Biomedical Engineering Reference
In-Depth Information
[654] Schneider, J.; Dufrˆne, Y. F.; Barger Jr, W. R.; Lee, G. U., Atomic force microscope
image contrast mechanisms on supported lipid bilayers.
Biophysical Journal
2000, 79 (2),
1107-18.
[655] Nicolini, C.; Baranski, J.; Schlummer, S.; Palomo, J.; Lumbierres-Burgues, M.; Kahms, M.;
Kuhlmann, J.; Sanchez, S.; Gratton, E.; Waldmann, H.; Winter, R., Visualizing association of
N-Ras in lipid microdomains: influence of domain structure and interfacial adsorption.
Journal of the American Chemical Society
2006, 128 (1), 192-201.
[656] Butt, H.-J.; Franz, V., Rupture of molecular thin films observed in atomic force microscopy. I.
Theory.
Physical Review E
2002, 66 (3), 031601.
[657] Sanderson, J. M., Peptide lipid interactions: insights and perspectives.
Organic & Biomole-
cular Chemistry
2005, 3 (2), 201-12.
[658] El Kirat, K.; Lins, L.; Brasseur, R.; Dufr
ˆ
ne, Y. F., Fusogenic tilted peptides induce nanoscale
holes in supported phosphatidylcholine bilayers.
Langmuir
2005, 21 (7), 3116-21.
[659] Garc
´
a-S
´
ez, A. J.; Chiantia, S.; Salgado, J.; Schwille, P., Pore formation by a Bax-derived
peptide: effect on the line tension of the membrane probed by AFM.
Biophysical Journal
2007, 93 (1), 103-12.
[660] El Kirat, K.; Dufrˆne, Y. F.; Lins, L.; Brasseur, R., The SIV tilted peptide induces cylindrical
reverse micelles in supported lipid bilayers.
Biochemistry
2006, 45 (30), 9336-41.
[661] Grandbois, M.; Clausen-Schaumann, H.; Gaub, H., Atomic force microscope imaging of
phospholipid bilayer degradation by phospholipase A(2).
Biophysical Journal
1998, 74 (5),
2398-2404.
[662] Milhiet, P.-E.; Gubellini, F.; Berquand, A.; Dosset, P.; Rigaud, J. L.; Le Grimellec, C.; Levy,
D., High-resolution AFM of membrane proteins directly incorporated at high density in planar
lipid bilayer.
Biophysical Journal
2006, 91 (9), 3268-75.
[663] Domke, J.; Parak, W. J.; George, M.; Gaub, H. E.; Radmacher, M., Mapping the mechanical
pulse of single cardiomyocytes with the atomic force microscope.
European Biophysics
Journal
1999, 28 (3), 179-86.
[664] Friedrichs, J.; Taubenberger, A.; Franz, C. M.; M¨ller, D. J., Cellular remodelling of individ-
ual collagen fibrils visualized by time-lapse AFM.
Journal of Molecular Biology
2007, 372
(3), 594-607.
[665] Weyn, B.; Kalle, W.; Kumar-Singh, S.; Marck, E. V.; Tanke, H.; Jacob, W., Atomic force
microscopy: influence of air drying and fixation on the morphology and viscoelasticity of
cultured cells.
Journal of Microscopy
1998, 189 (2), 172-80.
[666] You, H. X.; Lau, J. M.; Zhang, S. W.; Yu, L., Atomic force microscopy imaging of living
cells: a preliminary study of the disruptive effect of the cantilever tip on cell morphology,
Ultramicroscopy
2000, 82 (1-4), 297-305.
[667] Yokokawa, M.; Takeyasu, K.; Yoshimura, S. H., Mechanical properties of plasma membrane
and nuclear envelope measured by scanning probe microscope.
Journal of Microscopy
2008,
232 (1), 82-90.
[668] Rotsch, C.; Radmacher, M., Drug-induced changes of cytoskeletal structure and mechanics in
fibroblasts: an atomic force microscopy study.
Biophysical Journal
2000, 78 (1), 520-35.
[669] Kim, S. J.; Kim, S.; Shin, H.; Uhm, C. S., Intercellular interaction observed by atomic force
microscopy.
Ultramicroscopy
2008, 108 (10), 1148-51.
[670] Braet, F.; Soon, L.; Kelly, T. F.; Larson, D. J.; Ringer, S. P., Live cell imaging. In
Nanosystem
Characterization Tools in the Life Sciences
, Kumar, C. S. S. R., Ed. Wiley-VCH: 2006;
pp 309-312.
[671] Puech, P.-H.; Poole, K.; Knebel, D.; M¨ ller, D. J., A new technical approach to quantify cell-
cell adhesion forces by AFM.
Ultramicroscopy
2006, 106 (8-9), 637-44.
[672] Lehenkari, P. P.; Charras, G. T.; Nyk¨nen, A.; Horton, M. A., Adapting atomic force
microscopy for cell biology.
Ultramicroscopy
2000, 82 (1-4), 289-95.