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23. Kasas, S., Wang, X., Hirling, H., Marsault, R., Huni, B., Yersin, A., Regazzi, R.,
Grenningloh, G., Riederer, B., Forro, L., Dietler, G., and Catsicas, S. (2005)
Supericial and deep changes of cellular mechanical properties following
cytoskeleton disassembly,
Cell Motil. Cytoskeleton
,
62
, 124-132.
24. Oberleithner, H. (2005) Aldosterone makes human endothelium stiff and
vulnerable,
Kidney Int.
,
67
, 1680-1682.
25. Oberleithner, H., Riethmuller, C., Ludwig, T., Shahin, V., Stock, C., Schwab, A.,
Hausberg, M., Kusche, K., and Schillers, H. (2006) Differential action of steroid
hormones on human endothelium,
J. Cell Sci.
,
119
, 1926-1932.
26. Oberleithner, H., Riethmuller, C., Schillers, H., MacGregor, G. A., de Wardener, H.
E., and Hausberg, M. (2007) Plasma sodium stiffens vascular endothelium and
reduces nitric oxide release,
Proc. Natl. Acad. Sci. USA
,
104
, 16281-16286.
27. Sato, H., Kataoka, N., Kajiya, F., Katano, M., Takigawa, T., and Masuda, T. (2004)
Kinetic study on the elastic change of vascular endothelial cells on collagen
matrices by atomic force microscopy,
Colloids Surf. B Biointerfaces
,
34
,
141-146.
28. Lieber, S. C., Aubry, N., Pain, J., Diaz, G., Kim, S. J., and Vatner, S. F. (2004) Aging
increases stiffness of cardiac myocytes measured by atomic force microscopy
nanoindentation,
Am. J. Physiol. Heart Circ. Physiol.
,
287
, H645-H651.
29. Collinsworth, A. M., Zhang, S., Kraus, W. E., and Truskey, G. A. (2002)
Apparent elastic modulus and hysteresis of skeletal muscle cells throughout
differentiation,
Am. J. Physiol. Heart Circ. Physiol.
,
283
, C1219-C1227.
30.
Fornal, M., Lekka, M., Pyka-Fosciak, G., Lebed, K., Grodzicki, T., Wizner, B., and
Styczen, J. (2006) Erythrocyte stiffness in diabetes mellitus studied with atomic
force microscope,
Clin. Hemorheol. Microcirc.
,
35
, 273-276.
31.
Lekka, M., Laidler, P., Gil, D., Lekki, J., Stachura, Z., and Hrynkiewicz, A. Z. (1999)
Elasticity of normal and cancerous human bladder cells studied by scanning
force microscopy,
Eur. Biophys. J.
,
28
, 312-316.
32.
Vinckier, A., and Semenza, G. (1998) Measuring elasticity of biological materials
by atomic force microscopy,
FEBS Lett.
,
430
, 12-16.
33.
Kis, A., Kasas, S., Babic, B., Kulik, A. J., Benoit, W., Briggs, G. A. D., Schonenberger,
C., Catsicas, S., andForro, L. (2002) Nanomechanics of microtubules,
Phys. Rev.
Lett.
,
89
, 248101.
34.
de Pablo, P. J., Schaap, I. A. T., MacKintosh, F. C., and Schmidt, C. F. (2003)
Deformation and collapse of microtubules on the nanometer scale,
Phys. Rev.
Lett.
,
91
, 098101.
35.
Guzman, C., Jeney, S., Kreplak, L., Kasas, S., Kulik, A. J., Aebi, U., and Forro, L.
(2006) Exploring the mechanical properties of single vimentin intermediate
ilaments by atomic force microscopy,
J. Mol. Biol.
,
360
, 623-630.
36.
Ikai, A., Mitsui, K., Tokuoka, H., and Xu, X. M. (1997) Mechanical measurements
of a single protein molecule and human chromosomes by atomic force
microscopy,
Mater. Sci. Eng. C Biomim. Mater. Sens. Syst.
,
4
, 233-240.
37.
Jiao, Y., and Schaffer, T. E. (2004) Accurate height and volume measurements on
soft samples with the atomic force microscope,
Langmuir
,
20
, 10038-10045.
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