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细胞生物学 厦门大学
- 内容简介:
- 细胞生物学是从事生物医学研究所必须掌握的课程之一。本课程为中英文双语教学,目的是让同学们尽快熟悉细胞生物学领域内的英文词汇,为掌握最新进展和提高自学能力奠定基础。欢迎对生命科学感兴趣,或者准备进一步深造,报考研究生,立志将来从事生命科学研究的同学选修本课程。
- 价格:
- 免费
课程介绍
| Introduction of Molecular cell biology | The objectives and development of cell biology | The objectives and development of cell biology |
| Introduction of Molecular cell biology | Microscope and Cell theory | Microscope and Cell theory |
| Introduction of Molecular cell biology | Major events in cell biology | Major events in cell biology |
| Culturing and visualizing cells | Growing Cells in Culture | cell culture |
| Culturing and visualizing cells | Monoclonal antibodies | Monoclonal antibodies |
| Culturing and visualizing cells | Fluorescence Microscopy | Fluorescence Microscopy |
| Culturing and visualizing cells | Flow cytometry | Flow cytometry |
| Culturing and visualizing cells | Spinning Disk Confocal Microscopy | Spinning Disk Confocal Microscopy |
| Culturing and visualizing cells | FRAP and FRET | FRAP and FRET |
| Culturing and visualizing cells | RNA interference | RNA interference |
| Biomembrane Structure | The structrures of the plasmic membrane | The structrures of the plasmic membrane |
| Biomembrane Structure | The lipid bilayer: Composition and structural organization | The lipid bilayer: Composition and structural organization |
| Biomembrane Structure | Forms of lipid molecules exist in water | Forms of lipid molecules exist in water |
| Biomembrane Structure | Lipids Movement in biomembrane | Lipids Movement in biomembrane |
| Biomembrane Structure | Structure of Membrane Proteins | Membrane Proteins |
| Biomembrane Structure | Synthesis of Phospholipids and Intracellular Movement | Synthesis of Phospholipids and Intracellular Movement |
| Transmembrane transport of Ions and small molecules | Overview of transmembrane transport | Overview of transmembrane transport |
| Transmembrane transport of Ions and small molecules | Facilitated Transport of Glucose and Water | Facilitated Transport of Glucose and Water |
| Transmembrane transport of Ions and small molecules | ATP –powered pumps | ATP –powered pumps |
| Transmembrane transport of Ions and small molecules | Na+/k+ pump | Na+/k+ pump |
| Transmembrane transport of Ions and small molecules | Ca2+ pump | Ca2+ pump |
| Transmembrane transport of Ions and small molecules | K+ channel and the Resting membrane potencial | K+ channel and the Resting membrane potencial |
| Transmembrane transport of Ions and small molecules | Cotransport by Symporters and Antiporters | Cotransport by Symporters and Antiporters |
| Transmembrane transport of Ions and small molecules | Transcellular transport | Transcellular transport |
| Cellular Energetics | Overview of aerobic oxidation | Overview of aerobic oxidation |
| Cellular Energetics | Structure of Mitochondria | Structure of Mitochondria |
| Cellular Energetics | Mitochondrial Oxidation of Fatty Acids Generates ATP | Mitochondrial Oxidation of Fatty Acids Generates ATP |
| Cellular Energetics | The Electron Carriers and Electron Transport Chain | The Electron Carriers and Electron Transport Chain |
| Cellular Energetics | The Electron Transport and Generation of the Proton-Motive Force | The Electron Transport and Proton Motive Force |
| Cellular Energetics | Chemiosmotic theory and Endosymbiont hypothesis | Chemiosmotic theory and Endosymbiont hypothesis |
| Cellular Energetics | Harnessing the Proton-Motive Force to synthesize ATP | Harnessing the Proton-Motive Force to synthesize ATP |
| Cellular Energetics | Electron Transport and Reactive Oxygen Species (ROS) | Electron Transport and Reactive Oxygen Species (ROS) |
| Moving Proteins into Membranes and Organelles | Targeting Proteins to and Across the ER Membrane | Targeting Proteins to and Across the ER Membrane |
| Moving Proteins into Membranes and Organelles | Insertion of single-pass Proteins into the ER | Insertion of single-pass Proteins into the ER |
| Moving Proteins into Membranes and Organelles | Insertion of Multipass Proteins into the ER | Insertion of Multipass Proteins into the ER |
| Moving Proteins into Membranes and Organelles | Protein Glycosylation and Folding in the ER | Protein Glycosylation and Folding in the ER |
| Moving Proteins into Membranes and Organelles | Formation of disulfide bonds in the ER | Formation of disulfide bonds in the ER |
| Moving Proteins into Membranes and Organelles | Protein Quality Control in the ER | Protein Quality Control in the ER |
| Moving Proteins into Membranes and Organelles | Targeting of Proteins to Mitochondria | Targeting of Proteins to Mitochondria |
| Moving Proteins into Membranes and Organelles | Targeting of Peroxisomal Proteins | Targeting of Peroxisomal Proteins |
| Vesicular traffic,secretion and endocytosis | Molecular Mechanisms of Vesicle Budding and Fusion | Molecular Mechanisms of Vesicle Budding and Fusion |
| Vesicular traffic,secretion and endocytosis | Early Stages of the Secretory Pathway | Early Stages of the Secretory Pathway |
| Vesicular traffic,secretion and endocytosis | Later Stages of the Secretory Pathway | Later Stages of the Secretory Pathway |
| Vesicular traffic,secretion and endocytosis | Receptor-Mediated Endocytosis | Receptor-Mediated Endocytosis |
| Vesicular traffic,secretion and endocytosis | Directing Membrane Proteins and Cytosolic Materials to the Lysosome | Directing Membrane Proteins to the Lysosome |
| Vesicular traffic,secretion and endocytosis | The structure and functions of Lysosomes | The structure and functions of Lysosomes |
| Signal transduction and G protein-coupled receptors | Brief Introduction of Cell Communication | Brief Introduction of Cell Communication |
| Signal transduction and G protein-coupled receptors | Signaling Molecules and Receptors | Signaling Molecules and Receptors |
| Signal transduction and G protein-coupled receptors | G Proteins and G Protein-coupled Receptors (GPCR) | G Proteins and G Protein-coupled Receptors (GPCR) |
| Signal transduction and G protein-coupled receptors | GPCR Mediated Signaling pathways | GPCR Mediated Signaling pathways |
| Signaling pathways that control gene activity | Outlines of Signaling pathways that control gene activity | Outlines of Signaling pathways that control gene activity |
| Signaling pathways that control gene activity | Phosphoinositide Signaling Pathways | Phosphoinositide Signaling Pathways |
| Signaling pathways that control gene activity | TGF-b Receptors and TGFb Signaling Pathways | TGF-b Receptors and TGFb Signaling Pathways |
| Signaling pathways that control gene activity | Signaling Pathways controlled by Ubiquitination | Signaling Pathways controlled by Ubiquitination |
| Signaling pathways that control gene activity | The Ras/MAPK and JAK/STAT signaling pathway | The Ras/MAPK and JAK/STAT signaling pathway |
| Cell organization and movement I: Microfilaments | Actin Filaments | Actin Filaments |
| Cell organization and movement I: Microfilaments | Actin Filaments | Actin Filaments |
| Cell organization and movement I: Microfilaments | Dynamic Assembly of Actin Filaments | Dynamic Assembly of Actin Filaments |
| Cell organization and movement I: Microfilaments | Actin-Based Cellular Structures | Actin-Based Cellular Structures |
| Cell organization and movement I: Microfilaments | Myosins and Myosin-Powered Movements | Myosins and Myosin-Powered Movements |
| Cell organization and movement II: Microtubules and intermediate filament | 第一单元 Microtubule Structure and Organization | 18.1 Microtubule Structure and Organization |
| Cell organization and movement II: Microtubules and intermediate filament | 第二单元 Microtubule Dynamics | 18.2 Microtubule Dynamics |
| Cell organization and movement II: Microtubules and intermediate filament | 第三单元 Regulation of Microtubule Structure and Dynamics | 18.3 Regulation of Microtubule Structure and Dynamics |
| Cell organization and movement II: Microtubules and intermediate filament | 第四单元 Kinesins & Dyneins: Microtubule-Based Motor Proteins | 18.4 Kinesins & Dyneins: Microtubule-Based Motor Proteins |
| Cell organization and movement II: Microtubules and intermediate filament | 第五单元 Cilia & Flagella: Microtubule-Based Surface Structures | 18.5 Cilia & Flagella: Microtubule-Based Surface Structures |
| Cell organization and movement II: Microtubules and intermediate filament | 第六单元 Mitotic Spindle | 18.6 Mitosis & Mitotic Spindle |
| Cell organization and movement II: Microtubules and intermediate filament | 第七单元 Intermediate Filaments | 18.7 Intermediate Filaments |
| Cell organization and movement II: Microtubules and intermediate filament | 第八单元 Coordination and Cooperation Between Cytoskeletal Elements | 18.8Coordination & Cooperation Between Cytoskeletal Elements |
| Nucleus, chromatin and chromosomes | 第一单元 Unit 1, Nuclear Envelope (NE), Nuclear Pore Complex (NPC) & Nuclear Transport | Nuclear Envelope, Nuclear Pore Complex & Nuclear Transport |
| Nucleus, chromatin and chromosomes | 第二单元 Unit 2, Structural Organization of Eukaryotic Chromosomes | Structural Organization of Eukaryotic Chromosomes |
| Nucleus, chromatin and chromosomes | 第三单元 Unit 3, Morphology and Functional Elements of Eukaryotic Chromosomes | Morphology and Functional Elements of Eukaryotic Chromosomes |
| Nucleus, chromatin and chromosomes | 第四单元 Unit 4, Nucleolus | Nucleolus |
| The Eukaryotic Cell Cycle | 第一单元 Unit 1, Overview of the Cell Cycle and Its Control | Unit 1, Overview of the cell cycle and its control |
| The Eukaryotic Cell Cycle | 第二单元 Unit 2, Model Organisms and Methods to Study the Cell Cycle | Unit 2, Model Organisms and Methods to Study the Cell Cycle |
| The Eukaryotic Cell Cycle | 第三单元 Unit 3, CDK and Its Discovery | Unit 3, CDK and Its Discovery |
| The Eukaryotic Cell Cycle | 第四单元 Unit 4, Regulation of CDK Activity | Unit 4, Regulation of CDK Activity |
| The Eukaryotic Cell Cycle | 第五单元 Unit 5, Commitment to the Cell Cycle and DNA Replication | Unit 5, Commitment to the Cell Cycle and DNA Replication |
| The Eukaryotic Cell Cycle | 第六单元 Unit 6, Entry into Mitosis and Completion of Mitosis | Unit 6, Entry into Mitosis and Completion of Mitosis |
| The Eukaryotic Cell Cycle | 第七单元 Unit 7, Surveillance Mechanisms in Cell Cycle Regulation | Unit 7, Surveillance Mechanisms in Cell Cycle Regulation |
| The Eukaryotic Cell Cycle | 第八单元 Unit 8, Meiosis: A Special Type of Cell Division | Unit 8, Meiosis: A Special Type of Cell Division |
| Integrating cells into tissues | An Overview on Cell-Cell and Cell-Matrix Adhesion | An Overview on Cell-Cell and Cell-Matrix Adhesion |
| Integrating cells into tissues | Type of Cell Junctions and Anchoring Junctions | Type of Cell Junctions and Anchoring Junctions |
| Integrating cells into tissues | Tight junctions and Gap junctions | Tight junctions and Gap junctions |
| Integrating cells into tissues | ECMs of The Basal Lamina | The Extracellular Matrix I_the Basal Lamina |
| Integrating cells into tissues | ECMs of Connective tissue | ECMs of Connective tissue |
| Stem cells, cell asymmetry and cell death | Early metazoan developmnt and embryonic stem cells | 21.1 Early metazoan developmnt and embryonic stem cells |
| Stem cells, cell asymmetry and cell death | Stem Cells and Niches in Multicellular Organisms | 21.2 Stem Cells and Niches in Multicellular Organisms |
| Stem cells, cell asymmetry and cell death | Mechanisms of cell polarity and asymmetric cell division | 21.3 Mechanisms of cell polarity & asymmetric cell division |
| Stem cells, cell asymmetry and cell death | Cell death and its regulation | 21.4 Cell death and its regulation |
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