Peptide Models for Studying Autonomous Folding of Subdomain Sections of Protein Molecules

G. Byk; Dikla Engel; Vardah Ittah; Elisha Haas

Peptide Models for Studying Autonomous Folding of Subdomain Sections of Protein Molecules

G. Byk, Dikla Engel, Vardah Ittah, Elisha Haas

Department of Chemistry

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Polypeptide segments are the elementary folding units of globular proteins. Relatively short synthetic polypeptide segments are essential models for the investigation of the mechanism of folding of globular proteins. The search for intermediate, partially folded states of proteins, or their fragments, is a central issue in the protein folding problem. In order to be able to characterize partially folded states, it is essential to be able to characterize the conformation of polypeptide segments in the presumably unfolded (statistical coil) and fully folded states. To this end, a series of model polypeptide segments, labeled by pairs of fluorescent probes, were prepared and characterized by means of time resolved dynamic non-radiative fluorescence energy transfer (FRET) measurements.

Original language	American English
Title of host publication	Second International and the Seventeenth American Peptide Symposium
Editors	Michal Lebl, Richard A. Houghten
Publisher	Springer Netherlands
State	Published - 2001

Bibliographical note

Place of conference:USA

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abstract = "Polypeptide segments are the elementary folding units of globular proteins. Relatively short synthetic polypeptide segments are essential models for the investigation of the mechanism of folding of globular proteins. The search for intermediate, partially folded states of proteins, or their fragments, is a central issue in the protein folding problem. In order to be able to characterize partially folded states, it is essential to be able to characterize the conformation of polypeptide segments in the presumably unfolded (statistical coil) and fully folded states. To this end, a series of model polypeptide segments, labeled by pairs of fluorescent probes, were prepared and characterized by means of time resolved dynamic non-radiative fluorescence energy transfer (FRET) measurements.",

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Peptide Models for Studying Autonomous Folding of Subdomain Sections of Protein Molecules. / Byk, G.; Engel, Dikla; Ittah, Vardah et al.
Second International and the Seventeenth American Peptide Symposium. ed. / Michal Lebl; Richard A. Houghten. Springer Netherlands, 2001.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Ittah, Vardah

AU - Haas, Elisha

N1 - Place of conference:USA

PY - 2001

Y1 - 2001

N2 - Polypeptide segments are the elementary folding units of globular proteins. Relatively short synthetic polypeptide segments are essential models for the investigation of the mechanism of folding of globular proteins. The search for intermediate, partially folded states of proteins, or their fragments, is a central issue in the protein folding problem. In order to be able to characterize partially folded states, it is essential to be able to characterize the conformation of polypeptide segments in the presumably unfolded (statistical coil) and fully folded states. To this end, a series of model polypeptide segments, labeled by pairs of fluorescent probes, were prepared and characterized by means of time resolved dynamic non-radiative fluorescence energy transfer (FRET) measurements.

AB - Polypeptide segments are the elementary folding units of globular proteins. Relatively short synthetic polypeptide segments are essential models for the investigation of the mechanism of folding of globular proteins. The search for intermediate, partially folded states of proteins, or their fragments, is a central issue in the protein folding problem. In order to be able to characterize partially folded states, it is essential to be able to characterize the conformation of polypeptide segments in the presumably unfolded (statistical coil) and fully folded states. To this end, a series of model polypeptide segments, labeled by pairs of fluorescent probes, were prepared and characterized by means of time resolved dynamic non-radiative fluorescence energy transfer (FRET) measurements.

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M3 - Conference contribution

BT - Second International and the Seventeenth American Peptide Symposium

A2 - Lebl, Michal

A2 - Houghten, Richard A.

PB - Springer Netherlands

ER -

Peptide Models for Studying Autonomous Folding of Subdomain Sections of Protein Molecules

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