Azido-PEG10-Acid | 1644163-57-4

Azido-PEG10-Acid, a versatile compound central to biochemical applications such as bioconjugation and targeted delivery systems, finds diverse utility across various disciplines. Here are four key applications of Azido-PEG10-Acid:

Bioconjugation: At the forefront of bioconjugation processes, Azido-PEG10-Acid plays a pivotal role in mediating the attachment of biomolecules such as proteins or antibodies to diverse substrates. Its azide group facilitates seamless click chemistry interactions with alkyne-functionalized molecules, leading to the formation of robust covalent bonds. This capability enables the construction of intricate biomolecular assemblies critical for cutting-edge research and diagnostic endeavors.

Drug Delivery Systems: Redefining the landscape of drug delivery, Azido-PEG10-Acid emerges as a key component in crafting sophisticated delivery platforms. Its PEG chain endows hydrophilicity and biocompatibility, mitigating immunogenic responses and extending circulation time within the bloodstream. By conjugating therapeutic agents to Azido-PEG10-Acid, researchers can engineer targeted delivery vehicles that enhance the effectiveness and safety of medical interventions.

Surface Functionalization: Unleashing its potential in surface modification, Azido-PEG10-Acid transforms the properties of diverse materials to cater to biological applications. From coating nanoparticles to sensor surfaces, this compound enhances stability and biocompatibility, laying the foundation for advanced biosensor technologies and nanomedicine applications. This strategic functionalization approach is instrumental in propelling innovation in the realm of biotechnological developments.

Proteomics and Genomics: Serving as a crucial tool in the realm of proteomics and genomics research, Azido-PEG10-Acid emerges as a linchpin for labeling and scrutinizing biomolecules. By tagging proteins or nucleic acids, this compound enables their precise detection and quantification in complex biological samples. This pivotal application not only unveils insights into molecular interactions but also aids in identifying biomarkers, essential for advancing our understanding of biological systems.