used for implant related research .
    1,3-Bis(carboxyphenoxy)propane
  • HY-N0322BR

    Reference Standards Liposome Endogenous Metabolite Others
    Cholesterol (Excipient) (Standard) is the analytical standard of Cholesterol (Excipient) (HY-N0322B). This product is intended for research and analytical applications. Cholesterol Excipient is a component of the cell membrane and a precursor of some hormones, vitamin D and bile acid, with oral activity. Cholesterol Excipient is a drug delivery carrier based on the lipid environment of the cell membrane. Due to its amphiphilicity, good biocompatibility and biodegradability, it can be used as an excipient in drug preparations. Cholesterol Excipient can self-assemble into delivery systems such as micelles, nanoparticles, and liposomes, and achieve controlled drug release by regulating membrane fluidity or responding to the microenvironment. It has the characteristics of high drug loading efficiency and good biocompatibility. Cholesterol Excipient is mainly used for research in the fields of targeted delivery of anticancer, antibacterial, antiviral drugs and treatment of skin diseases.
    Cholesterol itself is also an endogenous regulator involved in the cleavage of amyloid precursor protein (APP) mediated by β-secretase and intestinal absorption, as well as an endogenous estrogen-related receptor α (ERRα) agonist. Cholesterol affects the subcellular localization of APP processing enzymes by regulating the cell membrane lipid environment, which can promote the production of β-amyloid protein and its adsorption and removal by probiotics. It is used to study the pathogenesis of Alzheimer's disease (AD) and the cholesterol-lowering function of probiotics[1][2][3][4][5].
    Cholesterol (Excipient) (Standard)
  • HY-112624I

    Dextran 3; Dextran D3; Dextran T3(MW 2400-3600)

    Bacterial Others
    Dextran T3 (Dextran 3; Dextran T3(MW 2400-3600)) is a neural tracer and intestinal permeability probe that can move anterogradely and retrogradely in neuronal axons by passive diffusion. Dextran T3 (MW 3,000) is able to permeate across the intestinal epithelial cell membrane in the presence of cholera toxin-induced cytoskeletal disturbance. Dextran T3 (MW 3,000) is used as a fluorescent marker to rapidly label developing neurons (such as Xenopus retinal ganglion cells) and to assess intestinal barrier function. It can be used to study axonal transport in neuroanatomy and permeability changes in intestinal pathophysiology. The Dextran series of compounds are also natural polysaccharide drug carriers that can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong the half-life of drugs, increase local concentrations, and reduce the activity of immune clearance .
    Dextran T3 (MW 3,000)
  • HY-112624H

    Dextran 2; Dextran D2; Dextran T2(MW 1600-2400)

    Biochemical Assay Reagents Others
    Dextran T2 (Dextran 2; Dextran T2(MW 1600-2400)) is a natural high molecular weight polysaccharide, the glycosidic bonds in its structure can be recognized by endo-dextranase and exo-dextranase. Dextran T2 (MW 2,000) breaks the glycosidic bonds in the enzymatic hydrolysis mechanism, releasing products such as D-glucose, Isomaltose (IM2), and Isomaltotriose (IM3). Dextran T2 (MW 2,000) can be used as a model substrate to characterize the catalytic properties of dextranase (such as optimal pH, temperature and product specificity), and to study enzymatic mechanism research and polysaccharide degradation pathways in glycobiology. The Dextran series of compounds are also a natural polysaccharide drug carrier, which can be connected to drugs through covalent bonding methods such as ester bonds, amide bonds or click chemistry, or self-assembled to form carriers such as nanoparticles and hydrogels. Dextran is biodegradable and biocompatible, and can achieve targeted delivery and controlled release of drugs. Dextran derivatives can prolong drug half-life, increase local concentration and reduce immune clearance activity .
    Dextran T2 (MW 2,000)

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