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Department Of Chemistry Faculty Of Sciences Kyushu University | 論文
- Receptor Binding Site for the Phe-2-Phenyl Group of Thrombin Receptor-Tethered Ligand Peptide : Analyses by Ala/Tyr Mutant Receptors
- Identification of Receptor Binding Site of Nociceptin-14-15, the Residues for High Receptor Potentiation
- Synergistic Potentiation of Nociceptin by Simultaneous Incorporation of Basic Amino Acids at the Consecutive Positions 14-15
- Activity Enhancement by Introduction of Two Different Halogen Atoms into Phe-2-phenyl Group of Thrombin Receptor Tethered-Ligand Analogs
- Edge-to Face CH/π Interaction between Ligand Phe-Phenyl and Receptor Aromatic Group in the Thrombin Receptor Activation
- Highly Potent Peptide Ligands for Thrombin Receptor
- Chemical Syntheses of Phenylalanine Derivatives Containing Halogenated Benzene Ring as Structural Explorers for Elucidation of Molecular Mechanisms of Receptor Interacions
- Desieg and Synthesis of para-Fluorophenylalanine Amide Derivatives as Thrombin Receptor Antagonists
- Structural Essentials for Agonist-Antagonist Actions of Thrombin Receptor Tethered-Ligand
- Importance of Ligand Phe-phenyl Group for Activation of Thrombin Receptor
- Interaction Mode of the Phe-Phenyl Group of Thrombin Receptor-Tethered Ligand SFLLRNP in Receptor Activation
- The Role of Arginine in Thrombin Receptor Tethered-Ligand Peptide in Intramolecular Receptor Binding and Self-Activation
- Effects of Substitution of Hydrophobic Amino Acids by Tryptophan on Receptor Binding and Biological Activity of Neuropeptide Nociceptin
- Excited-State Double-Proton Transfer in the 7-Azaindole Dimer in the Gas Phase. Resolution of the Stepwise versus Concerted Mechanism Controversy and a New Paradigm
- 福岡県平尾台潮見穴産中型哺乳類遺存体のフッ素含量および磨耗状態による集積過程の推定 : 予報
- 福岡県平尾台青龍窟洞口ホールから産出したウマの歯のフッ素含有量
- The Effects of Arg→Trp and Lys→Trp Substitutions for Arg-Lys^ Residues in a Superagonist [Arg-Lys^]-Nociceptin on the ORL1 Receptor Binding and Activation
- Molecular Mechanism of α-Helix Peptide That Inhibits Intermolecular Interaction of Prion Protein N-Terminal Tetrarepeat Domain
- Histidines as Structurally Essential Residue for the Delta Opioid Receptor Activation
- Essential Amino Acid Residues in the ORL1 Receptor Transmembrane Domains for Receptor Activation