| Interphase Systems / Part I: |
| Biocompatible inorganic devices Microfluidic ""Lab-on-a-chip"" devices Microcontact printing of proteins Cell-nanostructure interactions Networks of neuronal cells on silicon substrates / Thomas Sawitowski1: |
| Biocompatible Inorganic Device / II: |
| Protein-Based Nanostructures |
| S-Layers Engineered nanopores Genetic appoaches to particle assembly Microbial nanoparticle production Magnetosomes Bacteriorhodopsin technology Polymer nanocontainers Protein biomolecular motors Nanoparticle-biomaterial hybrid systems / 1.1: |
| Introduction / III: |
| Dna-Based Nanostructures Dna-Protei |
| Implant Coatings / 1.2: |
| Conclusion / 1.3: |
| Microfluidics Meets Nano: Lab-on-a-Chip Devices and their Potential for Nanobiotechnology / Holger Bartos ; Friedrich Gotz ; Ralf-Peter Peters2: |
| Overview / 2.1: |
| Methods / 2.3: |
| Outlook / 2.4: |
| Microcontact Printing of Proteins / Emmanuel Delamarche3: |
| Strategies for Printing Proteins on Surfaces / 3.1: |
| Microcontact Printing Polypeptides and Proteins / 3.3: |
| Activity of Printed Biomolecules / 3.4: |
| Printing Multiple Types of Proteins / 3.5: |
| Cell-Nanostructure Interactions / Joachim P. Spatz3.6: |
| Defined Networks of Neuronal Cells in Vitro / Andreas Offenhausser ; Angela K. Vogt4.1: |
| Overview: Background and History / 5.1: |
| Protein-based Nanostructures / 5.3: |
| S-Layers / Uwe B. Sleytr ; Eva-Maria Egelseer ; Dietmar Pum ; Bernhard Schuster6: |
| Abbreviations / 6.1: |
| Engineered Nanopores / Hagan Bayley ; Orit Braha ; Stephen Cheley ; Li-Qun Gu6.2: |
| Genetic Approaches to Programmed Assembly / Stanley Brown7.1: |
| Order from Chaos / 8.1: |
| Monitoring Enrichment / 8.3: |
| Quantification of Binding and Criteria for Specificity / 8.4: |
| Unselected Traits and Control of Crystallization/Reactivity / 8.5: |
| Dominant Traits, Interpretation of Gain-of-Function Mutants / 8.6: |
| Interpretation and Requirement for Consensus Sequences / 8.7: |
| Sizes of Proteins and Peptides / 8.8: |
| Mix and Match, Fusion Proteins, and Context-Dependence / 8.9: |
| Mix and Match, Connecting Structures / 8.10: |
| Microbial Nanoparticle Production / Murali Sastry ; Absar Ahmad ; M. Islam Khan ; Rajiv Kumar8.11: |
| Magnetosomes: Nanoscale Magnetic Iron Minerals in Bacteria / Richard B. Frankel ; Dennis A. Bazylinski9.1: |
| Research Methods / 10.1: |
| Conclusion and Future Research Directions / 10.3: |
| Bacteriorhodopsin and its Potential in Technical Applications / Norbert Hampp ; Dieter Oesterhelt11: |
| Overview: The Molecular Properties of Bacteriorhodopsin / 11.1: |
| Overview: Technical Applications of Bacteriorhodopsin / 11.3: |
| Polymer Nanocontainers / Alexandra Graff ; Samantha M. Benito ; Corinne Verbert ; Wolfgang Meier11.4: |
| Polymer Nanocontainers with Controlled Permeability / 12.1: |
| Nanoparticle Films / 12.4: |
| Biomaterials and Gene Therapy / 12.5: |
| Biomolecular Motors Operating in Engineered Environments / Stefan Diez ; Jonne H. Helenius ; Jonathon Howard12.6: |
| Nanoparticle-Biomaterial Hybrid Systems for Bioelectronic Devices and Circuitry / Eugenii Katz ; Itamar Willner13.1: |
| Biomaterial-Nanoparticle Systems for Bioelectronic and Biosensing Applications / 14.1: |
| Biomaterial-based Nanocircuitry / 14.3: |
| Conclusions and Perspectives / 14.4: |
| DNA-based Nanostructures / Part III: |
| DNA-Protein Nanostructures / Christof M. Niemeyer15: |
| DNA-templated Electronics / Erez Braun ; Uri Sivan15.1: |
| Introduction and Background / 16.1: |
| Sequence-specific Molecular Lithography / 16.2: |
| Summary and Perspectives / 16.4: |
| Biomimetic Fabrication of DNA-based Metallic Nanowires and Networks / Michael Mertig ; Wolfgang Pompe17: |
| Template Design / 17.1: |
| Metallization / 17.3: |
| Conductivity Measurements on Metalized DNA Wires / 17.4: |
| Conclusions and Outlook / 17.5: |
| Mineralization in Nanostructured Biocompartments: Biomimetic Ferritins For High-Density Data Storage / Eric L. Mayes ; Stephen Mann17.6: |
| Biomimetic Ferritins / 18.1: |
| High-Density Magnetic Data Storage / 18.3: |
| Results / 18.4: |
| DNA-Gold-Nanoparticle Conjugates / C. Shad Thaxton ; Chad A. Mirkin18.6: |
| The Essentials: Methods and Protocols / 19.1: |
| DNA Nanostructures for Mechanics and Computing: Nonlinear Thinking with Life's Central Molecule / Nadrian C. Seeman19.3: |
| DNA Arrays / 20.1: |
| DNA Nanomechanical Devices / 20.4: |
| DNA-based Computation / 20.5: |
| Summary and Outlook / 20.6: |
| Nanoparticles as Non-Viral Transfection Agents / M. N. V. Ravi Kumar ; Udo Bakowsky ; Claus-Michael Lehr21: |
| Introduction to Gene Delivery / 21.1: |
| Nanoparticles for Drug and Gene Targeting / 21.2: |
| Nonviral Nanomaterials in Development and Testing / 21.3: |
| Setbacks and Strategies to Improve Specific Cell Uptake of Nonviral Systems / 21.4: |
| Prospects for Nonviral Nanomaterials / 21.5: |
| Nanoanalytics / Part IV: |
| Luminescent Quantum Dots for Biological Labeling / Xiaohu Gao ; Shuming Nie22: |
| Nanoparticle Molecular Labels / James F. Hainfeld ; Richard D. Powell ; Gerhard W. Hacker22.1: |
| Immunogold-Silver Staining: A History / 23.1: |
| Combined Fluorescent and Gold Probes / 23.3: |
| Methodology / 23.4: |
| Applications for the Microscopical Detection of Antigens / 23.5: |
| Detection of Nucleic Acid Sequences / 23.6: |
| Applications for Microscopical Detection of Nucleic Acids / 23.7: |
| Technical Guidelines and Laboratory Protocols / 23.8: |
| Gold Derivatives of Other Biomolecules / 23.9: |
| Larger Covalent Particle Labels / 23.10: |
| Gold Targeted to His Tags / 23.11: |
| Enzyme Metallography / 23.12: |
| Gold Cluster Nanocrystals / 23.13: |
| Gold Cluster-Oligonucleotide Conjugates: Nanotechnology Applications / 23.14: |
| Other Metal Cluster Labels / 23.15: |
| Surface Biology: Analysis of Biomolecular Structure by Atomic Force Microscopy and Molecular Pulling / Emin Oroudjev ; Signe Danielsen ; Helen G. Hansma24: |
| Recent Results / 24.1: |
| The Future / 24.3: |
| Force Spectroscopy / Markus Seitz25: |
| Biofunctionalized Nanoparticles for Surface-Enhanced Raman Scattering and Surface Plasmon Resonance / Mahnaz El-Kouedi ; Christine D. Keating25.1: |
| Future Outlook / 26.1: |
| Bioconjugated Silica Nanoparticles for Bioanalytical Applications / Timothy J. Drake ; Xiaojun Julia Zhao ; Weihong Tan27: |
| Index / 27.1: |
| Interphase Systems / Part I: |
| Biocompatible inorganic devices Microfluidic ""Lab-on-a-chip"" devices Microcontact printing of proteins Cell-nanostructure interactions Networks of neuronal cells on silicon substrates / Thomas Sawitowski1: |
| Biocompatible Inorganic Device / II: |
図書
