Title :
Functionalisation of surfaces with S-layers
Author :
Pum, D. ; Schuster, B. ; Sára, M. ; Sleytr, U.B.
Author_Institution :
Center for Nanotechnology, Univ. of Natural Resources & Appl. Life Sci. BOKU, Vienna, Austria
fDate :
6/4/2004 12:00:00 AM
Abstract :
Two-dimensional bacterial surface layer protein crystals (S-layers) are the most commonly observed cell surface structures in prokaryotic organisms (bacteria and archaea). Isolated S-layer proteins have the intrinsic tendency to self-assemble into two-dimensional arrays in suspension and at various interfaces. Basic research on the structure, genetics, chemistry, morphogenesis and function of S-layers has led to a broad spectrum of applications in molecular nanotechnology and biomimetics. The possibility to change the natural properties of S-layer proteins by genetic manipulation opens new ways for the tuning of their structural and functional features. Functionalised S-layer proteins that maintain their propensity for self-assembly have led to new affinity matrices, diagnostic tools, vaccines or biocompatible surfaces, as well as to biological templating or specific biomineralisation strategies at surfaces.
Keywords :
biochemistry; biomimetics; biotechnology; cellular biophysics; genetics; microorganisms; molecular biophysics; nanotechnology; proteins; self-assembly; S-layer chemistry; S-layer genetics; S-layer morphogenesis; S-layer structure; affinity matrices; archaea; biocompatible surfaces; biological templating; biomimetics; cell surface structures; diagnostic tools; genetic manipulation; molecular nanotechnology; prokaryotic organisms; self-assembly; specific biomineralisation strategies; surface functionalisation; two-dimensional bacterial surface layer protein crystals; vaccines;
Journal_Title :
Nanobiotechnology, IEE Proceedings -
DOI :
10.1049/ip-nbt:20040638
