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Email:sales@ruixibiotech.com
Tel.:02988811435
| Catalog | name | Description | price |
|---|---|---|---|
| R-M2-9769 | DBCO-(N-terminal)phe-arg-gly-his | DBCO-(N-terminal)phe-arg-gly-his is a synthetic bio-conjugate consisting of a click-reactive moiety (DBCO) linked to a short peptide (Phe-Arg-Gly-His) through its N-terminal (amino group). This kind of structure is engineered for bioorthogonal labeling, targeted delivery, or biomolecular modification, particularly using click chemistry. | price> |
| R-M2-9787 | DBCO-(N-terminal)phe-arg-gly-tyr-tyr-tyr | DBCO-(N-terminal)phe-arg-gly-tyr-tyr-tyr can be attached to antibodies, sensors, or nanocarriers for precise delivery or detection. DBCO enables site-specific, catalyst-free coupling to azide-bearing molecules .Peptide may act as a ligand for receptor-mediated targeting or cell-penetrating function. | price> |
| R-M2-9790 | DBCO-(N-terminal)phe-arg-gly-tyr-tyr | DBCO-(N-terminal)phe-arg-gly-tyr-tyr can be attached to antibodies, sensors, or nanocarriers for precise delivery or detection.DBCO enables site-specific, catalyst-free coupling to azide-bearing molecules .Peptide may act as a ligand for receptor-mediated targeting or cell-penetrating function. | price> |
| R-M2-9801 | Hemin-N3 | Hemin-N3 referring to azide-modified hemin, is a bioactive complex widely studied for both coordination chemistry and nanomedicine.It typically involves hemin (ferric protoporphyrin IX) forming complexes with azide (N3-) ligands either for catalytic activity, spin-state studies, or as precursors in click chemistry functionalization. Hemin-N3 is a redox-active azide complex of hemin.Useful for modeling enzymatic active sites and catalytic behavior.Frequently integrated into nanoparticle surfaces or used for click chemistry. | 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> |
| R-M2-9845 | BCN-HRP | BCN-HRP/BCN-Horseradish peroxidase/Horseradish peroxidase modified with cyclopropane/cyclooctyne is a bioorthogonal enzyme conjugate. Applications: Bioassays & immunoassays (ELISA, Western blot): Azide–BCN click enables oriented HRP conjugation to antibodies. Biosensing platforms: HRP immobilization on azide-functionalized electrodes or nanoparticles. Targeted imaging & diagnostics: Enzyme-based amplification in bioorthogonal labeling systems. Bioconjugate chemistry: Modular tool for site-directed HRP modification. | price> |
| R-M1-8225 | Ce6-N3 | CE6 is usually synthesized from pheophorbide a,which is a good photosensitizer and has similar biological activity to pheophorbide a.CE6 is hydrophobic and easy to aggregate in solution.CE6 produces singlet oxygen with high efficiency,which is suitable for photodynamic therapy of tumor. | price> |
| R-M2-9880 | DOTA-C6-DBCO | DOTA-C6-DBCO is a multifunctional chelator-click chemistry conjugate. Applications: Radiolabeling and imaging (PET, SPECT, MRI) when complexed with metal ions. Bioorthogonal conjugation of DOTA to proteins, peptides, antibodies, liposomes, or nanoparticles. Development of theranostic agents combining imaging and targeted delivery. | price> |
| R-M2-9890 | Inulin-COOH | The carboxyl group of Inulin-COOH can participate in coupling through activation esterification and click chemistry: Activation esterification: Under the action of chelating agents such as EDC/NHS, the carboxyl group forms amide bonds with primary amines (such as lysine residues in proteins) Click chemistry: If further modified to azide (- N3) or DBCO, efficient coupling can be achieved through copper free click reactions (such as SPAAC). Application areas: Drug delivery: As a carrier modified drug (such as anticancer agents), it is delivered to tumor tissue through PSMA targeting (if combined with DUPA) or passive targeting (such as EPR effect). Biomarker: Carboxyl groups can be linked to fluorescent dyes (such as ICG COOH) or biotin for cell imaging or detection. Tissue engineering: coupling with collagen or growth factors to promote the biological activity of scaffold materials. | price> |
| R-M2-9891 | Inulin-DBCO | Inulin-DBCO can be used as a drug carrier, biomarker, and nanobody coupling. Drug delivery: As a carrier modified drug (such as anticancer agents), targeted delivery is achieved through sugar labeling such as DBCO tetraacetylmannosamine. Biomarker: Conjugated with fluorescent dyes or biotin (such as DBCO Sulfo Link biotin) for cell imaging or detection. Nanoantibody coupling: binding with oligonucleotides or nanobodies to construct targeted therapeutic molecules (such as gene regulated drugs). | price> |
RuixiBiotechCo.Ltd /KamulinBiotechco.ltd
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Email: sales@ruixibiotech.com
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