Search Result
Results for "
Chitosan
" in MedChemExpress (MCE) Product Catalog:
23
Biochemical Assay Reagents
| Cat. No. |
Product Name |
Target |
Research Areas |
Chemical Structure |
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- HY-B2144H
-
|
Chitosan HCl (80%-90% deacetylated)
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Bacterial
Fungal
|
Infection
|
|
Chitosan hydrochloride 80%-90% deacetylated (Chitosan HCl 80%-90% deacetylated) is the deacetylated, hydrocholoride form of chitosan. Chitosan hydrochloride 80%-90% deacetylated is a polysaccharide obtained by deacetylating chitin, and exhibits antimicrobial activity against various bacteria and fungi. Chitosan hydrochloride 80%-90% deacetylated is utilized in agriculture, water treatment and pharmaceutical aspects .
|
-
-
- HY-112108
-
|
COS
|
AMPK
Endogenous Metabolite
|
Metabolic Disease
Cancer
|
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Chitosan oligosaccharide (COS) is an oligomer of β-(1→4)-linked D-glucosamine. Chitosan oligosaccharide (COS) activates AMPK and inhibits inflammatory signaling pathways including NF-κB and MAPK pathways.
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-
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- HY-B2144A
-
|
Deacetylated chitin (MW 150000); Poly(D-glucosamine) (MW 150000)
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Bacterial
Fungal
|
Infection
Cancer
|
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Chitosan (MW 150000) (Deacetylated chitin (MW 150000)) is a polycationic linear polysaccharide derived from chitin with the molecular weight of 150000. Chitosan is an versatile biomaterial because of its non-toxicity, low allergenicity, biocompatibility and biodegradability. Chitosan also has antitumor, antibacterial, antifungal, and antioxidant activities .
|
-
-
- HY-B2144B
-
|
Deacetylated chitin (MW 30000); Poly(D-glucosamine) (MW 30000)
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Bacterial
Fungal
|
Infection
Cancer
|
|
Chitosan (MW 30000) (Deacetylated chitin (MW 30000)) is a polycationic linear polysaccharide derived from chitin with the molecular weight of 30000. Chitosan is an versatile biomaterial because of its non-toxicity, low allergenicity, biocompatibility and biodegradability. Chitosan also has antitumor, antibacterial, antifungal, and antioxidant activities .
|
-
-
- HY-B2144C
-
|
Deacetylated chitin (≥95% deacetylated,viscosity 100-200 mPa.s); Poly(D-glucosamine) (≥95% deacetylated,viscosity 100-200 mPa.s)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan≥95% deacetylated,viscosity 100-200 mPa.s is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
-
- HY-B2144J
-
|
Deacetylated chitin (≥90% deacetylated,viscosity 650-700 mPa.s); Poly(D-glucosamine) (≥90% deacetylated,viscosity 650-700 mPa.s)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan (≥90% deacetylated, viscosity 650-700 mPa.s) is an alkaline hydrolytic derivative of chitin, which exhibits good biocompatibility, good biodegradability, and low toxicity. Chitosan (≥90% deacetylated, viscosity 650-700 mPa.s) can be used as a versatile biomaterial in drug delivery, tissue engineering, and wound healing .
|
-
-
- HY-B2144E
-
|
Deacetylated chitin (≥90% deacetylated, Low viscosity,<200mPa.s); Poly(D-glucosamine) (≥90% deacetylated, Low viscosity,<200mPa.s)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
-
- HY-D2430
-
|
|
Fluorescent Dye
Bacterial
Fungal
|
Infection
Cancer
|
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Chitosan-PEG-Cy3 is a fluorescent labeling reagent that combines Cy3 (HY-D0822) fluorescent dye, Chitosan and polyethylene glycol (PEG). The Cy3 fluorophore is commonly used in applications such as immunolabeling, nucleic acid labeling, fluorescence microscopy, and flow cytometry. Cy3 has an emission maximum around 562-570 nm. Chitosan exhibits antimicrobial activity against various bacteria and fungi .
|
-
-
- HY-B2144K
-
|
Deacetylated chitin (≥85% deacetylated, viscosity>90 mPa.s, MW 15000); Poly(D-glucosamine) (≥85% deacetylated, viscosity>90 mPa.s, MW 15000)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan (≥85% deacetylated, viscosity>90 mPa.s, MW 15000) is a biochemical reagent.
|
-
-
- HY-B2144G
-
|
Deacetylated chitin (≥80% deacetylated, High viscosity,>400mPa.s); Poly(D-glucosamine) (≥80% deacetylated, High viscosity,>400mPa.s)
|
Biochemical Assay Reagents
|
Others
|
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Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
-
- HY-B2144I
-
|
Deacetylated chitin (≥90% deacetylated,viscosity 10 mPa.s); Poly(D-glucosamine) (≥90% deacetylated,viscosity 10 mPa.s)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan (≥90% deacetylated,viscosity 10 mPa.s) is an alkaline hydrolytic derivative of chitin, which exhibits good biocompatibility, good biodegradability, and low toxicity. Chitosan (≥90% deacetylated,viscosity 10 mPa.s) can be used as a versatile biomaterial in drug delivery, tissue engineering, and wound healing .
|
-
-
- HY-B2144F
-
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Deacetylated chitin (≥80% deacetylated, Medium viscosity,200-400mPa.s); Poly(D-glucosamine) (≥80% deacetylated, Medium viscosity,200-400mPa.s)
|
Biochemical Assay Reagents
|
Others
|
|
Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
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-
-
- HY-P2859
-
|
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Endogenous Metabolite
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Metabolic Disease
|
|
Chitosanase is a glycosyl hydrolase that catalyzes the endo hydrolysis of β-1,4-glycosidic bonds of partially acetylated chitosan to release chitosan oligosaccharides (COS). Chitosanases can convert high molecular weight chitosan into functional chitooligosaccharides with low molecular weight .
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- HY-135969
-
|
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Bacterial
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Infection
|
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Glycol chitosan is a chitosan derivative with ethylene glycol branches. Glycol chitosan enhances membrane permeability and leadkage in Glycine max Harosoy 63W cells. Glycol chitosan is biocompatible and biodegradable . Glycol chitosan inhibits E. coli, S. aureus and S. enteritidis growths with MIC values of 4 μg/mL, 32 μg/mL and <0.5 μg/mL, respectively .
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-
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- HY-N8066
-
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Others
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Others
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Chitosan octaacetate is a form of chitosan containing eight acetic acid groups, which is formed by the acetylation of chitin. Chitosan octaacetate can be used to synthesize chitosan oxazoline and other chitinoid precursors .
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-
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- HY-W250111
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Biochemical Assay Reagents
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Others
|
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Carboxymethyl chitosan is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
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-
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- HY-158223
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CMCSMA
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Biochemical Assay Reagents
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Others
|
Carboxymethyl chitosan Methacryloyl (CMCSMA) is methacrylated carboxymethyl chitosan with properties as a 3D printing ink. A composite hydrogel made of Carboxymethyl chitosan Methacryloyl can effectively accelerate bone healing in an infectious microenvironment after implantation in a rat model of Staphylococcus aureus-infected femoral defect . Carboxymethyl chitosan Methacryloyl needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
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-
- HY-W854341
-
|
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Antibiotic
Bacterial
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Infection
|
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Chitotriose is a chitooligosaccharide that can be isolated from crab shell chitosan. Chitotriose has antibacterial effect against salmonella .
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-
-
- HY-W127410
-
|
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Biochemical Assay Reagents
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Others
|
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Hexanoic anhydride is used as a reactant for the synthesis of acremomannolipin A. For the green synthesis of acyclovir dipivoxil (acyclovir proagent), for the preparation of hexanoyl-modified chitosan nanoparticles, chitosan-based polymer surfactants by N-acylation of chitosan .
|
-
-
- HY-E70316
-
|
Endo-Chitosanase
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Endogenous Metabolite
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Others
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|
Chimax-O (Endo-chitosanase) is an endochitosanase belonging to the GH46 family that catalyzes chitosan substrate to produce chitobiose and D-glucosamine (GlcN). Chimax-O acts in a stochastic intra-action manner, producing chitosan derivatives with different degrees of polymerization (DP) ≤2 .
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- HY-N7697B
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Others
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Others
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Chitobiose dihydrochloride, a chitosan oligosaccharide, is a dimer of β-1,4-linked glucosamine units .
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-
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- HY-N7697A
-
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Others
|
Inflammation/Immunology
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Chitopentaose pentahydrochloride is a chitosan oligosaccharide with anti-inflammatory effect. Chitopentaose pentahydrochloride is a substrate of gene encoding chitinase B (FjchiB) .
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- HY-W748594
-
|
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Others
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Others
|
|
Apigenin triacetate is a metabolite of F. graminearum. Apigenin triacetate can be downregulated in F. graminearum by chitosan treatment. Apigenin triacetate derives from apigenin .
|
-
-
- HY-N7697C
-
|
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Toll-like Receptor (TLR)
|
Inflammation/Immunology
|
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Chitohexaose hexahydrochloride is a chitosan oligosaccharide with anti-inflammatory effect. Chitohexaose hexahydrochloride binds to the active sites of TLR4 and inhibits LPS induced inflammation .
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-
-
- HY-N7697D
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-
-
- HY-N7697F
-
|
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Others
|
Others
|
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Chitobiose, a chitosan oligosaccharide, is a dimer of β-1,4-linked glucosamine units . Chitobiose has orally activity and high antioxidant activity .
|
-
-
- HY-119516
-
|
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Others
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Others
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Naftalofos is a phosphate compound that can be used to prepare glassy carbon electrodes modified with modified reduced graphene oxide/chitosan composites. Naftalofos sensors can be used in the detection of food and environmental samples .
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-
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- HY-155918
-
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mPEG-Aldehyde (MW 1000)
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Biochemical Assay Reagents
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Others
|
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mPEG-CHO (MW 1000) participates in the formation of a three-dimensional porous scaffold that carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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- HY-D0153
-
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Fluorescent Dye
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Cancer
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Tetramethylrhodamine-5-isothiocyanate is a potent fluorescent dye. Tetramethylrhodamine-5-isothiocyanate can be used for label PG-M3 antibody for rapid diagnosis of acute promyelocytic leukemia (APL). Tetramethylrhodamine-5-isothiocyanate can be used as probe to quantify in vivo the biodistribution of PLGA (poly(lactic-co-glycolic) acid) and PLGA/chitosan nanoparticles .
|
-
-
- HY-155915
-
|
mPEG-Aldehyde (MW 350)
|
Biochemical Assay Reagents
|
Others
|
|
mPEG-CHO (MW 350) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
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- HY-155916
-
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mPEG-Aldehyde (MW 550)
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Biochemical Assay Reagents
|
Others
|
|
mPEG-CHO (MW 550) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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- HY-155917
-
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mPEG-Aldehyde (MW 750)
|
Biochemical Assay Reagents
|
Others
|
|
mPEG-CHO (MW 750) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
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- HY-155919
-
|
mPEG-Aldehyde (MW 2000)
|
Biochemical Assay Reagents
|
Others
|
|
mPEG-CHO (MW 2000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
-
- HY-155920
-
|
mPEG-Aldehyde (MW 3400)
|
Biochemical Assay Reagents
|
Others
|
|
mPEG-CHO (MW 3400) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
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- HY-155921
-
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mPEG-Aldehyde (MW 5000)
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Biochemical Assay Reagents
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Others
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mPEG-CHO (MW 5000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
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- HY-155922
-
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mPEG-Aldehyde (MW 10000)
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Biochemical Assay Reagents
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Others
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mPEG-CHO (MW 10000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
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- HY-155923
-
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mPEG-Aldehyde (MW 20000)
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Biochemical Assay Reagents
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Others
|
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mPEG-CHO (MW 20000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
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- HY-W145695
-
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Biochemical Assay Reagents
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Inflammation/Immunology
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Chitoheptaose is a chitosan oligosaccharide. Chitoheptaose is capable of extracting exoskeletons from crustaceans, such as the shells of crabs, shrimp and lobsters. Chitoheptaose has antioxidant, anti-inflammatory and anti-apoptotic activities and can be used in the study of myocarditis. Chitoheptaose has cardioprotective effects and improves cardiac parameters (left ventricular internal size, end-systolic and end-diastolic, ejection fraction and shortening fraction), inflammatory cytokines (IL-1β) in vanishing models .
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- HY-157157
-
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Protein Arginine Deiminase
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Cancer
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PAD4-IN-3 (compound 4B) is a PAD4 inhibitor with antitumor activity in vitro and in vivo. PAD4-IN-3 was covalently linked to RGD sequence peptide-modified chitosan (K-CRGDV), resulting in an enhanced oxidative stress-responsive nanoagent. K-CRGDV-PAD4-IN-3 can actively target tumors, inhibit PAD4 activity, block the formation of neutrophil extracellular traps (NETs), and improve the tumor immune microenvironment in response to the tumor microenvironment .
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- HY-W157376
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Bacterial
Antibiotic
Drug Intermediate
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Infection
Cancer
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PAMAM Dendrimer G0.0 amine is a pore-forming channel antagonist, including anthrax toxin protective antigen 63 (PA63, IC50 = 231 nM) and C. botulinum C2 toxin subunit (C2IIa, IC50 = 940 nM). At concentrations of 10 and 20 µM, PAMAM Dendrimer G0.0 amine reduces C2 toxin-induced death in HeLa cells. Additionally, PAMAM Dendrimer G0.0 amine is a chelator of nickel. In complexes with polysulfone membrane-bound chitosan, PAMAM Dendrimer G0.0 amine selectively captures and stores carbon dioxide (CO2) in a gas-feed system. PAMAM Dendrimer G0.0 amine has been used in the synthesis of PAMAM Dendrimer G0.5 Carboxylate (CAS 339334-01-9) and PAMAM Dendrimer G1.0 Amine (CAS 142986-44-5). PAMAM Dendrimer G0.0 amine can be used in research related to infections, cancer, and drug delivery systems .
|
-
| Cat. No. |
Product Name |
Type |
-
- HY-D2430
-
|
|
Fluorescent Dyes/Probes
|
|
Chitosan-PEG-Cy3 is a fluorescent labeling reagent that combines Cy3 (HY-D0822) fluorescent dye, Chitosan and polyethylene glycol (PEG). The Cy3 fluorophore is commonly used in applications such as immunolabeling, nucleic acid labeling, fluorescence microscopy, and flow cytometry. Cy3 has an emission maximum around 562-570 nm. Chitosan exhibits antimicrobial activity against various bacteria and fungi .
|
-
- HY-D0153
-
|
|
Fluorescent Dyes/Probes
|
|
Tetramethylrhodamine-5-isothiocyanate is a potent fluorescent dye. Tetramethylrhodamine-5-isothiocyanate can be used for label PG-M3 antibody for rapid diagnosis of acute promyelocytic leukemia (APL). Tetramethylrhodamine-5-isothiocyanate can be used as probe to quantify in vivo the biodistribution of PLGA (poly(lactic-co-glycolic) acid) and PLGA/chitosan nanoparticles .
|
| Cat. No. |
Product Name |
Type |
-
- HY-B2144H
-
|
Chitosan HCl (80%-90% deacetylated)
|
Thickeners
|
|
Chitosan hydrochloride 80%-90% deacetylated (Chitosan HCl 80%-90% deacetylated) is the deacetylated, hydrocholoride form of chitosan. Chitosan hydrochloride 80%-90% deacetylated is a polysaccharide obtained by deacetylating chitin, and exhibits antimicrobial activity against various bacteria and fungi. Chitosan hydrochloride 80%-90% deacetylated is utilized in agriculture, water treatment and pharmaceutical aspects .
|
-
- HY-B2144C
-
|
Deacetylated chitin (≥95% deacetylated,viscosity 100-200 mPa.s); Poly(D-glucosamine) (≥95% deacetylated,viscosity 100-200 mPa.s)
|
Thickeners
|
|
Chitosan≥95% deacetylated,viscosity 100-200 mPa.s is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
- HY-B2144J
-
|
Deacetylated chitin (≥90% deacetylated,viscosity 650-700 mPa.s); Poly(D-glucosamine) (≥90% deacetylated,viscosity 650-700 mPa.s)
|
Thickeners
|
|
Chitosan (≥90% deacetylated, viscosity 650-700 mPa.s) is an alkaline hydrolytic derivative of chitin, which exhibits good biocompatibility, good biodegradability, and low toxicity. Chitosan (≥90% deacetylated, viscosity 650-700 mPa.s) can be used as a versatile biomaterial in drug delivery, tissue engineering, and wound healing .
|
-
- HY-B2144E
-
|
Deacetylated chitin (≥90% deacetylated, Low viscosity,<200mPa.s); Poly(D-glucosamine) (≥90% deacetylated, Low viscosity,<200mPa.s)
|
Thickeners
|
|
Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
- HY-B2144I
-
|
Deacetylated chitin (≥90% deacetylated,viscosity 10 mPa.s); Poly(D-glucosamine) (≥90% deacetylated,viscosity 10 mPa.s)
|
Thickeners
|
|
Chitosan (≥90% deacetylated,viscosity 10 mPa.s) is an alkaline hydrolytic derivative of chitin, which exhibits good biocompatibility, good biodegradability, and low toxicity. Chitosan (≥90% deacetylated,viscosity 10 mPa.s) can be used as a versatile biomaterial in drug delivery, tissue engineering, and wound healing .
|
-
- HY-148033
-
|
N,N,N-TrimethylChitosan
|
Drug Delivery
|
|
Trimethyl chitosan (N,N,N-Trimethylchitosan) is a water-soluble multifunctional polymer which is a Chitosan (HY-B2144A) derivative. Trimethyl chitosan can be used for drug delivery and to synthesize nanoparticles .
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- HY-135969
-
|
|
Drug Delivery
|
|
Glycol chitosan is a chitosan derivative with ethylene glycol branches. Glycol chitosan enhances membrane permeability and leadkage in Glycine max Harosoy 63W cells. Glycol chitosan is biocompatible and biodegradable . Glycol chitosan inhibits E. coli, S. aureus and S. enteritidis growths with MIC values of 4 μg/mL, 32 μg/mL and <0.5 μg/mL, respectively .
|
-
- HY-B2144K
-
|
Deacetylated chitin (≥85% deacetylated, viscosity>90 mPa.s, MW 15000); Poly(D-glucosamine) (≥85% deacetylated, viscosity>90 mPa.s, MW 15000)
|
Thickeners
|
|
Chitosan (≥85% deacetylated, viscosity>90 mPa.s, MW 15000) is a biochemical reagent.
|
-
- HY-B2144G
-
|
Deacetylated chitin (≥80% deacetylated, High viscosity,>400mPa.s); Poly(D-glucosamine) (≥80% deacetylated, High viscosity,>400mPa.s)
|
Thickeners
|
|
Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
- HY-B2144F
-
|
Deacetylated chitin (≥80% deacetylated, Medium viscosity,200-400mPa.s); Poly(D-glucosamine) (≥80% deacetylated, Medium viscosity,200-400mPa.s)
|
Thickeners
|
|
Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
- HY-W250111
-
|
|
Biochemical Assay Reagents
|
|
Carboxymethyl chitosan is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
|
-
- HY-158223
-
|
CMCSMA
|
3D Bioprinting
|
Carboxymethyl chitosan Methacryloyl (CMCSMA) is methacrylated carboxymethyl chitosan with properties as a 3D printing ink. A composite hydrogel made of Carboxymethyl chitosan Methacryloyl can effectively accelerate bone healing in an infectious microenvironment after implantation in a rat model of Staphylococcus aureus-infected femoral defect . Carboxymethyl chitosan Methacryloyl needs to self-assemble into fibrous hydrogel under the action of photoinitiator LAP (HY-44076), and target bioactive adhesion sites, play an inherent supporting role for tissue cells and biodegradable activity.
Application: cell culture, biological 3D printing, tissue engineering, etc.
|
-
- HY-W127410
-
|
|
Biochemical Assay Reagents
|
|
Hexanoic anhydride is used as a reactant for the synthesis of acremomannolipin A. For the green synthesis of acyclovir dipivoxil (acyclovir proagent), for the preparation of hexanoyl-modified chitosan nanoparticles, chitosan-based polymer surfactants by N-acylation of chitosan .
|
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- HY-155918
-
|
mPEG-Aldehyde (MW 1000)
|
Drug Delivery
|
|
mPEG-CHO (MW 1000) participates in the formation of a three-dimensional porous scaffold that carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155915
-
|
mPEG-Aldehyde (MW 350)
|
Drug Delivery
|
|
mPEG-CHO (MW 350) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155916
-
|
mPEG-Aldehyde (MW 550)
|
Drug Delivery
|
|
mPEG-CHO (MW 550) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155917
-
|
mPEG-Aldehyde (MW 750)
|
Drug Delivery
|
|
mPEG-CHO (MW 750) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155919
-
|
mPEG-Aldehyde (MW 2000)
|
Drug Delivery
|
|
mPEG-CHO (MW 2000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155920
-
|
mPEG-Aldehyde (MW 3400)
|
Drug Delivery
|
|
mPEG-CHO (MW 3400) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
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- HY-155921
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mPEG-Aldehyde (MW 5000)
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Drug Delivery
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mPEG-CHO (MW 5000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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- HY-155922
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mPEG-Aldehyde (MW 10000)
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Drug Delivery
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mPEG-CHO (MW 10000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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- HY-155923
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mPEG-Aldehyde (MW 20000)
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Drug Delivery
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mPEG-CHO (MW 20000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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- HY-W145695
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Biochemical Assay Reagents
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Chitoheptaose is a chitosan oligosaccharide. Chitoheptaose is capable of extracting exoskeletons from crustaceans, such as the shells of crabs, shrimp and lobsters. Chitoheptaose has antioxidant, anti-inflammatory and anti-apoptotic activities and can be used in the study of myocarditis. Chitoheptaose has cardioprotective effects and improves cardiac parameters (left ventricular internal size, end-systolic and end-diastolic, ejection fraction and shortening fraction), inflammatory cytokines (IL-1β) in vanishing models .
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| Cat. No. |
Product Name |
Category |
Target |
Chemical Structure |
| Cat. No. |
Product Name |
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Classification |
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- HY-B2144E
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Deacetylated chitin (≥90% deacetylated, Low viscosity,<200mPa.s); Poly(D-glucosamine) (≥90% deacetylated, Low viscosity,<200mPa.s)
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Disintegrants
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Chitosan (Deacetylated chitin) is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
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- HY-148033
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N,N,N-TrimethylChitosan
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Polymers
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Trimethyl chitosan (N,N,N-Trimethylchitosan) is a water-soluble multifunctional polymer which is a Chitosan (HY-B2144A) derivative. Trimethyl chitosan can be used for drug delivery and to synthesize nanoparticles .
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- HY-135969
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Polymers
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Glycol chitosan is a chitosan derivative with ethylene glycol branches. Glycol chitosan enhances membrane permeability and leadkage in Glycine max Harosoy 63W cells. Glycol chitosan is biocompatible and biodegradable . Glycol chitosan inhibits E. coli, S. aureus and S. enteritidis growths with MIC values of 4 μg/mL, 32 μg/mL and <0.5 μg/mL, respectively .
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- HY-155918
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mPEG-Aldehyde (MW 1000)
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|
Polymers
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mPEG-CHO (MW 1000) participates in the formation of a three-dimensional porous scaffold that carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155915
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mPEG-Aldehyde (MW 350)
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Polymers
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mPEG-CHO (MW 350) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
- HY-155916
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mPEG-Aldehyde (MW 550)
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|
Polymers
|
|
mPEG-CHO (MW 550) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
- HY-155917
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mPEG-Aldehyde (MW 750)
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|
Polymers
|
|
mPEG-CHO (MW 750) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155919
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mPEG-Aldehyde (MW 2000)
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|
Polymers
|
|
mPEG-CHO (MW 2000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
- HY-155920
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mPEG-Aldehyde (MW 3400)
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|
Polymers
|
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mPEG-CHO (MW 3400) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155921
-
|
mPEG-Aldehyde (MW 5000)
|
|
Polymers
|
|
mPEG-CHO (MW 5000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
|
-
- HY-155922
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|
mPEG-Aldehyde (MW 10000)
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|
Polymers
|
|
mPEG-CHO (MW 10000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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-
- HY-155923
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mPEG-Aldehyde (MW 20000)
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|
Polymers
|
|
mPEG-CHO (MW 20000) participates in the formation of a three-dimensional porous scaffold which carries active substances to form a delivery vehicle. The -CHO functional group interacts with the -NH2 functional group of the chitosan chain to form a glutaraldehyde-type adduct to functionalize mPEG. This functionalization and cross-linking can affect the rigidity of the delivery system, allowing slow release of the cross-linked conjugate system.
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