The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations
Czurylo EA, Hellweg T, Eimer W, Dabrowska R (1997)
Biophysical Journal 72(2): 835-842.
Zeitschriftenaufsatz
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Autor*in
Czurylo, EA;
Hellweg, ThomasUniBi 
;
Eimer, W;
Dabrowska, R
;
Eimer, W;
Dabrowska, RAbstract / Bemerkung
The size and the shape of caldesmon as well as its 50-kDa central and 19-kDa C-terminal fragments were investigated by photon correlation spectroscopy. The hydrodynamic radii, which have been calculated from the experimentally obtained translational diffusion coefficients, are 9.8 nm, 6.0 nm, and 2.9 nm, respectively. Moreover, the experimental values for the translational diffusion coefficients are compared with results obtained from hydrodynamic model calculations. Detailed models for the structure of caldesmon in solution are derived. The contour length is about 64 nm for all of the models used for caldesmon.
Erscheinungsjahr
1997
Zeitschriftentitel
Biophysical Journal
Band
72
Ausgabe
2
Seite(n)
835-842
ISSN
0006-3495
Page URI
https://pub.uni-bielefeld.de/record/1628146
Zitieren
Czurylo EA, Hellweg T, Eimer W, Dabrowska R. The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations. Biophysical Journal. 1997;72(2):835-842.
Czurylo, E. A., Hellweg, T., Eimer, W., & Dabrowska, R. (1997). The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations. Biophysical Journal, 72(2), 835-842. https://doi.org/10.1016/S0006-3495(97)78717-4
Czurylo, EA, Hellweg, Thomas, Eimer, W, and Dabrowska, R. 1997. “The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations”. Biophysical Journal 72 (2): 835-842.
Czurylo, E. A., Hellweg, T., Eimer, W., and Dabrowska, R. (1997). The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations. Biophysical Journal 72, 835-842.
Czurylo, E.A., et al., 1997. The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations. Biophysical Journal, 72(2), p 835-842.
E.A. Czurylo, et al., “The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations”, Biophysical Journal, vol. 72, 1997, pp. 835-842.
Czurylo, E.A., Hellweg, T., Eimer, W., Dabrowska, R.: The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations. Biophysical Journal. 72, 835-842 (1997).
Czurylo, EA, Hellweg, Thomas, Eimer, W, and Dabrowska, R. “The size and shape of caldesmon and its fragments in solution studied by dynamic light scattering and hydrodynamic model calculations”. Biophysical Journal 72.2 (1997): 835-842.
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