Product synthetic-chemistry-click-chemistry-dbco

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Catalog	name	Description	price
R-M1-8527	DBCO-C6-Br	DBCO-C6-Br can be used as a building block or intermediate in bioconjugation strategies, where the DBCO moiety selectively reacts with azide-containing molecules or surfaces via SPAAC reaction.	price>
R-M1-8528	DBCO-ß-Cyclodextrin	DBCO-ß-Cyclodextrin can be utilized in various fields such as pharmaceuticals, chemistry, and biomedical research where efficient solubilization and targeted delivery of hydrophobic compounds are required.	price>
R-M1-8551	DBCO-RGD	DBCO-RGD is often utilized in the development of targeted therapeutics, imaging agents, or surface modifications for specific cell adhesion and signaling applications.	price>
R-M1-8561	DBCO dopamine	By conjugating dopamine with DBCO, researchers can introduce specific functional groups to dopamine and utilize its neurochemical properties for various purposes. For example, DBCO dopamine can be used to attach dopamine to biomolecules, nanoparticles, or surfaces for targeted drug delivery or imaging applications. This conjugate offers a versatile tool for studying dopamine signaling and its interactions in biological systems.	price>
R-M1-8564	DBCO-PEG8-Maleimide	DBCO-PEG8-Maleimide,Dibenzocyclooctyne-polyethylene glycol8-Maleimide is often used to functionalize biomolecules such as proteins, peptides, or nucleic acids. The DBCO group can react with azide-modified molecules, while the maleimide group can react with thiol-modified molecules. This allows for site-specific and efficient bioconjugation of different biomolecules for various applications, such as drug delivery, imaging, or protein labeling.	price>
R-M1-8617	3-Azido-D-alanine HCl,cas1379690-01-3	3-Azido-D-alanine HCl/3-Azido-D-alanine hydrochloride/CAS1379690-01-3 is an aliphatic functionalized amino acid with side chain lengths of up to four carbons.In the area of peptide synthesis as a powerful tool in the development of new therapeutics and biochemistry research. Such modified amino acids can easily undergo click reaction.	price>
R-M1-8644	DBCO-Hemin	Dibenzocyclooctyne-Hemin/Hemin-DBCO/Hemin-Dibenzocyclooctyne/DBCO-Hemin is a synthetic compound that consists of a dibenzocyclooctyne (DBCO) group attached to a heme molecule known as hemin. Hemin is a derivative of hemoglobin and is involved in various biological processes, including oxygen transport and storage. The DBCO group in DBCO-Hemin allows for bioorthogonal reactions with azide-modified molecules, which can be useful for labeling or conjugating biomolecules in a controlled and specific manner. This compound can be used in various applications, including chemical biology, bioconjugation, and biotechnology research.	price>
R-M1-8675	Deferoxamine-DBCO	Deferoxamine-DBCO/Deferoxamine-Dibenzocyclooctyne/DBCO-Deferoxamine/Dibenzocyclooctyne-Deferoxamine can be used for targeted drug delivery. The DBCO group can react with azide-modified molecules, such as in a drug or nanoparticle, to specifically attach the Deferoxamine to the therapeutic agent for targeted delivery to specific tissues or cells.	price>
R-M1-8695	N3-arginine	Azide-modified arginine refers to arginine molecules that have been chemically modified to include an azide functional group. The azide group (-N₃) is a versatile reactive moiety that can participate in a variety of chemical reactions, including click chemistry.Arginine is an amino acid commonly found in proteins and exhibits various biological functions. By introducing an azide group onto the arginine molecule, researchers can selectively target and modify arginine residues in proteins or peptides. This can be useful in bioconjugation techniques, where the azide-modified arginine can react with other molecules containing a complementary reactive group, such as alkyne or cyclooctyne, through a click chemistry reaction.	price>
R-M1-8696	N3-Cysteine	The use of azide-modified cysteine/N3-Cysteine has found applications in protein engineering, proteomics, drug delivery systems, and bioorthogonal chemistry. It allows for the precise and controlled modification of cysteine-containing peptides or proteins for research, diagnostics, and therapeutic purposes.	price>

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