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1.

電子ブック

EB
上松敬禧 [ほか] 著
出版情報: Boulder : NetLibrary, 2008  1オンラインリソース
シリーズ名: 応用化学シリーズ ; 6
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2.

電子ブック

EB
美浦隆 [ほか] 著
出版情報: Boulder : NetLibrary, 2008  1オンラインリソース
シリーズ名: 応用化学シリーズ ; 7
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3.

電子ブック

EB
Anders Nilsson, Jens K. Norskov, Lars Pettersson, Lars G.M. Pettersson
出版情報: Elsevier ScienceDirect Books , Burlington : Elsevier, 2008
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4.

電子ブック

EB
Irvin Glassman, Nick G. Glumac, Richard A. Yetter
出版情報: Elsevier ScienceDirect Books , Academic Press, 2007
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Prologue
Preface
Chemical Thermodynamics and Flame Temperatures / Chapter 1:
Introduction / A:
Heats of reaction and formation / B:
Free energy and the equilibrium constants / C:
Flame temperature calculations / D:
Analysis / 1:
Practical considerations / 2:
Sub- and super sonic combustion thermodynamics / E:
Comparisons
Stagnation pressure considerations
Problems
Chemical Kinetics / Chapter 2:
Rates of reactions and their temperature dependence
The Arrhenius rate expression
Transition state and recombination rate theories
Simultaneous interdependent reactions
Chain reactions
Pseudo-first-order reactions and the "fall-off" range
The partial equilibrium assumption / F:
Pressure effect in fractional conversion / G:
Chemical kinetics of large reaction mechanisms / H:
Sensitivity analysis
Rate of production analysis
Coupled thermal and chemical reacting systems / 3:
Mechanism simplification / 4:
Explosive and General Oxidative Characteristics of Fuels / Chapter 3:
Chain branching reactions and criteria for explosion
Explosion limits and oxidation characteristics of hydrogen
Explosion limits and oxidation characteristics of carbon monoxide
Explosion limits and oxidation characteristics of hydrocarbons
Organic nomenclature
Explosion limits
"Low-temperature" hydrocarbon oxidation mechanisms
The oxidation of aldehydes
The oxidation of methane
Low-temperature mechanism
High-temperature mechanism
The oxidation of higher-order hydrocarbons
Aliphatic hydrocarbons
Alcohols
Aromatic hydrocarbons
Supercritical effects
Flame Phenomena in Premixed Combustible Gases / Chapter 4:
Laminar flame structure
The laminar flame speed
The theory of Mallard and Le Chatelier
The theory of Zeldovich, Frank-Kamenetskii, and Semenov
Comprehensive theory and laminar flame structure analysis
The laminar flame and the energy equation
Flame speed measurements / 5:
Experimental results: physical and chemical effects / 6:
Stability limits of laminar flames
Flammability limits
Quenching distance
Flame stabilization (low velocity)
Stability limits and design
Flame propagation through stratified combustible mixtures
Turbulent reacting flows and turbulent flames
The rate of reaction in a turbulent field
Regimes of turbulent reacting flows
The turbulent flame speed
Stirred reactor theory
Flame stabilization in high-velocity streams
Combustion in small volumes / I:
Detonation / Chapter 5:
Premixed and diffusion flames
Explosion, deflagration, and detonation
The onset of detonation
Detonation phenomena
Hugoniot relations and the hydrodynamic theory of detonations
Characterization of the Hugoniot curve and the uniqueness of the C-J point
Determination of the speed of sound in the burned gases for conditions above the C-J point
Calculation of the detonation velocity
Comparison of detonation velocity calculations with experimental results
The ZND structure of detonation waves
The structure of the cellular detonation front and other detonation phenomena parameters
The cellular detonation front
The dynamic detonation parameters
Detonation limits
Detonations in nongaseous media
Diffusion Flames / Chapter 6:
Gaseous fuel jets
Appearance
Structure
Theoretical considerations
The Burke-Schumann development
Turbulent fuel jets
Burning of condensed phases
General mass burning considerations and the evaporation coefficient
Single fuel droplets in quiescent atmospheres
Burning of droplet clouds
Burning in convective atmospheres
The stagnant film case
The longitudinally burning surface
The flowing droplet case
Burning rates of plastics: The small B assumption and radiation effects
Ignition / Chapter 7:
Concepts
Chain spontaneous ignition
Thermal spontaneous ignition
Semenov approach of thermal ignition
Frank-Kamenetskii theory of thermal ignition
Forced ignition
Spark ignition and minimum ignition energy
Ignition by adiabatic compression and shock waves
Other ignition concepts
Hypergolicity and pyrophoricity
Catalytic ignition
Environmental Combustion Considerations / Chapter 8:
The nature of photochemical smog
Primary and secondary pollutants
The effect of NO[subscript x]
The effect of SO[subscript x]
Formation and reduction of nitrogen oxides
The structure of the nitrogen oxides
The effect of flame structure
Reaction mechanisms of oxides of nitrogen
The reduction of NO[subscript x]
SO[subscript x] emissions
The product composition and structure of sulfur compounds
Oxidative mechanisms of sulfur fuels
Particulate formation
Characteristics of soot
Soot formation processes
Experimental systems and soot formation
Sooting tendencies
Detailed structure of sooting flames
Chemical mechanisms of soot formation
The influence of physical and chemical parameters on soot formation / 7:
Stratospheric ozone
The HO[subscript x] catalytic cycle
The NO[subscript x] catalytic cycle
The ClO[subscript x] catalytic cycle
Combustion of Nonvolatile Fuels / Chapter 9:
Carbon char, soot, and metal combustion
Metal combustion thermodynamics
The criterion for vapor-phase combustion
Thermodynamics of metal-oxygen systems
Thermodynamics of metal-air systems
Combustion synthesis
Diffusional kinetics
Diffusion-controlled burning rate
Burning of metals in nearly pure oxygen
Burning of small particles - diffusion versus kinetic limits
The burning of boron particles
Carbon particle combustion (C. R. Shaddix)
Practical carbonaceous fuels (C. R. Shaddix)
Devolatilization
Char combustion
Pulverized coal char oxidation
Gasification and oxy-combustion
Soot oxidation (C. R. Shaddix)
Appendixes
Thermochemical Data and Conversion Factors / Appendix A:
Conversion factors and physical constants / Table A1:
Thermochemical data for selected chemical compounds / Table A2:
Thermochemical data for species included in reaction list of Appendix C / Table A3:
Adiabatic Flame Temperatures of Hydrocarbons / Appendix B:
Adiabatic flame temperatures / Table B1:
Specific Reaction Rate Constants / Appendix C:
H[subscript 2]/O[subscript 2] mechanism / Table C1:
CO/H[subscript 2]/O[subscript 2] mechanism / Table C2:
CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C3:
CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C4:
CH[subscript 4]/CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C5:
C[subscript 2]H[subscript 6]/CH[subscript 4]/CH[subscript 3]OH/CH[subscript 2]O/CO/H[subscript 2]/O[subscript 2] mechanism / Table C6:
Selected reactions of a C[subscript 3]H[subscript 8] oxidation mechanism / Table C7:
N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C8:
HCl/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C9:
O[subscript 3]/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C10:
SO[subscript x]/N[subscript x]O[subscript y]/CO/H[subscript 2]/O[subscript 2] mechanism / Table C11:
Bond Dissociation Energies of Hydrocarbons / Appendix D:
Bond dissociation energies of alkanes / Table D1:
Bond dissociation energies of alkenes, alkynes, and aromatics / Table D2:
Bond dissociation energies of C/H/O compounds / Table D3:
Bond dissociation energies of sulfur-containing compounds / Table D4:
Bond dissociation energies of nitrogen-containing compounds / Table D5:
Bond dissociation energies of halocarbons / Table D6:
Flammability Limits in Air / Appendix E:
Flammability limits of fuel gases and vapors in air at 25[degree]C and 1 atm / Table E1:
Laminar Flame Speeds / Appendix F:
Burning velocities of various fuels at 25[degree]C air-fuel temperature (0.31 mol% H[subscript 2]O in air). Burning velocity S as a function of equivalence ratio [phi] in cm/s / Table F1:
Burning velocities of various fuels at 100[degree]C air-fuel temperature (0.31 mol% H[subscript 2]O in air). Burning velocity S as a function of equivalence ratio [phi] in cm/s / Table F2:
Burning velocities of various fuels in air as a function of pressure for an equivalence ratio of 1 in cm/s / Table F3:
Spontaneous Ignition Temperature Data / Appendix G:
Spontaneous ignition temperature data / Table G1:
Minimum Spark Ignition Energies and Quenching Distances / Appendix H:
Minimum spark ignition energy data for fuels in air at 1 atm pressure / Table H1:
Programs for Combustion Kinetics / Appendix I:
Thermochemical parameters
Kinetic parameters
Transport parameters
Reaction mechanisms
Thermodynamic equilibrium
Temporal kinetics (Static and flow reactors)
Stirred reactors
Shock tubes
Premixed flames
Diffusion flames / J:
Boundary layer flow / K:
Detonations / L:
Model analysis and mechanism reduction / M:
Author Index
Subject Index
Prologue
Preface
Chemical Thermodynamics and Flame Temperatures / Chapter 1:
5.

電子ブック

EB
Jiyuan Tu, Chaoqun Liu, Guan Heng Yeoh
出版情報: Elsevier ScienceDirect Books , Butterworth-Heinemann, 2007
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6.

電子ブック

EB
Masuo Hosokawa, Makio Naito, Kiyoshi Nogi
出版情報: Elsevier ScienceDirect Books , Elsevier, 2008
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7.

電子ブック

EB
Robert W. Boyd
出版情報: Elsevier ScienceDirect Books , Academic Press, 2008
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Preface to the Third Edition
Preface to the Second Edition
Preface to the First Edition
The Nonlinear Optical Susceptibility / 1:
Introduction to Nonlinear Optics / 1.1:
Descriptions of Nonlinear Optical Processes / 1.2:
Formal Definition of the Nonlinear Susceptibility / 1.3:
Nonlinear Susceptibility of a Classical Anharmonic Oscillator / 1.4:
Properties of the Nonlinear Susceptibility / 1.5:
Time-Domain Description of Optical Nonlinearities / 1.6:
Kramers-Kronig Relations in Linear and Nonlinear Optics / 1.7:
Problems
References
Wave-Equation Description of Nonlinear Optical Interactions / 2:
The Wave Equation for Nonlinear Optical Media / 2.1:
The Coupled-Wave Equations for Sum-Frequency Generation / 2.2:
Phase Matching / 2.3:
Quasi-Phase-Matching / 2.4:
The Manley-Rowe Relations / 2.5:
Sum-Frequency Generation / 2.6:
Second-Harmonic Generation / 2.7:
Difference-Frequency Generation and Parametric Amplification / 2.8:
Optical Parametric Oscillators / 2.9:
Nonlinear Optical Interactions with Focused Gaussian Beams / 2.10:
Nonlinear Optics at an Interface / 2.11:
Quantum-Mechanical Theory of the Nonlinear Optical Susceptibility / 3:
Introduction / 3.1:
Schrodinger Calculation of Nonlinear Optical Susceptibility / 3.2:
Density Matrix Formulation of Quantum Mechanics / 3.3:
Perturbation Solution of the Density Matrix Equation of Motion / 3.4:
Density Matrix Calculation of the Linear Susceptibility / 3.5:
Density Matrix Calculation of the Second-Order Susceptibility / 3.6:
Density Matrix Calculation of the Third-Order Susceptibility / 3.7:
Electromagnetically Induced Transparency / 3.8:
Local-Field Corrections to the Nonlinear Optical Susceptibility / 3.9:
The Intensity-Dependent Refractive Index / 4:
Descriptions of the Intensity-Dependent Refractive Index / 4.1:
Tensor Nature of the Third-Order Susceptibility / 4.2:
Nonresonant Electronic Nonlinearities / 4.3:
Nonlinearities Due to Molecular Orientation / 4.4:
Thermal Nonlinear Optical Effects / 4.5:
Semiconductor Nonlinearities / 4.6:
Concluding Remarks / 4.7:
Molecular Origin of the Nonlinear Optical Response / 5:
Nonlinear Susceptibilities Calculated Using Time-Independent Perturbation Theory / 5.1:
Semiempirical Models of the Nonlinear Optical Susceptibility / 5.2:
Model of Boling, Glass, and Owyoung
Nonlinear Optical Properties of Conjugated Polymers / 5.3:
Bond-Charge Model of Nonlinear Optical Properties / 5.4:
Nonlinear Optics of Chiral Media / 5.5:
Nonlinear Optics of Liquid Crystals / 5.6:
Nonlinear Optics in the Two-Level Approximation / 6:
Density Matrix Equations of Motion for a Two-Level Atom / 6.1:
Steady-State Response of a Two-Level Atom to a Monochromatic Field / 6.3:
Optical Bloch Equations / 6.4:
Rabi Oscillations and Dressed Atomic States / 6.5:
Optical Wave Mixing in Two-Level Systems / 6.6:
Processes Resulting from the Intensity-Dependent Refractive Index / 7:
Self-Focusing of Light and Other Self-Action Effects / 7.1:
Optical Phase Conjugation / 7.2:
Optical Bistability and Optical Switching / 7.3:
Two-Beam Coupling / 7.4:
Pulse Propagation and Temporal Solitons / 7.5:
Spontaneous Light Scattering and Acoustooptics / 8:
Features of Spontaneous Light Scattering / 8.1:
Microscopic Theory of Light Scattering / 8.2:
Thermodynamic Theory of Scalar Light Scattering / 8.3:
Acoustooptics / 8.4:
Stimulated Brillouin and Stimulated Rayleigh Scattering / 9:
Stimulated Scattering Processes / 9.1:
Electrostriction / 9.2:
Stimulated Brillouin Scattering (Induced by Electrostriction) / 9.3:
Phase Conjugation by Stimulated Brillouin Scattering / 9.4:
Stimulated Brillouin Scattering in Gases / 9.5:
Stimulated Raman Scattering and Stimulated Rayleigh-Wing Scattering / 9.6:
The Spontaneous Raman Effect / 10.1:
Spontaneous versus Stimulated Raman Scattering / 10.2:
Stimulated Raman Scattering Described by the Nonlinear Polarization / 10.3:
Stokes-Anti-Stokes Coupling in Stimulated Raman Scattering / 10.4:
Coherent Anti-Stokes Raman Scattering / 10.5:
Stimulated Rayleigh-Wing Scattering / 10.6:
The Electrooptic and Photorefractive Effects / 11:
Introduction to the Electrooptic Effect / 11.1:
Linear Electrooptic Effect / 11.2:
Electrooptic Modulators / 11.3:
Introduction to the Photorefractive Effect / 11.4:
Photorefractive Equations of Kukhtarev et al. / 11.5:
Two-Beam Coupling in Photorefractive Materials / 11.6:
Four-Wave Mixing in Photorefractive Materials / 11.7:
Optically Induced Damage and Multiphoton Absorption / 12:
Introduction to Optical Damage / 12.1:
Avalanche-Breakdown Model / 12.2:
Influence of Laser Pulse Duration / 12.3:
Direct Photoionization / 12.4:
Multiphoton Absorption and Multiphoton Ionization / 12.5:
Ultrafast and Intense-Field Nonlinear Optics / 13:
Ultrashort Pulse Propagation Equation / 13.1:
Interpretation of the Ultrashort-Pulse Propagation Equation / 13.3:
Intense-Field Nonlinear Optics / 13.4:
Motion of a Free Electron in a Laser Field / 13.5:
High-Harmonic Generation / 13.6:
Nonlinear Optics of Plasmas and Relativistic Nonlinear Optics / 13.7:
Nonlinear Quantum Electrodynamics / 13.8:
Problem
Appendices
The SI System of Units / A:
Further reading
The Gaussian System of Units / B:
Systems of Units in Nonlinear Optics / C:
Relationship between Intensity and Field Strength / D:
Physical Constants / E:
Index
Preface to the Third Edition
Preface to the Second Edition
Preface to the First Edition
8.

電子ブック

EB
Carl Wu, C. David Allis, C. David Allis
出版情報: Elsevier ScienceDirect Books , Burlington : Elsevier, 2004
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Genetic Assays of Chromatin Modification and Remodeling
Histone Modifying Enzymes
ATP_Dependent Chromatin Remodeling Enzymes
Transcription and Other Transactions on Chromatin Templates
Genetic Assays of Chromatin Modification and Remodeling
Histone Modifying Enzymes
ATP_Dependent Chromatin Remodeling Enzymes
9.

電子ブック

EB
David A. Hopwood, D. A. Hopwood
出版情報: Elsevier ScienceDirect Books , 2009
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Contributors
Preface
Volumes in Series
Polyketides / Section I:
Introduction to Polyketide Biosynthesis / Kira J. Weissman1:
Introduction
Acknowledgment
References
Structural Enzymology of Polyketide Synthases / Shiou-Chuan (Sheryl) Tsai ; Brian Douglas Ames2:
Fatty Acid Synthase
Different Types of PKS and a Summary of Structural Work / 3:
Structural Enzymology of Individual Domains / 4:
Summary and Future Prospects / 5:
Acknowledgments
Fungal Type I Polyketide Synthases / Russell J. Cox ; Thomas J. Simpson
Partially Reducing PKSs: 6-MethylSalicylate Synthase
Nonreducing PKSs
Highly Reducing PKSs
NR/HR PKS Hybrid Systems: Zearalenone (ZAE1 and ZAE2)
Conclusions / 6:
Tandem Acyl Carrier Protein Domains in Polyunsaturated Fatty Acid Synthases / Hui Jiang ; Scott R. Rajski ; Ben Shen
Methods
Conclusion
Iterative Type I Polyketide Synthases for Enediyne Core Biosynthesis / Geoffrey P. Horsman ; Steven G. Van Lanen
The DEBS Paradigm for Type I Modular Polyketide Synthases and Beyond / Leonard Katz
DEBS and the Concept of a Module
Beyond the DEBS Paradigm
Formation and Characterization of Acyl Carrier Protein-Linked Polyketide Synthase Extender Units / Yolande A. Chan ; Michael G. Thomas7:
Overproduction and Purification of Recombinant Proteins
Formation and Characterization of Hydroxymalonyl-ACP and Aminomalonyl-ACP
Type I Polyketide Synthases That Require Discrete Acyltransferases / Yi-Qiang Cheng ; Jane M. Coughlin ; Si-Kyu Lim8:
The Enzymology of Polyether Biosynthesis / Tiangang Liu ; David E. Cane ; Zixin Deng9:
Genetic Mining and Functional Analysis of Genes Specific to Polyether Biosynthetic Pathways
Premonensin, the Parent Unsaturated Monensin Polyketide
Epoxidases MonCl, NigCl, and NanO
Epoxide Hydrolases MonBI/BII, NigBI/BII, NanI, and Lsd19
NanE, a Polyether-Specific Thioesterase
Assay of Polyether Thioesterase Activity
Transcriptional Analysis of the Nanchangmycin Biosynthetic Pathway Genes
Enzymology of the Polyenes Pimaricin and Candicidin Biosynthesis / Juan F. Martin ; Jesus F. Aparicio10:
Pimaricin as a Prototype of Small Polyenes: Discovery and Properties
Pimaricin Biosynthesis in S. natalensis
Regulation of Pimaricin Biosynthesis
Candicidin: A Prototype of "Aromatic" Polyenes
The Candicidin/FR-008 Gene Cluster
Biosynthesis of PABA: The pabAB and pabC Genes
The Polyketide Synthases
Monooxygenase Genes: Modifications of the Polyketide Chain
Transporter Genes
Genes Related to Mycosamine Biosynthesis / 11:
Regulatory Genes / 12:
Phosphate Represses Expression of the pabAB Gene / 13:
Future Perspectives / 14:
Genetic Analysis of Nystatin and Amphotericin Biosynthesis / Sergey Zotchev ; Patrick Caffrey
Gene Inactivation and Replacement in the Nystatin Producer Streptomyces noursei
Gene Inactivation and Replacement in the Amphotericin Producer Streptomyces nodosus
Production, Purification, and Characterization of Novel Amphotericin- and Nystatin-Related Polyenes
Polyketide Versatility in the Biosynthesis of Complex Mycobacterial Cell Wall Lipids / Tarun Chopra ; Rajesh S. Gokhale
Acetate and Propionate Feeding Studies
Genome Sequencing and Identification of Polyketide Synthases
Mycobacterial Polyketide Synthases
Techniques to Characterize PKS Enzymes
Genetic Engineering to Produce Polyketide Analogues / Christopher D. Reeves ; Eduardo Rodriguez
AT Domain Replacement to Alter a-Carbon Substitution
Procedure for Engineering AT Replacements in the Chromosome
Engineering b-Carbon Processing
Engineering when only a Single Crossover Event is Possible
Heterologous Expression of Engineered PKS Genes
Chemobiosynthesis
Mutasynthesis
Gene Knockouts to Obtain Analogues
Design and Synthesis of Pathway Genes for Polyketide Biosynthesis / Salvador Peiru ; Hugo Gramajo ; Hugo G. Menzella
Redesign of PKS Genes to Accommodate Unique Restriction Sites Flanking Individual Components and for Efficient Expression in E. coli
Validation of Synthetic PKS Gene Design
A Rapid Assay to Identify Productive Combinations of PKS Modules
Assembly of Larger Polyketide Synthases Using Information Gained with the Bimodular Assay
Design and Construction of Synthetic Operons for the Expression of Sugar Pathway Genes
Heterologous Production of Polyketides in Bacteria / 15:
General Considerations for the Heterologous Expression of Polyketide Pathways
S. coelicolor as a Model System for Heterologous Expression of Polyketides
Procedure for the Heterologous Production of Polyketides in S. coelicolor
System Improvements for the Heterologous Production of Polyketides in Streptomyces spp
Recent Developments for the Production of Polyketides in Nonactinomycete Bacteria
In Vitro Analysis of Type II Polyketide Synthase / Wenjun Zhang ; Yi Tang16:
Expression and Purification of Type II PKSs
In Vitro Activity Assays
Bacterial Fatty Acid Synthesis and its Relationships with Polyketide Synthetic Pathways / John E. Cronan ; Jacob Thomas17:
Bacterial Fatty Acids
Acyl Carrier Protein, the Key Component of Bacterial Fatty Acid Synthesis
Overview of the Reactions of Fatty Acid Biosynthesis
The Initiation Steps of Fatty Acid Synthesis
The Enzymes of the Fatty Acid Elongation Cycle
Unsaturated Fatty Acid Synthesis in E. coli
The Abundant Exceptions to the E. coli Fatty Acid Synthesis Paradigm
Relationships between Fatty Acid Synthesis and Polyketide Synthesis
Methods for Study of Bacterial Fatty Acid Synthesis
Aminocoumarins / Section II:
Aminocoumarins: Mutasynthesis, Chemoenzymatic Synthesis, and Metabolic Engineering / Lutz Heide18:
Generation of Integrative Cosmids and Heterologous Expression of Novobiocin, Clorobiocin, and Coumermycin A1 Gene Clusters
Generation of Single and or Multiple Deletions in the Integrative Cosmids
Mutasynthetic Generation of New Aminocoumarin Antibiotics
In Vitro Amide Synthetase Assays for the Identification of Suitable Ring A Analogues for Mutasynthesis
Use of Various Amide Synthetase Genes for Expanding Mutasynthesis Product Range
Generation of Substrates for Chemoenzymatic Synthesis
Chemoenzymatic Synthesis of New Clorobiocin Analogues
Generation of New Aminocoumarin Antibiotics by Metabolic Engineering
Carbohydrates / Section III:
Enzymology of Aminoglycoside Biosynthesis-Deduction from Gene Clusters / Udo F. Wehmeier ; Wolfgang Piepersberg19:
Some Key Enzymes in the Biosyntheses of Aminoglycoside Antibiotics
Acarbose and Related Metabolites
Biosynthetic Enzymes for the Aminoglycosides Butirosin and Neomycin / Fumitaka Kudo ; Tadashi Eguchi20:
General Method to Investigate Functions of the Biosynthetic Enzymes for Aminoglycosides
Neamine Biosynthetic Enzymes (Enzymes 1
Contributors
Preface
Volumes in Series
10.

電子ブック

EB
William S. Allison, Anne Neville Murphy, Immo E. Scheffler
出版情報: Elsevier ScienceDirect Books , 2009
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Electron Transport Complexes / Part A:
Visualizing functional flexibility by three dimensional electron microscopy: reconstructing Complex I of the mitochondrial respiratory chain / M. Radermacher1:
Electron tomography of the mitochondrion / T. Frey ; G. Perkins ; M. Sun2:
Mid-IR vibrational studies of complex I / D. Marshall ; P. Rich3:
Electron transfer in respiratory complexes resolved by an ultra-fast freeze-quench approach / N. Belevich ; M. Verkhovsky4:
Use of ruthenium photooxidation techniques to study electron transfer in the cytochrome bc1 complex / F. Millett ; B. Durham ; C. Yu ; L. Yu5:
Use of ruthenium photoreduction techniques to study electron transfer in cytochrome oxidase / R. Gennis6:
Mass spectrometric characterization of subunits of electron transfer complexes that are encoded in the mitochondrial genome / J. Carroll ; J. Walker7:
The assembly of respiratory chain complexes studied by GFP-tagged subunits, L. Nijtmans / 8:
Two-dimensional native electrophoresis for functional assays of mitochondrial complexes / W. Wittig ; H. Schägger9:
Reliable assay for complex I in human blood lymphocytes and skin fibroblasts / L. Elly ; A. de Wit ; W. Sluiter10:
Purification of the cytochrome c reductase/cytochrome c oxidase supercomplex of yeast mitochondria / E. Boekema ; H. Braun11:
Supercomplex organization of the yeast mitochondrial respiratory chain complexes and the ADP/ATP carrier proteins / R. Stuart12:
Role of cysteine desulfurase Nfs1 in human mitochondrial Fe-S protein biogenesis / O. Stehling ; R. Lill13:
Identification and properties of the novel 2Fe-2S center in the outer membrane protein, mitoNEET / S. Wiley ; M. Rardin ; J. Dixon14:
Nucleotide-dependent iron-sulfur cluster biogenesis in mitochondria / D. Pain15:
Preparation of samples for EPR and Mössbauer spectroscopy of intact Saccharomyces cerrevisiae mitochondria / J. Garber-Morales ; R. Miao ; G. Holmes-Hampton ; P. Lindahl16:
Fluorescence correlation spectroscopy to probe mitochondrial mobility and intramatrix protein diffusion / P. Willems ; W. Koopman17:
Characterization of alternative complex I of Plasmodium falciparum mitochondria / N. Fisher ; A. J. Warman ; S. Ward ; G. Biagini18:
Analysis of respiratory chain complex assembly using radiolabeled nuclear- and mitochondrial-encoded subunits / M. McKenzie ; M. Lazarou ; M. Ryan19:
Reactive Oxygen Species / Part B:
Measuring redox changes to mitochondrial protein thiols using Redox DIGE / T. Hurd ; K. Lilley ; M. Murphy20:
Measuring the effects of Hepatitis C proteins on mitochondrial electron transport and production of reactive oxygen species / S. Weinman21:
Paraquat induced production of reactive oxygen species in brain mitochondria / D. Drechsel ; M. Patel22:
The uptake and interactions of the redox cycler paraquat with mitochondria / H. Cocheme23:
Superoxide production by rat brain and skeletal muscle mitochondria / W. Kunz24:
Quantitation, localization, and tissue specificities of mitochondrial reactive oxygen species production / C. Mathews25:
The reaction mechanisms of electron transfer and superoxide generation in the cytochrome nc1 complex / D. Xia ; S. Yang ; Y. Yin26:
Measurement of superoxide formation by mitochondrial complex I of Yarrowia lipolytica / S. Dröse ; A. Galkin ; U. Brandt27:
An improved method for introducing point mutations into the mitochondrial cytochrme b gene to facilitate studying the role of cytochrome b in the formation of reactive oxygen species / B. Trumpower28:
Electron Transport Complexes / Part A:
Visualizing functional flexibility by three dimensional electron microscopy: reconstructing Complex I of the mitochondrial respiratory chain / M. Radermacher1:
Electron tomography of the mitochondrion / T. Frey ; G. Perkins ; M. Sun2:
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