Branched Aminooxy PEG is a bioconjugation reagent with aminooxy groups that form stable oxime bonds with aldehydes and ketones. Its branched PEG structure improves solubility, flexibility, and efficiency, making it ideal for drug development, biomolecule attachment, and surface modification.
Branched Aminooxy PEG
Branched Aminooxy PEG is a bioconjugation reagent combining a branched PEG structure with aminooxy groups. These aminooxy groups react with aldehydes and ketones to form stable oxime bonds, enabling efficient attachment of biomolecules. The PEG backbone increases solubility and flexibility, making it useful for various research and drug development applications.
Key Features:
- Reactive Groups: Aminooxy groups bond with aldehydes and ketones, forming stable oxime linkages.
- Improved Solubility: The PEG structure enhances water solubility for better performance in aqueous environments.
- Increased Flexibility: The branched PEG design reduces steric hindrance, making reactions more efficient.
Applications:
- Bioconjugation: Attaches proteins, peptides, and other biomolecules through oxime bond formation.
- Drug Development: Improves drug solubility and stability for creating drug conjugates.
- Surface Functionalization: Modifies surfaces for further attachment of carbonyl-containing compounds.
Branched Aminooxy PEG is an essential tool for researchers working on advanced drug delivery systems, bioconjugation projects, and surface engineering.