Two-Photon and Time-Resolved Fluorescence Spectroscopy as Probes for Structural Determination in Amyloid‑β Peptides and Aggregates

The development of new sensitive methods for the detailed collection of conformational and morphological information about amyloids is crucial for the elucidation of critical questions regarding aggregation processes in neurodegenerative diseases. The combined approach of two-photon and time-resolve...

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Veröffentlicht in:	The journal of physical chemistry. B 2014-03, Vol.118 (9), p.2351-2359
Hauptverfasser:	Clark, Travis B, Ziółkowski, Marcin, Schatz, George C, Goodson, Theodore
Format:	Artikel
Sprache:	eng
Schlagworte:	Agglomeration Aggregates Amyloid beta-Peptides - chemistry Amyloid beta-Peptides - metabolism Circular Dichroism Cross sections Dichroism Fluorescence Fluorescent Dyes - chemistry Mathematical models Peptide Fragments - chemistry Peptide Fragments - metabolism Peptides Photons Protein Structure, Secondary Quantum Theory Spectrometry, Fluorescence Spectroscopy
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container_end_page	2359
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container_title	The journal of physical chemistry. B
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creator	Clark, Travis B Ziółkowski, Marcin Schatz, George C Goodson, Theodore
description	The development of new sensitive methods for the detailed collection of conformational and morphological information about amyloids is crucial for the elucidation of critical questions regarding aggregation processes in neurodegenerative diseases. The combined approach of two-photon and time-resolved fluorescence spectroscopy described in this report interrogates the early conformational dynamics seen in soluble oligomers of amyloid-β(1–42). Concentration-dependent aggregation studies using two-photon absorption show enhanced sensitivity toward conformational changes taking place in the secondary structure of the amyloid peptide as aggregation proceeds. Fluorescence lifetimes and changes in anisotropy values indicate Förster-type energy transfer occurring as a function of aggregation state. The sensitivity of our two-photon methodology is compared to that of circular dichroism (CD) spectroscopy, and the results indicate that the two-photon absorption cross-section method exhibits superior sensitivity. A theoretical model is developed that, together with electronic structure calculations, explains the change in cross section as a function of aggregation in terms of interacting transition dipoles for aggregates showing stacked or parallel structures. This suggests that the two-photon method provides a sensitive alternative to CD spectroscopy while avoiding many of the inherent challenges particular to CD data collection. The implication of this finding is significant, as it indicates that a two-photon-based technique used in conjunction with time-resolved fluorescence might be able to reveal answers to conformational questions about amyloid-β(1–42) that are presently inaccessible with other techniques.
doi_str_mv	10.1021/jp500883s
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B</title><addtitle>J. Phys. Chem. B</addtitle><description>The development of new sensitive methods for the detailed collection of conformational and morphological information about amyloids is crucial for the elucidation of critical questions regarding aggregation processes in neurodegenerative diseases. The combined approach of two-photon and time-resolved fluorescence spectroscopy described in this report interrogates the early conformational dynamics seen in soluble oligomers of amyloid-β(1–42). Concentration-dependent aggregation studies using two-photon absorption show enhanced sensitivity toward conformational changes taking place in the secondary structure of the amyloid peptide as aggregation proceeds. Fluorescence lifetimes and changes in anisotropy values indicate Förster-type energy transfer occurring as a function of aggregation state. 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subjects	Agglomeration Aggregates Amyloid beta-Peptides - chemistry Amyloid beta-Peptides - metabolism Circular Dichroism Cross sections Dichroism Fluorescence Fluorescent Dyes - chemistry Mathematical models Peptide Fragments - chemistry Peptide Fragments - metabolism Peptides Photons Protein Structure, Secondary Quantum Theory Spectrometry, Fluorescence Spectroscopy
title	Two-Photon and Time-Resolved Fluorescence Spectroscopy as Probes for Structural Determination in Amyloid‑β Peptides and Aggregates
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