The nuclear lamina is a meshwork of intermediate-type filaments U Aebi, J Cohn, L Buhle, L Gerace Nature 323 (6088), 560-564, 1986 | 1204 | 1986 |
The nanomechanical signature of breast cancer M Plodinec, M Loparic, CA Monnier, EC Obermann, R Zanetti-Dallenbach, ... Nature nanotechnology 7 (11), 757-765, 2012 | 1167 | 2012 |
Nuclear lamins: their structure, assembly, and interactions N Stuurman, S Heins, U Aebi Journal of structural biology 122 (1-2), 42-66, 1998 | 922 | 1998 |
Intermediate filaments: from cell architecture to nanomechanics H Herrmann, H Bär, L Kreplak, SV Strelkov, U Aebi Nature reviews Molecular cell biology 8 (7), 562-573, 2007 | 895 | 2007 |
Intermediate filaments: molecular structure, assembly mechanism, and integration into functionally distinct intracellular scaffolds H Herrmann, U Aebi Annual review of biochemistry 73 (1), 749-789, 2004 | 850 | 2004 |
Identification of different roles for RanGDP and RanGTP in nuclear protein import. D Görlich, N Panté, U Kutay, U Aebi, FR Bischoff The EMBO journal 15 (20), 5584-5594, 1996 | 846 | 1996 |
Intermediate filaments and their associates: multi-talented structural elements specifying cytoarchitecture and cytodynamics H Herrmann, U Aebi Current opinion in cell biology 12 (1), 79-90, 2000 | 660 | 2000 |
Correlation between structure and mass distribution of the nuclear pore complex and of distinct pore complex components. R Reichelt, A Holzenburg, EL Buhle Jr, M Jarnik, A Engel, U Aebi The Journal of cell biology 110 (4), 883-894, 1990 | 660 | 1990 |
A giant nucleopore protein that binds Ran/TC4 N Yokoyama, N Hayashi, T Seki, N Pante, T Ohba, K Nishii, K Kuma, ... Nature 376 (6536), 184-188, 1995 | 605 | 1995 |
Dynamic elastic modulus of porcine articular cartilage determined at two different levels of tissue organization by indentation-type atomic force microscopy M Stolz, R Raiteri, AU Daniels, MR VanLandingham, W Baschong, U Aebi Biophysical journal 86 (5), 3269-3283, 2004 | 572 | 2004 |
The nuclear pore complex: nucleocytoplasmic transport and beyond B Fahrenkrog, U Aebi Nature Reviews Molecular Cell Biology 4 (10), 757-766, 2003 | 551 | 2003 |
Early detection of aging cartilage and osteoarthritis in mice and patient samples using atomic force microscopy M Stolz, R Gottardi, R Raiteri, S Miot, I Martin, R Imer, U Staufer, ... Nature nanotechnology 4 (3), 186-192, 2009 | 510 | 2009 |
The nuclear pore complex: from molecular architecture to functional dynamics D Stoffler, B Fahrenkrog, U Aebi Current opinion in cell biology 11 (3), 391-401, 1999 | 475 | 1999 |
Watching amyloid fibrils grow by time-lapse atomic force microscopy C Goldsbury, J Kistler, U Aebi, T Arvinte, GJS Cooper Journal of molecular biology 285 (1), 33-39, 1999 | 419 | 1999 |
Intermediate filaments: primary determinants of cell architecture and plasticity H Herrmann, SV Strelkov, P Burkhard, U Aebi The Journal of clinical investigation 119 (7), 1772-1783, 2009 | 411 | 2009 |
Amyloid fibril formation from full-length and fragments of amylin C Goldsbury, K Goldie, J Pellaud, J Seelig, P Frey, SA Müller, J Kistler, ... Journal of structural biology 130 (2-3), 352-362, 2000 | 406 | 2000 |
Structure and assembly properties of the intermediate filament protein vimentin: the role of its head, rod and tail domains H Herrmann, M Häner, M Brettel, SA Müller, KN Goldie, B Fedtke, A Lustig, ... Journal of molecular biology 264 (5), 933-953, 1996 | 402 | 1996 |
Intermediate filaments: structure and assembly H Herrmann, U Aebi Cold Spring Harbor perspectives in biology 8 (11), a018242, 2016 | 399 | 2016 |
Studies on the in vitro assembly of Aβ 1–40: implications for the search for Aβ fibril formation inhibitors CS Goldsbury, S Wirtz, SA Müller, S Sunderji, P Wicki, U Aebi, P Frey Journal of structural biology 130 (2-3), 217-231, 2000 | 384 | 2000 |
Molecular architecture of intermediate filaments SV Strelkov, H Herrmann, U Aebi Bioessays 25 (3), 243-251, 2003 | 379 | 2003 |