| Chemomechanical coupling of the forward and backward steps of single kinesin molecules M Nishiyama, H Higuchi, T Yanagida Nature Cell Biology 4 (10), 790-797, 2002 | 358 | 2002 |
| Substeps within the 8-nm step of the ATPase cycle of single kinesin molecules M Nishiyama, E Muto, Y Inoue, T Yanagida, H Higuchi Nature cell biology 3 (4), 425-428, 2001 | 198 | 2001 |
| Entropy rectifies the Brownian steps of kinesin Y Taniguchi, M Nishiyama, Y Ishii, T Yanagida Nature Chemical Biology 1 (6), 342-347, 2005 | 136 | 2005 |
| Reversible morphological control of tubulin-encapsulating giant liposomes by hydrostatic pressure M Hayashi, M Nishiyama, Y Kazayama, T Toyota, Y Harada, K Takiguchi Langmuir 32 (15), 3794-3802, 2016 | 61 | 2016 |
| Pressure-induced changes in the structure and function of the kinesin-microtubule complex M Nishiyama, Y Kimura, Y Nishiyama, M Terazima Biophysical journal 96 (3), 1142-1150, 2009 | 47 | 2009 |
| Single molecule processes on the stepwise movement of ATP-driven molecular motors M Nishiyama, H Higuchi, Y Ishii, Y Taniguchi, T Yanagida Biosystems 71 (1-2), 145-156, 2003 | 41 | 2003 |
| A line‐scanning semi‐confocal multi‐photon fluorescence microscope with a simultaneous broadband spectral acquisition and its application to the study of the thylakoid membrane … S Kumazaki, M Hasegawa, M Ghoneim, Y Shimizu, K Okamoto, ... Journal of microscopy 228 (2), 240-254, 2007 | 37 | 2007 |
| High hydrostatic pressure induces counterclockwise to clockwise reversals of the Escherichia coli flagellar motor M Nishiyama, Y Sowa, Y Kimura, M Homma, A Ishijima, M Terazima Journal of bacteriology 195 (8), 1809-1814, 2013 | 36 | 2013 |
| Microscopic analysis of bacterial motility at high pressure M Nishiyama, Y Sowa Biophysical journal 102 (8), 1872-1880, 2012 | 36 | 2012 |
| Bacterial motility measured by a miniature chamber for high-pressure microscopy M Nishiyama, S Kojima International journal of molecular sciences 13 (7), 9225-9239, 2012 | 29 | 2012 |
| Sodium-driven energy conversion for flagellar rotation of the earliest divergent hyperthermophilic bacterium N Takekawa, M Nishiyama, T Kaneseki, T Kanai, H Atomi, S Kojima, ... Scientific Reports 5 (1), 12711, 2015 | 27 | 2015 |
| Glycine insertion makes yellow fluorescent protein sensitive to hydrostatic pressure TM Watanabe, K Imada, K Yoshizawa, M Nishiyama, C Kato, F Abe, ... PloS one 8 (8), e73212, 2013 | 26 | 2013 |
| Mechano-chemical coupling of molecular motors revealed by single molecule measurements Y Ishii, M Nishiyama, T Yanagida Current Protein and Peptide Science 5 (2), 81-87, 2004 | 19 | 2004 |
| High-pressure microscopy for tracking dynamic properties of molecular machines M Nishiyama Biophysical Chemistry 231, 71-78, 2017 | 18 | 2017 |
| Single-molecule analysis of the rotation of F1-ATPase under high hydrostatic pressure D Okuno, M Nishiyama, H Noji Biophysical journal 105 (7), 1635-1642, 2013 | 17 | 2013 |
| Single molecule thermodynamics in biological motors Y Taniguchi, P Karagiannis, M Nishiyama, Y Ishii, T Yanagida Biosystems 88 (3), 283-292, 2007 | 14 | 2007 |
| 細胞内の水で生命活動を操る!--高圧力下で観るタンパク質水和変調イメージング 西山雅祥, 曽和義幸 月刊化学 68 (9), 33-38, 2013 | 12 | 2013 |
| Microtubule depolymerization at high pressure M Nishiyama, Y Shimoda, M Hasumi, Y Kimura, M Terazima Annals of the new York Academy of Sciences 1189 (1), 86-90, 2010 | 12 | 2010 |
| Tracking the movement of a single prokaryotic cell in extreme environmental conditions M Nishiyama, Y Arai The Bacterial Flagellum: Methods and Protocols, 175-184, 2017 | 9 | 2017 |
| High-pressure microscopy for studying molecular motors M Nishiyama High Pressure Bioscience: Basic Concepts, Applications and Frontiers, 593-611, 2015 | 9 | 2015 |
