Methods in bioengineering : nanoscale bioengineering and nanomedicine /

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This practical book is part of the new Artech House Methods in Bioengineering series - volumes designed to offer detailed guidance on authoritative methods for addressing specific bioengineering challenges. This volume is focused on the materials involved with nanoscale bioengineering. Nanomaterials...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Rege, Kaushal, Medintz, Igor L.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Artech House, ©2009.
Colección:Artech House methods in bioengineering series.
Temas:
Biomedical engineering > Methodology.
Nanoscience.
Nanotechnology.
Nanomedicine.
Bioengineering > methods
Nanomedicine
Nanostructures
Nanotechnology
Génie biomédical > Méthodologie.
Nanosciences.
Nanomédecine.
Nanotechnologie.
TECHNOLOGY & ENGINEERING > Biomedical.
MEDICAL > Family & General Practice.
MEDICAL > Allied Health Services > Medical Technology.
MEDICAL > Biotechnology.
MEDICAL > Lasers in Medicine.
Nanoscience
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Methods in Bioengineering: Nanoscale Bioengineering and Nanomedicine; Contents; Preface; Chapter 1 Preparation and Characterization of Carbon Nanotube-Protein Conjugates; 1.1 Introduction; 1.2 Materials; 1.3 Methods; 1.3.1 Physical Adsorption of Proteins on Carbon Nanotubes; 1.3.2 Protein Assisted Solubilization of Carbon Nanotubes; 1.3.3 Covalent Attachment of Proteins onto Carbon Nanotubes; 1.4 Data Acquisition, Anticipated Results, and Interpretation of Data; 1.4.1 Characterization of Proteins Physically Adsorbed onto Carbon Nanotubes
  • 1.4.2 Characterization of Protein-Solubilized Carbon Nanotubes1.4.3 Characterization of Covalently Attached Carbon Nanotube-Protein Conjugates; 1.5 Discussion and Commentary; 1.6 Applications Notes; 1.7 Summary Points; Acknowledgments; References; Chapter 2 Peptide-Nanoparticle Assemblies; 2.1 Introduction; 2.2 Materials; 2.3 Methods; 2.3.1 Coil-Coil Peptide Mediated NP Assembly; 2.3.2 Synthesis of Hybrid Structures Using Multifunctional Peptides; 2.4 Assembly Mediated by Metal Ion-Peptide Recognition; 2.5 Peptides as Antibody Epitopes for Nanoparticle Assembly
  • 2.6 DATA Acquisition, Anticipated Results, and Interpretation2.7 Discussion and Commentary; 2.8 Application Notes; 2.9 Summary Points; Acknowledgments; References; Chapter 3 Nanoparticle-Enzyme Hybrids as Bioactive Materials; 3.1 Introduction; 3.2 Materials; 3.3 Methods; 3.3.1 Enzyme-Attached Polystyrene Nanoparticles; 3.3.2 Polyacrylamide Hydrogel Nanoparticles for Entrapment of Enzymes; 3.3.3 Magnetic Nanoparticles with Porous Silica Coating for Enzyme Attachment; 3.3.4 Enzyme Loading and Activity Assay; 3.4 Results; 3.4.1 Polystyrene-Enzyme Hybrid Nanoparticles
  • 3.4.2 Polyacrylamide Hydrogel Nanoparticles with Entrapped Enzymes3.4.3 Magnetic Nanoparticles for Enzyme Attachment; 3.5 Discussion and Commentary; 3.6 Troubleshooting; 3.7 Application Notes; 3.8 Summary Points; Acknowledgments; References; Chapter 4 Self-Assembled QD-Protein Bioconjugates and Their Use in Fluorescence Resonance Energy Transfer; 4.1 Introduction; 4.2 Materials; 4.2.1 Reagents; 4.2.2 Equipment; 4.3 Methods; 4.3.1 Quantum Dot Synthesis; 4.3.2 Surface Ligand Exchange; 4.3.3 Biomolecule Conjugation; 4.3.4 Fluorescence Measurements; 4.4 Data Analysis and Interpretation
  • 4.4.1 Calculating Donor-Acceptor Distances4.4.2 Calculating Reaction Rates of Surface-Bound Substrates; 4.5 Summary Points; 4.6 Conclusions; References; Annotated References; Chapter 5 Tracking Single Biomolecules in Live Cells Using Quantum Dot Nanoparticles; 5.1 Introduction; 5.2 Materials; 5.2.1 Reagents; 5.2.2 Imaging Equipment; 5.3 Methods; 5.3.1 Forming QD Bioconjugates; 5.3.2 Treating Cells with QD Bioconjugates; 5.4 Data Acquisition, Anticipated Results, and Interpretation; 5.4.1 Imaging QD-Bound Complexes in Cells; 5.4.2 Analysis of the Real-Time QD Dynamics

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