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| Catalog | name | Description | price |
|---|---|---|---|
| R-M2-9660 | Phenylalanine-azide | Azide-containing compounds(Phenylalanine-azide) can be useful in targeting specific biomolecules or pathways due to their bioorthogonal characteristics, allowing them to undergo click reactions with alkyne-containing partners in biological systems.Azide derivatives of amino acids can be utilized in labeling studies or the study of protein interactions since they can be incorporated into peptides or proteins.The azide group could contribute to the synthesis of new materials, including polymers, which can be cross-linked via click chemistry. | price> |
| R-M2-9661 | Tyrosine-azide | The azide group allows for selective labeling of proteins and peptides, enabling tagging for visualization or tracking in biological systems.It can be part of a platform for the synthesis of novel pharmaceuticals, where the azide functionality can impact the bioactivity or pharmacokinetics of the compound. Tyrosine-azide/Azide-Tyrosine/Tyrosine-N3 can be used in the preparation of functionalized polymers or biomaterials through click chemistry, enabling the development of new materials with specific properties. Tapping into its bioorthogonal characteristics, tyrosine-azide can participate in specific reactions in complex biological systems without interfering with normal cellular functions, which is useful in drug delivery and diagnostics. | price> |
| R-M2-9662 | Tryptophan-azide | Because of its azide group, tryptophan-azide can be used to label proteins or peptides in bioorthogonal reactions. This allows researchers to tag biomolecules for studies of structure and function. Tryptophan-azide/Azide-Tryptophan/Tryptophan-N3 can be used in probing protein interactions, studying post-translational modifications, or as a tool for targeted delivery of drugs or imaging agents. Azide-containing compounds can be used to create clickable materials or polymers that can be assembled in a precise manner.The azide modification may affect the pharmacokinetics and interaction of tryptophan derivatives with biological targets, opening doors for the development of novel therapeutic agents. | price> |
| R-M2-9664 | PTAD-azide | PTAD-Azide is a selective bioconjugation reagent for the modification of tyrosine residues with an azide. Subsequent modification can then be afforded via the azide/alkyne click chemistry reaction with an alkyne or cyclooctyne containing compound or biomolecule.PTAD-Azide has also been used in the formation of antibody-drug conjugates. This reagent is compatible with different buffer systems such as PBS, Tris and mixed PBS/Tris buffer (preferred). The linkage with tyrosine has been shown to be stable to pH and temperature extremes as well as blood plasma. | price> |
| R-M1-8084 | DBCO-mannose | DBCO-mannose,Dibenzoazacyclooctyne-mannose is a click chemical compound. | price> |
| R-M2-9730 | OPSS-PG-Tetrazine | OPSS-PG-Tetrazine/OPSS-Propylene glycol-Tetrazine/Ortho-pyridyldisulfide-Propylene glycol-Tetrazine is a synthetic molecule with dual functional reaction sites, suitable for bioorthogonal labeling and surface modification chemistry. Application scenarios: Nanoparticle surface modification: By OPSS binding with thiols on the surface of metal or polymer particles, the tetrazine end is used for subsequent labeling. Construction of targeted delivery system: Connect the carrier and targeted ligand through a tetrazine TCO bioorthogonal connection. Fluorescent probe/imaging agent labeling: Quickly connect fluorescent dyes, radioactive tracers, photosensitizers, etc. Protein/antibody conjugation: Achieving precise labeling without interfering with natural amino acid residues. | price> |
| R-M2-9731 | DBCO-PEG3.4K-Tetrazine | DBCO-PEG3.4K-Tetrazine/DBCO-PEG3400-Tetrazine is a heterobifunctional,bioorthogonal linker molecule,widely used in site-specific bioconjugation,dual labeling,and nanocarrier surface modification. Applications: Nanoparticle functionalization (e.g. liposomes, micelles, quantum dots). Dual labeling of biomolecules (e.g. protein–antibody, fluorophore–antigen). In vivo tracking and imaging with sequential bioorthogonal reactions. Targeted drug delivery systems (e.g. site-specific ligand display). Hydrogel crosslinking or 3D scaffold design with modular chemistry. | price> |
| R-M2xa-9733 | DBCO-PEG2-C6-Cl | DBCO-PEG2-C6-Cl is a bifunctional synthetic linker molecule designed for click chemistry-based conjugation and post-functionalization. Applications: Surface or nanoparticle modification via azide click + alkyl anchoring. Linking biomolecules or probes with azides to a functionalized support. Sequential two-step conjugation systems. Custom linker for constructing multifunctional macromolecules. | price> |
| R-M2-9736 | DBCO-DTPA | DBCO-DTPA is a bifunctional, click-ready chelator molecule designed for bioorthogonal radiolabeling, imaging, and metal ion delivery systems. | price> |
| R-M1-8182 | Cholesterol-Azide | Cholesterol is an important lipid of mammalian cells and plays a fundamental role in many biological processes. Its concentration in the various cellular membranes differs and is tightly regulated. Here, we present a novel Azide cholesterol analog suitable for tracing both cholesterol metabolism and localization. This probe can be detected by click chemistry employing various reporter azides. | price> |
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