NOVEL SUPEROXIDE DISMUTASE MIMICS
スポンサーリンク
概要
著者
-
HIROBE Masaaki
Faculty of Pharmacuetical Sciences, University of Tokyo
-
Hirobe Masaaki
Faculty Of Pharmacuetical Sciences University Of Tokyo
-
Hirobe Masaaki
Faculty Of Pharmaceutical Science University Of Tokyo
-
Hirano Tomohisa
Faculty Of Pharmacuetical Sciences University Of Tokyo
-
NAGANO Testuo
Faculty of Pharmacuetical Sciences, University of Tokyo
-
Nagano Testuo
Faculty Of Pharmacuetical Sciences University Of Tokyo
関連論文
- EFFICIENT SUPEROXIDE DISMUTASE ACTIVITIES OF NOVEL IRON COMPLEXES
- A Novel Aromatic Hydroxylation of Phenolic Compounds with Cu^-Ascorbic Acid-O_2 System
- "METABOLIC ACTIVATION" OF o-METHOXYPHENOLS VIA O-DEMETHYLATION WITH A Cu^ -ASCORBIC ACID-O_2 SYSTEM AS A FUNCTIONAL MODEL OF CYTOCHROME P-450
- Cross-Linking of Collagen by Singlet Oxygen Generated with UV-A
- Measurement of 1268nm Emission for Comparison of Singlet Oxygen (^1Δ_g) Production Efficiency of Various Dyes
- NOVEL DETECTION METHOD OF NITRIC OXIDE USING HORSERADISH PEROXIDASE
- EFFECTS OF OXYGEN CONCENTRATION ON DRUG METABOLISM
- COMPARATIVE STUDY ON DRUG METABOLISM USING CYT. P450 CHEMICAL MODEL AND LIVER MICROSOMAL SYSTEMS
- METABOLISM AND BLOOD-BRAIN BARRIER PERMEABILITY OF TIQS : RELATION TO PARKINSON'S DISEASE
- EFFECTS OF VARIOUS FACTORS ON THE METABOLISM OF ANISOLE DERIVATIVES BY RAT LIVER MICROSOMES
- PB61 VERSATILE CHIRAL SYNTHONS FOR VIC-AMINO ALCOHOLS
- STUDIES ON THE METABOLISM OF MORPHINE・ALKALOIDS : SYNTHESIS AND ANALGESIC ACTIVITY OF 7,8-EPOXIDE AS A NEW METABOLITE
- Application of Chemical P-450 Model Systems to Studies on Drug Metabolism : A Novel Metabolism of Carboxylic Acids via Oxidative Decarboxylation
- MODEL REACTION OF PROTEIN DENATURATION BY ACTIVE OXYGEN AND PROTECTIVE EFFECT OF CYTOKININ IN THE PRESENCE OF HEAVY METAL ION
- Rapid Analysis of Methamphetamine and Cocaine in the Urine of Drug Abusers with Solid-Phase Microextraction
- SUBSTRATE OXIDATION CATALYZED BY HEME-UNDECAPEPTIDE, MICROPEROXIDASE-11 IN THE PRESENCE OF IODOSYLBENZENE AND CUMENE HYDROPEROXIDE
- NOVEL SUPEROXIDE DISMUTASE MIMICS