主要業績リスト

主要業績リスト（原著、総説）

• Sugizaki A, Sato K, Chiba K, Saito K, Kawagishi M, Tomabechi Y, Mehta SB, Ishii H, Sakai N, Shirouzu M, Tani T, Terada S. POLArIS, a versatile probe for molecular orientation, revealed actin filaments associated with microtubule asters in early embryos. Proceedings of the National Academy of Sciences of the United States of America, 118 (11):e2019071118: Published online 5 March 2021.
• Nakai N, Sato K, Tani T, Saito K, Sato F, Terada S. Genetically encoded orientation probes for F-actin for fluorescence polarization microscopy. Microscopy (Oxf), doi: 10.1093/jmicro/dfz022; Published online, 2 July 2019.
• Sato F, Asakawa H, Fukuma T, Terada S. Semi-in situ atomic force microscopy imaging of intracellular neurofilaments under physiological conditions through the 'sandwich' method. Microscopy (Oxf), doi: 10.1093/jmicro/dfw006; Published online, 8 March 2016.
• Kawagishi M, Obara.Y, Suzuki T, Hayashi M, Misawa K, Terada S. Direct label-free measurement of the distribution of small molecular weight compound inside thick biological tissue using coherent Raman microspectroscopy. Sci Rep, 5:13868;　Published online, 10 September 2015.
• Teraishi T, Ozeki Y, Hori H, Sasayama D, Chiba S, Yamamoto N, Tanaka H, Iijima Y, Matsuo J, Kawamoto Y, Kinoshita Y, Hattori K, Ota M, Kajiwara M, Terada S, Higuchi T, Kunugi H. 13C-phenylalanine breath test detects altered phenylalanine kinetics in schizophrenia patients. Translational Psychiatry, 2:e119; Published online 22 May 2012.
• Nagashima Y, Suzuki T, Terada S, Tsuji S, Misawa K. In vivo molecular labeling of halogenated volatile anesthetics via intrinsic molecular vibrations using nonlinear Raman spectroscopy. J Chem Phys, 134: 024525, 2011; Published online, 13 January 2011.
• Nagashima Y, Suzuki T, Terada S, Tsuji S, Misawa K. Improved signal extraction method for single-pulse heterodyne CARS spectroscopy (Proceedings Paper). Proc SPIE, 7376 Laser Applications in Life Sciences, Matti Kinnunen, Risto Myllylä Editors, 73760S, 24 Nov 2010.
• Hori H, Ozeki Y, Teraishi T, Matsuo J, Kawamoto Y, Kinoshita Y, Suto S, Terada S, Higuchi T, Kunugi H. Relationships between psychological distress, coping styles, and HPA axis reactivity in healthy adults. J Psychiatr Res, 44:865-873. 2010.
• Hoshino M, Tsujimoto T, Yamazoe S, Uesugi M, Terada S. Adhesamine, a new synthetic molecule, accelerates differentiation and prolongs survival of primary cultured mouse hippocampal neurons. Biochem J, 427:297-304, 2010.
• Terada S, Kinjo M, Aihara M, Takei Y, Hirokawa N. Kinesin-1/Hsc70-dependent mechanism of slow axonal transport and its relation to fast axonal transport. EMBO J, 29:843-854, 2010.
• Hori H, Ozeki Y, Terada S, Kunugi H. Functional near-infrared spectroscopy reveals altered hemispheric laterality in relation to schizotypy during verbal fluency task. Prog Neuropsychopharmacol Biol Psychiatry, 32: 1944-51, 2008.
• Homma N, Takei Y, Tanaka Y, Nakata T, Terada S, Kikkawa M, Noda Y, Hirokawa N. Kinesin superfamily protein 2A (KIF2A) functions in suppression of collateral branch extension. Cell, 114:229-239, 2003.
• Terada S. Where does slow axonal transport go? Neurosci Res, 47:367-372, 2003.
• Zhao C, Takita J, Tanaka Y, Setou M, Nakagawa T, Takeda S, Yang HW, Terada S, Nakata T, Takei Y, Saito M, Tsuji S, Hayashi Y, Hirokawa N. Charcot-Marie-Tooth disease type 2A caused by mutation in a microtubule motor KIF1B-beta. Cell, 105:587-597, 2001.
• Terada S, Kinjo M, Hirokawa N. Oligomeric tubulin in large transporting complex is transported via kinesin in squid giant axons. Cell, 103:141-155, 2000.
• Terada S, Hirokawa N. Moving on to the cargo problem of microtubule-dependent motors in neurons. Curr Opin Neurobiol. 10:566-573, 2000.
• Kanai Y, Okada Y, Tanaka Y, Harada A, Terada S, Hirokawa N. KIF5C, a novel neuronal kinesin enriched in motor neurons. J Neurosci, 20:6374-6384, 2000.
• Takeda S, Yamazaki H, Seog D-H, Kanai Y, Terada S, Hirokawa N. Kinesin superfamily protein 3 (KIF3) motor transports fodrin-associating vesicles important for neurite building. J Cell Biol, 148:1255-1266, 2000.
• Terada S, Tsujimoto T, Takei Y, Takahashi T, Hirokawa N. Impairment of inhibitory synaptic transmission in mice lacking synapsin I. J Cell Biol, 145:1039-1048, 1999.
• Yonekawa Y, Harada A, Okada Y, Funakoshi T, Kanai Y, Takei Y, Terada S, Noda T, Hirokawa N. Defect in synaptic vesicle precursor transport and neuronal cell death in KIF1A motor protein-deficient mice. J Cell Biol, 141:431-441, 1998.
• Nakata T, Terada S, Hirokawa N. Visualization of the dynamics of synaptic vesicle and plasma membrane proteins in living axons. J Cell Biol, 140:659-674, 1998.
• Hirokawa N, Terada S, Funakoshi T, Takeda S. Slow axonal transport: the subunit transport model. Trends Cell Biol, 7:384-388, 1997.
• Terada S, Nakata T, Peterson AC, Hirokawa N. Visualization of slow axonal transport in vivo. Science, 273:784-788, 1996.
• Takei Y, Harada A, Takeda S, Kobayashi K, Terada S, Noda T, Takahashi T, Hirokawa N. Synapsin I deficiency results in the structural change in the presynaptic terminals in the murine nervous system. J Cell Biol, 131:1789-1800, 1995.
• Harada A, Oguchi K, Okabe S, Kuno J, Terada S, Ohshima T, Sato-Yoshitake R, Takei Y, Noda T, Hirokawa N. Altered microtubule organization in small-calibre axons of mice lacking tau protein. Nature, 369:488-491, 1994.