close
1.

図書

図書
Wayen M. Becker, Lewis J. Kleinsmith, Jeff Hardin ; contributor, Gregory Paul Bertoni
出版情報: San Francisco ; Tokyo : Benjamin Cummings, c2006  xxvi, 796, 30, 26, 4, 30 p. ; 29 cm.
所蔵情報: loading…
目次情報: 続きを見る
A Preview of the Cell / 1:
The Chemistry of the Cell / 2:
The Macromolecules of the Cell / 3:
Cells and Organelles / 4:
Bioenergetics: The Flow of Energy in the Cell / 5:
Enzymes: The Catalysts of the Cell / 6:
Membranes: Their Structure, Function, and Chemistry / 7:
Transport Across Membranes: Overcoming the Permeability Barrier / 8:
Chemotrophic Energy Metabolism: Glycolysis and Fermentation / 9:
Chemotrophic Energy Metabolism: Aerobic Respiration / 10:
Phototrophic Energy Metabolism: Photosynthesis / 11:
Intracellular Compartments: The Endoplasmic Reticulum, Golgi Complex, Endosomes, Lysosomes, and Peroxisomes / 12:
Signal Transduction Mechanisms: I. Electrical Signals in Nerve Cells / 13:
Signal Transduction Mechanisms: II. Messengers and Receptors / 14:
Cytoskeletal Systems / 15:
Cellular Movement: Motility and Contractility / 16:
Beyond the Cell: Extracellular Structures, Cell Adhesion, and Cell Junctions / 17:
The Structural Basis of Cellular Information: DNA, Chromosomes, and the Nucleus / 18:
The Cell Cycle: DNA Replication, Mitosis, and Cancer / 19:
Sexual Reproduction: Meiosis and Genetic Recombination / 20:
Gene Expression: I. The Genetic Code and Transcription / 21:
Gene Expression: II. Protein Synthesis and Sorting / 22:
The Regulation of Gene Expression / 23:
Cancer [exact title TBD] / 24:
Glossary
Appendix
Microscopy
A Preview of the Cell / 1:
The Chemistry of the Cell / 2:
The Macromolecules of the Cell / 3:
2.

図書

図書
edited by C.-T. Ho ... [et al.]
出版情報: Cambridge, UK : Royal Society of Chemistry, c2010  x, 474 p. ; 25 cm
シリーズ名: Special publication / Royal Society of Chemistry ; no. 326
所蔵情報: loading…
3.

図書

図書
P.O.J. Scherer, Sighart F. Fischer
出版情報: Berlin : Springer, c2010  xiii, 371 p. ; 24 cm
シリーズ名: Biological and medical physics, biomedical engineering
所蔵情報: loading…
目次情報: 続きを見る
Statistical Mechanics of Biopolymers / Part I:
Random Walk Models for the Conformation / 1:
The Freely Jointed Chain / 1.1:
Entropic Elasticity / 1.1.1:
Force-Extension Relation / 1.1.2:
Two-Component Model / 1.2:
Two-Component Model with Interactions / 1.2.1:
Problems
Flory-Huggins Theory for Biopolymer Solutions / 2:
Monomeric Solution / 2.1:
Polymeric Solution / 2.2:
Phase Transitions / 2.3:
Stability Criterion / 2.3.1:
Critical Coupling / 2.3.2:
Phase Diagram / 2.3.3:
Protein Electrostatics and Solvation / Part II:
Implicit Continuum Solvent Models / 3:
Potential of Mean Force / 3.1:
Dielectric Continuum Model / 3.2:
Born Model / 3.3:
Charges in a Protein / 3.4:
Generalized Born Models / 3.5:
Debye-Hückel Theory / 4:
Electrostatic Shielding by Mobile Charges / 4.1:
1-1 Electrolytes / 4.2:
Charged Sphere / 4.3:
Charged Cylinder / 4.4:
Charged Membrane (Goüy-Chapman Double Layer) / 4.5:
Stern Modification of the Double Layer / 4.6:
Protonation Equilibria / 5:
Protonation Equilibria in Solution / 5.1:
Protonation Equilibria in Proteins / 5.2:
Protonation Enthalpy / 5.2.1:
Protonation Enthalpy Relative to the Uncharged State / 5.2.3:
Statistical Mechanics of Protonation / 5.2.4:
Abnormal Titration Curves of Coupled Residues / 5.3:
Reaction Kinetics / Part III:
Formal Kinetics / 6:
Elementary Chemical Reactions / 6.1:
Reaction Variable and Reaction Rate / 6.2:
Reaction Order / 6.3:
Zero-Order Reactions / 6.3.1:
First-Order Reactions / 6.3.2:
Second-Order Reactions / 6.3.3:
Dynamical Equilibrium / 6.4:
Competing Reactions / 6.5:
Consecutive Reactions / 6.6:
Enzymatic Catalysis / 6.7:
Reactions in Solutions / 6.8:
Diffusion-Controlled Limit / 6.8.1:
Reaction-Controlled Limit / 6.8.2:
Kinetic Theory: Fokker-Planck Equation / 7:
Stochastic Differential Equation for Brownian Motion / 7.1:
Probability Distribution / 7.2:
Diffusion / 7.3:
Sharp Initial Distribution / 7.3.1:
Absorbing Boundary / 7.3.2:
Fokker-Planck Equation for Brownian Motion / 7.4:
Stationary Solution to the Focker-Planck Equation / 7.5:
Diffusion in an External Potential / 7.6:
Large Friction Limit: Smoluchowski Equation / 7.7:
Master Equation / 7.8:
Kramers' Theory / 8:
Kramers' Model / 8.1:
Kramers' Calculation of the Reaction Rate / 8.2:
Dispersive Kinetics / 9:
Dichotomous Model / 9.1:
Fast Solvent Fluctuations / 9.1.1:
Slow Solvent Fluctuations / 9.1.2:
Numerical Example (Fig. 9.3) / 9.1.3:
Continuous Time Random Walk Processes / 9.2:
Formulation of the Model / 9.2.1:
Exponential Waiting Time Distribution / 9.2.2:
Coupled Equations / 9.2.3:
Power Time Law Kinetics / 9.3:
Transport Processes / Part IV:
Nonequilibrium Thermodynamics / 10:
Continuity Equation for the Mass Density / 10.1:
Energy Conservation / 10.2:
Entropy Production / 10.3:
Phenomenological Relations / 10.4:
Stationary States / 10.5:
Simple Transport Processes / 11:
Heat Transport / 11.1:
Diffusion in an External Electric Field / 11.2:
Ion Transport Through a Membrane / 12:
Diffusive Transport / 12.1:
Goldman-Hodgkin-Katz Model / 12.2:
Hodgkin-Huxley Model / 12.3:
Reaction-Diffusion Systems / 13:
Derivation / 13.1:
Linearization / 13.2:
Fitzhugh-Nagumo Model / 13.3:
Reaction Rate Theory / Part V:
Equilibrium Reactions / 14:
Arrhenius Law / 14.1:
Statistical Interpretation of the Equilibrium Constant / 14.2:
Calculation of Reaction Rates / 15:
Collision Theory / 15.1:
Transition State Theory / 15.2:
Comparison Between Collision Theory and Transition State Theory / 15.3:
Thermodynamical Formulation of TSt / 15.4:
Kinetic Isotope Effects / 15.5:
General Rate Expressions / 15.6:
The Flux Operator / 15.6.1:
Marcus Theory of Electron Transfer / 16:
Phenomenological Description of ET / 16.1:
Simple Explanation of Marcus Theory / 16.2:
Free Energy Contribution of the Nonequilibrium Polarization / 16.3:
Activation Energy / 16.4:
Simple Model Systems / 16.5:
Charge Separation / 16.5.1:
Charge Shift / 16.5.2:
The Energy Gap as the Reaction Coordinate / 16.6:
Inner-Shell Reorganization / 16.7:
The Transmission Coefficient for Nonadiabatic Electron Transfer / 16.8:
Elementary Photophysics / Part VI:
Molecular States / 17:
Born-Oppenheimer Separation / 17.1:
Nonadiabatic Interaction / 17.2:
Optical Transitions / 18:
Dipole Transitions in the Condon Approximation / 18.1:
Time Correlation Function Formalism / 18.2:
The Displaced Harmonic Oscillator Model / 19:
The Time Correlation Function in the Displaced Harmonic Oscillator Approximation / 19.1:
High-Frequency Modes / 19.2:
The Short-Time Approximation / 19.3:
Spectral Diffusion / 20:
Dephasing / 20.1:
Gaussian Fluctuations / 20.2:
Long Correlation Time / 20.2.1:
Short Correlation Time / 20.2.2:
Markovian Modulation / 20.3:
Crossing of Two Electronic States / 21:
Adiabatic and Diabatic States / 21.1:
Semiclassical Treatment / 21.2:
Application to Diabatic Et / 21.3:
Crossing in More Dimensions / 21.4:
Dynamics of an Excited State / 22:
Green's Formalism / 22.1:
Ladder Model / 22.2:
A More General Ladder Model / 22.3:
Application to the Displaced Oscillator Model / 22.4:
Elementary Photoinduced Processes / Part VII:
Photophysics of Chlorophylls and Carotenoids / 23:
MO Model for the Electronic States / 23.1:
The Free Electron Model for Polyenes / 23.2:
The LCAO Approximation / 23.3:
Hückel Approximation / 23.4:
Simplified CI Model for Polyenes / 23.5:
Cyclic Polyene as a Model for Porphyrins / 23.6:
The Four Orbital Model for Porphyrins / 23.7:
Energy Transfer Processes / 23.8:
Incoherent Energy Transfer / 24:
Excited States / 24.1:
Interaction Matrix Element / 24.2:
Multipole Expansion of the Excitonic Interaction / 24.3:
Energy Transfer Rate / 24.4:
Spectral Overlap / 24.5:
Energy Transfer in the Triplet State / 24.6:
Coherent Excitations in Photosynthetic Systems / 25:
Coherent Excitations / 25.1:
Strongly Coupled Dimers / 25.1.1:
Excitonic Structure of the Reaction Center / 25.1.2:
Circular Molecular Aggregates / 25.1.3:
Dimerized Systems of LH2 / 25.1.4:
Influence of Disorder / 25.2:
Symmetry-Breaking Local Perturbation / 25.2.1:
Periodic Modulation / 25.2.2:
Diagonal Disorder / 25.2.3:
Off-Diagonal Disorder / 25.2.4:
Ultrafast Electron Transfer Processes in the Photosynthetic Reaction Center / 26:
Proton Transfer in Biomolecules / 27:
The Proton Pump Bacteriorhodopsin / 27.1:
Nonadiabatic Proton Transfer (Small Coupling) / 27.2:
Strongly Bound Protons / 27.4:
Adiabatic Proton Transfer / 27.5:
Molecular Motor Models / Part VIII:
Continuous Ratchet Models / 28:
Transport Equations / 28.1:
Chemical Transitions / 28.2:
The Two-State Model / 28.3:
The Chemical Cycle / 28.3.1:
The Fast Reaction Limit / 28.3.2:
The Fast Diffusion Limit / 28.3.3:
Operation Close to Thermal Equilibrium / 28.4:
Discrete Ratchet Models / 29:
Linear Model with Two Internal States / 29.1:
Appendix / Part IX:
The Grand Canonical Ensemble / A:
Grand Canonical Distribution / A.l:
Connection to Thermodynamics / A.2:
Time Correlation Function of the Displaced Harmonic Oscillator Model / B:
Evaluation of the Time Correlation Function / B.l:
Boson Algebra / B.2:
Derivation of Theorem 1 / B.2.1:
Derivation of Theorem 2 / B.2.2:
Derivation of Theorem 3 / B.2.3:
Derivation of Theorem 4 / B.2.4:
The Saddle Point Method / C:
Solutions
References
Index
Statistical Mechanics of Biopolymers / Part I:
Random Walk Models for the Conformation / 1:
The Freely Jointed Chain / 1.1:
4.

図書

図書
Harvey Lodish ... [et al.]
出版情報: New York, NY : W.H. Freeman, c2008  xxxvii, 1150, G-24, I-52 p. ; 29 cm
所蔵情報: loading…
目次情報: 続きを見る
Chemical and Molecular Foundations / Part I:
Life Begins with Cells / 1:
Chemical Foundations / 2:
Protein Structure and Function / 3:
Genetics and Molecular Biology / Part II:
Basic Molecular Genetic Mechanisms / 4:
Molecular Genetic Techniques / 5:
Genes, Genomics, and Chromosomes / 6:
Transcriptional Control of Gene Expression / 7:
Post-transcriptional Gene Control / 8:
Cell Structure and Function / Part III:
Visualizing, Fractionating, and Culturing Cells / 9:
Biomembrane Structure / 10:
Transmembrane Transport of Ions and Small Molecules / 11:
Cellular Energetics / 12:
Moving Proteins into Membranes and Organelles / 13:
Vesicular Traffic, Secretion, and Endocytosis / 14:
Cell Signaling I: Signal Transduction and Short-term Cellular Responses / 15:
Cell Signaling II: Signaling Pathways that Control Gene Activity / 16:
Cell Organization and Movement I: Microfilaments / 17:
Cell Organization and Movement II: Microtubules and Intermediate Filaments / 18:
Integrating Cells into Tissues / 19:
Cell Growth and Development / Part IV:
Regulating the Eukaryotic Cell Cycle / 20:
Cell Birth, Lineage, and Death / 21:
The Molecular Cell Biology of Development / 22:
Nerve Cells / 23:
Immunology / 24:
Cancer / 25:
Chemical and Molecular Foundations / Part I:
Life Begins with Cells / 1:
Chemical Foundations / 2:
5.

図書

図書
John Maddox
出版情報: New York : Macmillan, c1964  179 p. ; 22 cm
所蔵情報: loading…
6.

図書

図書
Gerald Karp
出版情報: Hoboken, NJ : John Wiley, c2005  xxiv, 780, 21, 36 p. ; 29 cm
所蔵情報: loading…
目次情報: 続きを見る
Introduction to the Study of Cell Biology / 1:
The Chemical Basis of Life / 2:
Introduction to the Study of Cell and Molecular Biology / 3:
Bioenergetics, Enzymes, and Metabolism / Chapter 2:
The Structure and Function of the Plasma Membrane / 4:
Aerobic Respiration and the Mitochondrion / 5:
Photosynthesis and the Chloroplast / 6:
Interactions Between Cells and Their Environment / 7:
Cytoplasmic Membrane Systems: Structure, Function, and Membrane Trafficking / 8:
The Cytoskeleton and Cell Motility / 9:
Cytoplasmic Membrane Systems / 10:
The Nature of the Gene and the Genome
Expression of Genetic Information: From Transcription to Translation / 11:
The Cell Nucleus and the Control of Gene Expression / 12:
Gene Expression / 13:
DNA Replication and Repair / Chapter 12:
Cellular Reproduction / 14:
Cell Signaling and Signal Transduction: Communication Between Cells / 15:
Cancer / 16:
Cell Signaling / 17:
The Immune Response / Chapter 16:
Techniques in Cell and Molecular Biology / 18:
Glossary
Index / Chapter 18:
Answers to Review Problems / Appendix:
Introduction to the Study of Cell Biology / 1:
The Chemical Basis of Life / 2:
Introduction to the Study of Cell and Molecular Biology / 3:
7.

図書

図書
Harvey Lodish ... [et al.]
出版情報: New York : W.H. Freeman, c2004  xxxiii, 973, 23, 56 p. ; 29 cm
所蔵情報: loading…
目次情報: 続きを見る
Chemical and Molecular Foundations / Part I:
Life Begins with Cells / 1:
Chemical Foundations / 2:
Protein Structure and Function / 3:
Genetics and Molecular Biology / Part II:
Basic Molecular Genetic Mechanisms / 4:
Molecular Genetic Techniques / 5:
Genes, Genomics, and Chromosomes / 6:
Transcriptional Control of Gene Expression / 7:
Post-transcriptional Gene Control / 8:
Cell Structure and Function / Part III:
Visualizing, Fractionating, and Culturing Cells / 9:
Biomembrane Structure / 10:
Transmembrane Transport of Ions and Small Molecules / 11:
Cellular Energetics / 12:
Moving Proteins into Membranes and Organelles / 13:
Vesicular Traffic, Secretion, and Endocytosis / 14:
Cell Signaling I: Signal Transduction and Short-term Cellular Responses / 15:
Cell Signaling II: Signaling Pathways that Control Gene Activity / 16:
Cell Organization and Movement I: Microfilaments / 17:
Cell Organization and Movement II: Microtubules and Intermediate Filaments / 18:
Integrating Cells into Tissues / 19:
Cell Growth and Development / Part IV:
Regulating the Eukaryotic Cell Cycle / 20:
Cell Birth, Lineage, and Death / 21:
The Molecular Cell Biology of Development / 22:
Nerve Cells / 23:
Immunology / 24:
Cancer / 25:
Chemical and Molecular Foundations / Part I:
Life Begins with Cells / 1:
Chemical Foundations / 2:
8.

図書

図書
Bruce Alberts ... [et al.]
出版情報: New York : Garland Science Pub., c2004  xxi, 740, 58, 20, 24 p. ; 29 cm.
所蔵情報: loading…
目次情報: 続きを見る
Introduction to Cells / Chapter 1:
Light and electron microscopy / Panel 1-1:
Cells: the principal features of animal, plant, and bacterial cells / Panel 1-2:
How We Know: Life's common mechanisms
Chemical Components of Cells / Chapter 2:
How We Know: What are macromolecules?
Chemical bonds and groups / Panel 2-1:
The chemical properties of water / Panel 2-2:
An outline of some of the types of sugars / Panel 2-3:
Fatty acids and other lipids / Panel 2-4:
The 20 amino acids found in proteins / Panel 2-5:
A survey of the nucleotides / Panel 2-6:
The principal types of weak noncovalent bonds / Panel 2-7:
Energy, Catalysis, and Biosynthesis / Chapter 3:
Free energy and biological reactions / Panel 3-1:
How We Know: Using kinetics to model and manipulate metabolic pathways
Protein Structure and Function / Chapter 4:
A few examples of some general protein functions / Panel 4-1:
How We Know: Probing protein structure
Four different ways of depicting a small protein / Panel 4-2:
Cell breakage and initial fractionation of cell extracts / Panel 4-3:
Protein separation by chromatography / Panel 4-4:
Protein separation by electrophoresis / Panel 4-5:
Making and using antibodies / Panel 4-6:
DNA and Chromosomes / Chapter 5:
How We Know: Genes are made of DNA
DNA Replication, Repair, and Recombination / Chapter 6:
How We Know: Finding replication origins
From DNA to Protein: How Cells Read the Genome / Chapter 7:
How We Know: Cracking the genetic code
Control of Gene Expression / Chapter 8:
How We Know: Gene regulation--the story of eve
How Genes and Genomes Evolve / Chapter 9:
How We Know: Counting genes
Manipulating Genes and Cells / Chapter 10:
How We Know: Sequencing the human genome
Membrane Structure / Chapter 11:
How We Know: Measuring membrane flow
Membrane Transport / Chapter 12:
How We Know: Squid reveal secrets of membrane excitability
How Cells Obtain Energy from Food / Chapter 13:
Details of the 10 steps of glycolysis / Panel 13-1:
How We Know: Unraveling the citric acid cycle
The complete citric acid cycle / Panel 13-2:
Energy Generation in Mitochondria and Chloroplasts / Chapter 14:
How We Know: How chemiosmotic coupling drives ATP synthesis
Redox potentials / Panel 14-1:
Intracellular Compartments and Transport / Chapter 15:
How We Know: Tracking protein and vesicle transport
Cell Communication / Chapter 16:
How We Know: Untangling cell signaling pathways
Cytoskeleton / Chapter 17:
How We Know: Pursuing motor proteins
Cell-Cycle Control and Cell Death / Chapter 18:
How We Know: Discovery of cyclins and Cdks
Cell Division / Chapter 19:
The principal stages of M phase in an animal cell / Panel 19-1:
How We Know: Building the mitotic spindle
Genetics, Meiosis, and the Molecular Basis of Heredity / Chapter 20:
How We Know: Reading genetic linkage maps
Some essentials of classical genetics / Panel 20-1:
Tissues and Cancer / Chapter 21:
The cell types and tissues from which higher plants are constructed / Panel 21-1:
How We Know: Making sense of the genes that are critical for cancer
Answers to Questions
Glossary
Index
DNA Replication, Repair and Recombination / 1:
Introduction to Cells / Chapter 1:
Light and electron microscopy / Panel 1-1:
Cells: the principal features of animal, plant, and bacterial cells / Panel 1-2:
9.

図書

図書
George M. Malacinski
出版情報: Boston : Jones and Bartlett Publishers, c2003  xix, 491 p. ; 26 cm
所蔵情報: loading…
目次情報: 続きを見る
Welcome to Molecular Biology! / Chapter 1:
The Structure of Proteins, Nucleic Acids, and Macromolecular Complexes / Part I:
Macromolecules / Chapter 2:
Nucleic Acids / Chapter 3:
The Physical Structure of Protein Molecules / Chapter 4:
Macromolecular Interactions and the Structure of Complex Aggregates / Chapter 5:
Function of Macromolecules / Part II:
The Genetic Material / Chapter 6:
DNA Replication / Chapter 7:
Transcription / Chapter 8:
Translation / Chapter 9:
Mutations, Mutagenesis, and DNA Repair / Chapter 10:
Coordination of Macromolecular Function in Cells / Part III:
Regulation of Gene Activity in Prokaryotes / Chapter 11:
Regulation of Gene Activity in Eukaryotes / Chapter 12:
Genomics and Proteomics Drive Information-Age Biology / Chapter 13:
Experimental Manipulation of Macromolecules / Part IV:
Transposons, Plasmids, and Bacteriophage / Chapter 14:
Recombinant DNA and Genetic Engineering: Molecular Tailoring of Genes / Chapter 15:
Molecular Biology Is Expanding Its Reach / Chapter 16:
Postscript: Postscript to Your Review of Molecular Biology
Chemical Principles Important for Understanding Molecular Biology / Appendix:
List of Essential Concepts of Molecular Biology
Glossary
Answers to Questions and Problems
Index
Welcome to Molecular Biology! / Chapter 1:
The Structure of Proteins, Nucleic Acids, and Macromolecular Complexes / Part I:
Macromolecules / Chapter 2:
10.

図書

図書
edited by A. Lima-de-Faria
出版情報: Amsterdam : North-Holland Pub. Co., 1969  xv, 1508 p. ; 25 cm
シリーズ名: Frontiers of biology ; v. 15
North-Holland research monographs
所蔵情報: loading…
文献の複写および貸借の依頼を行う
 文献複写・貸借依頼