Introduction to molecular biophysics:
"Introduction to Molecular Biophysics builds the modern theoretical foundation needed to understand life processes from a physical point of view. The authors use a combination of biological information and physical models and theories to provide a rigorous description of biological structures....
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton [u.a.]
CRC Press
2003
|
| Schriftenreihe: | CRC series in pure and applied physics
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | "Introduction to Molecular Biophysics builds the modern theoretical foundation needed to understand life processes from a physical point of view. The authors use a combination of biological information and physical models and theories to provide a rigorous description of biological structures. They offer a guided tour through the interlocking hierarchies of living systems, starting from the smallest building blocks of life and ending with a panoramic view of the evolving landscape of life and living forms. The book is richly illustrated and includes numerous examples, references, and experimental tools that make it valuable as both a reference work and textbook."--BOOK JACKET. |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | 550 S. Ill., graph. Darst. |
| ISBN: | 9780849300394 9780367578541 |
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| 245 | 1 | 0 | |a Introduction to molecular biophysics |c Jack A. Tuszynski ; Michal Kurzynski |
| 246 | 1 | 3 | |a Molecular biophysics |
| 264 | 1 | |a Boca Raton [u.a.] |b CRC Press |c 2003 | |
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| 490 | 0 | |a CRC series in pure and applied physics | |
| 500 | |a Includes bibliographical references and index | ||
| 520 | 1 | |a "Introduction to Molecular Biophysics builds the modern theoretical foundation needed to understand life processes from a physical point of view. The authors use a combination of biological information and physical models and theories to provide a rigorous description of biological structures. They offer a guided tour through the interlocking hierarchies of living systems, starting from the smallest building blocks of life and ending with a panoramic view of the evolving landscape of life and living forms. The book is richly illustrated and includes numerous examples, references, and experimental tools that make it valuable as both a reference work and textbook."--BOOK JACKET. | |
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Datensatz im Suchindex
| _version_ | 1804132840320794624 |
|---|---|
| adam_text | INTRODUCTION T O MOLECULA R BIOPHYSICS JACK A. TUSZYNSK I MICHAL
KURZYNSKI 1 ORIGINS AND EVOLUTION OF LIFE 1 1 .1 INITIATION 1 1 .2
MACHINERY OF PROKARYOTIC CELLS 3 1.3 THE PHOTOSYNTHETIC REVOLUTION 10
1.4 ORIGINS OF DIPLOIDAL EUKARYOTIC CELLS 1 5 1 .5 SUMMARY: FURTHER
STAGES OF EVOLUTION 1 9 REFERENCES 2 1 2 STRUCTURES OF BIOMOLECULES 2 3
2.1 ELEMENTARY BUILDING BLOCKS 2 3 2.2 GENERALIZED ESTER BONDS 2 6 2.3
DIRECTIONALITY OF CHEMICAL BONDS 30 2.4 WEAKER INTRATOMIC INTERACTIONS 3
9 2.4.1 IONIC INTERACTIONS 40 2.4.2 COVALENT BONDS 42 2.4.3 FREE
RADICALS 4 6 2.4.4 VAN DER WAALS BONDS 4 6 2.5 HYDROGEN BONDS AND
HYDROPHOBIC INTERACTIONS 52 2 .5.1 POLYSACCHARIDES 59 2.6 AMPHIPHILIC
MOLECULES IN WATER ENVIRONMENTS 60 2.7 STRUCTURES OF PROTEINS 62 2 .7.1
POLYPEPTIDE CHAINS 67 2 .7.2 PROTEINS 6 8 2 .7.3 PROTEIN FOLDING 77 2
.7.4 ELECTROPHORESIS OF PROTEINS 79 2 .7.5 PROTEIN INTERACTIONS WITH
ENVIRONMENT 80 2 .7.6 ELECTRON TRANSFERS IN PROTEINS 8 1 2.8 STRUCTURES
OF NUCLEIC ACIDS 82 2 .8.1 ELECTROSTATIC POTENTIAL OF DNA 86 2 .8.2 DNA:
INFORMATION AND DAMAGE 8 8 2 .8.3 FLUORESCENCE IN BIOMOLECULES 89
REFERENCES 93 3 DYNAMICS OF BIOMOLECULES 95 3.1 DIFFUSION 95 3 .1.1
DIFFUSIONAL FLOW ACROSS MEMBRANES 99 3 .1.2 CELLS WITHOUT SOURCES 100 3
.1 .3 CELLS WITH SOURCES 103 3.2 VIBRATIONS VERSUS CONFORMATIONAL
TRANSITIONS 109 3.3 STOCHASTIC THEORY OF REACTION RATES 114 3.4
CONFORMATIONAL TRANSITIONS OF PROTEINS 12 2 3.4.1 PROTEIN-GLASS MODEL
124 3.4.2 PROTEIN-MACHINE MODEL 124 3.5 MODELS OF RANDOM WALKS ON
FRACTAL LATTICES 127 3 .6 INTRODUCTION TO POLYMER BIOPHYSICS 13 2 3.6.1
ELASTIC PROPERTIES OF POLYMERS 136 3.7 CELLULAR AUTOMATA 137 3.7.1
CONWAY S GAME OF LIFE 137 3 .8 BIOENERGETICS : THE DAVYDOV MODEL 13 9
3.9 BIOLOGICAL COHERENCE: THE FROEHLICH MODEL 14 2 3.10 IONIC CURRENTS
THROUGH ELECTROLYTES 14 5 3.11 ELECTRON CONDUCTION AND TUNNELING 147 3
.12 PROTON TRANSPORT 15 1 3.13 INTERACTIONS WITH ELECTROMAGNETIC
RADIATION 15 2 REFERENCES 15 6 4 STRUCTURE OF A BIOLOGICAL CELL 15 9 4
.1 GENERAL CHARACTERISTICS OF A CELL 15 9 4.2 MEMBRANE AND MEMBRANE
PROTEINS 16 1 4.2.1 ELASTIC PRESSURE OF MEMBRANE 16 5 4.2.2 MASS
DIFFUSION ACROSS MEMBRANES 16 5 4 .2.3 MEMBRANE PROTEINS 16 6 4.2.4
ELECTRICAL POTENTIALS OF CELLULAR MEMBRANES 16 7 4.3 ION CHANNELS AND
ION PUMPS 17 1 4.4 CYTOPLASM 17 2 4 .4.1 OSMOTIC PRESSURES OF CELLS 17 3
4.4.2 OSMOTIC WORK 17 5 4.5 CYTOSKELETON : THE PROTEINS PARTICIPATING IN
CYTOSKELETAL ORGANIZATION 17 6 4 .5.1 CYTOSKELETON 17 6 4 .5 .2
BIOPOLYMERS OF CYTOSKELETON 17 6 4.5.3 TUBULIN 17 8 4.5.4 MICROTUBULES
18 0 4 .5.5 MICROTUBULE-ASSOCIATED PROTEINS 18 7 4 .5 .6 MICROFILAMENTS
18 7 4.5.7 ACTIN 18 9 4 .5.8 ACTIN FILAMENTS 18 9 4 .5.9 ACTIN-BINDING
PROTEINS 19 0 4 .5 .10 INTERMEDIATE FILAMENTS 19 1 4.6 NETWORKS, STRESS
FIBERS AND TENSEGRITY 19 3 4.7 MOTOR PROTEINS AND THEIR ROLES IN
CELLULAR PROCESSES 19 5 4 .7.1 MYOSIN FAMILY 19 7 4.7.2 KINESIN FAMILY
19 8 4.7.3 NCD DIMER STRUCTURE 201 4 .7.4 AN OVERVIEW OF KN MOTION
MODELS 20 1 4.7.5 DYNEINS 20 2 4.8 CENTRIOLES, BASAL BODIES, CILIA, AND
FLAGELLA 20 3 4 .8.1 CILIA AND FLAGELLA 20 3 4.9 CELL ENERGETICS :
CHLOROPLASTS AND MITOCHONDRIA 20 6 4 .9.1 CELL AS A THERMODYNAMIC
MACHINE 20 9 4 .9.2 ACTIVE TRANSPORT 21 1 4.10 OTHER ORGANELLES 21 1
4.11 NUCLEUS : NUCLEAR CHROMATIN, CHROMOSOMES , AND NUCLEAR LAMINA 21 2
4 .11 .1 CHROMATIN AND CHROMOSOMES 21 3 4 .11 .2 NUCLEOLUS 21 3 4 .11 .3
NUCLEAR ENVELOPE 21 4 4.11.4 NUCLEAR PORES 21 4 4.12 CELL DIVISION 214
4.12.1 CENTRIOLES, CENTROSOMES, AND ASTER FORMATION 21 6 4.12.2
CHROMOSOME SEGREGATION 21 7 4.12.3 CYTOKINESIS 21 8 4.12 .4 SPINDLE AND
CHROMOSOME MOTILITY 220 4.13 CELL INTELLIGENCE 22 1 4.14 BIOLOGICAL
SIGNALING 222 REFERENCES 225 S NONEQUILIBRIUM THERMODYNAMICS AND
BIOCHEMICAL REACTIONS 229 5.1 SECOND LAW OF THERMODYNAMICS 229 5.2
NONEQUILIBRIUM THERMODYNAMICS 23 3 5.3 RATES OF NONEQUILIBRIUM
THERMODYNAMIC PROCESSES 24 1 5.4 SINGLE UNIMOLECULAR CHEMICAL REACTION
244 5.5 BIMOLECULAR REACTIONS : PROTOLYSIS 249 5.6 REDOX REACTIONS 25 3
5.7 THE STEADY STATE APPROXIMATION: THE THEORY OF REACTION RATES 25 7
5.8 CHEMICAL MECHANISMS OF ENZYMATIC CATALYSIS 260 5.9 MICHAELIS-MENTEN
KINETICS 264 5.10 CONTROL OF ENZYMATIC REACTIONS 269 REFERENCES 27 5 6
MOLECULAR BIOLOGICAL MACHINES 277 6.1 BIOLOGICAL MOTION 277 6.2 FREE
ENERGY TRANSDUCTION 27 8 6.3 CHEMOCHEMICAL MACHINES 282 6 .4 BIOLOGICAL
MACHINES AS BIASED MAXWELL S DEMONS 286 6.5 PUMPS AND MOTORS AS
CHEMOCHEMICAL MACHINES 28 7 6.6 FLUX-FORCE DEPENDENCE 29 1 6.7 OVERVIEW
OF MOTOR PROTEIN BIOPHYSICS 296 6 .8 BIOCHEMICAL ENERGY CURRENCY: ATP
MOLECULES 299 6 .8 .1 STRUCTURE OF ATP 30 0 6 .8 .2 FUNCTIONS OF ATP 30
1 6 .8 .3 DOUBLE ENERGY PACKET 30 2 6 .8 .4 METHODS OF PRODUCING ATP 30
3 6 .8 .5 CHLOROPLASTS 30 4 6.9 ASSEMBLY OF MICROTUBULES 30 4 6.10
ASSEMBLY OF ACTIN FILAMENTS 30 8 6.11 MUSCLE CONTRACTION : BIOPHYSICAL
MECHANISM S AND CONTRACTILE PROTEINS 31 3 REFERENCES 31 6 7 NERVE CELLS
31 9 7.1 ANATOMY OF A NERVE CELL 31 9 7.2 CONDUCTING PROPERTIES OF
NEURONS 32 1 7.3 ACTION POTENTIAL GENERATION : HODGKIN-HUXLEY EQUATIONS
32 5 7.4 STRUCTURE AND FUNCTION OF SYNAPSE 33 1 7.5 NEURAL NETWORK
MODELS 33 5 7 .5 .1 MEMORY 33 8 REFERENCES 33 9 8 TISSUE AND ORGAN
BIOPHYSICS 34 1 8.1 INTRODUCTION 34 1 8 .1 .1 PRESSURE IN HUMAN ORGANS
34 1 8.2 ANATOMY AND PHYSIOLOGY OF HUMAN CIRCULATORY SYSTEM 34 2 8 .2.1
CIRCULATION OF BLOOD 34 2 8.2.2 CARDIOVASCULAR SYSTEM 34 3 8.2.3
REGULATION OF FLUID BETWEEN CELLS (INTERSTITIAL FLUID) 34 9 8.2.4 GAS
EXCHANGE WITH CIRCULATORY SYSTEM 35 0 8.3 HEART DYNAMICS 35 2 8.4 ENERGY
MANAGEMENT IN THE HUMAN BODY 35 3 8.5 RESPIRATION BIOPHYSICS 35 5 8.6
KIDNEY PHYSIOLOGY AND DIALYSIS 36 0 8.7 MUSCLE BIOPHYSICS 36 1 8.8 BONE
STIFFNESS AND STRENGTH 36 7 8.9 VISION BIOPHYSICS 36 8 8.9.1 WAVELENGTH
RESPONSES 37 0 8.9.2 OPTICAL PROPERTIES 37 1 8.9.3 LIGHT ABSORPTION AND
BLACK-AND-WHITE VISION 37 2 8.9.4 COLOR VISION 37 3 8.9.5 RESOLUTION OF
THE HUMAN EYE 37 5 8.9.6 QUANTUM RESPONSE OF THE EYE 37 6 8.10 SOUND
PERCEPTION BIOPHYSICS 37 8 8.11 GROSS FEATURES OF THE NERVOUS SYSTEM 38
0 8.12 BIOELECTRICITY AND BIOMAGNETISM 384 8.12.1 BIOLOGICAL
PIEZOELECTRICITY 38 8 8 .12.2 BIOMAGNETISM 38 8 8.13 IMMUNE SYSTEM AND
ITS MODELS 38 9 REFERENCES 39 2 9 BIOLOGICAL SELF-REGULATION AND
SELF-ORGANIZATION 39 5 9 .1 INTRODUCTION 39 5 9 .2 SELF-ORGANIZATION 39
5 9 .3 HOMEOSTASIS 39 7 9.4 FIRST LAW OF THERMODYNAMICS AND LIVING
ORGANISMS 39 8 9.5 PHYSICS OF ANIMAL THERMOREGULATION 39 9 9.6
ALLOMETRIC LAWS IN PHYSIOLOGY 40 3 9 .6.1 INTRODUCTORY SCALING CONCEPTS
40 3 9 .6.2 OVERVIEW OF ALLOMETRIC LAWS OF PHYSIOLOGY 404 9.6.3 FRACTALS
AND LIVING SYSTEMS 407 9.7 ENTROPY AND INFORMATION 40 8 9 .8 ENTROPY
REDUCTION IN LIVING SYSTEMS 409 9.9 BIOLOGICAL INFORMATION 414 9 .10
EVOLUTIONARY THEORIES 416 9 .10.1 PUNCTUATED EQUILIBRIA 416 9.10.2
MATHEMATICAL MODELING OF EVOLUTION 41 7 9.10.3 MATHEMATICAL MODELS OF
POPULATION GENETICS 41 8 9.10.4 ARTIFICIAL LIFE 41 9 REFERENCES 42 0 10
EPILOGUE: TOWARD NEW PHYSICS AND NEW BIOLOGY 42 5 10.1 TOWARD NEW
PHYSICS 42 5 10.2 TOWARD NEW BIOLOGY 42 6 10.2.1 BIOCOMPUTING 42 7
10.2.2 BIOPHYSICS: THE PHYSICS OF ANIMATE MATTER OR AN EXPERIMENTAL
BIOLOGICAL TOOL? 430 REFERENCES 43 1 APPENDIX ARANDOM WALKS AND
DIFFUSION 433 INTRODUCTION 43 3 GAUSSIAN PROBABILITY DISTRIBUTIONS 43 8
DIFFUSION EQUATION 440 PROBABILITY OF DISPLACEMENT FOR A
THREE-DIMENSIONAL RANDOM WALK 44 1 DIFFUSION EQUATION 443 EXAMPLE 445
DIFFUSION EQUATION (DIFFERENTIAL FORM) 448 EXAMPLE 450 PARTICLE
CONSERVATION 45 3 APPENDIX B MODELS OF PHASE TRANSITIONS AND CRITICALITY
45 5 INTRODUCTION 45 5 CTYSTALS 455 STRUCTURAL PHASE TRASTIONS 456
PERROELECTRICTIY 45 7 MAGNETIC ORDERINGS 45 7 ORDERING TRANSITIONS IN
BINARY ALLOYS 45 7 SUBPECONDUCTIVITY 457 SUPERFLUIDITY 45 8 LIQUID
CRYSTALS 45 8 REFERENCES 47 8 APPENDIX C FOUNDATIONS OF NONLINEAR
PHYSICS 48 1 MULTISTABILITY AND BIFURCATION 48 1 STOCHASTIC ANALOGUE OF
A BIFURCATION 484 HARMONIC VERSUS ANHARMONIC MOTION 48 6 EXTERNAL
DRIVING AND DISSIPATION 48 7 RELAXATION DYNAMICS AND ASYMPTOTIC
STABILITY 49 1 COUPLED SYSTEMS AND LIMIT CYCLES 49 3 NONLINEAR WAVES AND
SOLITONS 49 6 PATTERN FORMATION 50 3 PATTERN FORMATION IN FLUID DYNAMICS
503 PATTERN FORMATION IN LIQUID CRYSTALS 503 PATTERN FORMATION IN
POLYMERS 504 CRYSTAL GROWTH AND STRUCTURAL TRANSITIONS 504 CHEMICAL
INSTABILITIES 505 CHAOS AND TURBULENCE 505 LANDAU SCENARIO 506
RUELLE-TAKENS-NEWHOUSE SCENARIO 507 FEIGENBAUM PICTURE 507
POMEAU-MANNEVILLE SCENARIO 509 FRACTALS 509 SELF-ORGANIZED CRITICALITY
510 REFERENCES 51 3 APPENDIX D MASTER EQUATIONS 51 7 REFERENCES 51 9
INDEX 521
|
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| author | Tuszynski, Jack A. 1956- |
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| id | DE-604.BV019391220 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:59:13Z |
| institution | BVB |
| isbn | 9780849300394 9780367578541 |
| language | English |
| lccn | 2002031592 |
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| physical | 550 S. Ill., graph. Darst. |
| publishDate | 2003 |
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| publisher | CRC Press |
| record_format | marc |
| series2 | CRC series in pure and applied physics |
| spelling | Tuszynski, Jack A. 1956- Verfasser (DE-588)131905708 aut Introduction to molecular biophysics Jack A. Tuszynski ; Michal Kurzynski Molecular biophysics Boca Raton [u.a.] CRC Press 2003 550 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier CRC series in pure and applied physics Includes bibliographical references and index "Introduction to Molecular Biophysics builds the modern theoretical foundation needed to understand life processes from a physical point of view. The authors use a combination of biological information and physical models and theories to provide a rigorous description of biological structures. They offer a guided tour through the interlocking hierarchies of living systems, starting from the smallest building blocks of life and ending with a panoramic view of the evolving landscape of life and living forms. The book is richly illustrated and includes numerous examples, references, and experimental tools that make it valuable as both a reference work and textbook."--BOOK JACKET. Biofysica gtt Biofísica larpcal Biologia molecular larpcal Biologie moléculaire Biophysique Moleculaire biologie gtt Biophysics Molecular Biology Molecular biology Molekulare Biophysik (DE-588)4170391-1 gnd rswk-swf Molekulare Biophysik (DE-588)4170391-1 s DE-604 Kurzynski, Michal 1946- Sonstige (DE-588)131458744 oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012853947&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Tuszynski, Jack A. 1956- Introduction to molecular biophysics Biofysica gtt Biofísica larpcal Biologia molecular larpcal Biologie moléculaire Biophysique Moleculaire biologie gtt Biophysics Molecular Biology Molecular biology Molekulare Biophysik (DE-588)4170391-1 gnd |
| subject_GND | (DE-588)4170391-1 |
| title | Introduction to molecular biophysics |
| title_alt | Molecular biophysics |
| title_auth | Introduction to molecular biophysics |
| title_exact_search | Introduction to molecular biophysics |
| title_full | Introduction to molecular biophysics Jack A. Tuszynski ; Michal Kurzynski |
| title_fullStr | Introduction to molecular biophysics Jack A. Tuszynski ; Michal Kurzynski |
| title_full_unstemmed | Introduction to molecular biophysics Jack A. Tuszynski ; Michal Kurzynski |
| title_short | Introduction to molecular biophysics |
| title_sort | introduction to molecular biophysics |
| topic | Biofysica gtt Biofísica larpcal Biologia molecular larpcal Biologie moléculaire Biophysique Moleculaire biologie gtt Biophysics Molecular Biology Molecular biology Molekulare Biophysik (DE-588)4170391-1 gnd |
| topic_facet | Biofysica Biofísica Biologia molecular Biologie moléculaire Biophysique Moleculaire biologie Biophysics Molecular Biology Molecular biology Molekulare Biophysik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012853947&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT tuszynskijacka introductiontomolecularbiophysics AT kurzynskimichal introductiontomolecularbiophysics AT tuszynskijacka molecularbiophysics AT kurzynskimichal molecularbiophysics |