Charge Transport and Intrinsic Fluorescence in Amyloid-like Fibrils

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2007 Nov 7

PMID 17984067

Citations 49

Authors

Loretta Laureana Del Mercato

Pier Paolo Pompa

Giuseppe Maruccio

Antonio Della Torre

Stefania Sabella

Antonio Mario Tamburro

Roberto Cingolani

Ross Rinaldi

Affiliations

Soon will be listed here.

Abstract

The self-assembly of polypeptides into stable, conductive, and intrinsically fluorescent biomolecular nanowires is reported. We have studied the morphology and electrical conduction of fibrils made of an elastin-related polypeptide, poly(ValGlyGlyLeuGly). These amyloid-like nanofibrils, with a diameter ranging from 20 to 250 nm, result from self-assembly in aqueous solution at neutral pH. Their morphological properties and conductivity have been investigated by atomic force microscopy, scanning tunneling microscopy, and two-terminal transport experiments at the micro- and nanoscales. We demonstrate that the nanofibrils can sustain significant electrical conduction in the solid state at ambient conditions and have remarkable stability. We also show intrinsic blue-green fluorescence of the nanofibrils by confocal microscopy analyses. These results indicate that direct (label-free) excitation can be used to investigate the aggregation state or the polymorphism of amyloid-like fibrils (and possibly of other proteinaceous material) and open up interesting perspectives for the use of peptide-based nanowire structures, with tunable physical and chemical properties, for a wide range of nanobiotechnological and bioelectronic applications.

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