RAFT Nano-constructs: surfing to biological applications.
A review. Biol. programmed mol. recognition provides the basis of all natural systems and supplies evolution-optimized functional materials from self-assembly of a limited no. of mol. building blocks. Biomols. such as peptides, nucleic acids and carbohydrates represent a diverse supply of structural building blocks for the chemist to design and fabricate new functional nanostructured architectures. Here, the authors review their work towards peptide conjugates with nucleic acids, carbohydrates, and org. mols., as well as combinations thereof, using a template-assembled approach. With this methodol., the authors have prepd. new integrated functional systems exhibiting designed properties in the field of nanovectors, biosensors as well as controlled peptide self-assembly. Thus, this mol. engineering approach allows for the rational design of systems with integrated tailor-made properties and paves the way to more elaborate applications by bottom-up design in the domain of nanobiosciences. [on SciFinder(R)]
Références
- Titre
- RAFT Nano-constructs: surfing to biological applications.
- Type de publication
- Article de revue
- Année de publication
- 2008
- Auteurs
- Boturyn, Didier, Defrancq Eric, Dolphin Gunnar T., Garcia Julian, Labbe Pierre, Renaudet Olivier, and Dumy Pascal
- Revue
- J. Pept. Sci.
- Volume
- 14
- Pagination
- 224–240
- ISSN
- 1075-2617
- DOI
- 10.1002/psc.964
Soumis le 12 avril 2018