Research Activities
Staff
Collaborators
Papers
Cooporative Graduate School
Topics
History
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■Papers
2011
2010
2009
2008
2007
2006
2005
2004
2003
■2010
Taniguchi, A, Wada, KI, Ohno, M. (2019) "Development of novel culture
system using nano-biotechnology."
YAKUGAKU ZASSHI 130,529-535
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Xu, L., Matsumoto, A., Sasaki, A., Harada, H., Taniguchi, A. (2010)
Identification of suppressor element in the amelogenin promoter. J.
Dent. Res., 89, 246-251.
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Migita, S., Funakoshi, K., Tsuya, D., Yamazaki, T., Taniguchi, A.,
Sugimoto, Y., Hanagata, N., Ikoma, T. (2010) Cell cycle and size sorting
of mammalian cells using a microfludic device. Anal. Methods, in press.
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Taniguchi, A. (2010) Live-cell based sensor cells. /Biomaterials/, in press.
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Ishibashi.Y., Takayama, G., Inouye, Y. and Taniguchi, A (2010)
Carbocisteine normalizes the viscous property of mucus through
regulation of fucosylated and sialylated sugar chain on airway mucins
/Eur. J. Pharmacol./ in press.
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Migita, S., Wada, KI., Taniguchi, A. (2010) Reproducible fashion of the
HSP70B’ promoter-induced cytotoxic response on a live-cell-based
biosensor by cell cycle synchronization. /Biotechnol.Bioeng/. in press.
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Okuda-Shimazaki, J., Takaku, S., Kanehira, K., Sonezaki, S., Taniguchi,
A. (2010) Aggregate Particle Size Effects of Titanium Dioxide
Nanoparticles on the Gene Expression. /Int. J. Mol. Sci.,/ 11, 2383-2392.
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Matsumoto, A., Harada, H, Saito, M. and Taniguchi, A. "Induction of
enamel matrix protein expression in an ameloblast cell line co-cultured
with a mesenchymal cell line in vitro." In Vitro-Animal., In press.
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Sakaguchi, A., Taniguchi A., Sode K. and Yamazaki, T. (2010)
“Construction of a novel glucose sensing molecule based on a
substrate-binding protein for intracellular sensing.”
/Biotechnol.Bioeng/. in press.
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Yamazaki, T. and Sakaguchi, A. (2010). Protein engineering approaches
for constructing novel glucose sensing elements. Indonesian Nanoletter 3,
44-46
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Desriani, Hanashi, T., Yamazaki, T., Tsugawa, W. and Sode, K. (2010).
Enzyme Fuel Cell for Cellulolytic Sugar Conversion Employing FAD Glucose
Dehydrogenase and Carbon Cloth Electrode Based on Direct Electron
Transfer Principle. The Open Electrochemistry Journal 2, 6-10.
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Hanashi, T., Yamazaki, T., Tsugawa, W., and Sode, K.
Biocapacitor―a Novel Bio-device Aiming the Development of Stand-alone
Blood Glucose Monitoring System―.
Bio Industry 27, 56-64 (2010).
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