(* Corresponding author)
Matsui, T.S., Wu, H., Deguchi, S.*, Deformable 96-well cell culture plate compatible with high-throughput screening platforms. PLOS ONE, 13(9), e0203448, 2018.
Fujiwara, S.*, Matsui, T.S., Ohashi, K., Deguchi, S.*, Mizuno, K.*, Solo, a RhoA-targeting guanine nucleotide exchange factor, is critical for hemidesmosome formation and acinar development in epithelial cells. PLOS ONE. Published: April 19, 2018.
Hirose, K., Aoki, T., Furukawa, T., Fukushima, S., Niioka, H., Deguchi, S., Hashimoto, M.*, Coherent anti-Stokes Raman scattering rigid endoscope toward robot-assisted surgery. Biomedical Optics Express, 9(2), 387-396, 2018.
Ichikawa, T., Kita, M., Matsui, T.S., Ichikawa-Nagasato, A., Araki, T., Chiang, S.H., Sezaki, T., Kimura, Y., Ueda, K., Deguchi, S., Saltiel, A.R., Kioka, N.*, Vinexin family (SORBS) proteins play different roles in stiffness-sensing and contractile force generation. Journal of Cell Science, 130, 3517-3531, 2017.
Fukuda, S.P., Matsui, T.S., Ichikawa, T., Furukawa, T., Kioka, N., Fukushima, S., Deguchi, S.*, Cellular force assay detects altered contractility caused by a nephritis-associated mutation in nonmuscle myosin IIA. Development, Growth & Differentiation, 59(5), 423-433, 2017.
Deguchi S.*, Saito, A.C., Matsui, T.S., Huang, W.J., Sato, M., The opposite mechano-response of paxillin phosphorylation between subcellular and whole-cell levels is explained by a minimal model of cell–substrate adhesions. Journal of Biomechanical Science and Engineering, 12(2), 16-00670, 2017.
Yokoyama, S., Matsui, T.S., Deguchi, S.*, Microcontact peeling: a cell micropatterning technique for circumventing direct adsorption of proteins to hydrophobic PDMS. Current Protocols in Cell Biology, 75, 10.21.1-10.21.8, 2017.
Yokoyama, S., Matsui, T.S., Deguchi, S.*, New wrinkling substrate assay reveals traction force fields of leader and follower cells undergoing collective migration. Biochemical and Biophysical Research Communications, 482, 975-979, 2017.
Ohishi, T., Noda, H., Matsui, T.S., Jile, H., Deguchi, S.*, Tensile strength of oxygen plasma-created surface layer of PDMS. Journal of Micromechanics and Microengineering, 27, 015015, 2017.
Deguchi, S.*, A possible common physical principle that underlies animal vocalization: theoretical considerations with an unsteady airflow-structure interaction model. Journal of Biomechanical Science and Engineering, 11(4), 16-00414, 2016.
Sakane, Y., Yoshizawa, S., Nishimura, M., Tsuchiya, Y., Matsushita, N., Miyake, K., Horikawa, K., Imoto, I., Mizuguchi, C., Saito, H., Ueno, T., Matsushita, S., Haga, H., Deguchi, S., Mizuguchi, K., Yokota, H., Sasaki, T.*, Conformational plasticity of JRAB/MICAL-L2 provides “law and order” in collective cell migration. Molecular Biology of the Cell, 27(20), 3095-3108, 2016.
Deguchi, S.*, Hotta, J., Yokoyama, S., Matsui, T.S., Viscoelastic and optical properties of four different PDMS polymers. Journal of Micromechanics and Microengineering, 25, 097002, 2015.
Yokoyama, S., Kamei, Y., Matsui, T.S., Deguchi, S.*, Low-power laser processing-based approach to plasma lithography for cell micropatterning. Journal of Bioanalysis and Biomedicine, 7(3), 81–86, 2015.
Deguchi, S.*, Kudo, S., Matsui, T.S., Huang, W., Sato, M., Piezoelectric actuator-based cell microstretch device with real-time imaging capability. AIP Advances, 5(6), 067110, 2015.
Yokoyama, S., Matsui, T.S., Deguchi, S.*, Microcontact peeling as a new method for cell micropatterning. PLOS ONE, 9(7), e102735, 2014.
Saito, A.C., Matsui, T.S., Ohishi, T., Sato, M., Deguchi, S.*, Contact guidance of smooth muscle cells is associated with tension-mediated adhesion maturation. Experimental Cell Research, 327(1), 1–11, 2014.
Deguchi, S.*, Nagasawa, Y., Saito, A.C., Matsui, T.S., Yokoyama, S., Sato, M., Development of motorized plasma lithography for cell patterning. Biotechnology Letters, 36(3), 507–513, 2014.
Saito, A.C., Matsui, T.S., Sato, M., Deguchi, S.*, Aligning cells in arbitrary directions on a membrane sheet using locally formed microwrinkles, Biotechnology Letters, 36(2), 391-396, 2014.
Matsui, T.S., Sato, M., Deguchi, S.*, High extensibility of stress fibers revealed by in vitro micromanipulation with fluorescence imaging. Biochemical and Biophysical Research Communications, 434, 444-448, 2013.
Deguchi, S.*, Takahashi, S., Hiraki, H., Tanimura, S., Direct measurement of force exerted during single microbubble generation, Applied Physics Letters, 102, 084101, 2013.
Deguchi, S.*, Matsui, T.S., Komatsu, D., Sato, M., Contraction of stress fibers extracted from smooth muscle cells: Effects of varying ionic strength. Journal of Biomechanical Science and Engineering, 7, 388-398, 2012.
Deguchi, S.*, Matsui, T.S., Sato, M., Simultaneous contraction and buckling of stress fibers in individual cells. Journal of Cellular Biochemistry, 113, 824-832, 2012.
Deguchi, S.*, Matsui, T.S., Iio, K., The position and size of individual focal adhesions are determined by intracellular stress-dependent positive regulation. Cytoskeleton, 68, 639-651, 2011.
Deguchi, S.*, Y Kawahara, S Takahashi, Cooperative regulation of vocal fold morphology and stress by the cricothyroid and thyroarytenoid muscles, Journal of Voice, 25, e255-e263, 2011.
Deguchi, S.*, Takahashi, S., Tanimura, S., Hiraki, H., Producing single microbubbles with controlled size using microfiber. Advances in Bioscience and Biotechnology, 2, 385-390, 2011.
Deguchi, S.*, Bamba, H., Measuring surface geometry of adherent cells using oblique transillumination. Advances in Bioscience and Biotechnology, 2, 359-363, 2011.
Deguchi, S.*, Kawahara, Y., Simulation of human phonation with vocal nodules. Am. J. Comp. Math., 1, 189-201, 2011.
Matsui, T.S., Kaunas, R., Kanzaki, M., Sato, M., Deguchi, S.*, Non-muscle myosin II induces disassembly of actin stress fibres independently of myosin light chain dephosphorylation. Interface Focus, 1, 754-766, 2011. (Selected for the cover art of the issue)
Kaunas, R.*, Deguchi, S., Multiple roles for myosin II in tensional homeostasis under mechanical loading, Cellular and Molecular Bioengineering, 4, 182-191, 2011.
Deguchi, S.*, Mechanism of and threshold biomechanical conditions for falsetto voice onset, PLoS ONE 6, e17503, 2011.
Kaunas, R.*, Hsu, H., Deguchi, S., Sarcomeric model of stretch-induced stress fiber reorganization, Cell Health and Cytoskeleton, 3, 13-22, 2011.
C. Lee, C. Haase, S. Deguchi, R. Kaunas*, Cyclic stretch-induced stress fiber dynamics – Dependence on strain rate, rho kinase and MLCK, Biochemical and Biophysical Research Communications, 401, 344-349, 2010.
T.S. Matsui, K. Ito, R. Kaunas, M. Sato, S. Deguchi*, Actin stress fibers are at a tipping point between conventional shortening and rapid disassembly at physiological levels of MgATP, Biochemical and Biophysical Research Communications, 395, 301-306, 2010.
S. Deguchi*, M. Sato, Biomechanical properties of actin stress fibers of non-motile cells. Biorheology, 46, 93-105, 2009.
T.S. Matsui*, S. Deguchi, N. Sakamoto, T. Ohashi, M. Sato, A versatile micro-mechanical tester for actin stress fibers isolated from cells. Biorheology, 46, 401-415, 2009.
S Deguchi*, T Hyakutake, Theoretical consideration of the flow behavior in oscillating vocal fold, Journal of Biomechanics, 42, 824-829, 2009.
S Deguchi*, Y Ishimaru, K Hashimoto, S Washio, K Tsujioka, Measurement and finite element modeling of the force balance in the vertical section of adhering vascular endothelial cells. Journal of the Mechanical Behavior of Biomedical Materials, 2, 173-185, 2009.
S Washio*, S Takahashi, K Murakami, T Tada, S Deguchi, Cavity generation by accelerated relative motions between solid walls contacting in liquid. Proc. IMechE, Part C, Journal of Mechanical Engineering Science, 222, 1695-1706, 2008.
S Washio*, S Takahashi, K Murakami, T Tada, S Deguchi, Cavity generation by accelerated relative motions between solid walls contacting in liquid. Trans Jpn Soc Mech Eng B, 74, 1376-1385, 2008.
S Deguchi* and K Kawashima, Computer-aided technique for automatic determination of the relationship between transglotatl pressure change and voice fundamental frequency. Annals of Otology, Rhinology & Laryngology, 117, 876-880, 2008.
S Deguchi*, Y Ishimaru, S Washio, Preliminary evaluation of stroboscopy system using multiple light sources for observation of pathological vocal fold oscillatory pattern, Annals of Otology, Rhinology & Laryngology, Vol 116, 9, 687-694, 2007.
S. Deguchi*, M. Yano, K. Hashimoto, H. Fukamachi, S. Washio, K. Tsujioka, Assessment of the mechanical properties of the nucleus inside a spherical endothelial cell based on micro-tensile testing. Journal of Mechanics of Materials and Structures, Vol 2, No 6, 1087-1102, 2007.
S. Deguchi*, Y. Matsuzaki, T. Ikeda, Numerical analysis of effects of transglottal pressure change on fundamental frequency of phonation. Annals of Otology, Rhinology & Laryngology, Vol 116, No 2, 128-134, 2007.
T. Hyakutake*, S. Deguchi, A. Shiota, Y. Nishioka, S. Yanase, S. Washio, Effect of constriction oscillation on flow for potential application to vocal fold mechanics: numerical analysis and experiment. Journal of Biomechanical Science and Engineering, Vol. 1, No. 2, 290-303, 2006.
S. Deguchi*, Y. Miyake, Y. Tamura, S. Washio, Wavelike motion of a mechanical vocal fold model at the onset of self-excited oscillation. Journal of Biomechanical Science and Engineering, Vol 1, No 1, 246-255, 2006.
S. Deguchi*, T. Ohashi, M. Sato, Tensile properties of single stress fibers isolated from cultured vascular smooth muscle cells. Journal of Biomechanics, 39, 2603-2610, 2006.
Deguchi, S. *, Ishimaru, Y., Washio, S., Laryngo-stroboscopy for observation of pathological vocal fold oscillation, Transactions of the Japanese Society for Medical and Biological Engineering 43, 4, 709-716, 2005.
S. Deguchi*, T. Ohashi, M. Sato, Intracellular stress transmission through actin stress fiber network in adherent vascular cells. Mol Cell Biomech, Vol 2, No 4, 205-216, 2005.
S. Deguchi*, T. Ohashi, M. Sato, Evaluation of tension in actin bundle of endothelial cells based on preexisting strain and tensile properties measurements. Mol Cell Biomech, Vol 2, No 3, 125-134, 2005.
S. Deguchi*, T. Ohashi, M. Sato, Newly designed tensile test system for in vitro measurement of mechanical properties of cytoskeletal filaments. JSME International Journal Series C, Vol 48, No 4, 396-402, 2005. (Awarded JSME Medal for Outstanding Paper by the Japan Society of Mechanical Engineers)
S. Deguchi*, K. Maeda, T. Ohashi, M. Sato, Flow-induced hardening of endothelial nuclei as an intracellular stress-bearing organelle. Journal of Biomechanics, 38, 1751-1759, 2005. (Selected by Faculty of 1000)
Sato, M.*, Sakamoto, N., Deguchi, S., Katoh, M., and Abe, K., Vitamin E inhibits leukocyte adhesion and platelet aggregation, Jpn J Med Pharm Sci, 47, 457-461, 2002.
Reviews and book chapters
Kaunas, R., Deguchi, S., Cyclic stretch-induced reorganization of stress fibers in endothelial cells. In Vascular Engineering. Eds: Tanishita, K., Yamamoto, K., Springer, 99-110, 2016.
Deguchi, S., Sato, M., Nuclear mechanics and mechanotransduction. In Cellular Mechanotransduction: Diverse Perspectives from Molecules to Tissues. Eds: Mofrad, M.R.K., Kamm, R.D., Cambridge University Press, 220-233, 2010.
Sato, M., Deguchi, S., Biomechanics of an isolated single stress fiber. In Tributes to Yuan-Cheng Fung on His 90th Birthday. Eds: Chien, S., et al., World Scientific, 13-20, 2010.
Matsui, T., Deguchi, S., Sakamoto, N., Ohashi, T., Sato, M., The effect of ATP on force of isolated actin stress fibers exposed to step strain. In Nano-biomedical engineering 2009. Ed: Yamaguchi, T., Imperial College Press, 77-82, 2009.
Deguchi, S., Ohashi, T., Sato, M., Experimental estimation of preexisting tension in single actin stress fiber of vascular cells. In Biomechanics at Micro- and Nanoscale Levels, Vol. 4. Ed: Wada, H., World Scientific, 60-71, 2007.
Deguchi, S., Ohashi, T., Sato, M., Mechanical properties properties of stress fiber in adherent vascular cells characterized by in vitro micromanipulation;
Matsui, T., Deguchi, S., Ohashi, T., Sato, M., Effect of strain rate on tensile properties of stress fibers isolated from cultured smooth muscle cells; In Future Medical Engineering Based on Bionanotechnology. Eds: Esashi, M., et al., Imperial College Press, 71-78, 129-135, 2006.