Measuring the Elasticity of Poly-l-Proline Helices with Terahertz Spectroscopy

The rigidity of poly‐l‐proline is an important contributor to the stability of many protein secondary structures, where it has been shown to strongly influence bulk flexibility. The experimental Young's moduli of two known poly‐l‐proline helical forms, right‐handed all‐cis (Form I) and left‐han...

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Bibliographic Details
Published in:Angewandte Chemie International Edition 2016-06, Vol.55 (24), p.6877-6881
Main Authors: Ruggiero, Michael T., Sibik, Juraj, Orlando, Roberto, Zeitler, J. Axel, Korter, Timothy M.
Format: Article
Language:English
Subjects:
biopolymers
Communication
Communications
Elasticity
polyproline
proteins
Spectrum analysis
terahertz spectroscopy
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Summary:The rigidity of poly‐l‐proline is an important contributor to the stability of many protein secondary structures, where it has been shown to strongly influence bulk flexibility. The experimental Young's moduli of two known poly‐l‐proline helical forms, right‐handed all‐cis (Form I) and left‐handed all‐trans (Form II), were determined in the crystalline state by using an approach that combines terahertz time‐domain spectroscopy, X‐ray diffraction, and solid‐state density functional theory. Contrary to expectations, the helices were found to be considerably less rigid than many other natural and synthetic polymers, as well as differing greatly from each other, with Young's moduli of 4.9 and 9.6 GPa for Forms I and II, respectively. Spring fever: The experimental Young's moduli of two known poly‐L‐proline helical forms were determined in the crystalline state by using an approach that combines terahertz time‐domain spectroscopy, X‐ray diffraction, and solid‐state density functional theory. Contrary to expectations, the helices were found to be considerably less rigid than many other natural and synthetic polymers, as well as differing greatly from each other.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201602268