YAMAMOTO Keizo | School of Medicine, Nara Medical University
スポンサーリンク
概要
関連著者
-
楠木 正巳
阪大・蛋白研
-
楠木 正巳
大阪大・蛋白研
-
大崎 茂芳
奈良医大化学
-
Kusunoki Masami
Department Of Physics School Of Science And Technology Meiji University
-
大崎 茂芳
奈良県立医科大学医学部
-
Yamamoto Keizo
Department Of Chemistry Nara Medical University
-
YAMAMOTO Keizo
School of Medicine, Nara Medical University
-
栗栖 源嗣
大阪大学蛋白質研究所
-
KURISU Genji
Institute for Protein Research, Osaka University
-
KUSUNOKI Masami
Institute for Protein Research, Osaka University
-
栗栖 源嗣
東大 大学院総合文化研究科
-
Urabe Itaru
Department Of Biotechnology Graduate School Of Engineering Osaka University
-
Urabe Itaru
Department Of Biotechnology Faculty Of Engineering Osaka University
-
Yamamoto Keizo
Department of Cardiovascular Medicine, Cardiovascular Center Sakakibara Hospital
-
Miyake Hideo
Graduate School Of Bioresources Mie Univ
-
OSAKI Shigeyoshi
Department of Chemistry, Nara Medical University
-
TABATA Shiro
Department of Chemistry, Nara Medical University
-
Kusunoki Masami
Institute For Protein Research Osaka University
-
Kusunoki Masami
Research Center Of Protein Engineering Institute For Protein Research Osaka University
-
Yamamoto Keizo
Department Of Anatomy Nara Medical University:department Of Anatomy School Of Medicine Tokushima Uni
-
Kurisu Genji
Institute For Protein Research Osaka University
-
Tabata Shiro
Department Of Chemistry Nara Medical University
-
Yamamoto Keizo
School Of Medicine Nara Medical University
-
OSAKI Shigeyoshi
School of Medicine, Nara Medical University
-
Kusunoki Masami
Faculty of Engineering, University of Yamanashi
-
Kurisu Genji
Institute For Protein Research Osaka Univ.
-
Osaki Shigeyoshi
School Of Medicine Nara Medical University
-
Osaki Shigeyoshi
Department Of Chemistry Nara Medical University
-
Miyake Hideo
Graduate School Of Bioresources Mie University
-
Osaki Shigeyoshi
Department Of Chemistry Faculty Of Medicine Nara Medical University
-
Kurisu Genji
Institute for Protein Research
著作論文
- Crystal Structure of Glucose Dehydrogenase from Bacillus megaterium IWG3 at 1.7 A Resolution^1
- Steric hindrance by 2 amino acid residues determines the substrate specificity of isomaltase from Saccharomyces cerevisiae(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)