The susceptibility of pure tubulin to high magnetic fields : a magnetic birefringence and x-ray fiber diffraction study
The susceptibility of pure tubulin to high magnetic fields : a magnetic birefringence and x-ray fiber diffraction study
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1998
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Biophysical Journal ; 74 (1998), 3. - pp. 1509-1521. - ISSN 0006-3495
Abstract
The orientational behavior of microtubules assembled in strong magnetic fields has been studied. It is shown that when microtubules are assembled in a magnetic field, they align with their long axis parallel to the magnetic field. The effect of several parameters known to affect the microtubule assembly are investigated with respect to their effect on the final degree of alignment. Aligned samples of hydrated microtubules suitable for low-resolution x-ray fiber diffraction experiments have been produced, and the results obtained from the fiber diffraction experiments have been compared with the magnetic birefringence experiments. Comparisons with earlier fiber diffraction work and small-angle x-ray solution scattering experiments have been made.
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BRAS, Wim, Greg P. DIAKUN, J. F. DIAZ, Georg MARET, H. KRAMER, Joan BORDAS, F. J. MEDRANO, 1998. The susceptibility of pure tubulin to high magnetic fields : a magnetic birefringence and x-ray fiber diffraction study. In: Biophysical Journal. 74(3), pp. 1509-1521. ISSN 0006-3495. Available under: doi: 10.1016/S0006-3495(98)77863-4BibTex
@article{Bras1998susce-17453,
year={1998},
doi={10.1016/S0006-3495(98)77863-4},
title={The susceptibility of pure tubulin to high magnetic fields : a magnetic birefringence and x-ray fiber diffraction study},
number={3},
volume={74},
issn={0006-3495},
journal={Biophysical Journal},
pages={1509--1521},
author={Bras, Wim and Diakun, Greg P. and Diaz, J. F. and Maret, Georg and Kramer, H. and Bordas, Joan and Medrano, F. J.}
}
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<dcterms:abstract xml:lang="eng">The orientational behavior of microtubules assembled in strong magnetic fields has been studied. It is shown that when microtubules are assembled in a magnetic field, they align with their long axis parallel to the magnetic field. The effect of several parameters known to affect the microtubule assembly are investigated with respect to their effect on the final degree of alignment. Aligned samples of hydrated microtubules suitable for low-resolution x-ray fiber diffraction experiments have been produced, and the results obtained from the fiber diffraction experiments have been compared with the magnetic birefringence experiments. Comparisons with earlier fiber diffraction work and small-angle x-ray solution scattering experiments have been made.</dcterms:abstract>
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