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Graduate School of Medicine and Pharmaceutical Sciences, University of Toyama | 論文
- Comparison of the relaxant activities of the roots of three Glycyrrhiza species and location of the active ingredients within the roots
- Membrane Transport Mechanisms of Quinidine and Procainamide in Renal LLC-PK1 and Intestinal LS180 Cells
- 1P237 2価カチオンによる大腸菌抽出脂質ベシクルの形態変化(生体膜・人工膜-構造・物性,第48回日本生物物理学会年会)
- Determination of novel nitrogen-containing metabolites after oral administration of swertiamarin to rats
- 2P025 変異体トランスサイレチンの中性子回折測定及びX線結晶構造解析(蛋白質-構造,第48回日本生物物理学会年会)
- 2P-003 アミロイドーシス原因タンパク質トランスサイレチンの中性子結晶構造解析に向けて(蛋白質-構造,第47回日本生物物理学会年会)
- Inhibitory and Stimulative Effects of Amiodarone on Metabolism of Carvedilol in Human Liver Microsomes
- Involvement of the CYP1A Subfamily in Stereoselective Metabolism of Carvedilol in β-Naphthoflavone-Treated Caco-2 Cells(Biopharmacy)
- Antiviral Sulfated Polysaccharide from Navicula directa, a Diatom Collected from Deep-Sea Water in Toyama Bay(Pharmacognosy)
- Constituents of Laurus nobilis L. inhibit recombinant human lanosterol synthase
- Inhibition of Human Lanosterol Synthase by the Constituents of Colocasia esculenta (Taro)(Pharmacognosy)
- Epohelmins A and B, Novel Lanosterol Synthase Inhibitors from a Fungal Strain FKI-0929
- Lanopylins A_1, B_1, A_2 and B_2, Novel Lanosterol Synthase Inhibitors from Streptomyces sp. K99-5041
- New Chromane Derivatives Isolated from the Brown Alga, Sargassum micracanthum
- Nonlinear Mixed Effects Model Analysis of the Pharmacokinetics of Routinely Administered Bepridil in Japanese Patients with Arrhythmias(Biopharmacy)
- Pharmacokinetics of R- and S-Carvedilol in Routinely Treated Japanese Patients with Heart Failure(Biopharmacy)
- Effect of CYP2D6^*10 on the Pharmacokinetics of R- and S-Carvedilol in Healthy Japanese Volunteers(Biopharmacy)
- Inhibitory Activities of Plastoquinones and Chromene Derivative from a Brown Alga Sagassum micracanthum on Bone Resorption(Pharmacognosy)
- P-4 Total Synthesis of (-)-Valeriananoids A,B and C via Autocatalytic Diastereoselective Domino Michael Reaction
- A New Method to Evaluate the Unfolding Activity of Chaperone Unit ClpA Based on Fe–S Cluster Disruption
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