World of Nano-Biomechanics
-10%
portes grátis
World of Nano-Biomechanics
Ikai, Atsushi
Elsevier Science & Technology
11/2016
340
Mole
Inglês
9780444636867
15 a 20 dias
380
Descrição não disponível.
1. Force in Biology2. Introduction to Basic Mechanics3. Force Measurement and Mechanical Imaging Apparatuses4. Interaction Forces5. Polymer Chain Mechanics6. Analysis of Data Gleaned by Atomic-Force Microscopy7. Single-Molecular Interaction8. Single-Molecule DNA and RNA Mechanics9. Single-Molecule Protein Mechanics10. Nanomechanics of Motion-Supporting Molecular Systems11. Finite-Element Analysis of Microbiological Structures12. Nanomechanical Bases of Cell Structure13. Nanorheology of Living Cells14. Molecular and Cellular Manipulations for Future Nanomedicine
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adhesion; AFM; -alanine; Antigen-antibody; Atomic force microscopy (AFM)Biomembrane force probe; Bioconjugates; Biological polymers; Biomechanics; Biotin-avidin; Cantilever sensor; Carbonic anhydrase; Catch bond; Cell membrane; Cell movement; Cell shape; Cell stiffness; Cell surgery; Covalent bond; Creep relaxation; Cytoskeleton; Data analysis; Dipole moment; Dispersion force; DNA overstretching; DNA recovery; DNA stretching; DNA unzipping; DNAi?1/2protein interaction; DNA; Dynamic stretching; Electrostatic interaction; End-to-end distance; FEM; Finite element; Flagella; Force (on Human body)Friction; Force modulation; Force spectroscopy; Freely jointed chain (FJC)Persistence length; Gel columns; Gene manipulation; Gravity; Hertz model; High-throughput measurements; Hydrodynamic drag; Hydrogen bond; Hydrophobic interaction; Imaging; Indentation experiment; Knotted proteins; Laser trap; Lenard-Jones potential; Lipid-protein; Liposomes; Loading rate dependence; Magnetic beads; Mechanical breakdown; Mechanical properties; Mechanics; Membrane breaking; Membrane deformation; Membrane protein extraction; Membrane proteins; Modular proteins; Molecular and cellular mechanical properties; Morphology; Motor proteins; Muscle; Mycoplasma; Nanomedicine; Non-covalent bond; Poisson's ratio; Polyethylene; Poly-l; Polymer pullout; Power-law rheology; Protein anchoring; Protein compression; Protein stretching; Protein; Proteins in Motion; Receptor mapping; Red blood cell; Rigidity of protein; RNA recovery; Shear modulus; Single-cell mechanical diagnostics; Soft materials; Strain; Stress relaxation; Stress; Structural design; Sugar-lectin; Surface force apparatus; Tatara model; Tissue surgery; Transferrin-receptor; Viscosity; Wheat germ agglutinin (WGA)Wormlike chain (WLC)Young's modulus
1. Force in Biology2. Introduction to Basic Mechanics3. Force Measurement and Mechanical Imaging Apparatuses4. Interaction Forces5. Polymer Chain Mechanics6. Analysis of Data Gleaned by Atomic-Force Microscopy7. Single-Molecular Interaction8. Single-Molecule DNA and RNA Mechanics9. Single-Molecule Protein Mechanics10. Nanomechanics of Motion-Supporting Molecular Systems11. Finite-Element Analysis of Microbiological Structures12. Nanomechanical Bases of Cell Structure13. Nanorheology of Living Cells14. Molecular and Cellular Manipulations for Future Nanomedicine
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adhesion; AFM; -alanine; Antigen-antibody; Atomic force microscopy (AFM)Biomembrane force probe; Bioconjugates; Biological polymers; Biomechanics; Biotin-avidin; Cantilever sensor; Carbonic anhydrase; Catch bond; Cell membrane; Cell movement; Cell shape; Cell stiffness; Cell surgery; Covalent bond; Creep relaxation; Cytoskeleton; Data analysis; Dipole moment; Dispersion force; DNA overstretching; DNA recovery; DNA stretching; DNA unzipping; DNAi?1/2protein interaction; DNA; Dynamic stretching; Electrostatic interaction; End-to-end distance; FEM; Finite element; Flagella; Force (on Human body)Friction; Force modulation; Force spectroscopy; Freely jointed chain (FJC)Persistence length; Gel columns; Gene manipulation; Gravity; Hertz model; High-throughput measurements; Hydrodynamic drag; Hydrogen bond; Hydrophobic interaction; Imaging; Indentation experiment; Knotted proteins; Laser trap; Lenard-Jones potential; Lipid-protein; Liposomes; Loading rate dependence; Magnetic beads; Mechanical breakdown; Mechanical properties; Mechanics; Membrane breaking; Membrane deformation; Membrane protein extraction; Membrane proteins; Modular proteins; Molecular and cellular mechanical properties; Morphology; Motor proteins; Muscle; Mycoplasma; Nanomedicine; Non-covalent bond; Poisson's ratio; Polyethylene; Poly-l; Polymer pullout; Power-law rheology; Protein anchoring; Protein compression; Protein stretching; Protein; Proteins in Motion; Receptor mapping; Red blood cell; Rigidity of protein; RNA recovery; Shear modulus; Single-cell mechanical diagnostics; Soft materials; Strain; Stress relaxation; Stress; Structural design; Sugar-lectin; Surface force apparatus; Tatara model; Tissue surgery; Transferrin-receptor; Viscosity; Wheat germ agglutinin (WGA)Wormlike chain (WLC)Young's modulus
