Journal ArticleDOI
S-layers as patterning elements for application in nanobiotechnology.
TLDR
Functionalized S-layer proteins that maintain their ability to self-assemble have led to new affinity matrices, diagnostic tools, vaccines or biocompatible surfaces, as well as to biological templating or specific biomineralisation strategies at surfaces.Abstract:
Two-dimensional bacterial cell surface layer protein crystals (S-layers) are the most commonly observed cell surface structure in bacteria and archaea. Isolated S-layer proteins have the intrinsic tendency to self-assemble into crystalline arrays in suspension and on various interfaces. Basic research on the structure, genetics, chemistry, morphogenesis and function of S-layers has led to a broad spectrum of applications in nanotechnology and biomimetics. The possibility to change the properties of S-layer proteins by genetic engineering opens new ways for tuning their functional and structural features. Functionalized S-layer proteins that maintain their ability to self-assemble have led to new affinity matrices, diagnostic tools, vaccines or biocompatible surfaces, as well as to biological templating or specific biomineralisation strategies at surfaces.read more
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Journal ArticleDOI
Biotemplated Nanostructured Materials
TL;DR: The potential of biological scaffolds for the fabrication of novel types of nanostructures is explored in this article, where the authors present an overview of the biological template-based approach for the synthesis and organization of inorganic nanostructure into well-defined architectures.
Journal ArticleDOI
S‐layers as a tool kit for nanobiotechnological applications
TL;DR: The basic principles of S-layer proteins and the application potential ofS-layers in nanobiotechnology and biomimetics including life and nonlife sciences are reviewed.
Journal ArticleDOI
Development of peptide and protein nanotherapeutics by nanoencapsulation and nanobioconjugation.
TL;DR: Current scenario of therapeutic protein and peptides encapsulation on polymer to metallic nanocarriers including methods of protein encapsulation, peptide bioconjugation on nanoparticles, stability enhancement of encapsulated proteins and its biomedical applications is covered.
Journal ArticleDOI
Protein components for nanodevices.
TL;DR: Examples of protein components for nanobiotechnology, including self-assembling protein arrays, pores with triggers and switches, and motor proteins harnessed for specific tasks are described, to build tiny devices that respond to the environment, perform computations and carry out tasks.
Journal ArticleDOI
S-layer protein self-assembly.
TL;DR: This contribution briefly summarizes the knowledge about structure, genetics, chemistry, morphogenesis, and function of S-layer proteins and pays particular attention to the self-assembly in solution, and at differently functionalized solid supports.