Nanobiotechnology II: more concepts and applications/ edited by Chad A. Mirkin and Christof M. Niemeyer.
Material type:
TextPublication details: Weinheim: Wiley-VCH, 2007Description: xxvi, 432 pages : illustrations (some color) ; 25 cmISBN: 9783527316731Subject(s): Biotechnology | Nanotechnology | Biology, life sciencesDDC classification: 540 | Item type | Current library | Call number | Status | Notes | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|---|
General Books Science Library
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Science Library, Sikkim University Science Library General Section | 540 MIR/N (Browse shelf(Opens below)) | Available | Books For SU Science Library | P24487 |
Description based upon print version of record.
Includes bibliographical references and index.
Other format: Also available in printed form ISBN 9783527316731
Nanobiotechnology II; Contents; Preface; List of Contributors; Part I Self-Assembly and Nanoparticles: Novel Principles; 1 Self-Assembled Artificial Transmembrane Ion Channels; 1.1 Overview; 1.1.1 Non-Gated Channels; 1.1.1.1 Aggregates; 1.1.1.2 Half-Channel Dimers; 1.1.1.3 Monomolecular Channels; 1.1.2 Gated Channels; 1.1.2.1 Light-Gated Channels; 1.1.2.2 Voltage-Gated Channels; 1.1.2.3 Ligand-Gated Channels; 1.2 Methods; 1.2.1 Planar Bilayers; 1.2.2 Vesicles; 1.2.2.1 (23)Na NMR; 1.2.2.2 pH-Stat; 1.2.2.3 Fluorescence; 1.2.2.4 Ion-Selective Electrodes; 1.3 Outlook; References
2 Self-Assembling Nanostructures from Coiled-Coil Peptides2.1 Background and Overview; 2.1.1 Introduction: Peptides in Self-Assembly; 2.1.2 Coiled-Coil Peptides as Building Blocks in Supramolecular Design; 2.1.3 Coiled-Coil Design in General; 2.2 Methods and Examples; 2.2.1 Ternary Coiled-Coil Assemblies and Nanoscale-Linker Systems; 2.2.2 Fibers Assembled Using Linear Peptides; 2.2.3 Fibers Assembled Using Protein Fragments and Nonlinear Peptide Building Blocks; 2.2.4 Summary: Pros and Cons of Peptide-Based Assembly of Nanofibers
2.2.5 Assembling More-Complex Matrices Using Peptide Assemblies as Linker Struts2.2.5.1 Programmed Matrices Assembled Exclusively from Coiled-Coil Building Blocks; 2.2.5.2 Synthetic Polymer-Coiled-Coil Hybrids; 2.2.6 Key Techniques; 2.3 Conclusions and Perspectives; References; 3 Synthesis and Assembly of Nanoparticles and Nanostructures Using Bio-Derived Templates; 3.1 Introduction: Elegant Complexity; 3.2 Polysaccharides, Synthetic Peptides, and DNA; 3.3 Proteins; 3.4 Viruses; 3.5 Microorganisms; 3.6 Outlook; Acknowledgments; References
4 Proteins and Nanoparticles: Covalent and Noncovalent Conjugates4.1 Overview; 4.1.1 Covalent Protein-Nanoparticle Conjugates; 4.1.2 Noncovalent Protein-NP Conjugation; 4.2 Methods; 4.2.1 General Methods for Noncovalent Protein-NP Conjugation; 4.2.2 General Methods for Covalent Protein-NP Conjugation; 4.3 Outlook; References; 5 Self-Assembling DNA Nanostructures for Patterned Molecular Assembly; Abstract; 5.1 Introduction; 5.2 Overview of DNA Nanostructures; 5.3 Three-Dimensional (3-D) DNA Nanostructures; 5.4 Programmed Patterning of DNA Nanostructures
5.5 DNA-Programmed Assembly of Biomolecules5.6 DNA-Programmed Assembly of Materials; 5.7 Laboratory Methods; 5.7.1 Annealing for DNA Assembly; 5.7.2 AFM Imaging; 5.8 Conclusions; Acknowledgments; References; 6 Biocatalytic Growth of Nanoparticles for Sensors and Circuitry; 6.1 Overview; 6.1.1 Enzyme-Stimulated Synthesis of Metal Nanoparticles; 6.1.2 Enzyme-Stimulated Synthesis of Cupric Ferrocyanide Nanoparticles; 6.1.3 Cofactor-Induced Synthesis of Metallic NPs; 6.1.4 Enzyme-Metal NP Hybrid Systems as ""Inks"" for the Synthesis of Metallic Nanowires; 6.2 Methods
6.2.1 Physical Tools to Characterize the Growth of Nanoparticles and Nanowires
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