電極上に自己集積したフラビン修飾α-ヘリックスペプチドの電極反応特性
スポンサーリンク
概要
著者
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MIHARA Hisakazu
Department of Bioengineering, Graduate School of Bioscience and Biotechnology, Tokyo Institute of Te
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SAKAMOTO Seiji
Department of Applied Chemistry, Faculty of Engineering, Nagasaki University
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Mihara Hisakazu
Department Of Applied Chemistry Faculty Of Engineering Nagasaki University
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Mihara Hisakazu
Department Of Bioengineering Faculty Of Bioscience And Biotechnology Tokyo Institute Of Technology
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Haruyama Tetsuya
Department of Applied Biological Science, Faculty of Science and Technology, Tokyo University of Sci
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Sakamoto Seiji
Department Of Anesthesiology And Critical Care Medicine Tottori University Faculty Of Medicine
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Aizawa Masuo
Department Of Bioengineering Faculty Of Bioscience And Biotechnology Tokyo Institute Of Technology
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Aizawa Masuo
Department Of Biological Information Graduate School Of Bioscience And Biotechnology Tokyo Institute
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春山 哲也
Department Of Biological Functions And Engineering Kyushu Institute Of Technology Kitakyushu Science
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Haruyama Tetsuya
Department Of Applied Biological Science Faculty Of Science And Technology Tokyo University Of Scien
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Haruyama Tetsuya
Department Of Biological Information Graduate School Of Bioscience And Biotechnology Tokyo Institute
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Sakamoto Seiji
Department Of Bioengineering Faculty Of Bioscience And Biotechnology Tokyo Institute Of Technology
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坂本 清志
Department of Bioengineering, Faculty of Bioscience and Biotechnology, Tokyo Institute of Technology
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三原 久和
Department of Bioengineering, Faculty of Bioscience and Biotechnology, Tokyo Institute of Technology
関連論文
- In Vitro Selection of RNA Aptamers That Bind to an Oligomeric State of Amyloid β-Peptide
- Construction and Control of Self-Assembly of Amyloid and Fibrous Peptides
- Construction of Two-Stranded α-Helix Peptides with L-α-Nucleobase Amino Acids
- Construction of Novel High Throughput Recognition Systems Using Labeled Peptide Arrays Focusing on Protein Detection Chips
- A Novel Protein-Detecting Chip Platform Using Anomalous Reflection of Gold
- Construction of a PNA-DNA Hybrid Array Potential for a Novel Addressable Chip
- Studies on Fluorescent Dyes and Surface Chemistry focusing on Practical Peptide Array Preparation
- Peptide Microarrays Using Designed Libraries for Protein Detection
- Designed Peptide Microarrays and Protein Characterization Using Fingerprint Patterns
- Construction of a Protein-Detection System using Designed Peptides with Fluorescent Labels
- Recognition of Porphyrin or Protein using Peptides Derived from Antibody CDR
- Hexafluoroisopropyl Alcohol is a Useful Cosolvent with Dimethylformamide for Tryptic Synthesis of Peptides
- Synthesis of [D-Pyrenylalanine^]gramicidin S by Soild-Phase-Synthesis and Cyclization-Cleavage Method with Oxime Resin
- Difference in Self-Assembling Morphology of Peptide Nanorings
- Theoretical Prediction and Atomic Force Microscope Observations of the Protein Nanotube Consisting of Homo-_L-Amino Acid Penta-Peptide Nanorings
- A Menbrane Protein Model : Polypeptides with Four α-Helix Bundle Sturcture on 5,10,15,20-Tetrakis[2-(carboxymethoxy)phenyl]porphyrin
- De Novo Design and Synthesis of Four α-Helix Bundle Proteins with Flavin Function
- 5,10,15,20-Tetrakis(2-amino-6-methoxycarbonylphenyl)porphyrin. Synthesis and Separation of Atropisomers Useful for Porphyrin Architecture
- Dansyl and Indolyl Groups as a Probing Pair for Intersegmental Arrangement in Four- α-Helix Bundle Structure of a Polypeptide
- Efficient Preparation of αβαβ-Atropisomer of meso-Tetra(ο-aminophenyl)porphyrin
- Design of a Hybrid of Two α-Helix Peptides and Ruthenium Trisbipyridine Complex for Photo-induced Electron Transfer System in Bilayer Membrane
- Probing Behavior of 1-Pyrenylalanine for Interaction of Two α-Helices Anchored on a Bipyridyl Group
- A Hybrid of Amphiphilic α-Helical Peptides and meso-Tetra(α,α,α,α-o-carboxyphenyl)-porphyrin. Membrane-Penetrating Porphyrin-4α-Helix Artificial Protein
- Interaction of Basic Peptides Derived from Influenza Virus M1 Protein with DNA/RNA
- Interaction of Amphiphilic α-Helical Peptides with Phospholipid Membrane and Their DNA Binding Ability
- Construction of the Artificial Peptides and RNAs Targeting Amyloid Peptides
- Structure and Function of Pro/Arg-rich Repeated Region in Antibiotic Bactenecin 5
- Enhanced Membrane-Perturbing Activities of Bundled Amphiphilic α-Helix Polypeptides on Interaction with Phospholipid Bilayer
- Peptide Synthesis Mediated by Thiolsubtilisin Using Peptide Thioester as Building Block
- Synthesis of Protected Peptides Containing Phosphoserine with Oxime Resin
- Complementary Assembly of Heterogenous Peptides into Amyloid Fibrils and Their Catalytic Function
- Design of Coiled-Coil Peptides Containing Nucleobase Interaction and Their Catalytic Function on Self-Replication
- Design of Peptides with L-α-Nucleobase Amino Acids and Their Selective Recognition of RNA
- Association and Guest-induced Dissociation of a Novel α-Helix Peptide Bearing Pyrene and γ-Cyclodextrin in the Side Chains
- Design and Synthesis of Peptides Containing Nucleobase Amino Acids and their Interaction with RNA
- Peptides Undergoing Secondary Structural Transition and Self-Assembly into Amyloid Fibril Based on Structural Complementarity
- An α-to-β Structural Transition and Amyloidogenesis of Peptides : Effects of Amino Acid Substitution on Self-replicating Organization
- Design and Synthesis of Peptide Misfolding from α to β Structure and Regulation by β-Cyclodextrin as Mini-Molecular Chaperone
- P-417 Affinity Purification of Proteins by the Specific Ligands Immobilized to Resins Used in Solid-phase Organic Synthesis
- Design and Synthesis of 3α-helix Bundle Peptides Possessing a Hydrophobic Cavity
- De Novo Design, Synthesis and Characterization of Heme-Conjugated Two-α-Helix Peptides
- Annealing of Two-α-Helix Structure by Metal Ion Binding Regulated with Trifluoroethanol
- Design and Synthesis of Haem Binding Molecular Forceps Composed of Two-α-Helix Peptide
- Design and Peroxidase-like Activity of 3α-Helix Hemoproteins
- Artificial Membrane Protein Functionalized with Electron Transfer System
- Chiral Assembly of Porphyrins Regulated by Amphiphilic α-Helix Peptides
- Construction of Porphyrin- and Flavin-Conjugated α-Helix Peptides
- Interaction of Lipophilized Mastoparan with Phospholipid Membranes
- Structure-designed Peptide Microarrays for Protein-Detection
- De Novo Design of α-Helical Peptides with Nucleobase Amino Acids that Specifically Recognize a Hairpin RNA
- 電極上に自己集積したフラビン修飾α-ヘリックスペプチドの電極反応特性
- Post-Transcriptional Regulation of Immunomodulatory Cytokines Production in Human Skin Fibroblasts by Intense Mechanical Stresses
- バイオエレクトロニクスの進化と分子・細胞バイオ素子の研究開発
- 細胞の増殖,分化,遺伝子発現の電気刺激による制御
- ポリアニリン/酵素膜の電気化学合成およびコリンバイオセンサへの応用〔英文〕 (バイオエレクトロケミストリ-の新展開)
- Synthesis of Electroactive Protein Hybrid, Fec-BSA-Dig, and Its Application to a Novel Homogeneous Electrochemical Immunoassay
- Construction of a Bioreactor with Immobilized Yeast Cells for Production of a Low-phenylalanine Peptide Mixture as a Phenylketonuria Foodstuff(Food & Nutrition)
- Effect of intraoperative acetated Ringer's solution with 1% glucose on glucose and protein metabolism
- A Novel Protein Detection Platform Utilizing Anomalous Reflection of Gold
- Enzyme-based Field-Effect Transistor for Adenosine Triphosphate (ATP) Sensing
- Super-Secondary Structure with Amphiphilic β-Standards Probed by Pyrenylalanine
- Designed Peptide Libraries for Protein and Cell analyses
- A Novel Peptide Array Using a Phage Display System for Protein Detection
- Reversible molecular immobilization on a metal surface through electrochemical reaction
- バイオエレクトロニクスのためのタンパク質分子界面の設計構築
- "動物実験代替えを目的としたバイオセンシング"を特集して
- 特集:細胞計測への新展開
- 半導体電極の表面に構造制御した分子層を形成するための非特異吸着抑制手法
- Cell-adhesive hydrogels composed of peptide nanofibers responsive to biological ions
- 半導体電極の表面に構造制御した分子層を形成するための非特異吸着抑制手法
- Molecular Commonality Sensing of Phosphoric Anhydride Substances Using an Ion-Sensitive Field-Effect Transistor Covered with an Artificial Enzyme Membrane
- Difference in Self-Assembling Morphology of Peptide Nanorings
- IR Study on Stacking Manner of Peptide Nanorings in Peptide Nanotubes
- Theoretical Prediction and Atomic Force Microscope Observations of the Protein Nanotube Consisting of Homo-l-Amino Acid Penta-Peptide Nanorings
- High performance micro-enzyme sensor using platinized microelectrode.
- Microbiosensing device for real time determination.
- A peptide release system using a photo-cleavable linker in a cell array format for cell-toxicity analysis