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Home > products > synthetic-chemistry> click-chemistry-dbco
Catalog name Description price
R-M2-9464 endo-BCN-GAL The combination of endo-BCN with galactose(endo-BCN-galactose) can have several applications, especially in the fields of biochemistry and medicinal chemistry: The endo-BCN can react with azide-containing species through a rapid and selective click reaction. This feature allows researchers to label or modify galactose or galactose-containing biomolecules selectively, allowing for traceable modifications. By attaching bioactive molecules or drugs to galactose, researchers can create targeted drug delivery systems. Many cells have receptors that specifically recognize galactose, allowing for more precise targeting of therapies, especially in tissues where galactose is a more prevalent ligand. This compound could potentially be used to create biosensors. By incorporating it into a biosensor platform, it may be possible to detect specific interactions between galactose and its binding partners, with BCN facilitating easy coupling of labels or signal-generating groups. price>
R-M2-9528 DBCO-SS-BIOTIN  DBCO-SS-Biotin/Dibenzocyclooctyne-SS-BIOTIN is a versatile bioconjugate that can be used for Live Cell Imaging and Tracking, Targeted Drug Delivery, etc. price>
R-M2-9541 DBCO-HSA By attaching therapeutic agents to HSA via DBCO(DBCO-HSA/DBCO-human serum albumin/DBCO-Albumin from human serum/Human serum albumin-DBCO),the pharmacokinetics of the drug can be modified, leading to prolonged circulation times and targeted delivery to tissues expressing particular receptors or characteristics. DBCO is often used in bioconjugation strategies to covalently link proteins, peptides, or other biomolecules to HSA. This is particularly useful in developing targeted therapeutics or diagnostic agents. Conjugation of imaging agents (e.g., fluorescent markers, radioactive isotopes) to HSA through DBCO facilitates the tracking and visualization of biological processes in medical imaging techniques. HSA is sometimes used as a carrier for vaccine antigens. By conjugating antigens to HSA, the immune response can be improved due to the stable and biocompatible nature of the protein. HSA conjugates can also be used to deliver biologically active compounds, enzymes, or hormones effectively, targeting specific tissues or cells based on the characteristics of HSA and the associated payload. price>
R-M2-9549 N3-C4-NHS ester,cas478801-48-8 N3-C4-NHS ester,cas478801-48-8 is a click chemistry reagent, it contains an Azide group and can undergo copper-catalyzed azide-alkyne cycloaddition reaction (CuAAc) with molecules containing Alkyne groups. It is also a noncleavable ADC linker used in the synthesis of antibody-drug conjugates (ADCs). It can also undergo strain-promoted alkyne-azide cycloaddition (SPAAC) reactions with molecules containing DBCO or BCN groups. price>
R-M2-9551 DBCO-TRIS NTA DBCO-TRIS NTA/DBCO-TRIS nitrilotriacetic acid is a versatile reagent that integrates bioorthogonal chemistry (via DBCO) with affinity purification (via NTA), making it useful in various biochemical and biomedical research applications. price>
R-M2-9554 DBCO-NTA DBCO-Nitrilotriacetic Acid(DBCO-NTA) is a powerful tool in biochemical and biotechnological research, functionalized for efficient protein conjugation and purification. Its unique properties of combining azide-reactive chemistry with metal-binding capabilities make it particularly valuable in various applications, from basic research to practical applications in drug development and diagnostic technologies. price>
R-M-7081 DBCO-C6-NH2 DBCO-C6-NH2 is an analog of DBCO-NH2 with an extended 6-carbon atom spacer arm. The extended 6-carbon atom spacer arm improves its derivatization efficiency and the stability of the yielded conjugates. This spacer arm also improves solubility in organic solvents such as dichloromethane, chloroform, THF, and ethyl acetate. DBCO is commonly used for copper-free Click Chemistry reactions. price>
R-M-7082 DBCO-SS-NHS Dibenzocyclooctyne (dbco) was used in the azido alkyne cycloaddition (spaac) reaction without copper ion catalysis. The kinetic constant of the second order reaction was 1.Dbco series products include dbco acid,dbco amine,dbco peg NHS,dbco peg amine, as well as dbco labeled biotin,fluorescent dyes and biochemical small molecules. price>
R-M1-8001 DBCO-PEG350-FA Applicated in medical research, drug-release, nanotechnology and new materials research, cell culture. In the study of ligand, polypeptide synthesis support, a graft polymer compounds, new materials, and polyethylene glycol-modified functional coatings and other aspects of the active compound. DBCO-PEG-FA can go Click Chemistry reaction without a needof any catalysts. price>
R-M1-8003 Dibenzocycolctyne-PEG750-Folic Acid DBCO-PEG-FA can go Click Chemistry reaction without a needof any catalysts.Applicated in medical research, drug-release, nanotechnology and new materials research, cell culture. In the study of ligand, polypeptide synthesis support, a graft polymer compounds, new materials, and polyethylene glycol-modified functional coatings and other aspects of the active compound. price>