00000cam a22000004a 4500 UP-1685675941123865101 Buklod 20111001091417.0 aa rb |||1 u| ta 101001s2010 nju r |||| u|eng d 9780470505762 (pbk.) (iLib)UPTAC-00010298148 CD Books PhP3,357.90 StDuBDS UPVTC eng QH 581 K37 2010 Karp, Gerald Cell biology Gerald Karp. 6th ed., International student version. Hoboken, N.J. Wiley c2010. 1 v. (various pagings) ill., col. 28 cm. Text on inside cover. Includes bibliographical references and index. Table of Contents: 1. An Introduction to Cell Biology: 1.1. The Discovery of Cells -- 1.2. Basic Properties of Cells -- 1.3. Two Fundamentally Different Classes of Cells -- 1.4. Viruses -- 2. The Structure and Functions of Biological Molecules: 2.1. Covalent Bonds -- 2.2. Noncovalent Bonds -- 2.3. Acids, Bases, and Buffers -- 2.4. The Nature of Biological Molecules -- 2.5. Four Types of Biological Molecules -- 2.6. The Formation of Complex Macromolecular Structures -- 3. Bioenergetics, Enzymes, and Metabolism: 3.1. Bioenergetics -- 3.2. Enzymes as Biological Catalysts -- 3.3. Metabolism -- 4. Genes, Chromosomes, and Genomes: 4.1. The Concept of a Gene as a Unit if Inheritance -- 4.2. Chromosomes: The Physical Carriers of the Genes -- 4.3. The Chemical Nature of the Gene -- 4.4. The Structure of the Genome -- 4.5. The Stability of the Genome -- 4.6. Sequencing Genomes: The Footprints of Biological Evolution -- 5. The Path to Gene Expression: 5.1. The Relationship Between Genes and Proteins -- 5.2. An Overview of Transcription in Both Prokaryotic and Eukaryotic Cells -- 5.3. Synthesis and Processing of Ribosomal and Transfer RNAs -- 5.4. Synthesis and Processing of Messenger RNAs -- 5.5. Small Regulatory RNAs and RNA Silencing Pathways -- 5.6. Encoding Genetic Information -- 5.7. Decoding The Codons: The Role of Transfer RNAs -- 5.8. Translating Genetic Information -- 6. Controlling Gene Expression: 6.1. The Nucleus of a Eukaryotic Cell -- 6.2. Control of Gene Expression in Bacteria -- 6.3. Control of Gene Expression in Eukaryotes -- 6.4. Transcriptional-Level Control -- 6.5. Processing-Level Control -- 6.6. Translational-Level Control -- 6.7. Postranslational Control: Determining Protein Stability -- 7. Replicating and Repairing DNA: 7.1. DNA Replication -- 7.2. DNA Repair -- 7.3. Between Replication and Repair -- 8. Cellular Membranes: 8.1. An Overview of Membrane Functions -- 8.2. A Brief History of Studies on Plasma Membrane Structure -- 8.3. The Chemical Composition of Membranes -- 8.4. The Structure and Functions of Membrane Proteins -- 8.5. Membrane Lipids and Membrane Fluidity -- 8.6. The Dynamic Nature of the Plasma Membrane -- 8.7. The Movement of Substances Across Cell Membranes -- 8.8. Membrane Potentials and Nerve Impulses -- 9. Mitochondrial Structure and Function: 9.1. Mitochondrial Structure and Function -- 9.2. Oxidative Metabolism in the Mitochondrion -- 9.3. The Role of Mitochondrion in the Formation of ATP -- 9.4. Translocation of Protons and the Establishment of a Proton-Motive Force -- 9.5. The Machinery for ATP Formation -- 9.6. Peroxisomes -- 10. Chloroplast Structure and Function: 10.1. Chloroplast Structure and Function -- 10.2. An Overview of Photosynthetic Metabolsim -- 10.3. The Absorption of Light -- 10.4. Photosynthetic Units and Reaction Centers -- 10.5. Photophosphorylation -- 10.6. Carbon Dioxide Fixation and the Synthesis of Carbohydrate -- 11. The Extracellular Matrix and Cell Interactions: 11.1. The Extracellular Space -- 11.2. Interactions of Cells with Extracellular Materials -- 11.3. Interactions of Cells with Other Cells -- 11.4. Junctions: Sealing the Extracellular Space -- 11.5. Gap Junctions and Plasmodesmata: Mediating Intercellular Communication -- 11.6. Cell Walls -- 12. Cellular Organelles and Membrane Trafficking: 12.1. An Overview of the Endomembrane System -- 12.2. A Few Approaches to the Study of Endomembranes -- 12.3. The Endoplasmic Reticulum -- 12.4. The Golgi Complex -- 12.5. Types of Vesicle Transport and Their Functions -- 12.6. Lysosomes -- 12.7. Plant Cell Vacuoles -- 12.8. The Endocytic Pathway: Moving Membrane and Materials into the Cell Interior -- 12.9. Postransnational Uptake of Proteins by Peroxisomes, Mitochondria, and Chloroplasts -- 13. The Cytoskeleton: 13.1. Overview of the Major Functions of the Cytoskeleton -- 13.2. The Study of the Cytoskeleton -- 13.3. Microtubules -- 13.4. Intermediate Filaments -- 13.5. Microfilaments -- 13.6. Muscle Contractility -- 13.7. Nonmuscle Motility -- 14. Cell Division: 14.1. The Cell Cycle -- 14.2. M Phase: Mitosis and Cytokinesis.-- 14.3. Meiosis -- 15. Cell Signaling Pathways: 15.1. The Basic Elements of Cell Signaling Systems -- 15.2. A Survey of Extracellular Messengers and Their Receptors -- 15.3. G Protiens-Coupled Receptors and Their Second Messengers -- 15.4. Protien-Tyrosine Phosphorylation as a Mechanism for Signal Transduction -- 15.5. The Role of Calcium as an Intracellular Messenger -- 15.6. Convergence, Divergence, and Crosstalk among Different Signaling Pathways -- 15.7. The Role of No as an Intercellular Messenger -- 15.8. Adaptosis (Programmed Cell Death) -- 16. Cancer: 16.1. Basic Properties -- 16.2. The Causes of Cancer -- 16.3. The Genetics of Cancer -- 16.4. New Strategies for Combating Cancer -- 17. Immunology: 17.1. An Overview of the Immune Response -- 17.2. The Clonal Selection Theory as it Applies to B Cells -- 17.3. T Lymphocytes: Activation and Mechanism of Action -- 17.4. Selected Topics on The Cellular and Molecular Basis of Immunity -- 18. Methods in Cell Biology: 18.1. The Light Microscope -- 18.2. Transmission Electron Microscopy -- 18.3. Scanning Electron and Atomic Force Microscopy -- 18.4. The Use of Radioisotopes -- 18.5. Cell Culture -- 18.6. The Fractionation of a Cell's Contents by Differential Centrifugation -- 18.7. Isolation, Purification, and Fractionation of Proteins -- 18.8. Determining The Structure of Proteins -- 18.9. Purification of Nucleic Acids -- 18.10. Fractionation of Nucleic Acids -- 18.11. Nucleic Acid Hybridization -- 18.12. Chemical Synthesis of DNA -- 18.13. Recombinant DNA Technology -- 18.14. Enzymatic Amplification of DNA by PCR -- 18.15. DNA Sequencing -- 18.16. DNA Libraries -- 18.17. DNA Transfer into Eukaryotic Cells and Mammalian Embryos -- 18.18. Determining Eukaryotic Gene Function by Gene Elimination or Silencing -- 18.19. The Use of Antibodies. Glossary. Additional Readings. Index Cytology. Table of contents only https://drive.google.com/file/d/1u0aTKM-N2YqUSfDGVNQAgvx-IcP8yo9O/view?usp=sharing FO UPTAC UPTAC QH 581 K37 2010 Book