05607nam 2200721 450 991083076270332120230801221931.01-280-59028-997866136201181-118-23211-91-118-23212-7(CKB)2670000000160785(EBL)832583(SSID)ssj0000622294(PQKBManifestationID)11385801(PQKBTitleCode)TC0000622294(PQKBWorkID)10638258(PQKB)11644443(MiAaPQ)EBC832583(MiAaPQ)EBC4033067(OCoLC)779616869(EXLCZ)99267000000016078520160405h20122012 uy 0engur|n|---|||||txtccrMass spectrometry in structural biology and biophysics architecture, dynamics, and interaction of biomolecules /Igor A. Kaltashov, Stephen J. Eyles2nd ed.Hoboken, New Jersey :Wiley,2012.©20121 online resource (312 p.)Wiley series on mass spectrometryDescription based upon print version of record.1-118-23208-9 0-470-93779-3 Includes bibliographical references at the end of each chapters and index.MASS SPECTROMETRY IN STRUCTURAL BIOLOGY AND BIOPHYSICS: Architecture, Dynamics, and Interaction of Biomolecules; CONTENTS; Preface to the Second Edition; Preface to the First Edition; 1 General Overview of Basic Concepts in Molecular Biophysics; 1.1 Covalent Structure of Biopolymers; 1.2 Noncovalent Interactions and Higher Order Structure; 1.2.1 Electrostatic Interaction; 1.2.2 Hydrogen Bonding; 1.2.3 Steric Clashes and Allowed Conformations of the Peptide Backbone: Secondary Structure; 1.2.4 Solvent--Solute Interactions, Hydrophobic Effect, Side-Chain Packing, and Tertiary Structure1.2.5 Intermolecular Interactions and Association: Quaternary Structure1.3 The Protein Folding Problem; 1.3.1 What Is Protein Folding?; 1.3.2 Why Is Protein Folding So Important?; 1.3.3 What Is the Natively Folded Protein and How Do We Define a Protein Conformation?; 1.3.4 What Are Non-Native Protein Conformations?: Random Coils, Molten Globules, and Folding Intermediates; 1.3.5 Protein Folding Pathways; 1.4 Protein Energy Landscapes and the Folding Problem; 1.4.1 Protein Conformational Ensembles and Energy Landscapes: Enthalpic and Entropic Considerations1.4.2 Equilibrium and Kinetic Intermediates on the Energy Landscape1.5 Protein Dynamics and Function; 1.5.1 Limitations of the Structure--Function Paradigm; 1.5.2 Protein Dynamics under Native Conditions; 1.5.3 Is Well-Defined Structure Required for Functional Competence?; 1.5.4 Biomolecular Dynamics and Binding from The Energy Landscape Perspective; 1.5.5 Energy Landscapes Within a Broader Context of Nonlinear Dynamics: Information Flow and Fitness Landscapes; 1.6 Protein Higher Order Structure and Dynamics from A Biotechnology Perspective; References2 Overview of Traditional Experimental Arsenal to Study Biomolecular Structure and Dynamics2.1 X-Ray Crystallography; 2.1.1 Fundamentals; 2.1.2 Crystal Structures at Atomic and Ultrahigh Resolution; 2.1.3 Crystal Structures of Membrane Proteins; 2.1.4 Protein Dynamics and X-Ray Diffraction; 2.2 Solution Scattering Techniques; 2.2.1 Static and Dynamic Light Scattering; 2.2.2 Small-Angle X-Ray Scattering; 2.2.3 Cryo-Electron Microscopy; 2.2.4 Neutron Scattering; 2.3 NMR Spectroscopy; 2.3.1 Heteronuclear NMR; 2.3.2 Hydrogen Exchange by NMR; 2.4 Other Spectroscopic Techniques2.4.1 Cumulative Measurements of Higher Order Structure: Circular Dichroism2.4.2 Vibrational Spectroscopy; 2.4.3 Fluorescence: Monitoring Specific Dynamic Events; 2.5 Other Biophysical Methods to Study Macromolecular Interactions and Dynamics; 2.5.1 Calorimetric Methods; 2.5.2 Analytical Ultracentrifugation; 2.5.3 Surface Plasmon Resonance; 2.5.4 Size Exclusion Chromatography (Gel Filtration); 2.5.5 Electrophoresis; 2.5.6 Affinity Chromatography; References; 3 Overview of Biological Mass Spectrometry; 3.1 Basic Principles of Mass Spectrometry; 3.1.1 Stable Isotopes and Isotopic Distributions3.1.2 Macromolecular Mass: Terms and Definitions The definitive guide to mass spectrometry techniques in biology and biophysics The use of mass spectrometry (MS) to study the architecture and dynamics of proteins is increasingly common within the biophysical community, and Mass Spectrometry in Structural Biology and Biophysics: Architecture, Dynamics, and Interaction of Biomolecules, Second Edition provides readers with detailed, systematic coverage of the current state of the art. Offering an unrivalled overview of modern MS-based armamentarium that can be used to solve the most challenging problems in biophysics, structural biolWiley-Interscience series on mass spectrometry.Mass spectrometryBiophysicsBiomoleculesSpectraMass spectrometry.Biophysics.BiomoleculesSpectra.610.28/4610.284Kaltashov Igor A.873998Eyles Stephen J.MiAaPQMiAaPQMiAaPQBOOK9910830762703321Mass spectrometry in structural biology and biophysics3934131UNINA02584nam0 2200469 i 450 VAN013326120230623110913.686N978443154493720210408d2014 |0itac50 baengJP|||| |||||Formulation of Uncertainty Relation Between Error and Disturbance in Quantum Measurement by Using Quantum Estimation TheoryDoctoral Thesis accepted by The University of Tokyo, Tokyo, JapanYu WatanabeTokyo : Springer, 2014xiii122 p.ill. ; 24 cm001VAN01041932001 Springer thesesrecognizing outstanding Ph.D. research210 BerlinSpringer2010-VAN0157059Formulation of Uncertainty Relation Between Error and Disturbance in Quantum Measurement by Using Quantum Estimation Theory177089881-XXQuantum theory [MSC 2020]VANC019967MF94A17Measures of information, entropy [MSC 2020]VANC021212MF81P15Quantum measurement theory, state operations, state preparations [MSC 2020]VANC023585MF62G05Nonparametric estimation [MSC 2020]VANC029306MF81P45Quantum information, communication, networks (quantum-theoretic aspects) [MSC 2020]VANC030931MF81P50Quantum state estimation, approximate cloning [MSC 2020]VANC036197MFAttainable Bound of Uncertainty RelationKW:KEstimation Theory of Error and DisturbanceKW:KHeisenberg’s Uncertainty RelationKW:KInformation Theoretic Formulation of Error and DisturbanceKW:KLie algebraKW:KQuantum Fisher InformationKW:KQuantum MeasurementsKW:KTokyoVANL000048WatanabeYuVANV107011792019Springer <editore>VANV108073650ITSOL20240614RICAhttp://doi.org/10.1007/978-4-431-54493-7E-book – Accesso al full-text attraverso riconoscimento IP di Ateneo, proxy e/o ShibbolethBIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICAIT-CE0120VAN08NVAN0133261BIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICA08CONS e-book 2172 08eMF2172 20210408 Formulation of Uncertainty Relation Between Error and Disturbance in Quantum Measurement by Using Quantum Estimation Theory1770898UNICAMPANIA