Publication list (2001-current)

Index

Year

Index in each Year

Title; Author(s), Journal, Volume (Issues), Pages, (Year).

link (DOI)

236

2021

(9)

DNA Base Pair Stacking Assembly of Anisotropic Nanoparticles for Biosensing and Ordered Assembly; Zhiyu He, Guoqing Wang, Xingguo Liang, Tohru Takarada, Mizuo Maeda, Anal. Sci., 37, 415–423, (2021).

10.2116/analsci.20SCR02

235

2021

(8)

Range-Tunable Plasmon Switching of Gold Nanorods by Terminal Breathing of Surface-Grafted DNA in Alcoholic Solvents; Luyang Wang, Yali Shi, Guoqing Wang, Xingguo Liang, Tohru Takarada, Mizuo Maeda, J. Mater. Chem. C, 9, 5105–5112, (2021).

10.1039/d1tc00588j

234

2021

(7)

Identifying Exogenous DNA in Liquid Foods by Gold Nanoparticles: Potential Applications in Traceability; Shansen Ding, Luyang Wang, Zhiyu He, Zhe Sui, Guoqing Wang, Tohru Takarada, Mizuo Maeda, Xingguo Liang, ACS Food Sci. Technol., in Press, (2021).

10.1021/acsfoodscitech.1c00048

233

2021

(6)

Plasmon Switching of Gold Nanoparticles through Thermoresponsive Terminal Breathing of Surface-Grafted DNA in Hydrated Ionic Liquid; Lu Cheng, Luyang Wang, Zhiyu He, Xun Sun*, Yujin Li, Guoqing Wang*, Yongshuai Tian, Tohru Takarada, Mizuo Maeda, Xingguo Liang, Analyst, in Press, (2021).

10.1039/d1an00548k

232

2021

(5)

Terminal Sequence-Specific Interparticle Attraction between DNA Duplex-Carrying Polystyrene Microparticles in Aqueous Salt Solution Assessed by Optical Tweezers; Hiroya Nakauchi, Mizuo Maeda, and Naoki Kanayama, Langmuir, in press, (2021)

10.1021/acs.langmuir.1c00349

231

2021

(4)

DNA Terminal-Specific Dispersion Behavior of Polystyrene Latex Microparticles Densely Covered with Oligo-DNA Strands Under High-Salt Conditions; Hiroya Nakauchi, Mizuo Maeda, and Naoki Kanayama, Analytical Sciences, 37, 461-468, (2021).

10.2116/analsci.20SCP04

230

2021

(3)

Terminal Sequence-Specific Interparticle Attraction between DNA Duplex-Carrying Polystyrene Microparticles in Aqueous Salt Solution Assessed by Optical Tweezers; Nakauchi Hiroya, Maeda Mizuo, Kanayama Naoki, Langmuir, Accepted

10.1021/acs.langmuir.1c00349

229

2021

(2)

Biomarker analysis on a power-free microfluidic chip driven by degassed poly(dimethylsiloxane); Kazuo Hosokawa, Analytical Sciences, 37, 399-406, (2021).

10.2116/analsci.20SCR04

228

2021

(1)

A microfluidic device for modulation of organellar heterogeneity in live single cells; Ken-Ichi Wada, Kazuo Hosokawa, Yoshihiro Ito, Mizuo Maeda, Analytical Sciences, 37, 499-505, (2021)

10.2116/analsci.20SCP11

227

2020

(8)

Carotenoids are essential for light perception by the eyespot apparatus to initiate the phototactic movement of Euglena gracilis, S.Kato, K.Ozasa, M.Maeda, Y.Tanno, S.Tamaki, M.Higuchi-Takeuchi, K.Numata, Y.Kodama, M.Sato, K.Toyooka, T.Shinomura, Plant J., 101 (2020) 1091-1102.

10.1111/tpj.14576

226

2020

(7)

Carotenoid accumulation in the eyespot apparatus required for phototaxis is independent of chloroplast development in Euglena gracilis", S.Tamaki, Y.Tanno, S.Kato, K.Ozasa, M.Wakazaki, M.Sato, K.Toyooka, T.Maoka, T.Ishikawa, M.Maeda, T.Shinomura, Plant Sci., 298 (2020) 110564.

 

10.1016/j.plantsci.2020.110564

225

2020

(6)

Fabrication of storable surface-functionalized power-free microfluidic chip for sensitive microRNA detection utilizing UV grafting; Ryo Ishihara, Kanta Tanabe, Shoko Inomata, Ryo Matsui, Ryoichi Kitane, Kazuo Hosokawa, Mizuo Maeda, Akihiko Kikuchi; Industrial & Engineering Chemistry Research, 59, 10464-10468, (2020)

10.1021/acs.iecr.0c00620

224

2020

(5)

Hierarchical Growth of Au Nanograss with Intense Built-in Hotspots for Plasmonic Applications; Yali Shi, Qian Li, Yao Zhang, Guoqing Wang, Yasutaka Matsuo, Xingguo Liang, Tohru Takarada, Kuniharu Ijiro, Mizuo Maeda, J. Mater. Chem. C, 8, 16073-16082, (2020).

10.1039/d0tc04294c

223

2020

(4)

Photo-Switching of Blunt-End Stacking between DNA Strands Immobilized on Gold Nanoparticles; Naoki Kanayama, Satomi Kishi, Tohru Takarada, Mizuo Maeda, Chem. Commun., 56, 14589–14592, (2020).

10.1039/d0cc05085g

222

2020

(3)

Opposite Effects of Flexible Single-Stranded DNA Regions and Rigid Loops in DNAzyme on Colloidal Nanoparticle Stability for “Turn-On” Plasmonic Detection of Lead Ions; Wenhui Diao, Guoqing Wang, Luyang Wang, Lan Zhang, Shansen Ding, Tohru Takarada, Mizuo Maeda, Xingguo Liang, ACS Appl. Bio Mater., 3, 7003–7010, (2020).

10.1021/acsabm.0c00873

221

2020

(2)

DNA-Programmed Bimodal 2D Assembly of Differently Sized Nanoparticles via Folding of Precursory Circular Chains; Tzung-Ying Yang, Li Yu, Yoshitsugu Akiyama, Tohru Takarada, Mizuo Maeda, Langmuir, 36, 5588–5595 (2020).

10.1021/acs.langmuir.0c00765

220

2020

(1)

Accelerated Non-Crosslinking Assembly of DNA-Functionalized Nanoparticles in Alcoholic Solvents: For Application in the Identification of Clear Liquors;Luyang Wang,Guoqing Wang,Yali Shi,Lan Zhang,Ran An,Tohru Takarada,Mizuo Maeda,Xingguo Liang, Analyst, 145, 3229–3235, (2020).

10.1039/d0an00029a

219

2019

(15)

"Phototaxis and photo-shock responses of Euglena gracilis under gravitaxis", K.Ozasa, J.Won, S.Song, T.Shinomura, M.Maeda, Algal Res., 41 101563, (2019).

10.1016/j.algal.2019.101563

218

2019

(14)

Enhanced expression of a recombinant multicopper oxidase, CueO, from Escherichia coli and its laccase activity towards aromatic substrates., T. Hiraishi, K. Tachibana, N. Asakura, H. Abe, and Mizuo Maeda, Polymer Degradation and Stability, 164, 1-8 (2019).

10.1016/j.polymdegradstab.2019.02.027

217

2019

(13)

Sensitivity enhancement of microRNA detection using a power-free microfluidic chip; Young-Jin Kim, Kazuo Hosokawa, Mizuo Maeda, Analytical Sciences, 35, 1227-1236, (2019).

10.2116/analsci.19P211

216

2019

(12)

Cytoplasmic fusion between an enlarged embryonic stem cell and a somatic cell using a microtunnel device; Seong Min Kim, Ken-Ichi Wada, Masashi Ueki, Kazuo Hosokawa, Mizuo Maeda, Yasuyuki Sakai, Yoshihiro Ito, Biochemical and Biophysical Research Communications, 520, 257-262, (2019).

10.1016/j.bbrc.2019.09.131

215

2019

(11)

Characterizing the non-crosslinked aggregation of DNA-modified gold nanoparticles; effects of DNA length and terminal base pair; Kae Sato, Kazuo Hosokawa, Mizuo Maeda, Analyst, 144, 5580-5588, (2019).

10.1039/C9AN00822E

214

2019

(10)

Design of a surface-functionalized power-free microchip for extracellular vesicle detection utilizing UV grafting; Ryo Ishihara, Asuka Katagiri, Tadaaki Nakajima, Ryo Matsui, Shuuhei, Komatsu, Kazuo Hosokawa, Mizuo Maeda, Yasuhiro Tomooka, Akihiko Kikuchi, Reactive and Functional Polymers, 142, 183-188, (2019).

10.1016/j.reactfunctpolym.2019.06.017

213

2019

(9)

Chemically Fueled Plasmon Switching of Gold Nanorods by Single-Base Pairing of Surface-Grafted DNA; Lan Zhang, Chenlin Zhao, Yao Zhang, Luyang Wang, Guoqing Wang, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, Xingguo Liang, Langmuir, 35, 11710 (2019).

10.1021/acs.langmuir.9b01537

212

2019

(8)

Toxicity of insulin-derived amyloidosis: a case report; Keiichi Iwaya, Tamotsu Zako, Junta Fukunaga, Karin Margareta Sorgjerd, Kentaro Ogata, Koichiro Kogure, Hiroshi Kusano, Masayuki Noritake, Mizuo Maeda, Yukio Ando, Yoshiya Katsura and Terumasa Nagase, BMC Endocrine Disorders, 19, 61 (2019).

10.1186/s12902-019-0385-0

211

2019

(7)

Connecting Nanoparticles with Different Colloidal Stability by DNA for Programmed Anisotropic Self-Assembly; Li Yu, Shota Shiraishi, Guoqing Wang, Yoshitsugu Akiyama, Tohru Takarada, Mizuo Maeda, J. Phys. Chem. C, 123, 15293 (2019).

10.1021/acs.jpcc.9b02863

210

2019

(6)

Molecular chaperone assisted-biosynthesis of gold nanoparticles with improved size distribution and dispersion; Yovita Djohan, Tomoki Azukizawa, Patmawati, Kotaro Sakai, Fumiya Sato, Ryoji Takahashi, Masafumi Yohda, Mizuo Maeda, Noriho Kamiya and Tamotsu Zako, Biomaterials Science, 7, 1801-1804 (2019).

10.2116/analsci.18P571

209

2019

(5)

Detection of Gold Nanoparticles Aggregation using Light Scattering for Molecular Sensing: Yuki Yano, Masamichi Nisougi, Yuki Yano-Ozawa, Tsuyoshi Ohguni, Atsushi Ogawa, Mizuo Maeda, Tsuyoshi Asahi and Tamotsu Zako, Analytical Sciences, 35, 685-690 (2019).

10.1039/C8BM01026A

208

2019

(4)

Regioselective DNA-Modification and Directed Self-Assembly of Triangular Gold Nanoplates; Guoqing Wang, Yao Zhang, Xingguo Liang, Tohru Takarada, Mizuo Maeda, Nanomaterials, 9, 581 (2019).

10.3390/nano9040581

207

2019

(3)

Non-Crosslinking Aggregation of DNA-Functionalized Gold Nanoparticles for Gene Diagnosis and Directed Assembly; Guoqing Wang, Yoshitsugu Akiyama, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, ACS Symposium Series, 1309, 119-138 (2019).

10.1021/bk-2019-1309.ch006

206

2019

(2)

Shape-Selective Isolation of Au Nanoplates from Complex Colloidal Media by Depletion Flocculation; Chenlin Zhao, Guoqing Wang, Tohru Takarada, Xingguo Liang, Makoto Komiyama, Mizuo Maeda, Colloids Surf. A, 568, 216-223 (2019).

10.1016/j.colsurfa.2019.02.019

205

2019

(1)

Target-Recycling-Amplified Colorimetric Detection of Pollen Allergen Using Non-Cross-Linking Aggregation of DNA-Modified Gold Nanoparticles; Chia-Chen Chang, Guoqing Wang, Tohru Takarada, Mizuo Maeda, ACS Sens., 4 (2), 363–369 (2019).

10.1021/acssensors.8b01156

204

2018

(8)

Bio-inspired neurocomputing with 256 noise oscillators simulatingphoto response of Euglena cells, K.Ozasa, J.Won, S.Song, M.Maeda,, Appl. Soft Comput., 70,  539-549, (2018).

10.1016/j.asoc.2018.06.003

203

2018

(7)

Behavior of Euglena gracilis under simultaneous competing optical and chemical stimuli, K.Ozasa, J.Won, S.Song, M.Maeda,, Algal Res., 35,  98-105, (2018).

10.1016/j.algal.2018.08.013

202

2018

(6)

Stochastic Binding Process of Blunt-End Stacking of DNA Molecules Observed by Atomic Force Microscopy, T.Sekine, N.Kanayama, K.Ozasa, T.Nyu, T.Hayashi, M.Maeda,, Langmuir, 34 15078-15083, (2018)

10.1021/acs.langmuir.8b02224

201

2018

(5)

Stochastic Binding Process of Blunt-End Stacking of DNA Molecules Observed by Atomic Force Microscopy; Taito Sekine, Naoki Kanayama, Kazunari Ozasa, Takashi Nyu, Tomohiro Hayashi, and Mizuo Maeda, Langmuir, 34 (49), 15078–15083 (2018).

10.1021/acs.langmuir.8b02224

200

2018

(4)

Non-Cross-Linking Aggregation of DNA-Carrying Polymer Micelles Triggered by Duplex Formation; Zhonglan Tang, Tohru Takarada, Mizuo Maeda, Langmuir, 34 (49), 14899-14910, (2018).

10.1021/acs.langmuir.8b01840

199

2018

(3)

Reversible Shrinkage of DNA-Functionalized Gold Nanoparticle Assemblies Revealed by Surface Plasmon Resonance; Guoqing Wang, Li Yu, Yoshitsugu Akiyama, Tohru Takarada, Mizuo Maeda, Biotechnol. J., 13 (12), 1800090, (2018).

10.1002/biot.201800090

198

2018

(2)

Bio-inspired neurocomputing with 256 noise oscillators simulating photo response of Euglena cells; Ozasa, Kazunari; Won, June; Song, Simon, Applied Soft Computing Volume: 70 Pages: 539-549, (2018).

10.1016/j.asoc.2018.06.003

197

2018

(1)

Folding of Nanoparticle Chains into 2D Arrays: Structural Change of DNA-Functionalized Gold Nanoparticle Assemblies; Shota Shiraishi, Li Yu, Yoshitsugu Akiyama, Guoqing Wang, Tomoka Kikitsu, Kazuo Miyamura, Tohru Takarada, Mizuo Maeda, Adv. Mater. Interfaces, 5 (13), 1800189, (2018).

10.1002/admi.201800189

196

2017

(10)

Temporal change of photophobic step-up responses of Euglena gracilis investigated through motion analysis, K.Ozasa, J.Won, S.Song, S.Tamaki, T.Ishikawa, M.Maeda,, PLoS ONE, 12, e0172813, (2017).

10.1371/journal.pone.0172813

195

2017

(9)

Quantitative control of mitochondria transfer between live single cells using a microfluidic device; Ken-Ichi Wada, Kazuo Hosokawa, Yoshihiro Ito, Mizuo Maeda; Biology Open, 6, 1960-1965, (2017).

10.1242/bio.024869

194

2017

(8)

Rapid and easy extracellular vesicle detection on a surface-functionalized power-free microchip toward point-of-care diagnostics; Ryo Ishihara, Tadaaki Nakajima, Yoshitaka Uchino, Asuka Katagiri, Kazuo Hosokawa, Mizuo Maeda, Yasuhiro Tomooka, Akihiko Kikuchi; ACS Omega, 2, 6703-6707, (2017).

10.1021/acsomega.7b01147

193

 2017

(7)

Island Growth in the Seed-Mediated Overgrowth of Monometallic Colloidal Nanostructures; Guoqing Wang, Yiding Liu,Chuanbo Gao, Kuniharu Ijiro, Mizuo Maeda, Yadong Yin, Chem, 3 (4), 678–690, (2017).

10.1016/j.chempr.2017.08.004

192

 2017

(6)

Directed Assembly of Gold Nanorods by Terminal-Base Pairing of Surface-Grafted DNA; Guoqing Wang, Yoshitsugu Akiyama, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, Small, 1702137, (2017).

10.1002/smll.201702137

191

2017

(5)

Iodine-Mediated Etching of Triangular Gold Nanoplates for Colorimetric Sensing of Copper Ion and Aptasensing of Chloramphenicol;

Chia-Chen Chang, Guoqing Wang, Tohru Takarada, and Mizuo Maeda; ACS Appl. Mater. Interfaces, 9, 34518-34525, (2017).

10.1021/acsami.7b13841

190

2017

(4)

Dark field microscopic analysis of discrete Au nanostructures: Understanding the correlation of scattering with stoichiometry, Guoqing Wang, Tong Bu, Tamotsu Zako, Ryoko Watanabe-Tamaki, Takuo Tanaka, Mizuo Maeda; Chemical Physics Letters, 684, 310-315 (2017).

10.1016/j.cplett.2017.07.012

189

2017

(3)

Specificity of microRNA detection on a power-free microfluidic chip with laminar flow-assisted dendritic amplification, Kazuki Hasegawa, Rina Negishi, Mutsuyoshi Matsumoto, Masafumi Yohda,Kazuo Hosokawa, Mizuo Maeda; Analytical Sciences, 33, 171-177, (2017).

10.2116/analsci.33.171

188

2017

(2)

Preparation of a surface-functionalized power-free PDMS microchip for microRNA detection utilizing electron beam-induced graft polymerization, Ryo Ishihara, Yoshitaka Uchino, Kazuo Hosokawa, Mizuo Maeda, Akihiko Kikuchi, Analytical Sciences, 33, 197-202, (2017).

10.2116/analsci.33.197

187

2017

(1)

Cross-Linking versus Non-Cross-Linking Aggregation of Gold Nanoparticles Induced by DNA Hybridization: A Comparison of the Rapidity of Solution Color Change; Guoqing Wang, Yoshitsugu Akiyama, Shota Shiraishi, Naoki Kanayama, Tohru Takarada, and Mizuo Maeda, Bioconjugate Chem., 28, 270-277, (2017).

10.1021/acs.bioconjchem.6b00410

186

2016

(15)

Porous silicon microarray for simultaneous fluorometric immunoassay of the biomarkers prostate-specific antigen and human glandular kallikrein 2; SangWook Lee, Kazuo Hosokawa, Soyoun Kim, Ok Chan Jeong, Hans Lilja, Thomas Laurell, Mizuo Maeda, Microchimica Acta, 183, 3321-3327, (2016).

10.1007/s00604-016-1986-1

185

2016

(14)

Photoreactive Initiator for Surface-Initiated ATRP on Versatile Polymeric Substrates; Fukazawa Kyoko; Nakao Aiko, Maeda Mizuo; Ishihara, Kazuhiko, ACS Applied Materials & Interfaces, 8, 24994-249982016.

10.1021/acsami.6b07145

184

2016

(13)

Rapid Naked-Eye Discrimination of Cytochrome P450 Genetic Polymorphism through Non-Crosslinking Aggregation of DNA-Functionalized Gold Nanoparticles; Yoshitsugu Akiyama, Guoqing Wang, Shota Shiraishi, Naoki Kanayama, Tohru Takarada, and Mizuo Maeda, ChemistryOpen, 5, 508-512, (2016).

10.1002/open.201600110

183

2016

(12)

Terminal-Specific Interaction between Double-Stranded DNA Layers: Colloidal Dispersion Behavior and Surface Force; Naoki Kanayam, Taito Sekine, Kazunari Ozasa, Satomi Kishi, Takashi Nyu, Tomohiro Hayashi, and Mizuo Maeda, Langmuir, 32 (49),  13296–13304, (2016).

10.1021/acs.langmuir.6b03470

182

2016

(11)

Amorphous protein aggregation monitored using fluorescence selfquenching; Hiroki Jozawa, Md. Golam Kabir, Tamotsu Zako, Mizuo Maeda, Chiba Kazuhiro, Yutaka Kuroda, FEBS Letters, 590, 3501-3509 (2016).

10.1002/1873-3468.12439

181

2016

(10)

1,5-Diazacyclooctanes, as Exclusive Oxidative Polyamine Metabolites, Inhibit Amyloid-β(1-40) Fibrillization; Ayumi Tsutsui, Tamotsu Zako, Tong Bu, Yoshiki Yamaguchi, Mizuo Maeda and Katsunori Tanaka, Advanced Science, 3, 1600082, (2016).

10.1002/advs.201600082

180

2016

(9)

Autonomous oscillation/separation of cell density artificially induced by optical interlink feedback as designed interaction between two isolated microalgae chips; Kazunari Ozasa, June Won, Simon Song, Mizuo Maeda, Sci. Rep., 6, 24602, (2016).

10.1038/srep24602

179

2016

(8)

Effects of Complementary DNA and Salt on the Thermoresponsiveness of Poly(N-isopropylacrylamide)-b-DNA; Masahiro Fujita, Hayato Hiramine, Pengju Pan, Takaaki Hikima, and Mizuo Maeda: Langmuir, 32, 1148-1154 (2016).

10.1021/acs.langmuir.5b04141

178

2016

(7)

Extra-luminal detection of assumed colonic tumor site by near-infrared laparoscopy; Tamotsu Zako, Masaaki Ito, Hiroshi Hyodo, Miya Yoshimoto, Masayuki Watanabe, Hiroshi Takemura, Hidehiro Kishimoto, Kazuhiro Kaneko, Kohei Soga and Mizuo Maeda, Surgical Endoscopy, 30, 4153-9, (2016).

10.1007/s00464-015-4669-9

177

2016

(6)

Detection of Methylated DNA on a Power-Free Microfluidic Chip with Laminar Flow-Assisted Dendritic Amplification; Kazuki, Hasegawa, Mutsuyoshi Matsumoto, Kazuo Hosokawa, and Mizuo Maeda, Anal Sci., 32(6), 603-606, (2016).

10.2116/analsci.32.603

176

2016

(5)

Contribution of the C-terminal region of a group II chaperonin to its interaction with prefoldin and substrate transfer; Tamotsu Zako, Muhamad Sahlan, Sayaka Fujii, Yohei Y. Yamamoto, Phan The Tai, Kotaro Sakai, Mizuo Maeda and Masafumi Yohda, J. Mol. Biol. 428, 2405-2417, (2016).

10.1016/j.jmb.2016.04.006

175

2016

(4)

Dark Field Microscopic Sensitive Detection of Amyloid Fibrils Using Gold Nanoparticles Modified with Antibody; Tong Bu, Tamotsu Zako, Mizuo Maeda, Anal. Sci. 3, 307-311, (2016).

10.2116/analsci.32.307

174

2016

(3)

Rapid Non-Crosslinking Aggregation of DNA-Functionalized Gold Nanorods and Nanotriangles for Colorimetric Single-Nucleotide Discrimination; Guoqing Wang, Yoshitsugu Akiyama, Tohru Takarada, and Mizuo Maeda, Chem. Eur. J. 22, 258-263, (2016).

10.1002/chem.201503834

173

2016

(2)

High-yield halide-free synthesis of biocompatible Au nanoplates; Guoqing Wang, Shengyang Tao, Yiding Liu, Lei Guo, Guohui Qin, Kuniharu Ijiro, Mizuo Maeda and Yadong Yin, Chem. Commun., 52, 398, (2016).

10.1039/C5CC07957H

172

2016

(1)

Cryopreservation of Adhered Mammalian Cells on a Microfluidic Device: Toward Ready-to-Use Cell-Based Experimental Platforms; Eitaro Kondo, Ken-Ichi Wada, Kazuo Hosokawa, Mizuo Maeda, Biotechnol. Bioeng.,113, 237–240, (2016).

10.1002/bit.25704

171

2015

(11)

Substrate stereoselectivity of poly(Asp) hydrolase-1 capable of cleaving beta-amide bonds as revealed by investigation of enzymatic hydrolysis of stereoisomeric beta-tri(Asp)s, Tomohiro Hiraishi, Hideki Abe, and Mizuo Maeda, AMB Express, 5, 31, (2015).

10.1186/s13568-015-0118-3

170

2015

(10)

Core-Shell Structure, Biodegradation, and Drug Release Behavior of Poly(lactic acid)/Poly(ethylene glycol) Block Copolymer Micelles Tuned by Macromolecular Stereostructure; Chenlei Ma, Pengju Pan, Guorong Shan, Yongzhong Bao, Masahiro Fujita, and Mizuo Maeda, Langmuir, 31, 1527-1536 (2015).

10.1021/la503869d

169

2015

(9)

Autonomous Pattern Formation of Micro-organic Cell Density with Optical Interlink between Two Isolated Culture Dishes; Kazunari Ozasa, Jeesoo Lee, Simon Song, Masahiko Hara, Mizuo Maeda, Artificial Life, 21, 234-246, (2015).

10.1162/ARTL_a_00159

168

2015

(8)

DNA-modulated photo-transformation of AgCl to silver nanoparticles: visiting the formation mechanism; Guoqing Wang, Hideyuki Mitomo, Yasutaka Matsuo, Kenichi Niikura, Mizuo Maeda, Kuniharu Ijiro, J. Colloid Interface Sci., 452, 224-234, (2015).

10.1016/j.jcis.2015.04.033

167

2015

(7)

Effects of ROCK inhibitor Y-27632 on cell fusion through a microslit; Ken-Ichi Wada, Kazuo Hosokawa, Yoshihiro Ito, Mizuo Maeda, Biotechnol. Bioeng., 112, 2334-2342, (2015).

10.1002/bit.25641

166

2015

(6)

Multiplex microRNA detection on a power-free microfluidic chip with laminar flow-assisted dendritic amplification; Ryo Ishihara, Kazuki Hasegawa, Kazuo Hosokawa, Mizuo Maeda, Analyt. Sci., 31, 573-576, (2015).

10.2116/analsci.31.573

165

2015

(5)

Modulation of interparticle distance in discrete gold nanoparticle dimers and trimers by DNA single-base pairing; Yoshitsugu Akiyama, Hiroto Shikagawa, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, Small, 11, 3153-3161, (2015).


10.1002/smll.201500045

164

2015

(4)

A Highly Sensitive Porous Silicon (P-Si)-Based Human Kallikrein 2 (hK2) Immunoassay Platform toward Accurate Diagnosis of Prostate Cancer; Sang Wook Lee, Kazuo Hosokawa, Soyoun Kim, Ok Chan Jeong, Hans Lilja, Thomas Laurell and Mizuo Maeda, Sensors, 15(5), 11972-11987, (2015).

10.3390/s150511972

163

2015

(3)

Adsorption and separation of amyloid beta aggregates using ferromagnetic nanoparticles coated with charged polymer brushes; Tong Bu, Tamotsu Zako, Martin Zeltner, Karin M. Sorgjerd, Christoph M. Schumacher, Corinne J. Hofer, Wendelin J. Stark and Mizuo Maeda, J. Mater. Chem. B, 3, 3351-3357, (2015).

10.1039/C4TB02029D

162

2015

(2)

Simple and robust antibody microarray-based immunoassay platform for sensitive and selective detection of PSA and hK2 toward accurate diagnosis of prostate cancer; Sangwook Lee, Kazuo Hosokawa, Soyoun Kim, Thomas Laurell, Mizuo Maeda, Sensing and Bio-Sensing Research, 3, 105–111, (2015).

10.1016/j.sbsr.2015.01.003

161

2015

(1)

Cancer-targeted Near Infrared imaging using rare earth ion-doped ceramic nano particles; Tamotsu Zako, Miya Yoshimoto, Hiroshi Hyodo, Hidehiro Kishimoto, Masaaki Ito, Kazuhiro Kaneko, Kohei Soga and Mizuo Maeda, Biomater. Sci. 3, 59-64, (2015).


10.1039/C4BM00232F

160

2014

(11)

Effects of mutation at position 285 of Ralstonia pickettii T1 poly[(R)-3-hydroxybutyrate] depolymerase on its activities; Liu-Tzea Tan, Tomohiro Hiraishi, Kumar Sudesh, and Mizuo Maeda, Appl. Microbiol. Biotechnol., 98, 7061-7068, (2014).

10.1007/s00253-014-5660-4

159

2014

(10)

Transient freezing behavior in photophobic responses of Euglena gracilis investigated in a microfluidic device; Kazunari Ozasa, Jeesoo Lee, Simon Song, Mizuo Maeda, Plant Cell Physiol., 55, 1704-1712, (2014).

10.1093/pcp/pcu101

158

2014

(9)

DNA dangling-end-induced colloidal stabilization of gold nanoparticles for colorimetric single-nucleotide polymorphism genotyping; Yoshitsugu Akiyama, Hiroto Shikagawa, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, Chem. Eur. J., 20, 17420-17425, (2014).

10.1002/chem.201404801

157

2014

(8)

Thermodynamics-based rational design of DNA block copolymers for quantitative detection of single-nucleotide polymorphisms by affinity capillary electrophoresis; Ayumi Kimura, Naoki Kanayama, Atsushi Ogawa, Hideaki Shibata, Hideo Nakashita, Tohru Takarada, Mizuo Maeda, Anal. Chem., 86, 11425-11433, (2014).

10.1021/ac503522f

156

2014

(7)

Microfluidic perfusion cell culture system confined in 35 mm culture dish for standard biological laboratories; Eitaro Kondo, Ken-Ichi Wada, Kazuo Hosokawa, Mizuo Maeda, J Biosci. Bioeng., 118, 356-358, (2014).

10.1016/j.jbiosc.2014.02.021

155

2014

(6)

Application of biomaterials for the detection of amyloid aggregates; Tamotsu Zako and Mizuo Maeda, Biomater. Sci. 2, 951-955, (2014).

10.1039/C4BM00026A

154

2014

(5)

Cell fusion through a microslit between adhered cells and observation of their nuclear behavior; Ken-Ichi Wada, Kazuo Hosokawa, Eitaro Kondo, Yoshihiro Ito, Mizuo Maeda, Biotecchnol Bioeng. 111, 1464-468, (2014).

10.1002/bit.25190

153

2014

(4)

Cysteine Inhibits Amyloid Fibrillation of the Lysozyme and Directs the Formation of Small Worm-like Aggregates through Non-Covalent Interactions; Eisuke Takai, Ken Uda, Shuhei Matsushita, Yui Shikiya, Yoichi Yamada, Tamotsu Zako, Mizuo Maeda and Kentaro Shiraki, Biotech. Prog. 30, 470-478, (2014).

10.1002/btpr.1866

152

2014

(3)

Degeneration of Amyloid-beta Fibrils by Low Temperature Atmospheric Pressure Plasma in Aqueous Solution; Eisuke Takai, Gai Ohashi, Tomonori Yoshida, Karin M. Sorgjerd, Tamotsu Zako, Mizuo Maeda, Katsuhisa Kitano and Kentaro Shiraki,  Appl. Phys. Lett. 104, 023701, (2014).

10.1063/1.4861842

151

2014

(2)

Cysteine Inhibit Fibrillization and Cytotoxicity of Amyloid-beta 40 and 42: Implication for Contribution of Thiophilic Interaction; Eisuke Takai, Ken Uda, Tomonori Yoshida, Tamotsu Zako, Mizuo Maeda, Yoichi Yamada and Kentaro Shiraki, Phys. Chem. Chem. Phys. 16, 3566-3572, (2014).

10.1039/c3cp54245a

150

2014

(1)

pH-responsive release of proteins from biocompatible and biodegradable reverse polymer micelles; Yuichi Koyamatsu, Taisuke Hirano, Yoshinori Kakizawa, Fumiyoshi Okano, Tohru Takarada, Mizuo Maeda, J. Control. Release, 173, 89-95, (2014).

10.1016/j.jconrel.2013.10.035

149

2013

(19)

Tuning the enzymatic hydrolysis of biodegradable polyesters and it’s application to surface patterning; Yoshihiro Kikkawa, Masato Fukuda, Nobuhiro Ichikawa, Ayumi Kashiwada, Kiyomi Matsuda, Masatoshi Kanesatoa, and Tomohiro Hiraishi, J. Mater. Chem. A., 1, 4667-4670, (2013).

10.1039/C3TA01670F

148

2013

(18)

Self-association of Zwitterionic Polymer-liquid Conjugates in Water as Examined by Scattering Measurements; Masanobu Murou, Hiromi Kitano, Masahiro Fujita, Mizuo Maeda, and Yoshiyuki Saruwatari, J. Colloid Int. Sci., 390, 47-53 (2013).

10.1016/j.jcis.2012.09.035

147

2013

(17)

Directed evolution of poly[(R)-3-hydroxybutyrate] depolymerase using cell surface display system: Functional importance of asparagine at position 285., Liu-Tzea Tan, Tomohiro Hiraishi, Kumar Sudesh, and Mizuo Maeda, Appl. Microbiol. Biotechnol., 97, 4859-4871 (2013).

10.1007/s00253-012-4366-8

146

2013

(16)

Gas/liquid sensing via chemotaxis of Euglena cells confined in an isolated micro-aquarium; Kazunari Ozasa, Jeesoo Lee, Simon Song, Masahiko Hara, Mizuo Maeda, LabChip, 13, 4033-4039, (2013).

10.1039/c3lc50696g

145

2013

(15)

DNA terminal mismatch-induced stabilization of polymer micelles from RAFT-generated poly(N-isopropylacrylamide)-DNA block copolymers; Kyosuke Isoda, Naoki Kanayama, Masahiro Fujita, Tohru Takarada, Mizuo Maeda, Chem. Asian J., 8, 3079-3084, (2013).

10.1002/asia.201300704

144

2013

(14)

Rapid Surface-Biostructure Interaction Analysis using strong Metal-based Nanomagnets; Aline C.C. Rotzetter, Christoph M. Schumacher, Tamotsu Zako, Wendelin J. Stark and Mizuo Maeda Langmuir 29, 14117-14123, (2013).

10.1021/la4026427

143

2013

(13)

A structure-toxicity study of Abeta42 reveals a new anti-parallel aggregation pathway; Helene Vignaud, Claude Bobo, Ioan Lascu, Karin M. Sorgjerd, Tamotsu Zako, Mizuo Maeda, Benedicte Salin, Sophie Lecomte and Christophe Cullin PLoS ONE 8, e80262, (2013).

10.1371/journal.pone.0080262

142

2013

(12)

Separation of metalloproteins using a novel metal ion contaminant sweeping technique and detection of protein-bound copper by a metal ion probe in polyacrylamide gel electrophoresis: distribution of copper in human serum; Shingo Saito, Mitsuyoshi Kawashima, Hiroki Ohshima, Kazuki Enomoto, Makoto Sato, Hajime Yoshimura, Keitaro Yoshimoto, Mizuo Maeda and Masami Shibukawa, Analyst, 138, 6097-6105, (2013).

10.1039/c3an01107k

141

2013

(11)

DNA Terminal Breathing Regulated by Metal Ions for Colloidal Logic Gates; Naoki Kanayama,Tohru Takarada, Masahiro Fujita, Mizuo Maeda, Chem-Eur J, 19, 10794–10798, (2013).

10.1002/chem.201301995

140

2013

(10)

Detection of DNA Induced Gold Nanoparticle Aggregation with Dark Field Imaging; Tong Bu, Tamotsu Zako, Masahiro Fujita and Mizuo Maeda, Chem. Commun. 49, 7531-7533, (2013).

10.1039/C3CC44182B

139

2013

(9)

Prefoldin protects neuronal cells from polyglutamine toxicity by preventing aggregation formation; Erika Tashiro, Tamotsu Zako, Hideki Muto, Yoshinori Itoo, Karin Sorgjerd, Naofumi Terada, Akira Abe, Makoto Miyazawa, Akira Kitamura, Hirotake Kitaura, Hiroshi Kubota, Mizuo Maeda, Takashi Momoi, Sanae M.M. Iguchi-Ariga, Masataka Kinjo, and Hiroyoshi Ariga, J. Biol. Chem. 288, 19958-19972, (2013).

10.1074/jbc.M113.477984

138

2013

(8)

Dumbbell-shaped DNA analytes amplified by polymerase chain reaction for robust single-nucleotide polymorphism genotyping by affinity capillary electrophoresis; Hideaki Shibata, Atsushi Ogawa, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, Anal. Chem., 85, 5347-5352, (2013).

10.1021/ac400900b

137

2013

(7)

Human Prefoldin Inhibits Amyloid-β (Aβ) Fibrillation and Contributes to Formation of Nontoxic Aβ Aggregates; Karin M Sorgjerd, Tamotsu Zako, Masafumi Sakono, Peter C Stirling, Michel R Leroux, Takashi Saito, Per Nilsson, Misaki Sekimoto, Takaomi C. Saido, and Mizuo Maeda, Biochemistry 52, 3532-3542, (2013).

10.1021/bi301705c

136

2013

(6)

DNA-conjugated polymers for reliable SNP genotyping based on affinity capillary electrophoresis; Tohru Takarada, Mizuo Maeda, Bull. Chem. Soc. Jpn., 86, 547-556, (2013).

10.1246/bcsj.20130038

135

2013

(5)

Photon counting histogram using numerical data of point spread function; Naofumi Terada, Tamotsu Zako and Mizuo Maeda, Jpn. J. Appl. Phys. 52, 038001, (2013).

10.7567/JJAP.52.038001

134

2013

(4)

Formation of non-toxic Aβ fibrils by small heat shock protein under heat-stress conditions; Masafumi Sakono, Arata Utsumi, Tamotsu Zako, Tetsuya Abe, Masafumi Yohda and Mizuo Maeda, Biochem Biophys Res Commun. 430, 1259-64, (2013).

10.1016/j.bbrc.2012.12.059

133

2013

(3)

Preparation of cell-culturing glass surfaces that release branched polyethyleneimine triggered by thiol–disulfide exchange; Aya Mizutani Akimoto, Tohru Takarada, and Mizuo Maeda, Colloids Surf. B, 103, 360-365, (2013).

10.1016/j.colsurfb.2012.10.031

132

2013

(2)

Quantitative single-nucleotide polymorphism analysis in secondary-structured DNA by affinity capillary electrophoresis using a polyethylene glycol–peptide nucleic acid block copolymer; Harumi Tsukada, Lal Mohan Kundu, Yukiharu Matsuoka, Naoki Kanayama, Tohru Takarada, and Mizuo Maeda, Anal. Biochem., 433, 150-152, (2013).

10.1016/j.ab.2012.10.023

131

2013

(1)

Application of microchip phosphate-affinity electrophoresis to measurement of protease activity in complex samples; Aishan Han, Kazuo Hosokawa, Mizuo Maeda, Analytical Biochemistry, 432, 8-10, (2013).

10.1016/j.ab.2012.09.016

130

2012

(18)

Bioactive Titanium Oxide-Based Nanostructures Prepared by One-Step Hydrothermal Anodization; Chun-Yi Chen, Kazunari Ozasa, Ken-ichi Katsumata, Mizuo Maeda, Kiyoshi, Okada, Nobuhiro Matsushita, J.Phys.Chem.C, 116  8054-8062, (2012).

10.1021/jp210783w

129

2012

(17)

Thermoresponsive Micellization and Micellar Stability of Poly(N-isopropylacrylamide)-b-DNA Diblock and Miktoarm Star Polymers; Pengju Pan, Masahiro Fujita, Wei-Yang Ooi, Kumar Sudesh, Tohru Takarada, Atsuhi Goto, Mizuo Maeda: Langmuir, 28, 14347-14356 (2012).

10.1021/la303128y

128

2012

(16)

Structural Characterization of Nanoparticles from Thermoresponsive Poly(N-isopropylacrylamide)-DNA Conjugate; Wei-Yang Ooi, Masahiro Fujita, Pengju Pan, Hui-Ying Tang, Kumar Sudesh, Kazuki Ito, Naoki Kanayama, Tohru Takarada, Mizuo Maeda, J. Colloid Int. Sci., 374, 315-320 (2012).

10.1016/j.jcis.2012.02.012

127

2012

(15)

Structural Study on Gold Nanoparticle Functionalized with DNA and its Non-crosslinking Aggregation; Masahiro Fujita, Yoshizumi Katafuchi, Kazuki Ito, Naoki Kanayama, Tohru Takarada and Mizuo Maeda, J. Colloid Int. Sci., 368, 629-635 (2012).

10.1016/j.jcis.2011.11.021

126

2012

(14)

Palladium(II)-exchanged hydroxyapatite-catalyzed Suzuki-Miyaura-type cross-coupling reactions with potassium aryltrifluoroborates; Yoshiro Masuyama, Yutaka Sugioka, Shiori Chonan, Noriyuki Suzuki, Masahiro Fujita, Kenji Hara, and Atsushi Fukuoka, J. Mol. Catal. A: Chem., 352, 81-85 (2012).

10.1616/j.molcata.2011.10.017

125

2012

(13)

Rapid and sensitive microRNA detection with laminar flow-assisted dendritic amplification on power-Free microfluidic chip; Hideyuki Arata, Hiroshi Komatsu, Kazuo Hosokawa, Mizuo Maeda, PLOS ONE, 7, e48329, (2012).

10.1371/journal.pone.0048329

124

2012

(12)

DNA-Templating Mass Production of Gold Trimer Rings for Optical Metamaterials; Ryoko Watanabe-Tamaki, Atsushi Ishikawa, Takuo Tanaka, Tamotsu Zako and Mizuo Maeda, J. Phys. Chem. C, 116, 15028-15033, (2012).

10.1021/jp302363v

123

2012

(11)

Quantitative SNP genotyping by affinity capillary electrophoresis using PEG-oligodeoxyribonucleotide block copolymers with electroosmotic flow; Harumi Tsukada, Takashi Watanabe, Naoki Kanayama, Tohru Takarada, and Mizuo Maeda, Electrophoresis, 33, 2122-2129, (2012).

10.1002/elps.201200073

122

2012

(10)

Estimation of binding constants of peptide nucleic acid and secondary-structured DNA by affinity capillary electrophoresis; Lal Mohan Kundu, Harumi Tsukada, Yukiharu Matsuoka, Naoki Kanayama, Tohru Takarada, and Mizuo Maeda, Anal. Chem., 84, 5204-5209, (2012).

10.1021/ac301025m

121

2012

(9)

Rapid microRNA detection using power-free microfluidic chip: coaxial stacking effect enhances the sandwich hybridization; Hideyuki Arata, Hiroshi Komatsu, Aishan Han, Kazuo Hosokawa, and Mizuo Maeda; Analyst, 137, 3234-3237, (2012).

10.1039/c2an16154k

120

2012

(8)

Hydrodynamic cell pairing and cell fusion through a microslit on a microfluidic device; Naoki Sasaki, Jiansheng Gong, Makoto Sakuragi, Kazuo Hosokawa, Mizuo Maeda, and Yoshihiro Ito; Jpn. J. Appl. Phys., 51, 030206, (2012).

10.1143/JJAP.51.030206

119

2012

(7)

Activity measurement of protein kinase and protein phosphatase by microchip phosphate-affinity electrophoresis; Aishan Han, Kazuo Hosokawa, Mizuo Maeda; Analytical Biochemistry, 421, 782-784, (2012).

10.1016/j.ab.2011.11.013

118

2012

(6)

Poly(aspartate) hydrolases: biochemical properties and applications, Tomohiro Hiraishi and Mizuo Maeda, Appl. icrobiol. Biotechnol., 91, 895-903, (2011).

10.1007/s00253-011-3429-6

117

2012

(5)

Display of functionally active PHB depolymerase on Escherichia coli cell surface,Tomohiro Hiraishi, Koichi Yamashita, Masafumi Sakono, Jun Nakanishi, Tan Liu-Tzea, Kumar Sudesh, Hideki Abe, and Mizuo Maeda, Macromol. Biosci., 12, 218-224, (2012).

10.1002/mabi.201100273

116

2012

(4)

Cell interaction study of amyloid using luminescent conjugated polythiophene: Implication that amyloid cytotoxicity is correlated with prolonged cellular binding; Tamotsu Zako, Masafumi Sakono, Takahiro Kobayashi, Karin Sorgjerd, K. Peter R. Nilsson, Per Hammarstrom, Mikael Lindgren and Mizuo Maeda, ChemBioChem 13, 358-363, (2012).

10.1002/cbic.201100467

115

2012

(3)

Nanoscopic and photonic ultrastructural characterization of two distinct insulin amyloid states; Katarzyna Maria Psonka-antonczyk, Julien Duboisset, Bjørn Torger Stokke, Tamotsu Zako, Takahiro Kobayashi, Mizuo Maeda, Sofie Nystrom, Jeff Mason, Per Hammarstrom, K. Peter. R. Nilsson and Mikael Lindgren Int. J. Mol. Sci. 13, 1461-1480, (2012).

10.3390/ijms13021461

114

2012

(2)

Amyloid oligomer detection by immobilized molecular chaperone; Masafumi Sakono, Tamotsu Zako, Masafumi Yohda and Mizuo Maeda  Biochem. Eng. J. 61, 28-33, (2012).

10.1016/j.bej.2011.12.005

113

2012

(1)

Naked-eye Detection of Amyloid Aggregates using Gold Nanoparticles Modified with Amyloid Beta Antibody; Masafumi Sakono, Tamotsu Zako and Mizuo Maeda Anal. Sci. 28, 73-76 (2012).

10.2116/analsci.28.73

112

2011

(11)

Two-dimensional optical feedback control of Euglena confined in closed-type microfluidic channels ; Kazunari Ozasa, Jeesoo Lee, Simon Song, Masahiko Hara, Mizuo Maeda, LabChip, 11, 1933-1940, (2011).

10.1039/c0lc00719f

111

2011

(10)

DNA-Functionalized Thermoresponsive Bioconjugates Synthesized via ATRP and Click Chemistry; Pengju Pan, Masahiro Fujita, WeiYang Ooi, Kumar Sudesh, Tohru Takarada, Atsushi Goto, Mizuo Maeda, Polymer, 52, 895-900 (2011).

10.1016/j.polymer.2011.01.016

110

2011

(9)

Synthesis and characterization of small circular double-stranded RNAs; Naoko Abe, Hiroshi Abe, Takahito Ohshiro, Yuko Nakashima, Mizuo Maeda, and Yoshihiro Ito, Chem. Commun., 47, 2125–2127, (2011).

10.1039/c0cc04551a

109

2011

(8)

Synthesis, Structure, and Biological Activity of Dumbbell-Shaped Nanocircular RNAs for RNA Interference; Naoko Abe, Hiroshi Abe, Chisato Nagai, Mitsuru Harada, Hiroto Hatakeyama, Hideyoshi Harashima, Takahito Ohshiro, Mizuki Nishihara, Kazuhiro Furukawa, Mizuo Maeda, Satoshi Tsuneda, and Yoshihiro Ito, Bioconjugate Chem. 22, 2082–2092, (2011).

10.1021/bc2003154

108

2011

(7)

Nuclear Exportin Receptor CAS Regulates the NPI-1Mediated Nuclear Import of HIV-1 Vpr; Eri Takeda, Tomoyuki Murakami, Go Matsuda, Hironobu Murakami, Tamotsu Zako, Mizuo Maeda, Yoko Aida, PloS ONE, 6, e27815, (2011).

10.1371/journal.pone.0027815

107

2011

(6)

Power-Free Microchip Immunoassay of PSA in Human Serum for Point-of-Care Testing; Hiroki OKADA, Kazuo HOSOKAWA, and Mizuo MAEDA, Anal. Sci., 27, 237-241, (2011).

10.2116/analsci.27.237

106

2011

(5)

Immobilized Insulin Amyloid Enhances Cell Adhesion and Proliferation due to Interaction with Fibronectin; Masafumi Sakono, Shigenori Akiyama, Tamotsu Zako, Shujiro Sakaki, Tomonori Waku, Naoki Tanaka and Mizuo Maeda, Chem. Lett., 40, 315-317, (2011).

10.1246/cl.2011.315

105

2011

(4)

Application of two morphologically different fibrillar and filamentous insulin amyloids as a biomaterial for cell culture surfaces; Masafumi Sakono, Shigenori Akiyama, Tamotsu Zako, Shujiro Sakaki, Tomonori Waku, Naoki Tanaka and Mizuo Maeda React. Funct. Polym. 71, 324-328, (2011).

10.1016/j.reactfunctpolym.2010.10.012

104

2011

(3)

Rapid Naked-eye Detection of Mercury Ion Based on Non-crosslinking Aggregation of Double-stranded DNA-carrying Gold Nanoparticles; Naoki Kanayama, Tohru Takarada and Mizuo Maeda, Chem. Commun., 47, 2077-2079, (2011).

10.1039/C0CC05171C

103

2011

(2)

RAFT-generated Poly(N-isopropylacrylamide)-DNA Block Copolymers for Temperature-responsive Formation of Polymer Micelles; Kyosuke Isoda, Naoki Kanayama, Daisuke Miyamoto, Tohru Takarada and Mizuo Maeda, React. Funct. Polym., 71, 367-371, (2011).

10.1016/j.reactfunctpolym.2010.11.020

102

2011

(1)

Enzymatic synthesis of poly(α-ethyl β-aspartate) by polyethylene glycol-modified poly(aspartate) hydrolase-1; Tomohiro Hiraishi, Eriko Masuda, Daisuke Miyamoto, Naoki Kanayama, Hideki Abe and Mizuo Maeda, Macromol. Biosci., 11, 187–191, (2011).

10.1002/mabi.201000199

101

2010

(12)

Simulation of neurocomputing based on the photophobic reactions of Euglena with optical feedback stimulation; Kazunari Ozasa, Masashi Aono, Mizuo Maeda, Masahiko Hara, Biosystems, 100, 101-107, (2010).

10.1016/j.biosystems.2010.02.002

100

2010

(11)

Size-selective recognition of gold nanoparticles by a molecular chaperone; Masafumi Sakono, Tamotsu Zako, Srdja Drakulic, Jose M Valpuesta, Masafumi Yohda and Mizuo Maeda, Chem. Phys. Lett. 501, 108-112, (2010).

10.1016/j.cplett.2010.10.035

99

2010

(10)

Y443F Mutation in the Substrate-binding Domain of Extracellular PHB Depolymerase Enhances Its PHB Adsorption and Disruption Abilities; Tomohiro Hiraishi, Naoya Komiya, and Mizuo Maeda, Polym. Degrad. Stab., 95, 1370-1374, (2010).

10.1016/j.polymdegradstab.2010.01.022

98

2010

(9)

DNA Detection on a Power-free Microchip with Laminar Flow-assisted Dendritic Amplification; Kazuo Hosokawa, Takahiro Sato, Yasunobu Sato, and Mizuo Maeda, Analytical Sciences, 26, 1053-1057, (2010).

10.2116/analsci.26.1053

97

2010

(8)

A Facile Method Towards Cyclic Assembly of Gold Nanoparticles Using DNA Template Alone; Takahito Ohshiro, Tamotsu Zako, Ryoko Wanatabe-Tamaki, Takuo Tanaka and Mizuo Maeda, Chem. Comm. 46, 6132-6134, (2010).

10.1039/C0CC00305K

96

2010

(7)

Analysis of the interaction mode between hyperthermophilic archaeal group II chaperonin and prefoldin using a platform of chaperonin oligomers of various subunit arrangements; Muhamad Sahlan, Taro Kanzaki, Tamotsu Zako, Mizuo Maeda and Masafumi Yohda, Biochimica et Biophysica Acta - Proteins & Proteomics, 1804, 1810-1816, (2010).

10.1016/j.bbapap.2010.04.013

95

2010

(6)

Precise Patterning of Photoactivatable Glass Coverslip for Fluorescence Observation of Shape-controlled Cells; Jun Nakanishi, Yukiko Kikuchi, Yuki Tsujimura, Hidekazu Nakayama, Takahiro Shimizu, Kazuo Yamaguchi, Hideo Yokota, Yasuhiko Yoshida, Tohru Takarada, Mizuo Maeda, Yasuhiro Horiike, Supramol. Chem., 22, 396-405, (2010).

10.1080/10610278.2010.483735

94

2010

(5)

Thermodynamic Characterization of the Interaction between Prefoldin and Group II Chaperonin; Muhamad Sahlan, Tamotsu Zako, Phan The Tai, Akashi Ohtaki, Keiichi Noguchi, Mizuo Maeda, Hideyuki Miyatake, Naoshi Dohmae and Masafumi Yohda J Mol. Biol. 399, 628-636, (2010).

10.1016/j.jmb.2010.04.046

93

2010

(4)

Development of Near Infrared-Fluorescent Nanophosphors and Applications for Cancer Diagnosis and Therapy; Tamotsu Zako, Hiroshi Hyodo, Kosuke Tsuji, Kimikazu Tokuzen, Hidehiro Kishimoto, Masaaki Ito, Kazuhiro Kaneko, Mizuo Maeda and Kohei Soga, J. Nanomaterials, 2010, 491471, (2010).

10.1155/2010/491471

92

2010

(3)

Bio-Supramolecular Photochirogenesis with Molecular Chaperone: Enantiodifferentiating Photocyclodimerization of 2-Anthracenecarboxylate Mediated by Prefoldin; Kazuki Bando, Tamotsu Zako, Masafumi Sakono, Mizuo Maeda, Takehiko Wada, Masaki Nishijima, Gaku Fukuhara, Cheng Yang, Tadashi Mori, Tamara C.S. Pace, Cornelia Bohne and Yoshihisa Inoue, Photochem. Photobiol. Sci., 9, 655 – 660, (2010).

10.1039/b9pp00186g

91

2010

(2)

Degradation and Adsorption Characteristics of PHB Depolymerase as Revealed by Kinetics for the Mutant Enzymes with Amino Acid Substitution in Substrate-Binding Domain; Tomohiro Hiraishi, Naoya Komiya, Nobuhiko Matsumoto, Hideki Abe, Masahiro Fujita, and Mizuo Maeda, Biomacromolecules, 11, 113-119, (2010).

10.1021/bm900967a

90

2010

(1)

Hyperthermophilic archaeal prefoldin shows refolding activity at low temperature; Tamotsu Zako, Shinya Banba, Sahlan Muhamad, Masafumi SakonoNaofumi TeradaMasafumi Yohdaand Miuzo MaedaBiochem. & Biophysi. Res. Comm., 391, 467-470, (2010).

10.1016/j.bbrc.2009.11.081

89

2009

(12)

Reversible photoswitching of a G-quadruplex; Shinzi Ogasawara, Mizuo Maeda, Angew. Chem., Int. Ed., 486671-6674, (2009).

 

88

2009

(11)

SNP genotyping of unpurified PCR products by sandwich-type affinity electrophoresis on a microchip with programmed autonomous solution filling; Akira Inoue, Aishan Han, Kimiko Makino, Kazuo Hosokawa, Mizuo Maeda, Lab Chip., 9, 3297-3302, (2009).

 

87

2009

(10)

Phosphate-affinity electrophoresis on a microchip for determination of protein kinase activity; Aishan Han, Kazuo Hosokawa, Mizuo Maeda, Electrophoresis, 30, 3507-3513, (2009).

 

86

2009

(9)

Easy design of logic gates based on aptazymes and noncrosslinking gold nanoparticle aggregation; Atsushi Ogawa, Mizuo Maeda, Chem. Commun., 4666-4668, (2009).

 

85

2009

(8)

Detector-free and Multiple Sensing of Various Molecules Using Gold Nanoparticles and Aptazymes; Atsushi Ogawa, Mizuo Maeda, Chem. Lett., 38, 848-849, (2009).

 

84

2009

(7)

Controlling the number and positions of oligonucleotides on gold nanoparticle surfaces; Kenji Suzuki, Kazuo Hosokawa, Mizuo Maeda, J. Am. Chem. Soc., 31, 7518-7519, (2009).

 

83

2009

(6)

Bovine Insulin Filaments Induced by Reducing Disulfide Bonds Show a Different Morphology, Secondary Structure, and Cell Toxicity from Intact Insulin Amyloid Fibrils; Tamotsu Zako, Masafumi Sakono, Naomi Hashimoto, Masaki Ihara and Mizuo Maeda, Biophys. J., 96, 3331-3340, (2009).

 

82

2009

(5)

Alternating current cloud point extraction on a microchip for preconcentration of membrane-associated biomolecules; Naoki Sasaki, Kazuo Hosokawa, Mizuo Maeda, Lab Chip, 9, 1168-1170, (2009).

 

81

2009

(4)

RAFT-generated Polyacrylamide-DNA Block Copolymers for Single-nucleotide Polymorphism Genotyping by Affinity Capillary Electrophoresis; Naoki Kanayama, Hideaki Shibata, Ayumi Kimura, Daisuke Miyamoto, Tohru Takarada, Mizuo Maeda, Biomacromolecules, 10, 805-813, (2009).

 

80

2009

(3)

Luminescence-based colorimetric discrimination of single-nucleotide transversions by the combined use of the derivatives of DOTA-conjugated naphthyridine and its terbium complex; Hiroshi Atsumi, Keitaro Yoshimoto, Shingo Saito, Moriya Ohkuma, Mizuo Maeda, Yukio Nagasaki, Tetrahedron Letters, 50, 2177-2180, (2009).

 

79

2009

(2)

Cyclic RGD Peptide-Labeled Upconversion Nanophosphors for Tumor Cell-Targeted Imaging; Tamotsu Zako, Hiroyasu Nagata, Naofumi Terada, Arata Utsumi, Masafumi Sakono, Masafumi Yohda, Hiroshi Ueda, Kohei Soga and Mizuo Maeda, Biochem. Biophys. Res. Commun., 381, 54-58, (2009).

 

78

2009

(1)

Spatial Distribution of Laminar Flow-Assisted Dendritic Amplification; Kazuo Hosokawa, Mizuo Maeda, Lab Chip, 9, 464-468, (2009).

 

77

2008

(21)

Straightforward and Reversible Photoregulation of Hybridization by Using a Photochromic Nucleoside; Shinzi Ogasawara, Mizuo Maeda, Angew. Chem. Int. Ed., 47, 8839-8842, (2008).

 

76

2008

(20)

Adsorption Characteristics of P(3HB) Depolymerase as Evaluated by Surface Plasmon Resonance and Atomic Force Microscopy; Nobuhiko Matsumoto, Masahiro Fujita, Tomohiro Hiraishi, Hideki Abe, and Mizuo Maeda, Biomacromolecules, 9, 3201-3207 (2008).

 

75

2008

(19)

Stereocomplex Formation through Reorganization of Poly(L-lactic acid) and Poly(D-lactic acid) Crystals; Masahiro Fujita, Tomoharu Sawayanagi, Hideki Abe, Toshihisa Tanaka, Tadahisa Iwata, Kazuki Ito, Tetsuro Fujisawa, and Mizuo Maeda, Macromolecules, 41, 2852-2858 (2008).

 

74

2008

(18)

Scaffolds from Electrospun Polyhydroxyalkanoate Copolymers: Fabrication, Characterization, Bioabsorption and Tissue Response; Hui Ying Tang, Daisuke Ishii, Atsushi Mahara, Sunao Murakami, Tetsuji Yamaoka, Kumar Sudesh, Razip Samian, Masahiro Fujita, Mizuo Maeda and Tadahisa Iwata, Biomaterials, 29, 1307-1317 (2008).

 

73

2008

(17)

Photochromic Nucleobase:Reversible Photoisomerization, Photochemical Properties and Photoregulation of hybridization; Shinzi Ogasawara, Mizuo Maeda, Nucleic Acids Symp. Ser., 52, 369-370, (2008).

 

72

2008

(16)

Simple and Rapid Colorimetric Detection of Cofactors of Aptazymes Using Noncrosslinking Gold Nanoparticle Aggregation; Atsushi Ogawa, Mizuo Maeda, Bioorg. Med. Chem. Lett.,18, 6517-6520, (2008).

 

71

2008

(15)

Arraying Heterotypic Single Cells on Photoactivatable Cell-Culturing Substrates; Yukiko Kikuchi, Jun Nakanishi, Takahiro Shimizu, Hidekazu Nakayama, Satoshi Inoue, Kazuo Yamaguchi, Hideo Iwai, Yasuhiko Yoshida, Yasuhiro Horiike, Tohru Takarada, Mizuo Maeda, Langmuir, 24, 13084-13095, (2008).

 

70

2008

(14)

Formation of highly toxic soluble amyloid beta oligomers by the molecular chaperone prefoldin; Masafumi Sakono, Tamotsu Zako, Hiroshi Ueda, Masafumi Yohda, and Mizuo Maeda, FEBS Journal 275, 5982-5993, (2008).

 

69

2008

(13)

A Novel Label-Free Biosensor Using an Aptazyme/Suppressor-tRNA Conjugateand an Amber-Mutated Reporter Gene; Atsushi Ogawa, Mizuo Maeda, ChemBioChem, 9, 2204-2208, (2008).

 

68

2008

(12)

Simple and Rapid Colorimetric Detection of a Cofactor of an Aptazyme Using Noncrosslinking Gold Nanoparticle Aggregation; Atsushi Ogawa, Mizuo Maeda, Nucleic Acids Symp. Ser., 52, 527-528, (2008).

 

67

2008

(11)

“Chaperonin and prefoldin - Two molecular chaperones that work cooperatively in archaea and eukaryote” in Heat shock proteins :New Research (Edited by Emma Moreland and Camille Vincent); Zako, T., Iizuka, R., Kanzaki, T., Maeda, M. and Yohda, M. pp. 393-416 Nova Science Publishers, Inc., New York, USA, (2008).

 

66

2008

(10)

Prefoldin prudentially interacts with group II chaperonin in its ADP bound open conformation : Zako, T., Murase, Y., Iizuka, R., Kanzaki, T., Shimizu, M., Yohda, M., Maeda, M., FEBS Journal, 275, suppl 1, 207, (2008).

 

65

2008

(9)

Influence of structural state of sHSP for aggregation of amyloid beta: Sakono, M., Utsumi, A., Zako, T., Sugino, C., Yohda, M. and Maeda, M. FEBS Journal, 275 suppl 1, 196, (2008).

 

64

2008

(8)

Improvement of dispersion stability and characterization of upconversion nanophosphors covalently modified with PEG as a fluorescence bioimaging probe: Zako, T., Nagata, H., Terada, N., Sakono, M, Soga, K and Maeda, M. J. Materials Sci. 43, 5325-5330, (2008).

 

63

2008

(7)

Evaluation of single-base substitution rate in DNA by affinity capillary electrophoresis: Naoki Kanayama, Tohru Takarada, Hideaki Shibata, Ayumi Kimura, Mizuo Maeda, Anal. Chim. Acta, 619, 101-109, (2008).

 

62

2008

(6)

Synthesis and reversible photoisomerization of photoswichable nucleoside, 8-styryl-2’-deoxyguanosine: Shinzi Ogasawara, Isao Saito, Mizuo Maeda, Tetrahedron Letters, 49, 2479, (2008).

 

61

2008

(5)

Affinity capillary electrophoretic DNA separation using PEG-oligodeoxyribonucleotide block copolymers: Relationship between peak resolution and affinity strength: Naoki Kanayama, Tohru Takarada, Ayumi Kimura, Hideaki Shibata, Mizuo Maeda, J. Sep. Sci., 31, 837-844, (2008).

 

60

2008

(4)

Detection of non-cross-linking interaction between DNA-modified gold nanoparticles and a DNA-modified flat gold surface using surface plasmon resonance imaging on a microchip: Yasunobu Sato, Kazuo Hosokawa, Mizuo Maeda, Colloids Surf., B, 62, 71-76, (2008).

 

59

2008

(3)

Electrophoresis of Membrane-Associated Molecules in Packed Beds of Bilayer-Coated Particles: Kenji Suzuki, Kazuo Hosokawa, Mizuo Maeda, J. Am. Chem. Soc., 130, 1542-1543, (2008).

 

58

2008

(2)

Recent advances in cell micropatterning techniques for bioanalytical and biomedical sciences: Jun Nakanishi, Tohru Takarada, Kazuo Yamaguchi, Mizuo Maeda, Ana. Sci., 24, 67-72, (2008).

 

57

2008

(1)

An Artificial Aptazyme-Based Riboswitch and its Cascading System in E. coli: Atsushi Ogawa, Mizuo Maeda, ChemBioChem, 9, 206-209, (2008).

 

56

2007

(15)

Development of a New-type Riboswitch Using an Aptazyme and an anti-RBS Sequence: Atsushi Ogawa, Mizuo Maeda, Nucleic Acids Symp. Ser., 51, 389-390, (2007).

 

55

2007

(14)

Structural Transition of Poly[(R)-3-hydroxybutyrate] Single Crystals on Heating as Revealed by SAXS and WAXD; Mashiro Fujita, Tadahisa Iwata, and Kazuki Ito, SPring-8 Research Frontiers 2006, 104-105 (2007).

 

54

2007

(13)

Turbidimetric detection of ATP using polymeric micelles and DNA aptamers: Daisuke Miyamoto, Zhonglan Tang, Tohru Takarada, Mizuo Maeda, Chem. Commun., 4743-4745, (2007).

 

53

2007

(12)

Use of helper oligonucleotides in affinity capillary electrophoresis on a microchip for detection of single-nucleotide polymorphisms: Aishan Han, Akira Inoue, Kazuo Hosokawa, Mizuo Maeda, Anal. Biochem., 371, 124-126, (2007).

 

52

2007

(11)

Poly(ethylene glycol)-oligodeoxyribonucleotide block copolymers for affinity capillary electrophoretic separation of single-stranded DNAs with a single-base difference: Naoki Kanayama, Tohru Takarada, Ayumi Kimura, Hideaki Shibata, Mizuo Maeda, Reactive & Functional Polymers, 67, 1373-1380, (2007).

 

51

2007

(10)

Spatiotemporal Control of Migration of Single Cells on a Photoactivable Cell Microarray: Jun Nakanishi, Yukiko Kikuchi, Satoshi Inoue, Kazuo Yamaguchi, Tohru Takarada, Mizuo Maeda, J. Am. Chem. Soc., 129, 6694-6695, (2007).

 

50

2007

(9)

Aptazyme-based riboswitches as label-free and detector-free sensors for cofactors: Atsushi Ogawa, Mizuo Maeda, Bioorg. Med. Chem. Lett., 17, 3156-3160, (2007).

 

49

2007

(8)

Immunoassay on a Power-Free Microchip with Laminar Flow-Assisted Dendritic Amplification: Kazuo Hosokawa, Masaki Omata, Mizuo Maeda, Anal. Chem., 79, 6000-6004, (2007).

 

48

2007

(7)

I-Shaped Microchannel Array Chip for Parallel Electrophoretic Analyses: Akira Inoue, Toshiyuki Ito, Kimiko Makino, Kazuo Hosokawa, and Mizuo Maeda, Anal. Chem., 79, 2168-2173, (2007).

 

47

2007

(6)

Detection of single-base mismatch at distal end of DNA duplex by electrochemical impedance spectroscopy: Toshiyuki Ito, Kazuo Hosokawa, Mizuo Maeda, Biosens. Bioelectron, 22, 1816-1819, (2007).

 

46

2007

(5)

Selective ultratrace detection of Al(III) and Ga(III) complexed with a calcein isomer by capillary zone electrophoresis with laser-induced fluorescence detection Comparison of emissive polyaminocarboxylates as derivatizing ligands: Shingo Saito, Jun-ichi Shimidzu, Keitaro Yoshimoto, Mizuo Maeda, Masakazu Aoyama, J. Chromatography A, 1140, 230-235, (2007).

 

45

2007

(4)

Colorimetric Biosensors Based on DNA-nanoparticle Conjugates: Kae Sato, Kazuo Hosokawa, Mizuo Maeda, Ana. Sci., 23, 17-20, (2007).

 

44

2007

(3)

Fluorescence-based affinity labeling of nucleobase by hydrogen-bond forming metal complex: Keitaro Yoshimoto, Hiroshi Atsumi, Shingo Saito, Moriya Okuma, Mizuo Maeda, Yukio Nagasaki, Nucleic Acids Symp. Ser., 51, 303-304, (2007).

 

43

2007

(2)

Direct Fluorometric Detection of Sub-Attomol of Paramagnetic and Heavy Metal Ions Using An Aromatic Polyaminocarboxylate by Capillary Zone Electrophoresis: Combination of Pre and On-capillary Complexation Technique: Shingo Saito, Pyouji Suzuki, Naoki Danzaka, Atsushi Hikichi, Keitaro Yoshimoto, Mizuo Maeda, Masakazu Aoyama, Electrophoresis, 28 (14), 2448-2457, (2007).

 

42

2007

(1)

Direct Fluorecent Detection of Sub Atto Mole Lanthanide (III) Ions Complexed with Aromatic Polyaminocarboxylate Avoiding Quenching of Ligand-Centered Emission Using Capillary Zone Electrophoresis With Ternary Complexing Technique: Shingo Saito, Shingo Takeuchi, Keitaro Yoshimoto, Mizuo Maeda, Masakazu Aoyama, Analyst, 132, 237-241, (2007).

 

41

2006

(12)

Spatiotemporal control of cell adhesion on a self-assembled monolayer having a photocleavable protecting group: Jun Nakanishi, Yukiko Kikuchi, Tohru Takarada, Hidekazu Nakayama, Kazuo Yamaguchi, Mizuo Maeda, Anal. Chim. Acta, 578, 100-104, (2006).

 

40

2006

(11)

A MutS Protein-immobilized Au Electrode for Detecting Single-base Mismatch of DNA: Aishan Han, Tohru Takarada, Taiki Shibata, Masamichi Nakayama, Mizuo Maeda, Ana. Sci., 22, 663-666, (2006).

 

39

2006

(10)

Sequence-Specific Aggregation Behavior of DNA-Carrying Colloidal Nanoparticles Prepared from Poly(N-isopropylacrylamide)-graft- Oligodeoxyribonucleotide: Mizuo Maeda, Polymer J., 38, 1099-1104, (2006).

 

38

2006

(9)

Effects of mutations in the substrate-binding domain of poly[(R)-3-hydoxybutyrate] (PHB) depolymerase from Ralstonia pickettii T1 on PHB degradation: Tomohiro Hiraishi, Yoko Hirahara, Yoshio Doi, Mizuo Maeda, Seiichi Taguchi, Appl. Environ. Microbiol., 72, 7331-7338, (2006).

 

37

2006

(8)

Localization of Prefoldin Interaction Sites in the Hyperthermophilic Group II Chaperonin and Correlations between Binding Rate and Protein Transfer Rate : Tamotsu Zako , Yosuke Murase, Ryo Iizuka, Takao Yoshida, Taro Kanzaki, Naoki Ide, Mizuo Maeda, Takashi Funatsu, and Masafumi Yohda, J. Mol. Biol. 364, 110-120, (2006).

 

36

2006

(7)

Surface plasmon resonance imaging on a microchip for detection of DNA-modified gold nanoprticles deposited onto the surface in a non-cross-linking configuration: Yasunobu Sato, Kae Sato, Kazuo Hosokawa, Mizuo Maeda; Anal. Biochem., 355, 125-131, (2006).

 

35

2006

(6)

Multiplex Gene Mutation Analysis Using Affinity Capillary Electroresis in a Single Microfluidic Channel; Akira Inoue, Toshiyuki Ito, Kae Sato, Kazuo Hosokawa, Kimiko Makino, Mizuo Maeda, Chem. Lett., 35, 658-659, (2006).

 

34

2006

(5)

Separation of single-stranded DNAs using DNA conjugates having different migration properties in capillary electrophoresis; Yoshihiko Murakami Mizuo Maeda, J. Chromatography A, 1106, 118-123, (2006).

 

33

2006

(4)

FRET-based Monitoring of Conformational Change of the β2 Adrenergic Receptor in Living Cells; Jun Nakanishi, Tohru Takarada, Shinya Yunoki, Yukiko Kikuchi, and Mizuo Maeda, Biochem. Biophys. Res. Commun., 343 1191-1196, (2006).

 

32

2006

(3)

Affinity capillary electrophoresis of DNA for detection of single-nucleotide  polymorphisms and point mutations: Comprehensive study for optimization of the weak affinity; Kae Sato, Miwa Onoguchi, Kazuo Hosokawa, and Mizuo Maeda, J. Chromatogr. A 1111, 120-126, (2006).

 

31

2006

(2)

Non-cross-linking gold nanoparticle aggregation for sensitive detection of single-nucleotide polymorphisms: Optimization of the particle diameter; Kae Sato, Miwa Onoguchi, Yasunobu Sato, Kazuo Hosokawa, and Mizuo Maeda, Anal. Biochem., 350, 162-164, (2006).

 

30

2006

(1)

Power-free sequential injection for microchip immunoassay toward point-of-care testing; Hosokawa Kazuo, Omata Masaki, Sato Kae, and Maeda Mizuo, Lab on a Chip, 6, 236-241, (2006).

 

29

2005

(8)

DNA-Responsive Hydrogels That Can Shrink or Swell; Yoshihiko Murakami and Mizuo Maeda, Biomacromolecules, 6, 2927-2929, (2005).

 

28

2005

(7)

AFM Observation of In Vitro Polymerized Poly[(R)-3-hydroxybutyrate] : Insight into Possible Mechanism of PHB Granule Formation; Tomohiro Hiraishi, Yoshihiro Kikkawa, Masahiro Fujita, Normi Mohd Yahaya, Masatoshi Kanesato, Takeharu Tsuge, Kumar Sudesh, Mizuo Maeda, Yoshiharu Doi, Biomacromolecules, 6, 2671-2677, (2005).

 

27

2005

(6)

Assignment of hydrogen-bond structure in a ligand-nucleobase complex inside duplex DNA: Combined use of quantum chemical calculations and 15N NMR experiments; Keitaro Yoshimoto, Seiichi Nishizawa, Hiroyuki Koshino, Yusuke Sato, Norio Teramae, Mizuo Maeda, Nucleic Acids Symp. Ser., 49, 255-256, (2005).

 

26

2005

(5)

Detection of single-base mutation by affinity capillary electrophoresis using a DNA-polyacrylamide conjugate; Kae Sato, Akira Inoue, Kazuo Hosokawa, Mizuo Maeda, Electrophoresis 26, 3076-3080, (2005).

 

25

2005

(4)

Autonomous polymer loading and sample injection for microchip electrophoresis; Toshiyuki Ito, Akira Inoue, Kae Sato, Kazuo Hosokawa, Mizuo Maeda, Anal. Chem., 77, 4759-4764, (2005).

 

24

2005

(3)

Hybrid hydrogels to which single-stranded (ss) DNA probe is incorporated can recognize specific ssDNA; Yoshihiko Murakami, Mizuo Maeda, Macromolecules, 38, 1535-1537, (2005).

 

23

2005

(2)

Capillary electrophoretic discrimination of single nucleotide polymorphisms using oligodeoxyribonucleotide-polyacrylamide conjugate as a pseudo-immobilized affinity ligand: optimum ligand length predicted by melting temperature values; Keiko Mishima, Tohru Takarada, Mizuo Maeda, Anal. Sci. 21, 25-29, (2005).

 

22

2005

(1)

Non-cross-linking gold nanoparticle aggregation as a detection method for single-base substitutions; Kae Sato, Kazuo Hosokawa, Mizuo Maeda, Nucleic Acids Research, 33,1,e4, (2005).

 

21

2004

(6)

Photoactivation of a Substrate for Cell Adhesion under Standard Fluorescence Microscopes; Jun Nakanishi, Yukiko Kikuchi, Tohru Takarada, Hidekazu Nakayama, Kazuo Yamaguchi, and Mizuo Maeda, J. Am. Chem. Soc. 126, 16314-16315, (2004).

 

20

2004

(5)

Colloidal nanoparticles from poly(N-isopropylacrylamide)-graft-DNA for single nucleotide discrimination based on salt-induced aggregation: extension to long target DNA; Zhonglan Tang, Tohru Takarada, Yoshikuni Sato, Mizuo Maeda, Chem. Lett. 33 , 1602-1603, (2004).

 

19

2004

(4)

Single-base mutation detection using neutravidin-modified polystyrene nanoparticle aggregation; Kae Sato, Munetaka Sawayanagi, Kazuo Hosokawa, Mizuo Maeda, Anal. Sci. 20, 893-894, (2004).

 

18

2004

(3)

Power-free poly(dimethylsiloxane) microfluidic devices for gold nanoparticle-based DNA analysis; Kazuo Hosokawa, Kae Sato, Naoki Ichikawa, Mizuo Maeda, Lab on a Chip, 4, 181-185, (2004).

 

17

2004

(2)

Temperature-Responsive Formation of Colloidal Nanoparticles from Poly(N-isopropylacrylamide) Grafted with Single-Stranded DNA; Takeshi Mori, Mizuo Maeda, Langmuir, 20, 313-319, (2004).

 

16

2004

(1)

A New Protein Conformation Indicator Based on Biarsenical Fluorescein with an Extended Benzoic Acid Moiety; Jun Nakanishi, Mizuo Maeda, Yoshio Umezawa, Anal. Sci., 20, 273-278, (2004).

 

15

2003

(9)

A Microfluidic Device for Mixing of Capillary-Driven Liquids; Kazuo Hosokawa, Mizuo Maeda, IEEJ Trans. SM, 123, 23-24, (2003).

 

14

2003

(8)

Oligodeoxynucleotide-Modified Capillary for Electrophoretic Separation of Single-Stranded DNAs with a Single-Stranded DNAs with a Single-Base Difference; Takahisa Anada, Masako Ogawa, Hisashi Yokomizo, Yoshihisa Ozaki, Tohru Takarada, Yoshiki Katayama, Mizuo Maeda, Anal. Sci., 29, 73-77, (2003).

 

13

2003

(7)

Preparation of Ferrocyanide-Imprinted Pyridine-Carrying Microspheres by Surface Imprinting Polymerization; Isamu Fujiwara, Mizuo Maeda, Makoto Takagi, Anal. Sci., 19, 617-620, (2003).

 

12

2003

(6)

Novel Gene Assay by Probe-Regulated Simultaneous Separation Using Capillary Electrophoresis (CE-PRESS); Yoshihiko Murakami, Mizuo Maeda, J. Biosci. Bioeng., 96, 95-97, (2003).

 

11

2003

(5)

Thermo-Responsive DNA/Polymer Conjugate for Intelligent Antisense Strategy; Masaharu Murata, Wataru Kaku, Takahisa Anada, Nobuaki Soh, Yoshiki Katayama, Mizuo Maeda, Chem. Lett., 32, 266-267, (2003).

 

10

2003

(4)

Affinity Capillary Electrophoresis in a Poly(dimethylsiloxane)-glass Hybrid Microchip; Toshiyuki Ito, Akira Inoue, Kae Sato, Kazuo Hosokawa, Mizuo Maeda, Chem. Lett., 32, 688-689, (2003).

 

9

2003

(3)

Rapid aggregation of gold nanoparticles induced by non-cross-linking DNA hybridization; Kae Sato, Kazuo Hosokawa, Mizuo Maeda, J. Am. Chem. Soc., 125, 8102-8103, (2003).

 

8

2003

(2)

A Novel Inhibitor for Fe-type Nitrile Hydrotase: 2-Cyano-2-propyl Hydroperoxide; Masanari Tsujimura, Masafumi Odaka, Hiroshi Nakayama, Naoshi Dohmae, Hiroyuki Koshino, Tadao Asami, Mikio Hoshino, Koji Takio, Shigeo Yoshida, Mizuo Maeda, Isao Endo, J. Am. Chem. Soc., 125, 11532-11538, (2003).

 

7

2003

(1)

Motif CXCC in nitrile hydratase activator is crucial for NHase biogenesis in vivo; Jun Lu, Yujuan Zheng, Hiromi Yamagishi, Masafumi Odaka, Masanari Tsujimura, Mizuo Maeda, Isao Endo, FEBS Lett., 553, 391-396, (2003).

 

6

2002

(5)

Gene mutation assay using a MutS protein-modified electrode; Aishan Han, Taiki Shibata, Tohru Takarada, Mizuo Maeda, Nucleic Acids Res. Suppl., 2, 287-288, (2002).

 

5

2002

(4)

Stability Change of DNA-Carrying Colloidal Particle Induced by Hybridization with Target DNA; Takeshi Mori, Mizuo Maeda, Polymer J., 34, 624-628, (2002).

 

4

2002

(3)

Affinity Precipitation Separation of DNA Binding Protein Using Block Conjugate Composed of Poly(N-isopropylacrylamide) Grafted Double-Stranded DNA and Double-Stranded DNA Containing a Target Sequence; Nobuaki Soh, Daisuke Umeno, Zhonglan Tang, Masaharu Murata, Mizuo Maeda, Anal. Sci., 18, 1295-1299, (2002).

 

3

2002

(2)

The separation of oligodeoxynucleotides having a single-base difference by affinity capillary electrophoresis using oligodeoxynucleotide-polyacrylamide conjugate; Takahisa Anada, Takumi Arisawa, Yoshihisa Ozaki, Tohru Takarada, Yoshiki Katayama, Mizuo Maeda, Electrophoresis, 23, 2267-2273, (2002).

 

2

2002

(1)

DNA sensors using a ferrocene-oligonucleotide conjugate; Masamichi Nakayama, Toshihiro Ihara, Koji Nakano, Mizuo Maeda, Talanta, 56, 857-866, (2002).

 

1

2001

(1)

Formation of DNA-Carrying Colloidal Particle from Poly(N-isopropylacrylamide)- graft-DNA Copolymer and Its Assembly through Hybridization; Takeshi Mori, Mizuo Maeda, Polymer J., 33, 830-833, (2001).

 

日本語総説 (2001-現在)

Index

Year

Index in each Year

Title; Author(s), Journal, Volume (Issues), Pages, (Year).

50

2013

1

藤田雅弘:  “DNA密生層を有するナノ粒子の構造科学研究”, 表面, Vol.51, 364-377 (2013).

49

2010

1

前田 瑞夫:ソフトインターフェースの分子科学,応用物理,Vol.79  No.3219-2242010).

48

2009

1

前田 瑞夫:あなたはMac派?それともWin派?,バイオマテリアル,Vol.27  No.4213-2142009

47

2009

2

前田 瑞夫:バイオセンシング,プラズモンナノ材料の最新技術,No.6176-1822009).

46

2009

3

藤田 雅弘,前田 瑞夫:ソフトインターフェース高分子界面の新しい機能- ”,高分子,No.587月号,483-4882009).

45

2009

4

前田 瑞夫,小川 敦司:23章 金ナノ粒子を用いるバイオセンシング,金ナノテクノロジー -その基礎と応用294-3082009).

44

2009

5

前田 瑞夫,小川 敦司:金ナノ粒子を用いるバイオセンシング,新材料・新素材シリーズ 金ナノテクノロジーその基礎と応用-294-3082009).

43

2009

6

宝田 徹,前田 瑞夫:“DNA担持ナノ粒子を用いるバイオ解析,新しい地平をひらく分析手法の最前線(化学フロンティア 20),89-932009).

42

2009

7

平石 知裕,前田 瑞夫:非天然型βペプチド:機能・分解・合成新規分解酵素の逆反応を利用した合成プロセスを開発-”,化学と生物,Vol.47No.113-152009).

41

2008

1

佐藤 保信,前田 瑞夫:“DNA担持ナノ粒子による遺伝子診断,ぶんせき, 9月,468-471 2008).

40

2008

2

平石 知裕:バイオプラスチックの分解寿命の制限技術,バイオプラスチックの高機能化・再資源化技術,126-1362008).

39

2008

3

前田 瑞夫:マイクロ流路で機能するDNAコンジュゲート物質,化学とマイクロ・ナノシステム研究会誌,Vol.7No.11-62008).

38

2008

4

前田 瑞夫:ソフト界面で見られる不思議な現象,化学,No.63No.340-452008).

37

2008

5

藤田 雅弘,土肥 義治:大型放射光による生分解性ポリエステル結晶の動的構造解析,日本ゴム協会,No.81No.123-282008).

36

2007

1

平石 知裕:ポリアスパラギン酸および誘導体の合成と生分解,植物由来プラスチックの高機能化とリサイクル技術,283-2912007).

35

2007

2

平石 知裕,藤田 雅弘:バイオプラスチック分解酵素の吸着・触媒挙動,バイオインダストリー,No.2471-782007).

34

2007

3

前田 瑞夫:学会印象記,バイオマテリアル,140-1422007).

33

2006

1

佐藤 保信,細川 和生,前田 瑞夫:金ナノ粒子を用いた遺伝子診断法,臨床検査,Vol:50No.121397-14082006).

32

2006

2

田口 精一,平石 知裕:「酵素」が演出するバイオプラスチックの生合成と生分解,未来材料,Vol:6No.744-512006).

31

2006

3

中西 淳,前田 瑞夫:新規細胞アレイ作製法,医学のあゆみ,Vol:218, No.2, 125-128 2006).

30

2006

4

佐藤 保信,細川 和生,前田 瑞夫:金ナノ粒子を用いるDNAバイオセンシング,プラズモン材料の設計と応用技術,6月,251-2602006).

29

2006

5

前田 瑞夫:ナノ診断工学,生体工学概論,114-1242006).

28

2006

6

宝田 徹,中西 淳,前田 瑞夫:ケージド細胞培養基板を用いる細胞アレイ作成,バイオインダストリー,Vol:23No.11月号,6-112006).

27

2005

1

細川 和生:自律型マイクロチップで簡単SNP診断,バイオニクス,Vol:3 No.170-71 2005).

26

2005

2

佐藤 保信,佐藤 香枝,細川 和生,前田 瑞夫:“DNA装飾金ナノ粒子で見分ける一塩基変異(表面プラズモン共鳴イメージングによる観察),バイオサイエンスとインダストリー,Vol:63No.129-102005).

25

2005

3

前田 瑞夫:バイオ材料の基礎 シリーズ 現代工学入門(2005 5月.

24

2005

4

前田 瑞夫:“DNA検出技術,第19回「大学と科学」公開シンポジウム「人体にやさしい医療材料,42-512005).

23

2005

5

細川 和生:“PDMSの物性を活かした自立型マイクロチップ,高分子,Vol:54No.8562-5652005).

22

2005

6

中西 淳,前田 瑞夫:異なる種類の細胞を望みの位置に配置するケージド細胞培養基板技術”BionicsVol:MayNo.5 60-61 2005

21

2005

7

中西 淳,前田 瑞夫:細胞の足場を制御する技術化学,Vol:60No.1 68-69 2005).

20

2004

1

中西 淳:タンパク質構造変化,先端の分析法, 347-3522004).

19

2004

2

前田 瑞夫,宝田 徹,唐 中嵐:微粒子・量子ドット,先端の分析法, 274-2802004).

18

2004

3

細川 和生:マイクロチップと金ナノ粒子簡易SNP認識法に向けて,バイオマテリアル,Vol:22No.6400-4062004).

17

2004

4

村上義彦,前田瑞夫:新しいインテリジェントマテリアルとしてのDNAコンジュゲートハイドロゲル未来材料,Vol:4No.8 24-29 2004).

16

2004

5

前田 瑞夫:ナノ診断Medical PharmacyVol:38No.4 pp432004).

15

2004

6

宝田 徹,前田瑞夫:“DNA担持ナノ粒子による遺伝子診断,有機合成化学協会誌, Vol:62No.5534-5392004).

14

2004

7

細川 和生,前田 瑞夫:金ナノ粒子によるSNP簡単判定法Bio MedicalQuick Review NetNo.40121-52004).

13

2004

8

村上 義彦,前田 瑞夫:次世代バイオサイエンスへの扉 ~ナノバイオテクノロジーへの招待Bio ベンチャー,Vol:3-4, 62-64 2004).

12

2004

9

佐藤 香枝,前田 瑞夫:金ナノ粒子を用いた遺伝子診断法の開発Bio ベンチャー,Vol:1-2, 38-39 2004).

11

2003

1

村上 義彦,前田 瑞夫:医療分野におけるバイオ複合材料MATERIAL STAGEVol:3, 71-75 2003).

10

2003

2

佐藤 香枝,前田 瑞夫:アフィニティー電気泳動による遺伝子の一塩基変異検出法,実験医学,Vol:21No.182569-25732003).

9

2003

3

細川 和生,前田 瑞夫:“DNA複合ナノマテリアルとバイオ応用,ナノバイオテクノロジーの最前線,40-432003).

8

2003

4

三嶋 恵子,前田 瑞夫:5章:バイオセンシン,バイオナノテクノロジー,77-992003).

7

2003

5

前田 瑞夫:“DNA二重らせん雑感,バイオマテリアル,Vol:21No.4July253-2542003).

6

2003

6

宝田 徹,前田 瑞夫:遺伝子を塩で見分ける,現代化学, 4月号,36-412003).

5

2003

7

藤原 勇,内山 明美,佐々木 義明,前田 瑞夫,高木 誠:イミダゾール基を表面に有する銅(II)鋳型均一の微粒子の合成,分析化学,Vol:52 2月号,147-1502003).

4

2003

8

細川 和生:化学合成用マイクロリアクターの開発,ファインケミカルシリーズ、マイクロリアクター”-新時代の合成技術-37-442003).

3

2002

1

宝田 徹,前田 瑞夫:“DNAコンジュゲートを用いる遺伝子診断法の開発,機能材料,Vol:22No.88月号,13-212002).

2

2002

2

前田 瑞夫:バイオテクノロジーとバイオマテリアル,バイオマテリアル,Vol:20No.3May15-222002).

1

2002

3

養王田 正文,細川 和生:遺伝子解析のマイクロ化,バイオサイエンスとインダストリー,Vol:59No.12821-8322002.