Verfügbarkeit: Molecular biology

Molecular biology:

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Hauptverfasser:	Clark, David P. 1952- (VerfasserIn), Pazdernik, Nanette Jean (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier, Acad. Press 2013
Ausgabe:	2. ed.
Schlagworte:	Molekulargenetik Molekularbiologie Molecular biology. Molecular genetics. Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 907 S. Ill., graph. Darst. 28 cm
ISBN:	9780123785947 0123785944

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Datensatz im Suchindex

_version_	1804149059108208640
adam_text	Contents UNIT 1 Basic Chemical and Biological Principles 1 CHAPTER I Cells and Organisms _______2 1. What Is Life? 3 2. Living Creatures Are Made of Cells 4 3. Eubacteria and Archaea Are Genetically Distinct 8 4. Eukaryotic Cells Are Subdivided into Compartments 9 5. The Diversity of Eukaryotes 13 6. Haploidy, Diploidy, and the Eukaryote Cell Cycle 14 7. Organisms Are Classified 15 8. Some Widely-Studied Organisms Serve as Models 16 9. Basic Characteristics of a Model Organism 10. Purifying DNA from Model Organisms 11. Viruses Are Not Living Cells 12. Bacterial Viruses Infect Bacteria 13. Human Viral Diseases Are Common 14. A Variety of Subcellular Genetic Entities Exist Key Concepts Review Questions Conceptual Questions CHAPTER 2 Basic Genetics 27 27 29 30 32 32 34 35 36 37 1. Gregor Mendel, The Father of Classical Genetics 37 2. Genes Determine Each Step in Biochemical Pathways 39 3. Mutants Result from Alterations in Genes 40 4. Phenotypes and Genotypes 41 5. Chromosomes Are Long, Thin Molecules That Carry Genes 42 6. Dominant and Recessive Alíeles 45 7. Genes from Both Parents Are Mixed by Sexual Reproduction 48 8. Neighboring Genes Are Linked During Inheritance Unless the DNA Recombines 52 9. Identifying Genes that Cause Human Diseases 57 Key Concepts 58 Review Questions 59 Conceptual Questions 60 CHAPTER 3 DNA, RNA, and Protein 62 1. History of DNA as the Genetic Material 62 2. Nucleic Acid Molecules Carry Genetic Information 63 3. Chemical Structure of Nucleic Acids 63 4. Double-Stranded DNA Forms a Double Helix 67 5. Constituents of Chromosomes 75 6. The Central Dogma Outlines the Flow of Genetic Information 78 7. Ribosomes Read the Genetic Code 81 8. Various Classes of RNA Have Different Functions 82 9. Proteins Carry Out Many Cell Functions 84 Key Concepts 91 Review Questions 92 Conceptual Questions 93 CHAPTER 4 Genomes and DNA 94 1. Genome Organization 94 2. Repeated Sequences Are a Feature of Eukaryotic DNA 100 3. Palindromes, Inverted Repeats, and Stem and Loop Structures 105 4. Multiple А -Tracts Cause DNA to Bend 106 5. Supercoiling Is Necessary for Packaging of Bacterial DNA 106 6. Separation of DNA Fragments by Electrophoresis 111 7. Alternative Helical Structures of DNA Occur 113 8. Packaging DNA in Eukaryotic Nuclei 116 Key Concepts 121 Review Questions 122 Conceptual Questions 123 CHAPTER 5 Manipulation of Nucleic Acids 125 1. Manipulating DNA 126 2. Chemical Synthesis of DNA 135 3. Measuring the Concentration of DNA and RNA with Ultraviolet Light 143 4. Radioactive Labeling of Nucleic Acids 144 5. Fluorescence in the Detection of DNA and RNA 146 6. The Electron Microscope 149 7. Hybridization of DNA and RNA 151 Key Concepts 158 Review Questions 158 Conceptual Questions 159 UNIT 2 The Genome 162 CHAPTER 6 Polymerase Chain Reaction 163 1. Fundamentals of the Polymerase Chain Reaction 164 2. Inverse PCR 171 xii Contents 3. Randomly Amplified Polymorphic DNA fRAPD) 172 I, Re erse Transcriptase PCR 174 X Di lïerential Display PCR 175 >■·■„ Rapid Amplification of cDNA Ends (RACE) 176 , PC R in Genetic Engineering 179 ■S. Directed Mutagenesis 179 У. Engineering Deletions and Insertions by PCR 181 10. Real-Time Fluorescent PCR 182 11. Molecular Beacons and Scorpion Primers 184 12. Use of PCR in Medical Diagnosis 188 13. Environmental Analysis by PCR 189 14. Rescuing DNA from Extinct Life Forms by PCR 190 Key Concepts 191 Review Questions 192 Conceptual Questions 193 CHAPTER 7 Cloning Genes for Analysis 194 1. Properties of Cloning Vectors 195 2. Detecting Insertions in Vectors 199 3. Moving Genes Between Organisms: Shuttle Vectors 201 4. Bacteriophage Lambda Vectors 205 5. Cosmid Vectors 206 6. Yeast Artificial Chromosomes 208 7. Bacterial and PI Artificial Chromosomes 208 8. Recombineering Increases the Speed of Gene Cloning 209 9. A DNA Library is a Collection of Genes from One Source 212 10. Cloning Complementary DNA Avoids Introns 215 11. Chromosome Walking 217 12. Cloning by Subtractive Hybridization 219 13. Expression Vectors 220 Key Concepts 223 Review Questions 224 Conceptual Questions 225 CHAPTER 8 DNA Sequencing 227 1. DNA Sequencing—General Principles for Chain Termination Sequencing 228 2. Primer Walking Along a Strand of DNA 234 3. Automated Sequencing 235 4. Cycle Sequencing 236 5. The Emergence of DNA Chip Technology 237 6. Pyrosequencing 239 7. Second-Generation Sequencing 239 8. Third-Generation Sequencing 242 9. Nanopore Detectors for DNA 243 Key Concepts 244 Review Questions 246 Conceptual Questions 246 CHAPTER 9 Genomics & Systems _________ Biology ________________248 1. Large-Scale Mapping with Sequence Tags 249 2. Assembling Small Genomes by Shotgun Sequencing 250 3. Race for the Human Genome 253 4. Survey of the Human Genome 255 5. Pharmacogenomics—Genetically- Individualized Drug Treatment 263 6. Personal Genomics and Comparative Genomics 264 7. Bioinformatics and Computer Analysis 265 8. Systems Biology 266 9. Metagenomics and Community Sampling 268 10. Epigenetics and Epigenomics 268 Key Concepts 269 Review Questions 271 Conceptual Questions 271 UNIT 3 The Central Dogma of Molecular Biology 273 CHAPTER 10 Cell Division and __________DNA Replication 274 1. Cell Division and Reproduction Are Not Always Identical 275 2. DNA Replication Occurs at the Replication Fork 275 3. Properties of DNA Polymerase 279 4. Nucleotides Are the Precursors for DNA Synthesis 280 5. DNA Polymerase Elongates DNA Strands 282 6. The Complete Replication Fork Is Complex 285 7. Discontinuous Synthesis of the Lagging Strand 286 8. Chromosome Replication Initiates at oriC 289 9. Chromosome Replication Terminates at terC 292 10. Cell Division in Bacteria Occurs after Replication of Chromosomes 293 11. The Concept of the Replicón 297 12. Replicating Linear DNA in Eukaryotes 298 13. Cell Division in Higher Organisms 304 Key Concepts 305 Review Questions 307 Conceptual Questions 308 Contents xiii CHAPTER 11 Transcription of Genes 309 1. Genes Are Expressed by Making RNA 310 2. How Is the Beginning of a Gene Recognized? 312 3. Manufacturing the Message 314 4. RNA Polymerase Knows Where to Stop 316 5. How Does the Cell Know Which Genes to Turn On? 318 6. Transcription in Eukaryotes Is More Complex 324 Key Concepts 333 Review Questions 334 Conceptual Questions 335 CHAPTER 12 Processing of RNA 336 1. RNA Is Processed in Several Ways 336 2. Coding and Non-Coding RNA 338 3. Processing of Ribosomal and Transfer RNA 338 4. Eukaryotic Messenger RNA Contains a Cap and a Tail 340 5. Introns Are Removed from RNA by Splicing 344 6. Alternative Splicing Produces Multiple Forms of RNA 349 7. Inteins and Protein Splicing 352 8. Base Modification of rRNA Requires Guide RNA 355 9. RNA Editing Alters the Base Sequence 358 10. Transport of RNA out of the Nucleus 360 11. Degradation of mRNA 361 Key Concepts 366 Review Questions 367 Conceptual Questions 367 CHAPTER 13 Protein Synthesis 369 1. Overview of Protein Synthesis 2. Proteins Are Chains of Amino Acids 3. Decoding the Genetic Information 4. The RibosomeiThe Cell s Decoding Machine 5. Three Possible Reading Frames Exist 6. The tRNA Occupies Three Sites During Elongation of the Polypeptide 7. Bacterial mRNA Can Code for Several Proteins 8. Some Ribosomes Become Stalled and Are Rescued 9. Differences between Eukaryotic and Prokaryotic Protein Synthesis 10. Protein Synthesis Is Halted When Resources Are Scarce 11. A Signal Sequence Marks a Protein for Export from the Cell 12. Protein Synthesis Occurs in Mitochondria and Chloroplasts 405 13. Mistranslation Usually Results in Mistakes in Protein Synthesis 407 14. Many Antibiotics Work by Inhibiting Protein Synthesis 408 15. Post-Translational Modifications of Proteins 408 16. Selenocysteine and Pyrrolysine: Rare Amino Acids 410 17. Degradation of Proteins 412 Key Concepts 415 Review Questions 415 Conceptual Questions 416 CHAPTER 14 Protein Structure and Function ĄYI 1. The Structure of Proteins Reflects Four Levels of Organization 417 2. Determining Protein Structures 428 3. Nucleoproteins, Lipoproteins, and Glycoproteins Are Conjugated Proteins 430 4. Proteins Serve Numerous Cellular Functions 433 5. Protein (Nano)-Machines 436 6. Enzymes Catalyze Metabolic Reactions 437 7. Binding of Proteins to DNA Occurs in Several Different Ways 450 8. Denaturation of Proteins 454 Key Concepts 455 Review Questions 456 Conceptual Questions 457 CHAPTER 15 Proteomics: The Global Analysis of Proteins 459 370 1. The Proteome 460 371 2. Antibodies Are Essential Proteomics Tools 464 376 3. Western Blotting of Proteins 465 381 4. Isolating Proteins with Chromatography 466 386 5. Mass Spectrometry for Protein Identification 468 389 6. Protein-Tagging Systems 470 7. Selection by Phage Display 474 394 8. Protein Interactions: The Yeast Two-Hybrid System 478 395 9. Protein Interaction by Co-Immunoprecipitation 483 397 10. Protein Arrays 484 11. Metabolomics 487 401 Key Concepts 489 Review Questions 490 403 Conceptual Questions 491 xiv Contents Regulating Gene Expression 492 5 Regulation of Transcription in Prokaryotes 493 1. tiene Regulation Ensures a Physiological Response 493 2. Regulation at the Level of Transcription Involves Several Steps 496 3. Alternative Sigma Factors in Prokaryotes Recognize Different Sets of Genes 497 4. Activators and Repressore Participate in Positive and Negative Regulation 502 5. Two-Component Regulatory Systems 511 6. Specific versus Global Control 515 7. Accessory Factors and Nucleoid-Binding Proteins 517 8. Anti-Termination as a Control Mechanism 520 Key Concepts 523 Review Questions 524 Conceptual Questions 524 CHAPTER 17 Regulation of Transcription in Eukaryotes 526 1. Transcriptional Regulation in Eukaryotes Is More Complex Than in Prokaryotes 526 2. Specific Transcription Factors Regulate Protein-Encoding Genes 527 3. Negative Regulation of Transcription Occurs in Eukaryotes 533 4. Heterochromatin Blocks Access to DNA in Eukaryotes 537 5. Methylation of Eukaryotic DNA Controls Gene Expression 543 6. X-Chromosome Inactivation Occurs in Female XX Animals 547 Key Concepts 550 Review Questions 550 Conceptual Questions 551 CHAPTER 18 Regulation at the __________ RNA Level ____________553 1. Regulation at the Level of mRNA 553 2. Basic Principles of RNA Interference (RNAi) 564 3. Long Non-coding Regulatory RNA 572 4. CRISPR: Anti-Viral Defense in Bacteria 573 Premature Termination Causes Attenuation of RNA Transcription 574 6. Riboswitches — RNA Acting Directly as a Control Mechanism 576 Key Concepts 579 Review Questions 579 Conceptual Questions 580 CHAPTER 19 Analysis of Gene Expression 581 1. Monitoring Gene Expression 581 2. Reporter Genes for Monitoring Gene Expression 582 3. Deletion Analysis of the Upstream Region 590 4. DNA-Protein Complexes Can Be Isolated by Chromatin Immunoprecipitation 594 5. Location of the Start of Transcription by Primer Extension 596 6. Transcriptome Analysis 600 7. DNA Microarrays for Gene Expression 601 8. TaqMan Quantitative PCR to Assay Gene Expression 608 9. Serial Analysis of Gene Expression (SAGE) 610 Key Concepts 613 Review Questions 613 Conceptual Questions 614 UNIT 5 Subcellular Life Forms 615 CHAPTER 20 Plasmids 616 1. Plasmids as Replicons 616 2. General Properties of Plasmids 619 3. Plasmid DNA Replicates by Two Alternative Methods 622 4. Many Plasmids Help their Host Cells 628 5. Plasmids may Provide Aggressive Characters 635 6. Ή Plasmids are Transferred from Bacteria to Plants 640 7. The 2μ Plasmid of Yeast 644 8. Certain DNA Molecules May Behave as Viruses or Plasmids 645 Key Concepts 646 Review Questions 647 Conceptual Questions 648 CHAPTER 21 Viruses __________________649 1. Viruses Are Infectious Packages of Genetic Information 650 2. The Great Diversity of Viruses 658 Contents xv 3. Viruses with RNA Genomes Have Very Few Genes 4. Retroviruses Use both RNA and DNA 5. Subviral Infectious Agents Key Concepts Review Questions Conceptual Questions CHAPTER 22 Mobile DNA 666 672 678 684 684 685 686 1. Subcellular Genetic Elements as Gene Creatures 686 2. Most Mobile DNA Consists of Transposable Elements 687 3. Retroelements Make an RNA Copy 703 4. The Multitude of Transposable Elements 708 5. Junk DNA and Selfish DNA 716 Key Concepts 717 Review Questions 718 Conceptual Questions 719 UNIT 6 Changing the DNA Blueprint 720 CHAPTER 23 Mutations and Repair 721 1. Mutations Alter the DNA Sequence 721 2. The Major Types of Mutation 722 3. Chemical Mutagens Damage DNA 733 4. Overview of DNA Repair 742 5. Mutations Occur More Frequently at Hotspots 758 6. Reversions Are Genetic Alterations That Change the Phenotype Back to Wild-Type 759 7. Site-Directed Mutagenesis 763 Key Concepts 764 Review Questions 765 Conceptual Questions 766 CHAPTER 24 Recombination _________767 1. Overview of Recombination 767 2. Molecular Basis of Homologous Recombination 769 3. Site-Specific Recombination 773 4. Recombination in Higher Organisms 776 5. Gene Conversion 778 Key Concepts 781 Review Questions 781 Conceptual Questions 782 CHAPTER 25 Bacterial Genetics 783 1. Reproduction versus Gene Transfer 783 2. Fate of the Incoming DNA after Uptake 784 3. Transformation Is Gene Transfer by Naked DNA 785 4. Gene Transfer by Virus—Transduction 792 5. Transfer of Plasmids between Bacteria 795 6. Gene Transfer among Gram-Positive Bacteria 801 7. Archaeal Genetics 804 8. Whole-Genome Sequencing 805 Key Concepts 808 Review Questions 809 Conceptual Questions 810 CHAPTER 26 Molecular Evolution 812 1. Getting Started—Formation of the Earth 812 2. Oparin s Theory of the Origin of Life 814 3. Origin of Informational Macromolecules 818 4. The Autotrophic Theory of the Origin of Metabolism 823 5. Evolution of DNA, RNA, and Protein Sequences 824 6. Different Proteins Evolve at Very Different Rates 830 7. Symbiotic Origin of Eukaryotic Cells 835 8. DNA Sequencing and Biological Classification 841 9. Evolving Sideways: Horizontal Gene Transfer 847 Key Concepts 850 Review Questions 851 Conceptual Questions 852 Glossary 855 Index 883
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spelling	Clark, David P. 1952- Verfasser (DE-588)131505998 aut Molecular biology David P. Clark ; Nanette J. Pazdernik 2. ed. Amsterdam [u.a.] Elsevier, Acad. Press 2013 XV, 907 S. Ill., graph. Darst. 28 cm txt rdacontent n rdamedia nc rdacarrier Molekulargenetik (DE-588)4039987-4 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Molecular biology. Molecular genetics. (DE-588)4123623-3 Lehrbuch gnd-content Molekularbiologie (DE-588)4039983-7 s DE-604 Molekulargenetik (DE-588)4039987-4 s Pazdernik, Nanette Jean Verfasser (DE-588)136402100 aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024962900&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Clark, David P. 1952- Pazdernik, Nanette Jean Molecular biology Molekulargenetik (DE-588)4039987-4 gnd Molekularbiologie (DE-588)4039983-7 gnd
subject_GND	(DE-588)4039987-4 (DE-588)4039983-7 (DE-588)4123623-3
title	Molecular biology
title_auth	Molecular biology
title_exact_search	Molecular biology
title_full	Molecular biology David P. Clark ; Nanette J. Pazdernik
title_fullStr	Molecular biology David P. Clark ; Nanette J. Pazdernik
title_full_unstemmed	Molecular biology David P. Clark ; Nanette J. Pazdernik
title_short	Molecular biology
title_sort	molecular biology
topic	Molekulargenetik (DE-588)4039987-4 gnd Molekularbiologie (DE-588)4039983-7 gnd
topic_facet	Molekulargenetik Molekularbiologie Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024962900&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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