All Stories

  1. Bio-organic adaptive photonic crystals enable supramolecular solvatochromism
  2. Homocysteine fibrillar assemblies display cross-talk with Alzheimer’s disease β-amyloid polypeptide
  3. Reevaluating the Microbial Infection Link to Alzheimer’s Disease
  4. Bacterial Toxin-Antitoxin Systems as Targets for the Development of Novel Antibiotics
  5. Self-assembly of short peptides to form hydrogels: Design of building blocks, physical properties and technological applications
  6. Apoptosis induced by islet amyloid polypeptide soluble oligomers is neutralized by diabetes-associated specific antibodies
  7. The self-assembling zwitterionic form ofL-phenylalanine at neutral pH
  8. The Influence of Chemical Chaperones on Enzymatic Activity under Thermal and Chemical Stresses: Common Features and Variation among Diverse Chemical Families
  9. Expanding the Solvent Chemical Space for Self-Assembly of Dipeptide Nanostructures
  10. Why Are Diphenylalanine-Based Peptide Nanostructures so Rigid? Insights from First Principles Calculations
  11. Vertically Aligned Peptide Nanostructures Using Plasma-Enhanced Chemical Vapor Deposition
  12. High-throughput assay for temporal kinetic analysis of lytic coliphage activity
  13. ChemInform Abstract: Molecular Self‐assembly of Small Aromatic Peptides: a New Frontier in Organic Nanotechnology
  14. Structural Insights into the Folding Defects of Oncogenic pVHL Lead to Correction of Its Function In Vitro
  15. Peptide-based hydrogel nanoparticles as effective drug delivery agents
  16. A triclinic crystal structure of the carboxy-terminal domain of HIV-1 capsid protein with four molecules in the asymmetric unit reveals a novel packing interface
  17. The Effect of Chemical Chaperones on the Assembly and Stability of HIV-1 Capsid Protein
  18. Spacer driven morphological twist in Phe-Phe dipeptide conjugates
  19. Methylations of Tryptophan-Modified Naphthoquinone Affect Its Inhibitory Potential toward Aβ Aggregation
  20. Differential inhibition of α-synuclein oligomeric and fibrillar assembly in parkinson's disease model by cinnamon extract
  21. Phenylalanine assembly into toxic fibrils suggests amyloid etiology in phenylketonuria
  22. Generic inhibition of amyloidogenic proteins by two naphthoquinone–tryptophan hybrid molecules
  23. Plenty of Room for Biology at the Bottom
  24. Formation of low-dimensional crystalline nucleus region during insulin amyloidogenesis process
  25. Modifiers of Protein Aggregation—From Nonspecific to Specific Interactions
  26. The Rheological and Structural Properties of Fmoc-Peptide-Based Hydrogels: The Effect of Aromatic Molecular Architecture on Self-Assembly and Physical Characteristics
  27. A Novel, Sensitive Assay for Behavioral Defects in Parkinson's Disease ModelDrosophila
  28. Preparation and Structural Characterization of Pre-fibrillar Assemblies of Amyloidogenic Proteins
  29. Adjustable Photoluminescence of Peptide Nanotubes Coatings
  30. Structural Basis for Inhibiting β-Amyloid Oligomerization by a Non-coded β-Breaker-Substituted Endomorphin Analogue
  31. The generic amyloid formation inhibition effect of a designed small aromatic β-breaking peptide
  32. Structural Transition in Peptide Nanotubes
  33. Improvement of the Mechanical Properties of Epoxy by Peptide Nanotube Fillers
  34. Orally Administrated Cinnamon Extract Reduces β-Amyloid Oligomerization and Corrects Cognitive Impairment in Alzheimer's Disease Animal Models
  35. Exploring the self-assembly of glycopeptides using a diphenylalanine scaffold
  36. Quantitative structure–activity relationship analysis of β-amyloid aggregation inhibitors
  37. Diversity for self-assembly
  38. Innentitelbild: Self‐Assembled Organic Nanostructures with Metallic‐Like Stiffness (Angew. Chem. 51/2010)
  39. Inside Cover: Self‐Assembled Organic Nanostructures with Metallic‐Like Stiffness (Angew. Chem. Int. Ed. 51/2010)
  40. Inhibiting α-Synuclein Oligomerization by Stable Cell-Penetrating β-Synuclein Fragments Recovers Phenotype of Parkinson's Disease Model Flies
  41. Elementary Building Blocks of Self-Assembled Peptide Nanotubes
  42. Self‐Assembled Organic Nanostructures with Metallic‐Like Stiffness
  43. Self‐Assembled Organic Nanostructures with Metallic‐Like Stiffness
  44. Allostery and Intrinsic Disorder Mediate Transcription Regulation by Conditional Cooperativity
  45. Creating Prebiotic Sanctuary: Self-Assembling Supramolecular Peptide Structures Bind and Stabilize RNA
  46. Complete Phenotypic Recovery of an Alzheimer's Disease Model by a Quinone-Tryptophan Hybrid Aggregation Inhibitor
  47. Quantum Confinement in Self‐Assembled Bioinspired Peptide Hydrogels
  48. Genetic Engineering of Biomolecular Scaffolds for the Fabrication of Organic and Metallic Nanowires
  49. Genetic Engineering of Biomolecular Scaffolds for the Fabrication of Organic and Metallic Nanowires
  50. Characterization of Peptide‐Nanostructure‐Modified Electrodes and Their Application for Ultrasensitive Environmental Monitoring
  51. Strong Piezoelectricity in Bioinspired Peptide Nanotubes
  52. Both the Formation and Polyphenol-Induced Dissociation of Various Amyloid Fibrils are Accompanied by ROS Formation
  53. Targeting insulin amyloid assembly by small aromatic molecules: Toward rational design of aggregation inhibitors
  54. Self-assembled arrays of peptide nanotubes by vapour deposition
  55. Self-Assembled Fmoc-Peptides as a Platform for the Formation of Nanostructures and Hydrogels
  56. Blue Luminescence Based on Quantum Confinement at Peptide Nanotubes
  57. F1‐01‐05: Controlling self‐assembly as a novel paradigm for the treatment of amyloid disease
  58. Self-Assembly of Phenylalanine Oligopeptides: Insights from Experiments and Simulations
  59. Patterned Arrays of Ordered Peptide Nanostructures
  60. Cognitive‐Performance Recovery of Alzheimer's Disease Model Mice by Modulation of Early Soluble Amyloidal Assemblies
  61. Cognitive‐Performance Recovery of Alzheimer's Disease Model Mice by Modulation of Early Soluble Amyloidal Assemblies
  62. Innentitelbild: Cognitive‐Performance Recovery of Alzheimer's Disease Model Mice by Modulation of Early Soluble Amyloidal Assemblies (Angew. Chem. 11/2009)
  63. Inside Cover: Cognitive‐Performance Recovery of Alzheimer's Disease Model Mice by Modulation of Early Soluble Amyloidal Assemblies (Angew. Chem. Int. Ed. 11/2009)
  64. Self-Assembly of Short Aromatic Peptides: From Amyloid Fibril Formation to Nanotechnology
  65. Design of metal‐binding sites onto self‐assembled peptide fibrils
  66. Mechanically functional amyloid fibrils in the adhesive of a marine invertebrate as revealed by Raman spectroscopy and atomic force microscopy
  67. Polyphenol-induced dissociation of various amyloid fibrils results in a methionine-independent formation of ROS
  68. Crystallization of Doc and the Phd–Doc toxin–antitoxin complex
  69. Green tea extracts interfere with the stress‐protective activity of PrPC and the formation of PrPSc
  70. ChemInform Abstract: Amyloids: Not only Pathological Agents but also Ordered Nanomaterials
  71. Editorial [Hot Topic: The Structural Basis of Amyloid Formation (Guest Editors: Hermona Soreq and Ehud Gazit) ]
  72. Amyloide: nicht nur pathologische Substanzen, sondern auch geordnete Nanomaterialien
  73. Amyloids: Not Only Pathological Agents but Also Ordered Nanomaterials
  74. Phenolsulfonphthalein, but Not Phenolphthalein, Inhibits Amyloid Fibril Formation: Implications for the Modulation of Amyloid Self-Assembly
  75. ChemInform Abstract: Peptide Nanomaterials: Self‐Assembling Peptides as Building Blocks for Novel Materials
  76. Nanostructure Design
  77. Bioactive nanostructures branch out
  78. The Role of the 14–20 Domain of the Islet Amyloid Polypeptide in Amyloid Formation
  79. Plenty of Room for Biology at the Bottom. An Introduction to Bionanotechnology. Von Ehud Gazit.
  80. Plenty of Room for Biology at the Bottom. An Introduction to Bionanotechnology. By Ehud Gazit.
  81. Controlled patterning of peptide nanotubes and nanospheres using inkjet printing technology
  82. Integrating peptide nanotubes in micro-fabrication processes
  83. Self‐Assembled Peptide Nanostructures: The Design of Molecular Building Blocks and Their Technological Utilization
  84. Structural and Thermodynamic Characterization of theEscherichia coliRelBE Toxin−Antitoxin System:  Indication for a Functional Role of Differential Stability
  85. Biological and Chemical Decoration of Peptide Nanostructures via Biotin–Avidin Interactions
  86. Peptide Nanomaterials: Self‐assembling Peptides as Building Blocks for Novel Materials
  87. Cover Picture: Formation of Well‐Organized Self‐Assembled Films from Peptide Nanotubes (Adv. Mater. 11/2007)
  88. Controlled Assembly of Peptide Nanotubes Triggered by Enzymatic Activation of Self‐Immolative Dendrimers
  89. Formation of Well‐Organized Self‐Assembled Films from Peptide Nanotubes
  90. Peptide self-assembly at the nanoscale: a challenging target for computational and experimental biotechnology
  91. Bioinspired Design of Nanocages by Self‐Assembling Triskelion Peptide Elements
  92. Bioinspired Design of Nanocages by Self‐Assembling Triskelion Peptide Elements
  93. Innentitelbild: Bioinspired Design of Nanocages by Self‐Assembling Triskelion Peptide Elements (Angew. Chem. 12/2007)
  94. Inside Cover: Bioinspired Design of Nanocages by Self‐Assembling Triskelion Peptide Elements (Angew. Chem. Int. Ed. 12/2007)
  95. The molecular dynamics of assembly of the ubiquitous aortic medial amyloidal medin fragment
  96. Plenty of Room for Biology at the Bottom
  97. Plenty of Room for Biology at the Bottom - An Introduction to Bionanotechnology
  98. Self-assembled peptide nanostructures: the design of molecular building blocks and their technological utilization
  99. Self Assembly of Short Aromatic Peptides into Amyloid Fibrils and Related Nanostructures
  100. The molecular mechanisms of the anti-amyloid effects of phenols
  101. Use of biomolecular templates for the fabrication of metal nanowires
  102. Controlled patterning of aligned self-assembled peptide nanotubes
  103. The minimal amyloid‐forming fragment of the islet amyloid polypeptide is a glycolipid‐binding domain
  104. Molecular Mapping of the Recognition Interface between the Islet Amyloid Polypeptide and Insulin
  105. Molecular Mapping of the Recognition Interface between the Islet Amyloid Polypeptide and Insulin
  106. From Green Bacteria to Human Dementia: A Novel Model for Discovering Amyloid Assembly Inhibitors
  107. Fabrication of Coaxial Metal Nanocables Using a Self-Assembled Peptide Nanotube Scaffold
  108. Preface
  109. Nanoscience and nanotechnology as research and development tools for biology and medicine
  110. Inside Front Cover: Rigid, Self‐Assembled Hydrogel Composed of a Modified Aromatic Dipeptide (Adv. Mater. 11/2006)
  111. Molecular Self-Assembly of Peptide Nanostructures: Mechanism of Association and Potential Uses
  112. Direct Observation of the Release of Phenylalanine from Diphenylalanine Nanotubes
  113. Rigid, Self‐Assembled Hydrogel Composed of a Modified Aromatic Dipeptide
  114. Inhibition of Amyloid Fibril Formation and Cytotoxicity by Hydroxyindole Derivatives
  115. Designed aromatic homo-dipeptides: formation of ordered nanostructures and potential nanotechnological applications
  116. The early stages of amyloid formation: Biophysical and structural characterization of human calcitonin pre-fibrillar assemblies
  117. Thermal and Chemical Stability of Diphenylalanine Peptide Nanotubes:  Implications for Nanotechnological Applications
  118. Inhibition of Amyloid Fibril Formation by Polyphenols: Structural Similarity and Aromatic Interactions as a Common Inhibition Mechanism
  119. Mechanisms of amyloid fibril self‐assembly and inhibition
  120. The Preferred Conformation of the Tripeptide Ala-Phe-Ala in Water Is an Inverse γ-Turn:  Implications for Protein Folding and Drug Design
  121. Self-assembly of short aromatic peptides: From amyloid disease to nanotechnology
  122. The Formation of Escherichia coli Curli Amyloid Fibrils is Mediated by Prion-like Peptide Repeats
  123. Peptide Nanotube-Modified Electrodes for Enzyme−Biosensor Applications
  124. Self-Assembled Peptide Nanotubes Are Uniquely Rigid Bioinspired Supramolecular Structures
  125. Self‐assembly of peptide nanotubes and amyloid‐like structures by charged‐termini‐capped diphenylalanine peptide analogues
  126. Energy landscape of amyloidogenic peptide oligomerization by parallel-tempering molecular dynamics simulation: Significant role of Asn ladder
  127. Molecular dynamics simulation of the aggregation of the core‐recognition motif of the islet amyloid polypeptide in explicit water
  128. Arrest of Amyloid Fibril Formation Associated to Type II Diabetes: Structural and Functional Links to the Mechanism of Alzheimers β- Amyloid Fibrillization
  129. Self-organization of Short Peptide Fragments: From Amyloid Fibrils to Nanoscale Supramolecular Assemblies
  130. Novel Electrochemical Biosensing Platform Using Self-Assembled Peptide Nanotubes
  131. Inhibition of Islet Amyloid Polypeptide Fibril Formation:  A Potential Role for Heteroaromatic Interactions
  132. Inhibition of Amyloid Fibril Formation by Peptide Analogues Modified with α‐Aminoisobutyric Acid
  133. Inhibition of Amyloid Fibril Formation by Peptide Analogues Modified with α‐Aminoisobutyric Acid
  134. Amyloidogenic hexapeptide fragment of medin: homology to functional islet amyloid polypeptide fragments
  135. Peptide Sequence and Amyloid Formation
  136. Formation of Closed-Cage Nanostructures by Self-Assembly of Aromatic Dipeptides
  137. The Human Islet Amyloid Polypeptide Forms Transient Membrane-Active Prefibrillar Assemblies
  138. Casting Metal Nanowires Within Discrete Self-Assembled Peptide Nanotubes
  139. Completely different amyloidogenic potential of nearly identical peptide fragments
  140. Protein Folding
  141. In vivo aggregation of a single enzyme limits growth of Escherichia coli at elevated temperatures
  142. Identification and Characterization of a Novel Molecular-recognition and Self-assembly Domain within the Islet Amyloid Polypeptide
  143. Mechanistic Studies of the Process of Amyloid Fibrils Formation by the Use of Peptide Fragments and Analogues: Implications for the Design of Fibrillization Inhibitors
  144. ChemInform Abstract: The “Correctly Folded” State of Proteins: Is it a Metastable State?
  145. Bacillus thuringiensisCytolytic Toxin Associates Specifically with Its Synthetic Helices A and C in the Membrane Bound State. Implications for the Assembly of Oligomeric Transmembrane Pores
  146. Abstracts of Papers Presented at the Japan-Israel Workshop on Novel Approaches for Controlling Insect Pests and Plant Diseases Binational Plant Protection Cooperation
  147. Structure and Orientation of the Mammalian Antibacterial Peptide Cecropin P1 within Phospholipid Membranes
  148. Interaction of the Mammalian Antibacterial Peptide Cecropin P1 with Phospholipid Vesicles
  149. Mode of Action of the Antibacterial Cecropin B2: A Spectrofluorometric Study
  150. Structural characterization, membrane interaction, and specific assembly within phospholipid membranes of hydrophobic segments from Bacillus thuringiensis var. israelensis cytolytic toxin
  151. Structural and functional characterization of the .alpha.5 segment of Bacillus thuringiensis .delta.-endotoxin
  152. Membrane interactions of the sodium channel S4 segment and its fluorescently-labeled analogs
  153. Self-Assembly of Short Peptides for Nanotechnological Applications
  154. Towards micro-machined peptide nanotube based devices