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Department of Chemistry, Faculty of Science, Fukuoka University | 論文
- Interaction if the Fragments Characteristic of Bactenecin 7 with Phospholipid Bilagyers and Their Antimicrobial Activity
- Effects of Organometallic Compounds Introduced to Plasma on Diamond Synthesis
- Mechanism of Layer-by-Layer Homoepitaxial Growth of SrTiO_3 (100) as Investigated by Molecular Dynamics and Computer Graphics
- Amyloid Formation and Cytotoxicity of a De Novo Designed Protein, Amyloidgenesin, and Its Analogs
- Multigene Family for Bowman-Birk Type Proteinase Inhibitors of Wild Soja and Soybean : The Presence of Two BBI-A Genes and Pseudogenes
- Structure and Bilogical Activity of the Neuropeptide γ
- Purification and Characterization of a Novel Antimicrobial Peptide from the Skin of Hagfish, Eptatretus Burgeri.
- Helical Computer Assisted Tomography in Pulmonary Hypertension Complicating Left-to-Right Shunts : Correlation With Pulmonary Hemodynamics
- Application of a Zeolite A Membrane to Reaverse Osmosis Process
- Interaction of Carbodiimide with Human Erythrocytes : Hemolytic Properties Induced by High Pressure, Heating, and Hypotonic Medium
- AXIAL-LIGAND REPLACEMENT OF [TETRAKIS(4-SULFONATOPHENYL)PORPHINATO]IRON(?) IONS BY CYANIDE IONS IN ALKALINE SOLUTION
- Non-Perturbative Renormalization Group Approach to Dynamical Chiral Symmetry Breaking in QCD(Recent Developments in QCD and Hadron Physics)
- Secondary Structures of Synthetic Peptides Corresponding to the First Membrane-Contact Portion of Normal Band 3 and Its Deletion Mutant (Southeast Asian Ovalocytosis)
- Efficient Purification of an Antihemorrhagic Factor (HSF) in Serum of Japanese Habu (Trimeresurus flavoviridis)
- High Pressure Sensitizes Murine Erythroleukemia Cells to Caffeine-Induced Premature Mitosis
- Effects of Chemical Modification of Cysteines 201 and 317 of Band 3 on Hemolytic Properties of Human Erythrocytes under Hydrostatic Pressure
- High Pressure Induces G2 Arrest in Murine Erythroleukemia Cells^1
- Nanotubular Structure Formation by a De Novo-designed Amphiphilic α-Helical Peptide, Hel 13-5, and Various Biomembrane-specific Lipids
- The Effect of D-Amino Acid-Containing Basic Peptides with Different Hydrophobicity on the Antimicrobial and Cytotoxic Activity
- FIBRIL STRUCTURE FORMED BY THE INTERACTION OF AN AMPHIPHILIC α-HELICAL PEPTIDE, HEL 13-5, AND ITS ANALOGS WITH PHOSPHOLIPIDS