Anzai Kentaro | Department Of Chemistry Faculty Of Science Science University Of Tokyo
スポンサーリンク
概要
- ANZAI Kentaroの詳細を見る
- 同名の論文著者
- Department Of Chemistry Faculty Of Science Science University Of Tokyoの論文著者
関連著者
-
Anzai Kentaro
Department Of Chemistry Faculty Of Science Science University Of Tokyo
-
Omata S
Niigata Univ. Niigata Jpn
-
Omata Saburo
Department Of Biocheaistry Faculty Of Science Niigata University
-
TOMOSAKA Hideyuki
Department of Chemistry and Materials Science, Gunma National College of Technology
-
Anzai K
Department Of Chemistry Faculty Of Science Science University Of Tokyo
-
Tomosaka H
Gunma National Coll. Technol. Gunma Jpn
-
Tomosaka Hideyuki
Department Of Chemistry And Materials Science Gunma National College Of Technology
-
Tomosaka Hideyuki
Department of Biosystem Science, Graduate School of Science and Technology, Niigata University
-
Hasegawa Eietsu
Department Of Applied Chemistry Faculty Of Engineering Niigata University
-
KOSHINO Hiroyuki
The Institute of Physical and Chemical Research (RIKEN)
-
UZAWA Jun
The Institute of Physical and Chemical Research
-
Koshino H
Riken (the Inst. Physical And Chemical Res.) Saitama Jpn
-
Uzawa Jun
The Institute Of Physical And Chemical Research (riken)
-
Kato Yumiko
Department Of Biosystems Science The Graduate University For Advanced Studies (sokendai)
-
ANZAI Kentaro
Department of Chemistry, Faculty of Science, Science University of Tokyo
-
Horigome Tsuneyoshi
Department Of Biocheaistry Faculty Of Science Niigata University
-
Horigome Tsuneyoshi
Department Of Biosystem Science Graduate School Of Science And Technology Niigata University
-
Koshino Hiroyuki
The Institute Of Physical & Chemical Research (riken)
-
Kato Yumiko
Department Of Chemistry Faculty Of Science Science University Of Tokyo
著作論文
- Fungerin, a New Antifungal Alkaloid from Fusarium sp.
- The Effects of Substituents Introduced into 9-Aminoacridine on Frameshift Mutagenicity and DNA Binding Affinity
- Frameshift Mutagenicity and DNA Intercalation of 9-Amino-2-hydroxyacridine, a Rat Liver S9 Metabolite of 9-Aminoacridine
- Proposed Two-molecule Intercalation between Neighboring Base Pairs of DNA
- Enhancement of Mutagenic Activity of 9-Aminoacridine by Introducing a Nitro Group into the Molecule