SMCC: A Key Heterobifunctional Crosslinker for Bioconjugation
Unlock new possibilities in bioconjugation with this advanced amine-to-sulfhydryl crosslinker.
Get a Quote & SampleProduct Core Value
Succinimidyl 4-(N-maleimidomethyl)cyclohexane-1-carboxylate
This advanced chemical reagent serves as a crucial tool in modern bioconjugation, enabling precise linking of biomolecules. Its unique heterobifunctional nature allows for targeted conjugation strategies, essential for developing novel therapeutics and research tools.
- Discover the versatility of SMCC crosslinker for bioconjugation, facilitating the creation of complex molecular assemblies.
- Leverage the power of a heterobifunctional crosslinker for protein conjugation, ensuring specific and efficient linkage.
- Understand the amine to sulfhydryl crosslinker applications, opening avenues for diverse biomolecular modifications.
- Explore the stability advantages conferred by the cyclohexane spacer arm, enhancing the reliability of your experiments.
Key Advantages of SMCC
Precise Molecular Linking
Achieve targeted protein crosslinking with the distinct reactivity of SMCC's NHS ester and maleimide groups.
Enhanced Bioconjugate Stability
Benefit from the robust cyclohexane bridge, providing improved stability for conjugates created using this essential bioconjugation reagent.
Broad Application Scope
Utilize SMCC in various pharmaceutical intermediate roles, from creating antibody-drug conjugates to supporting intricate biochemical research.
Key Applications
Antibody-Drug Conjugates (ADCs)
The specific reactivity of SMCC makes it an ideal linker component for constructing Antibody-Drug Conjugates, enhancing targeted cancer therapies.
Protein Labeling
Facilitate enzyme labeling of antibodies and other proteins, preserving biological activity while introducing new functionalities.
Biochemical Research
Employ SMCC in diverse biochemical research projects, enabling the study of protein interactions and the development of diagnostic tools.
Custom Chemical Synthesis
Support custom synthesis needs for specialized research chemicals, where precise molecular modifications are paramount.