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Einführung in die Nanobiomechanik [[electronic resource] ] : Bildgebung und Messung durch Rasterkraftmikroskopie / / Atsushi Ikai. Mit Beitr. von Rehana Afrin ... [et al.]

Ikai Atsushi

Weinheim, : Wiley-VCH-Verl, 2010

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Einführung in die Nanobiomechanik [[electronic resource] ] : Bildgebung und Messung durch Rasterkraftmikroskopie / / Atsushi Ikai. Mit Beitr. von Rehana Afrin ... [et al.]

Ikai Atsushi

Weinheim, : Wiley-VCH-Verl, 2010

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Einführung in die Nanobiomechanik : Bildgebung und Messung durch Rasterkraftmikroskopie / / Atsushi Ikai. Mit Beitr. von Rehana Afrin ... [et al.]

Ikai Atsushi

Weinheim, : Wiley-VCH-Verl, 2010

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The world of nano-biomechanics : mechanical imaging and measurement by atomic force microscopy / / Atsushi Ikai ; with contributions of R. Afrin, [et. al.]

Ikai Atsushi

Amsterdam ; ; Oxford, : Elsevier, 2008

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Autore (Ente)

Autore (Convegno)

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Wiley-VCH-Verl (3)
Elsevier (1)

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Tedesco (3)
Inglese (1)

Data

Ultimi 50 anni (4)

Data di pubblicazione

2010 (3)
2008 (1)

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Electronic books. (1)

Autore	Ikai Atsushi
Edizione	[1. Aufl.]
Pubbl/distr/stampa	Weinheim, : Wiley-VCH-Verl, 2010
Descrizione fisica	1 online resource (264 p.)
Disciplina	571.4/3 571.43
Altri autori (Persone)	AfrinR (Rehana)
Soggetto topico	Biomechanics Nanostructures
Soggetto genere / forma	Electronic books.
ISBN	3-527-63295-6 1-282-71240-3 9786612712401 3-527-63100-3 3-527-63101-1
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	ger
Nota di contenuto	Einführung in die Nanobiomechanik; Inhaltsverzeichnis; Vorwort; 1 Kräfte in der Biologie; 2 Einführung in die Grundlagen der Mechanik; 3 Kräfte und Kraftmessung; 4 Die Mechanik von Polymerketten; 5 Wechselwirkungen; 6 Wechselwirkungen zwischen einzelnen Molekülen; 7 Die Mechanik einzelner DNA- und RNA-Moleküle; 8 Die Mechanik einzelner Proteinmoleküle; 9 Bewegung in der Nanobiologie; 10 Die Mechanik von Zellen; 11 Manipulation einzelner Moleküle; 12 Finite-Elemente-Analyse von mikroskopischen biologischen Strukturen; A Grundzüge der linearen Mechanik nach Landau und Lifschitz B Die Mechanik von BalkenC Persistenzlänge und Kuhnlänge; D Das Hertzmodell; E Farbtafeln
Record Nr.	UNINA-9910140733603321

Autore	Ikai Atsushi
Edizione	[1. Aufl.]
Pubbl/distr/stampa	Weinheim, : Wiley-VCH-Verl, 2010
Descrizione fisica	1 online resource (264 p.)
Disciplina	571.4/3 571.43
Altri autori (Persone)	AfrinR (Rehana)
Soggetto topico	Biomechanics Nanostructures
ISBN	3-527-63295-6 1-282-71240-3 9786612712401 3-527-63100-3 3-527-63101-1
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	ger
Nota di contenuto	Einführung in die Nanobiomechanik; Inhaltsverzeichnis; Vorwort; 1 Kräfte in der Biologie; 2 Einführung in die Grundlagen der Mechanik; 3 Kräfte und Kraftmessung; 4 Die Mechanik von Polymerketten; 5 Wechselwirkungen; 6 Wechselwirkungen zwischen einzelnen Molekülen; 7 Die Mechanik einzelner DNA- und RNA-Moleküle; 8 Die Mechanik einzelner Proteinmoleküle; 9 Bewegung in der Nanobiologie; 10 Die Mechanik von Zellen; 11 Manipulation einzelner Moleküle; 12 Finite-Elemente-Analyse von mikroskopischen biologischen Strukturen; A Grundzüge der linearen Mechanik nach Landau und Lifschitz B Die Mechanik von BalkenC Persistenzlänge und Kuhnlänge; D Das Hertzmodell; E Farbtafeln
Record Nr.	UNINA-9910830486603321

Autore	Ikai Atsushi
Edizione	[1. Aufl.]
Pubbl/distr/stampa	Weinheim, : Wiley-VCH-Verl, 2010
Descrizione fisica	1 online resource (264 p.)
Disciplina	571.4/3 571.43
Altri autori (Persone)	AfrinR (Rehana)
Soggetto topico	Biomechanics Nanostructures
ISBN	9786612712401 9783527632954 3527632956 9781282712409 1282712403 9783527631001 3527631003 9783527631018 3527631011
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	ger
Nota di contenuto	Einführung in die Nanobiomechanik; Inhaltsverzeichnis; Vorwort; 1 Kräfte in der Biologie; 2 Einführung in die Grundlagen der Mechanik; 3 Kräfte und Kraftmessung; 4 Die Mechanik von Polymerketten; 5 Wechselwirkungen; 6 Wechselwirkungen zwischen einzelnen Molekülen; 7 Die Mechanik einzelner DNA- und RNA-Moleküle; 8 Die Mechanik einzelner Proteinmoleküle; 9 Bewegung in der Nanobiologie; 10 Die Mechanik von Zellen; 11 Manipulation einzelner Moleküle; 12 Finite-Elemente-Analyse von mikroskopischen biologischen Strukturen; A Grundzüge der linearen Mechanik nach Landau und Lifschitz B Die Mechanik von BalkenC Persistenzlänge und Kuhnlänge; D Das Hertzmodell; E Farbtafeln
Record Nr.	UNINA-9911019624103321

Autore	Ikai Atsushi
Pubbl/distr/stampa	Amsterdam ; ; Oxford, : Elsevier, 2008
Descrizione fisica	1 online resource (301 p.)
Disciplina	502.82 571.43
Soggetto topico	Biomechanics Nanostructures Atomic force microscopy
ISBN	1-281-09627-X 9786611096274 0-08-055604-3
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Front Cover; The World of Nano-Biomechanics; Copyright Page; Table of Contents; Contributors; Preface; Chapter 1. Force in Biology; 1.1 What are We Made of?; 1.2 Human Body and Force; 1.3 Biomechanics as the Big Brother; 1.4 Molecular Basis for Structural Design; 1.5 Soft versus Hard Materials; 1.6 Biological and Biomimetic Structural Materials; 1.7 Wear and Tear of Biological Structures; 1.8 Thermodynamics and Mechanics in Nanometer Scale Biology; Bibliography; Chapter 2. Introduction to Basic Mechanics; 2.1 Elastic and Plastic Deformation of Materials; 2.2 Stress and Strain Relationship 2.3 Mechanical Breakdown of Materials2.4 Viscoelasticity; 2.5 Mechanical Moduli of Biological Materials; 2.6 Fluid and Viscosity; 2.7 Adhesion and Friction; 2.8 Mechanically Controlled Systems; Bibliography; Chapter 3. Force and Force Measurement Apparatuses; 3.1 Mechanical, Thermal, and Chemical Forces; 3.2 Laser Trap; 3.3 Atomic Force Microscope; 3.4 Biomembrane Force Probe; 3.5 Magnetic Beads; 3.6 Gel Columns; 3.7 Cantilever Force Sensors; 3.8 Loading-rate Dependence; 3.9 Force Clamp Method; 3.10 Specific versus Nonspecific Forces; Bibliography; Chapter 4. Polymer Chain Mechanics 4.1 Polymers in Biological World4.2 Polymer Chains; 4.3 End-to-End Distance; 4.4 Persistence Length; 4.5 Polymers in Solution; 4.6 Polymers on the Surface; 4.7 Polymers as Biomimetic Materials; 4.8 Polymer Pull-out; Bibliography; Chapter 5. Interaction Forces; 5.1 Covalent versus Noncovalent Force; 5.2 Basics of Electrostatic Interaction Force; 5.3 Various Types of Noncovalent Forces; 5.4 Application of External Force; 5.5 Interaction Force Between Macromolecules; 5.6 Water at the Interface; Bibliography; Chapter 6. Single-Molecular Interaction Forces; 6.1 Ligand-receptor Interactions 6.2 Sugar-lectin Interactions6.3 Antigen-antibody Interactions; 6.4 GroEL and Unfolded-Protein Interactions; 6.5 Lipid-protein Interactions; 6.6 Anchoring Force of Proteins to the Membrane; 6.7 Receptor Mapping; 6.8 Protein Unanchoring and Identification; 6.9 Membrane Breaking; Bibliography; Chapter 7. Single-molecule DNA and RNA Mechanics; 7.1 Stretching of Double-stranded DNA; 7.2 Hybridization and Mechanical Force; 7.3 Chain Dynamics and Transition of DNA and RNA; 7.4 DNA-protein Interaction; 7.5 Prospect for Sequence Analysis; Bibliography; Chapter 8. Single-molecule Protein Mechanics 8.1 Protein-stretching Experiments8.2 Intramolecular Cores; 8.3 Stretching of Modular Proteins; 8.4 Dynamic Stretching; 8.5 Catch Bond; 8.6 Protein-compression Experiments; 8.7 Internal Mechanics of Protein Molecules; 8.8 Mechanical Control of Protein Activity; 8.9 Computer Simulation of Protein Deformation; Case Study: Carbonic Anhydrase II; Bibliography; Chapter 9. Motion in Nano-biology; 9.1 Cell Movement and Structural Proteins; 9.2 Muscle and Motor Proteins; 9.3 Single-motor Measurements; 9.4 Flagella for Bacterial Locomotion; 9.5 Mycoplasma Gliding 9.6 Mechanics and Efficiency of Motor Proteins
Record Nr.	UNINA-9911006631603321