Fmoc-Ttds-OH: Advanced Building Block for Peptide Synthesis and Bioconjugation
Unlock cutting-edge peptide research with our high-purity Fmoc-Ttds-OH, a key intermediate for innovative bioconjugation.
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Fmoc-1-amino-4,4,7,10-trioxatridecan-succinamic acid
Fmoc-Ttds-OH is a critical Fmoc-protected amino acid derivative engineered for advanced peptide synthesis. It offers exceptional purity and a specific oily appearance, making it ideal for researchers requiring reliable and high-performance reagents. This compound is instrumental in constructing complex peptide sequences and enabling sophisticated bioconjugation strategies, thus accelerating drug discovery and development.
- Discover the impact of Fmoc-Ttds-OH in advanced peptide synthesis protocols. As a vital component for creating custom peptides, its role in facilitating complex molecular structures is undeniable.
- Explore the benefits of using CAS 172089-14-4 as a specialty chemical for life sciences. Its unique properties support a wide range of applications, from research to therapeutic development.
- Learn how this amino acid derivative for peptide coupling enhances reaction efficiency. Its specific chemical structure is designed to optimize the formation of peptide bonds, a cornerstone of peptide synthesis.
- Investigate the application of this bioconjugation building block in creating novel biomolecules. Its versatility allows for precise conjugation, essential for developing targeted therapies and diagnostics.
Advantages Offered
Exceptional Purity
Benefit from a purity level of u226598% HPLC, ensuring reliable and reproducible results in your peptide synthesis projects, crucial for accurate drug discovery.
Versatile Application
Utilize Fmoc-Ttds-OH as a versatile building block for peptide synthesis and bioconjugation, enabling the creation of complex and functional biomolecules essential for modern life science research.
Controlled Reactivity
Leverage the controlled reactivity of this specialty chemical for life sciences, facilitating precise coupling reactions and minimizing unwanted side products, thus optimizing synthesis yields.
Key Applications
Peptide Synthesis
Employ Fmoc-Ttds-OH as a cornerstone reagent in Solid Phase Peptide Synthesis (SPPS) and solution-phase methods to construct diverse peptide sequences, supporting drug discovery.
Bioconjugation
Integrate this advanced building block into bioconjugation strategies to link peptides with other molecules like proteins, antibodies, or surfaces, vital for diagnostics and targeted delivery systems.
Drug Discovery
Utilize the compound in the development of peptide-based therapeutics, leveraging its unique structure to create molecules with enhanced stability, efficacy, and specificity in therapeutic research.
Chemical Synthesis
Apply Fmoc-Ttds-OH in broader organic synthesis applications where a protected amino acid derivative with specific linker properties is required, expanding its utility beyond traditional peptide chemistry.