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Laboratory Of Biological Chemistry Department Of Chemistry Faculty Of Science Hokkaido University | 論文
- Binding Specificity of HhH Motif Peptide that Recognizes DNA Structure
- Frequent Development of Inflammatory Lesions and Lymphoid Foci in the Kidneys of Japanese Wild Crows (Corvus macrorhynchos and Corvus corone) as a Result of the Entry of Causal Agents via the Renal Portal Blood
- Structural Analysis and Identification of Novel Isoforms of the Circadian Clock Gene period in the Silk Moth Bombyx mori(Neurobiology)
- cDNA Cloning and Nuclear Localization of the Circadian Neuropeptide Designated as Pigment-Dispersing Factor PDF in the Cricket Gryllus bimaculatus
- The Effects of D-galactosamine- or Carbon Tetrachloride-Induced Regeneration on Induction of Rat Liver Cell Foci in a Model for Detection of Initiation Activities of Chemicals
- Naポンプのリン酸化・脱リン酸化反応中間体に化学量論的に結合するATPとADP/Piの発見と(αβ)4量体によるエネルギー共役仮説
- H^+, K^+-ATPaseのN末端領域の発現とリン酸化
- H^+, K^+-ATPaseのリン酸化におけるCa^の効果
- イオン輸送ポンプの分子活性と四量体構造との相関--胃H[+],K[+]-ATPaseの一分子蛍光観察を中心として (特集 膜輸送ナノマシーンの構造・作動機構と制御)
- 陽イオン輸送ポンプの分子機構
- 細胞発現系を用いたNa^+, K^+-ATPaseαサブユニット間相互作用の解析
- New Evidence for ATP Binding Induced Catalytic Subunit Interactions in Pig Kidney Na/K-ATPase
- Evidence for a Relationship between Activity and the Tetraprotomeric Assembly of Solubilized Pig Gastric H/K-ATPase
- The Oligomeric Nature of Na/K-Transport ATPase
- Direct Evidence for In Vivo Reversible Tyrosine Phosphorylation of the N-Terminal Domain of the H/K-ATPase α-Subunit in Mammalian Stomach Cells
- Does Binding of Ouabain to Human α1-Subunit of Na^+,K^+-ATPase Affect the ATPase Activity of Adjacent Rat α1-Subunit?
- O-13 Genotoxic potential in vitro and liver initiation activity of norfloxacin(CARCINOGENICITY)(GENERAL SESSION BY ORAL PRESENTATION)(Proceedings of the 31st Annual Meeting)
- cDNA Cloning of PDF Peptide Precursors in House Fly and Last Summer Cicada
- Ganglioneuroma in the Urinary Bladder of a Dog
- Preparation of the Antibody Which Discriminates the Conformations of Ligand-bound and Ligand-free Estrogen Receptors : Applications to the Quantitative Analysis of Ligand Bindings