Ueda Mitsuyoshi | Kyoto University
スポンサーリンク
概要
関連著者
-
Kuroda Kouichi
Kyoto University
-
Ueda Mitsuyoshi
Kyoto University
-
Ueda Mitsuyoshi
Kyoto Univ. Kyoto Jpn
-
Kuroda Kouichi
Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
-
Shimizu Sakayu
Kyoto University
-
Kuroda Kouichi
Division Of Applied Life Sciences Graduate School Of Agriculture Kyoto University
-
Nakanishi Akihito
Kyoto University
-
Fukai Koutarou
Kyoto University
-
Tokumoto Naoki
Kyoto University
-
Ogawa Jun
Kyoto University
-
Nakatani Masato
Daiwa kasei
-
Mulchandani Ashok
University Of California
-
Matsui Ken
Kyoto University
-
Aoki Wataru
Kyoto University
-
Tsuchiya Keiji
University Of Fukui
-
Ueda Mitsuyoshi
Division Of Applied Life Science Graduate School Of Agriculture Kyoto University
-
Kuroda Kouichi
Division Of Applied Life Science Graduate School Of Agriculture Kyoto University
-
Isogawa Danya
Kyoto University
-
Kitahara Nao
Kyoto University
-
Morisaka Hironobu
Kyoto University
-
Miura Natsuko
Kyoto University
-
Suye Shin-ichiro
University of Fukui
-
Makishima Hirokazu
University of Fukui
-
Enami Yasufumi
Hiroshima University
-
Ozato Naoki
Kyoto University
-
Morisaka Hironobu
Division Of Applied Life Sciences Graduate School Of Agriculture Kyoto University
-
Morisaka Hironobu
Division Of Applied Life Science Graduate School Of Agriculture Kyoto University
著作論文
- BR-P29 Arming-yeast displaying laccase I from Trametes sp. Ha1 for utilization of lignocellulosic biomass(Section IV Biorefinery)
- BR-P24 Challenge of conversion of waste crab shells to functional materials with bioactivities(Section IV Biorefinery)
- EP-P35 Characterization of secreted aspartic proteases of Candida albicans(Section VII Enzyme and Protein Engineering)
- MN-O2 Single cell analysis for organophosphorus compounds sensing using organophosphorus hydrolase and EGFP displayed arming yeast(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- BR-P32 Molecular analysis of organic-solvent-tolerance in yeast Saccharomyces cerevisiae based on DNA microarray analysis(Section IV Biorefinery)