Fmoc-D-Dbu(N3)-OH is a click chemistry reagent containing an Azide group.
Catalog Number | Size | Price | Quantity | ||
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BADC-01772 | -- | $-- | Inquiry |
Fmoc-D-Dbu(N3)-OH, a derivative of Dbu, holds a crucial role in peptide synthesis and bioconjugation. Here are four key applications of Fmoc-D-Dbu(N3)-OH:
Peptide Synthesis: Serving as a fundamental component in solid-phase peptide synthesis, Fmoc-D-Dbu(N3)-OH seamlessly integrates azide functionalities into peptides, laying the groundwork for subsequent “click chemistry” reactions. This strategic integration enables the attachment of a myriad of biomolecules or synthetic compounds, fostering the creation of intricate peptide architectures with unparalleled precision and complexity.
Drug Development: Researchers harness the potent capabilities of Fmoc-D-Dbu(N3)-OH to design peptide-based drug candidates with enhanced properties. By capitalizing on the modifiability of the azide group, they can finely tune the biochemical characteristics of the peptide, such as stability, solubility, and binding affinity. This adaptability transforms Fmoc-D-Dbu(N3)-OH into a versatile tool for crafting therapeutically relevant peptides with heightened efficacy.
Bioconjugation: Serving as a linchpin in bioconjugation strategies, Fmoc-D-Dbu(N3)-OH acts as a bridging agent for peptides and a diverse array of macromolecules, including proteins, DNA, and polymers. The azide functionality provides a specific site for bioorthogonal conjugation through “click chemistry,” enabling the formation of multifunctional bioconjugates for diagnostic and therapeutic delivery systems.
Material Science: In the domain of materials research, Fmoc-D-Dbu(N3)-OH emerges as a pivotal player in functionalizing surfaces with tailored peptide sequences. This process enhances the biocompatibility and bioactivity of materials, making them suitable for a myriad of applications in biomedical implants and tissue engineering. Through the meticulous arrangement of peptides on surfaces, scientists can precisely control cell adhesion, growth, and differentiation, ushering in a new era of customized material science with profound implications for the field of biotechnology and beyond.
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BOC Sciences offers comprehensive services for ADC manufacturing, including antibody modification, linker chemistry, payload conjugation, and formulation development. In particular, our payload-linker customization service offers a convenient and fast raw material channel for many ADC researchers.
BOC Sciences provides one-stop site-specific conjugation services for amino acids, glycans, unnatural amino acids, and short peptide tags. In addition, cysteine conjugation, lysine conjugation, enzymatic conjugation, thio-engineered antibody can also be obtained quickly.
BOC Sciences offers a full range of linkers, including peptide linkers, PEG linkers, click chemistry, PROTAC linkers, non-cleavable linkers, etc. We also provide custom development services for chemically labile linkers and enzymatically cleavable linkers.