Kondo Akihiko | Department Of Bioactive Molecules National Institute Of Infectious Diseases
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概要
関連著者
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Kondo Akihiko
Department Of Bioactive Molecules National Institute Of Infectious Diseases
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近藤 昭彦
神戸大 大学院工学研究科
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近藤 昭彦
神戸大学大学院工学研究科応用化学専攻
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Kondo Akihiko
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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近藤 昭彦
神戸大院・自科
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Kondo Akihiko
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Kondo A
Kobe University
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近藤 昭彦
神戸大院・工
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近藤 昭彦
(株)ビークル
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Tanaka Tsutomu
Organization Of Advanced Science And Technology Kobe University
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Fukuda Hideki
Department Of Molecular Science And Material Engineering Graduate School Of Science And Technology K
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Kondo A
Kobe Univ. Kobe
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Fukuda H
Kobe Univ. Kobe Jpn
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Fukuda Hideki
Organization Of Advanced Science And Technology Kobe University
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Kondo Akihiko
Dep. Of Chemical Sci. And Engineering Graduate School Of Engineering Kobe Univ.
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Fukuda H
Kobe University
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Fukuda H
Division Of Molecular Science Graduate School Of Science And Technology Kobe University
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Kondo Akihiko
Kobe University
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Fukuda H
Kobe Univ. Kobe
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荻野 千秋
神戸大院・自然科学
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FUKUDA HIDEKI
Division of Molecular Science, Graduate School of Science and Technology, Kobe University
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Fukuda Hideki
Division Of Molecular Science Graduate School Of Science And Technology Kobe University
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Ishii Jun
Organization of Advanced Science and Technology, Kobe University
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近藤 昭彦
神戸大学工学部応用化学科
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田中 勉
神戸大・自・研究環
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近藤 昭彦
神戸大学大学院工学研究科
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中島 一紀
神戸大・研究環
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Shishido Takuya
Department of Molecular Science and Material Engineering, Graduate School of Science and Technology,
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蓮沼 誠久
神戸大院・工
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Hata Yoji
Research Institute, Gekkeikan Sake Co. Ltd.
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秦 洋二
月桂冠・総研
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秦 洋二
月桂冠(株)総合研究所
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宍戸 卓矢
神大院・工・応用化学
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山田 亮祐
神戸大院・自科
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山地 秀樹
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Yamaji Hideki
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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久田 博元
月桂冠・総研
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Yamaji H
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Sakamoto Takayuki
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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Wakamura Kanako
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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山田 亮祐
神戸大院・工
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久田 博元
月桂冠株式会社総合研究所
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MATSUMOTO TAKESHI
Division of Molecular Science, Graduate School of Science and Technology, Kobe University
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Hata Yoji
Research Institite Of Gekkeikan Gekkeikan Sake Co. Ltd.
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田中 勉
神戸大院・工・応化
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Kotaka Atsushi
Research Institute, Gekkeikan Sake Co. Ltd.
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Sahara Hiroshi
Research Institute, Gekkeikan Sake Co. Ltd.
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Kuroda Kouichi
Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
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Ueda Mitsuyoshi
Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
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ISHII Yoshiyuki
Department of Biomedical Science, Graduate School of Agricultural and Life Sciences, The University
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黒田 俊一
大阪大学産業科学研究所
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近藤 昭彦
神戸大・工・応化
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石田 博樹
月桂冠・総研
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黒田 俊一
大阪大学産業科学研究所:crest 科学振興機構:(株)ビークル
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山地 秀樹
神戸大・工
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Muraoka Masaru
Department of Molecular Science and Material Engineering, Graduate School of Science and Technology,
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Fukuda Hideki
Department of Molecular Science and Material Engineering, Graduate School of Science and Technology,
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MATSUMOTO TAKUYA
Department of Earth and Space Science, Graduate School of Science, Osaka University
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Ishii Yoshiyuki
Dep. Of Biomedical Sci. Graduate School Of Agricultural And Life Sciences The Univ. Of Tokyo
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Ishii Yoshiyuki
東京大学 農生命科研究
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Iguchi Yusuke
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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三枝 宏彰
神大院・工・応用化学
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荻野 千秋
神大院・工・応用化学
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近藤 昭彦
神大院・工・応用化学
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Ishii Yoshiyuki
Department Of Biomedical Science Graduate School Of Agricultural And Life Sciences The University Of
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藤井 郁雄
大阪府立大学大学院理学系研究科
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黒田 俊一
阪大・産科研
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則武 義幸
トヨタ自
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山口 剛示
神戸大院・工・応化
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片平 悟史
豊田中研
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則武 義幸
豊田中研
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OGAWA Hiroaki
Department of Thermonuclear Fusion Research,Naka Fusion Research Establishment,Japan Atomic Energy R
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岡崎 文美
神戸大・自科研究環
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Hata Yoji
Research Institute Gekkeikan Sake Co. Ltd.
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Ishii Yoshiyuki
Department Of Applied Chemistry Faculty Of Engineering Kyushu Institute Of Technology
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Kuroda Kouichi
Division Of Applied Life Sciences Graduate School Of Agriculture Kyoto University
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Sahara Hiroshi
Research Institute Gekkeikan Sake Co. Ltd.
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Kotaka Atsushi
Research Institute Gekkeikan Sake Co. Ltd.
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Muraoka Masaru
Department Of Molecular Science And Material Engineering Graduate School Of Science And Technology K
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田中 勉
神戸大・研究環
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Matsumoto Takuya
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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Sawamoto Shiori
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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Takase Ryosuke
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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MATSUMOTO Takeshi
Department of Hematology, Mie University Graduate School of Medicine
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Shimada Y
Department Of Biochemistry Osaka Municipal Technical Research Institute
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Shimada Y
Department Of Physics Chuo University:tecmo
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Shimada Yuji
Osaka Municipal Technical Research Institute
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Ogawa H
Department Of Applied Chemistry Faculty Of Engineering Kyushu Institute Of Technology
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Kato Yasuhiko
Department of Anesthesiology, Osaka Dental University
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Ito Tomonori
Kobe University
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Ohmura Naoto
Kobe University
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KOHDA JIRO
Division of Molecular Science, Graduate School of Science and Technology, Kobe University
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片平 哲史
豊田中研
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Kohda J
Hiroshima City University
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Kohda Jiro
Division Of Molecular Science Graduate School Of Science And Technology Kobe University:(present Add
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田中 勉
神戸大学自然科学系先端融合研究環
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石井 純
神戸大・研
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足立 崇
神戸大院・工
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黒田 俊一
名古屋大学大学院生命農学研究科
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近藤 昭彦
神戸大学統合バイオリファイナリーセンター
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NAKANISHI Takeshi
Department of Applied Physics and DIMES, Delft University of Technology Lorentzweg 1
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高橋 治雄
豊田中研
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仲山 英樹
奈良先端科学技術大学大学院バイオサイエンス研究科
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Nakagawa Masato
Department Of Hospital Pharmacy Faculty Of Pharmaceutical Sciences Kyoto Pharmaceutical University
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荻野 千秋
神戸大・工・応化
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TANAKA Mamoru
Department of Electrical and Electronics Engineering, Sophia University
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神谷 典穂
九大院・工・応化
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神谷 典穂
九大 工
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石田 亘広
豊田中研・バイオ研
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舘野 俊博
神戸大院・自科
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佐藤 和好
大阪大学 接合科学研究所
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仲山 英樹
奈良先端科学技術大学院大学バイオサイエンス研究科
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FUKUDA Nobuo
Department of Cardiology and Clinical Research, National Hospital Organization Zentsuji Hospital
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齋藤 聡志
トヨタ自動車
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福田 展雄
神戸大院・工
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荻野 千秋
神戸大学大学院工学研究科
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IWASAKI Yasushi
Department of Cardiovascular-Thoracic Surgery, Saiseikai Suita Hospital
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YOSHINAGA Kohji
Department of Applied Chemistry, Kyushu Institute of Technology
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宍戸 卓矢
神戸大学大学院自然科学研究科
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齋藤 聡志
トヨタバイオ・緑化
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Sakai Yumiko
Department Of Applied Chemistry And Bio Engineer Ing Graduate School Of Engineering Osaka City Unive
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Yoshida Ayumi
Kobe University:bio-energy Corporation
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Okita Koichi
Department of Cardiovascular Medicine, Hokkaido University Graduate School of Medicine
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黒田 俊一
名古屋大学
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西村 勇哉
神大院・工・応用化学
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良元 伸男
名大院・生命農
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黒田 俊一
名大院・生命農
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藤井 郁雄
阪府大・理
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谷口 菜穂
神戸大院・工・応化
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中村 里沙
豊田中研
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田端 一英
トヨタ自動車
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則武 義幸
トヨタ自動車
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大原 智
大阪大学 接合科学研究所
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仲島 菜々実
神戸大・自科研究環
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Fujii Ikuo
Biomolecular Engineering Research Institute
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Fujii Ikuo
Biomol. Eng. Res. Inst.
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Fukuda Nobuo
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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Izumoto Eiji
Kaneka Corporation Engineering Research Laboratories
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Ishida Hiroki
Research Institute Gekkeikan Sake Co. Ltd.
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Kondo Akihiko
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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Kurokawa Y
Hsp Res. Inst. Kyoto Jpn
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Tanaka Tsutomu
Kobe Univ. Jpn
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Nakahara Saori
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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酒井 翔司
神戸大院・工
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松田 哲弥
神戸大院・工
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Abe Yasuhisa
Research Institute For Fundamental Physics Kyoto University : Centre De Recherches Nucleaires
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Abe Yasuhisa
Research Institute For Fundamental Physics Kyoto University
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Kondo Akihiko
Organization of Advanced Science and Technology, Kobe University
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Nakagawa Masato
Graduate School Of Science And Technology Kobe University
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TOMIOKA KANJI
Process Technology and Research Laboratories, Research Institute, Kaneka Corporation
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Adachi Daisuke
Department Of Hematology Showa University School Of Medicine
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Adachi Daisuke
Department Of Chemical Science And Engineering Graduate School Of Engineering Kobe University
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SHIBASAKI SEIJI
Department of Pharmacy, School of Pharmacy, Hyogo University of Health Sciences
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KAYA Masahiko
Research Institute, Gekkeikan Sake Co., Ltd.
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Tomioka Kanji
Process Technology And Research Laboratories Research Institute Kaneka Corporation
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Azuma Masayuki
Department of Agricultural Chemistry, Faculty of Agriculture, The University of Tokyo
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Ueda Mitsuyoshi
Department of Applied Biochemistry, Division of Applied Life Sciences, Graduate School of Agricultur
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畑田 一樹
神戸大院・工・応用化学
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岡井 直子
神戸大・自・研究環
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山川 瞬一
神戸大院・工
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石田 亘広
豊田中研
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Kurokawa Yoichi
Hsp Research Institute Kyoto Research Park:(present Address)department Of Bioscience Fukui Prefectur
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Kurokawa Yoichi
Hsp Research Institute Kyoto Research Park
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Nakanishi Takeshi
Department Of Biomolecular Engineering Graduate School Of Engineering Tohoku University
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佐々木 良平
神戸大院・医・放射線
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唐崎 美樹
神戸大院・工・応化
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松井 かずさ
神戸大院・工・応化
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佐藤 和好
群大院・工・環境プロセス
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大原 智
阪大・接合研
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SONEZAKI Syuji
Department of Applied Chemistry, Faculty of Engineering, Kyushu Institute of Technology
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TAUCHI Eiichii
Department of Applied Chemistry, Faculty of Engineering, Kyushu Institute of Technology
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SHINGU Yoshikazu
Department of Applied Chemistry, Faculty of Engineering, Kyushu Institute of Technology
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MURAKAMI KAORU
Department of Applied Chemistry, Faculty of Enggineering, Kyushu Institute of Technology
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KAWAHARA NOBORU
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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ENDO YASUNORI
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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SHIROMIZU TOKUHISA
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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NISHIHARA KAZUYO
HSP Research Institute, Kyoto Research Park
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YANAGI HIDEKI
HSP Research Institute, Kyoto Research Park
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YURA TAKASHI
HSP Research Institute, Kyoto Research Park
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ADACHI Takashi
Department of SurgeryI, Tokyo Women's Medical University
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Kondo A
Department Of Applied Chemistry Faculty Of Engineering Kyushu Institute Of Technology
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Tatematsu Kenji
Department of Structural Molecular Biology, Institute of Scientific and Industrial Research, Osaka U
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Ooshima Hiroshi
Dep. Of Applied Chemistry And Bioengineering Graduate School Of Engineering Osaka City Univ.
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Ooshima H
Osaka City Univ. Osaka Jpn
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Ooshima Hiroshi
Department Of Applied Chemistry And Bioengineering Graduate School Of Engineering Osaka City Univers
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Ooshima Hiroshi
Department Of Applied And Bioapplied Chemistry Graduate School Of Engineering Osaka City University
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Igarashi K
Dep. Of Applied Chemistry And Bioengineering Graduate School Of Engineering Osaka City Univ.
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Igarashi Koichi
Department Of Applied Chemistry And Bioengineering Graduate School Of Engineering Osaka City Univers
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Igarashi Koichi
Department Of Applied And Bioapplied Chemistry Graduate School Of Engineering Osaka City University
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Igarashi Koichi
Biology Research Laboratories:research And Development Division:tekada Chemical Industries Ltd.
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MANEESRI JARUWAN
Department of Applied and Bioapplied Chemistry, Graduate School of Engineering, Osaka City Universit
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神谷 典穂
九大院・工・応化:九大・未来化セ
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Yura Takashi
Hsp Research Institute Kyoto Research Park
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Endo Yasunori
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Yanagi H
Kyoto Res. Park Kyoto
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Yanagi Hideki
Hsp Research Institute Kyoto Research Park
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Hasunuma Tomohisa
Research Institute of Innovative Technology for the Earth(RITE)
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Miyake Chikahiro
Research Institute of Innovative Technology for the Earth(RITE)
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Kawahara Noboru
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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KONDO Kimihiko
Department of Applied Chemistry, Faculty of Engineering Kyushu Institute of Technology
著作論文
- 次世代燃料・化成品原料製造に向けたバイオリファイナリー戦略(地球環境問題へのバイオテクノロジーの貢献の新時代)
- バイオマスからのバイオ燃料生産に向けた戦略 (特集 バイオマスからの有用物質生産プロセス最前線)
- Production of Bionanocapsules in Immobilized Insect Cell Culture Using Porous Biomass Support Particles(CELL AND TISSUE ENGINEERING)
- 1Ep22 癌細胞標的化を目指したAffibody提示ナノカプセルの開発(タンパク質工学,一般講演)
- 特異性改変型バイオナノカプセルを用いたバイオイメージング及びDDSへの応用
- 1分子1細胞アッセイ技術に基づく生物工学の最近の潮流(第62回大会シンポジウム報告)
- 3P-1011 ワイン酵母OC-2トリプルマーカー株をプラットフォームとした高β-グルコシダーゼ活性と高キシロシダーゼ活性を持つキシロース発酵酵母の作製(1b遺伝子工学,一般講演,遺伝学,分子生物学および遺伝子工学,伝統の技と先端科学技術の融合)
- 3P-1180 Affibody提示ナノカプセルを用いたHER2発現癌細胞特異的な薬物送達(6a生物化学工学,一般講演,生物化学工学,伝統の技と先端科学技術の融合)
- 2S-Ba04 全自動1細胞単離装置の開発(1分子1細胞アッセイ技術に基づく生物工学の最近の潮流,シンポジウム,伝統の技と先端科学技術の融合)
- 3P-2082 過酸化チタンナノ粒子及び低線量X線照射を併用した深部ガンの非侵襲的治療法の開発(8a 生体医用工学,人工臓器,一般演題,動物バイオテクノロジー,伝統の技と先端科学技術の融合)
- 3P-2044 イオン液体を利用したバイオマスの前処理・糖化・発酵技術の開発(その4)(5c バイオマス,資源,エネルギー工学,一般演題,環境バイオテクノロジー,伝統の技と先端科学技術の融合)
- 3P-2042 イオン液体を利用したバイオマスの前処理・糖化・発酵技術の開発(その2)(5c バイオマス,資源,エネルギー工学,一般演題,環境バイオテクノロジー,伝統の技と先端科学技術の融合)
- 2P-2047 セルラーゼ発現バランス最適化酵母を用いたセルロースからのエタノール発酵(5c バイオマス,資源,エネルギー工学,一般演題,環境バイオテクノロジー,伝統の技と先端科学技術の融合)
- 3P-1049 超好熱菌Thermotoga neapolitana由来耐熱性β-1,3-キシラナーゼの機能解析(2a酵素学,酵素工学,一般講演,酵素学,タンパク質工学および酵素工学,伝統の技と先端科学技術の融合)
- 2Lp02 遺伝子組換え麹菌を用いたタンパク質大量分泌生産技術の開発(生物化学工学,一般講演)
- EP-P27 Site-specific streptavidin modification using sortase(Section VII Enzyme and Protein Engineering)
- EP-O1 Enzyme-mediated site-specific protein modification(Section VII Enzyme and Protein Engineering)
- Use of a Substrate as an Encapsulated Marker for Liposome Immunoassay
- Direct Ethanol Production from Barley β-Glucan by Sake Yeast Displaying Aspergillus oryzae β-Glucosidase and Endoglucanase(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
- 3P-2043 イオン液体を利用したバイオマスの前処理・糖化・発酵技術の開発(その3)(5c バイオマス,資源,エネルギー工学,一般演題,環境バイオテクノロジー,伝統の技と先端科学技術の融合)
- 2La11 Porinを用いたコリネ菌新規細胞表層提示技術の開発(生物化学工学,一般講演)
- 2La01 生デンプンから高効率にエタノールを生産する新規酵母の創製(生物化学工学,一般講演)
- 生体分子と無機材料を融合した中空バイオナノ粒子による新しいがん治療戦略 (特集 産業を支える粉粒体--材料・製法・計測技術と応用展開)
- 細胞表層提示技術を用いた微生物の高機能化と有用物質生産 (特集 微生物高機能化の最前線)
- 3P-1048 麹菌による超好熱菌Thermotoga neapolitana由来耐熱性β-1,3-キシラナーゼの高分泌生産(2a酵素学,酵素工学,一般講演,酵素学,タンパク質工学および酵素工学,伝統の技と先端科学技術の融合)
- Single-Step Purification and Characterization of MBP(Maltose Binding Protein)-DnaJ Fusion Protein and Its Utilization for Structure-Function Analysis
- Production of MBP(Maltose Binding Protein)-GroES Fusion Protein and Utilization to Stimulate GroEL-Mediated Protein Refolding
- Effect of Oxidized and Reduced Forms of Escherichia coli DsbC on Protein Refolding
- Improvement of Productivity of Active Horseradish Peroxidase in Escherichia coli by Coexpression of Dsb Proteins
- BE-O21 New SELEX strategy for screening of DNA aptamer by AFM(Section V Biomolecular Engineering and Bioseparation)
- Deletion of MCD4 Involved in Glycosylphosphatidylinositol (GPI) Anchor Synthesis Leads to an Increase in β-1,6-Glucan Level and a Decrease in GPI-Anchored Protein and Mannan Levels in the Cell Wall of Saccharomyces cerevisiae(Microbial Physiology and Biot
- BR-P35 Biodiesel-fuel production using immobilized fungal whole-cell biocatalysts(Section IV Biorefinery)
- Efficient Immobilization of Protein on Monodispersed Colloidal Silica Particles Modified by Copolymers of Maleic Anhydride and Styrene or Methyl Methacrylate
- MN-P30 Expression and signaling analyses of human G protein-coupled receptor in yeast(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- MN-P18 Investigation of the interaction between GPCR and ligand by AFM equipped with bio-molecule modified cantilever(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- EP-P31 Enzymatic protein conjugation in vivo(Section VII Enzyme and Protein Engineering)
- EP-P29 Enzyme-mediated antibody-protein conjugation(Section VII Enzyme and Protein Engineering)
- EP-P28 Functional analysis of mutant human somatostatin receptor using a yeast-based fluorescence reporter assay(Section VII Enzyme and Protein Engineering)
- EP-P26 Site-specific protein modification with functional molecule using novel enzyme(Section VII Enzyme and Protein Engineering)
- BE-P21 Screening of DNA aptamers that recognize amino acid by AFM-SELEX strategy(Section V Biomolecular Engineering and Bioseparation)
- BE-O13 Construction of a novel detection system for protein-protein interactions using yeast G-protein signaling(Section V Biomolecular Engineering and Bioseparation)
- BR-P28 Bioethanol production from mixed sugars using sugar uptake ability enhanced yeast strain by overexpression of transporters(Section IV Biorefinery)
- BR-P27 Bioethaol fermentation from mixed sugar by the recombinant yeast with xyloseisomerase pathway(Section IV Biorefinery)
- Yeast-Based Fluorescence Reporter Assay of G Protein-coupled Receptor Signalling for Flow Cytometric Screening : FAR1-Disruption Recovers Loss of Episomal Plasmid Caused by Signalling in Yeast
- 2Mp07 酵母Gタンパク質シグナルを用いたタンパク質間相互作用解析法の開発(バイオプロセス,一般講演)
- Reaction Properties of Immobilized Catalytic Antibodies That Deprotect Acylated Carbohydrates
- Preparation of Yeast Strains Displaying IgG Binding Domain ZZ and Enhanced Green Fluorescend Protein for Novel Antigen Detection Systems
- 2P-1106 放線菌を用いた様々なタンパクの大量分泌系の構築(3a発酵生理学,発酵工学,一般講演,代謝生理学・発酵生産,伝統の技と先端科学技術の融合)
- Biotinylated Bionanocapsules for Displaying Diverse Ligands Toward Cell-specific Delivery
- MN-P17 Enzyme-mediated protein immobilization on particles(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- BR-P14 Efficient homo D-lactic acid production from xylose(Section IV Biorefinery)
- BR-P12 Efficient D-lactic acid production from raw starch(Section IV Biorefinery)
- Lipase Localization in Rhizopus oryzae Cells Immobilized within Biomass Support Particles for Use as Whole-Cell Biocatalysts in Biodiesel-Fuel Production(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)
- Evaluation of the Biodegradability of Polyurethane and Its Derivatives by Using Lipase-Displaying Arming Yeast
- BR-P23 Biodiesel production using whole-cell biocatalyst of Aspergillus oryzae coexpression lipases(Section IV Biorefinery)
- BR-P26 Direct fermentation of cellulosic materials to ethanol using yeast strains codisplaying three types of cellulolytic enzyme(Section IV Biorefinery)
- BR-P22 Efficient repeated batch fermentation from raw starch by novel yeast expressing transporter gene and amylase genes(Section IV Biorefinery)
- BR-P20 Integrated and energy-saving biodiesel fuel production using fungus whole-cell biocatalyst(Section IV Biorefinery)
- BR-P19 Efficient and practical ethanol production from high yield rice by amylase expressing Saccharomyces cerevisiae(Section IV Biorefinery)
- BR-P18 Development of novel cell-surface display system of Aspergillus oryzae using chitin binding domain(Section IV Biorefinery)
- BR-P17 Efficient ethanol production from xylose by mated diploid Saccharomyces cerevisiae(Section IV Biorefinery)
- BR-P16 Efficient biodiesel production using whole-cell biocatalyst employing a lipase high expression system(Section IV Biorefinery)
- BR-P15 Engineering of endoglucanase expression system for Corynebacterium glutamicum(Section IV Biorefinery)
- BR-O4 Production of biodiesel fuel in ionic liquids catalyzed by whole-cell biocatalysts(Section IV Biorefinery)
- Ester synthesis reaction with CALB displaying yeast whole cell biocatalyst : Effect of organic solvent and initial water content(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)
- A Simple and Immediate Method for Simultaneously Evaluating Expression Level and Plasmid Maintenance in Yeast
- Specific Protein Delivery to Target Cells by Antibody-displaying Bionanocapsules
- Efficient Production of L-(+)-Lactic Acid from Raw Starch by Streptococcus bovis 148(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
- Pretreatment of Immobilized Candida antarctica Lipase for Biodiesel Fuel Production from Plant Oil
- Biodiesel Fuel Production from Plant Oil Catalyzed by Rhizopus oryzae Lipase in a Water-Containing System without an Organic Solvent
- BP-P10 Affibody displaying bionanocapsules for HER2 specific drug delivery(Section II Biopharmaceuticals Production)
- BM-P15 Antibody-immobilized TiO_2 nanoparticles for cancer therapy(Section III Biomedical Engineering)
- Metabolic pathway engineering by plastid transformation is a powerful tool for production of compounds in higher plants
- Efficient and Direct Fermentation of Starch to Ethanol by Sake Yeast Strains Displaying Fungal Glucoamylases
- Control of signalling properties of human somatostatin receptor subtype-5 by additional signal sequences on its amino-terminus in yeast
- Importance of asparagine residues at positions 13 and 26 on the amino-terminal domain of human somatostatin receptor subtype-5 in signalling
- 熱応答性磁性ナノ粒子のバイオ分野への応用
- Immunological Agglutination Behavior of Latex Particles with Covalently Immobilized Antibodies
- Preparation of Immobilized Papain Using Thermosensitive Latex Particles
- Variation in Biomass Properties among Rice Diverse Cultivars