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Medicinal Chemistry Group, LPC, National Institute of Environmental Health Sciences | 論文
- Development of μ-Receptor Selective Opioid Mimetics Derived from Endomorphin Sequences
- Roles of Each Component of μ-Opioid Ligands Containing Dmt-Pyrazinones
- Studies on the Mechanism of 1,2-Dihydropyrazin-2-one Ring Formation from Dipeptidyl Chloromethyl Ketone and Its Chemical Properties : Immediate Deamination during Catalytic Hydrogenation
- Synthesis and Bioactivity of Novel Type Pyrazinone Ring-Containing μ-Opioid Ligands
- Generation of a Selective Agonist for Mu-Opioid Receptors by the Dimerization of 2', 6'-Dimethyl-L-Tyrosine through Pyrazinone
- Synthesis of Somatostatin Analogs and Their Antitumor Activities
- The Structure-Activity Relationship of Dmt-NH-X
- Synthesis of New Pyrazinone Ring-Containing Opioid Mimetics and Studies on Their Structure-Activity Relationship
- Stereoselective Synthesis of Unique L-Tyrosine Analogs : Development of Novel μ-Opioid Receptor Ligands
- Synthesis of Opioid Mimetics Containing a Pyrazinone Ring and Their Activities
- Synthesis of Endomorphin-2 Analogues, Studies on Their Activities for Opioid Receptors, and Three Dimensional Structure
- Synthesis of Pyrazinone Ring-Containing Opioid Mimetics and Examination of Their Opioid Receptor-Binding Activity
- Design and Synthesis of Pyrazinone Ring-Containing Opioid Mimetics and Examination of Their Opioid Receptor-Binding Activity
- Synthesis of Endomorphin Analogs and Studies on the Structure-Opioid Receptor-Binding Activity Relationship
- Amino Acids and Peptides. LII. Design and Synthesis of Opioid Mimetics Containing a Pyrazinone Ring and Examinaiton of Their Opioid Receptor Binding Activity
- Synthesis of Pyrazinone Ring-Containing Tyrosine Derivatives and Examination of Their Binding Activity with Opioid Receptors