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Nano Lett. 2008 Feb;8(2):538-43. Epub 2007 Dec 23.

Directed three-dimensional patterning of self-assembled peptide fibrils.

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1
Institute of Electronic Structure and Laser, Foundation for Research and Technology Hellas, P.O. Box 527, Vassilika Vouton, 711 10 Heraklion, Crete, Greece.

Abstract

Molecular self-assembly is emerging as a viable "bottom-up" approach for fabricating nanostructures. Self-assembled biomolecular structures are particularly attractive, due to their versatile chemistry, molecular recognition properties, and biocompatibility. Among them, amyloid protein and peptide fibrils are self-assembled nanostructures with unique physical and chemical stability, formed from quite simple building blocks; their ability to work as a template for the fabrication of low resistance, conducting nanowires has already been demonstrated. The precise positioning of peptide-based nanostructures is an essential part of their use in technological applications, and their controlled assembly, positioning, and integration into microsystems is a problem of considerable current interest. To date, their positioning has been limited to their placement on flat surfaces or to the fabrication of peptide arrays. Here, we propose a new method for the precise, three-dimensional patterning of amyloid fibrils. The technique, which combines femtosecond laser technology and biotin-avidin mediated assembly on a polymeric matrix, can be applied in a wide variety of fields, from molecular electronics to tissue engineering.

PMID:
18154365
DOI:
10.1021/nl072798r
[Indexed for MEDLINE]
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