| File | Title | Manuscript Id |
|---|
| Chapter Introduction | lodish8e_ch4_1.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_1_dlap.xml | 572b7f74757a2e962f000007 |
| 4.1 Growing and Studying Cells in Culture
| lodish8e_ch4_2.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_2_dlap.xml | 572b7f74757a2e962f000007 |
| Culture of Animal Cells Requires Nutrient-Rich Media and Special Solid Surfaces
| lodish8e_ch4_3.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_3_dlap.xml | 572b7f74757a2e962f000007 |
| Primary Cell Cultures and Cell Strains Have a Finite Life Span
| lodish8e_ch4_4.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_4_dlap.xml | 572b7f74757a2e962f000007 |
| Transformed Cells Can Grow Indefinitely in Culture
| lodish8e_ch4_5.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_5_dlap.xml | 572b7f74757a2e962f000007 |
| Flow Cytometry Separates Different Cell Types
| lodish8e_ch4_6.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_6_dlap.xml | 572b7f74757a2e962f000007 |
| Growth of Cells in Two-Dimensional and Three-Dimensional Culture Mimics the In Vivo Environment
| lodish8e_ch4_7.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_7_dlap.xml | 572b7f74757a2e962f000007 |
| Hybridomas Produce Abundant Monoclonal Antibodies
| lodish8e_ch4_8.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_8_dlap.xml | 572b7f74757a2e962f000007 |
| A Wide Variety of Cell Biological Processes Can Be Studied with Cultured Cells
| lodish8e_ch4_9.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_9_dlap.xml | 572b7f74757a2e962f000007 |
| Drugs Are Commonly Used in Cell Biological Research
| lodish8e_ch4_10.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_10_dlap.xml | 572b7f74757a2e962f000007 |
| Key Concepts of Section 4.1 | lodish8e_ch4_11.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_11_dlap.xml | 572b7f74757a2e962f000007 |
| 4.2 Light Microscopy: Exploring Cell Structure and Visualizing Proteins Within Cells
| lodish8e_ch4_12.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_12_dlap.xml | 572b7f74757a2e962f000007 |
| The Resolution of the Conventional Light Microscope Is About 0.2 µm
| lodish8e_ch4_13.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_13_dlap.xml | 572b7f74757a2e962f000007 |
| Phase-Contrast and Differential-Interference-Contrast Microscopy Visualize Unstained Live Cells
| lodish8e_ch4_14.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_14_dlap.xml | 572b7f74757a2e962f000007 |
| Imaging Subcellular Details Often Requires That Specimens Be Fixed, Sectioned, and Stained
| lodish8e_ch4_15.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_15_dlap.xml | 572b7f74757a2e962f000007 |
| Fluorescence Microscopy Can Localize and Quantify Specific Molecules in Live Cells
| lodish8e_ch4_16.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_16_dlap.xml | 572b7f74757a2e962f000007 |
| Intracellular Ion Concentrations Can Be Determined with Ion-Sensitive Fluorescent Dyes
| lodish8e_ch4_17.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_17_dlap.xml | 572b7f74757a2e962f000007 |
| Immunofluorescence Microscopy Can Detect Specific Proteins in Fixed Cells
| lodish8e_ch4_18.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_18_dlap.xml | 572b7f74757a2e962f000007 |
| Tagging with Fluorescent Proteins Allows the Visualization of Specific Proteins in Live Cells
| lodish8e_ch4_19.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_19_dlap.xml | 572b7f74757a2e962f000007 |
| Deconvolution and Confocal Microscopy Enhance Visualization of Three-Dimensional Fluorescent Objects
| lodish8e_ch4_20.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_20_dlap.xml | 572b7f74757a2e962f000007 |
| Two-Photon Excitation Microscopy Allows Imaging Deep into Tissue Samples
| lodish8e_ch4_21.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_21_dlap.xml | 572b7f74757a2e962f000007 |
| TIRF Microscopy Provides Exceptional Imaging in One Focal Plane
| lodish8e_ch4_22.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_22_dlap.xml | 572b7f74757a2e962f000007 |
| FRAP Reveals the Dynamics of Cellular Components
| lodish8e_ch4_23.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_23_dlap.xml | 572b7f74757a2e962f000007 |
| FRET Measures Distance Between Fluorochromes
| lodish8e_ch4_24.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_24_dlap.xml | 572b7f74757a2e962f000007 |
| Super-Resolution Microscopy Can Localize Proteins to Nanometer Accuracy
| lodish8e_ch4_25.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_25_dlap.xml | 572b7f74757a2e962f000007 |
| Light-Sheet Microscopy Can Rapidly Image Cells in Living Tissue
| lodish8e_ch4_26.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_26_dlap.xml | 572b7f74757a2e962f000007 |
| Key Concepts of Section 4.2 | lodish8e_ch4_27.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_27_dlap.xml | 572b7f74757a2e962f000007 |
| 4.3 Electron Microscopy: High-Resolution Imaging
| lodish8e_ch4_28.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_28_dlap.xml | 572b7f74757a2e962f000007 |
| Single Molecules or Structures Can Be Imaged Using a Negative Stain or Metal Shadowing
| lodish8e_ch4_29.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_29_dlap.xml | 572b7f74757a2e962f000007 |
| Cells and Tissues Are Cut into Thin Sections for Viewing by Electron Microscopy
| lodish8e_ch4_30.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_30_dlap.xml | 572b7f74757a2e962f000007 |
| Immunoelectron Microscopy Localizes Proteins at the Ultrastructural Level
| lodish8e_ch4_31.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_31_dlap.xml | 572b7f74757a2e962f000007 |
| Cryoelectron Microscopy Allows Visualization of Specimens Without Fixation or Staining
| lodish8e_ch4_32.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_32_dlap.xml | 572b7f74757a2e962f000007 |
| Scanning Electron Microscopy of Metal-Coated Specimens Reveals Surface Features
| lodish8e_ch4_33.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_33_dlap.xml | 572b7f74757a2e962f000007 |
| Key Concepts of Section 4.3 | lodish8e_ch4_34.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_34_dlap.xml | 572b7f74757a2e962f000007 |
| 4.4 Isolation of Cell Organelles
| lodish8e_ch4_35.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_35_dlap.xml | 572b7f74757a2e962f000007 |
| Disruption of Cells Releases Their Organelles and Other Contents
| lodish8e_ch4_36.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_36_dlap.xml | 572b7f74757a2e962f000007 |
| Centrifugation Can Separate Many Types of Organelles
| lodish8e_ch4_37.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_37_dlap.xml | 572b7f74757a2e962f000007 |
| Organelle-Specific Antibodies Are Useful in Preparing Highly Purified Organelles
| lodish8e_ch4_38.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_38_dlap.xml | 572b7f74757a2e962f000007 |
| Proteomics Reveals the Protein Composition of Organelles
| lodish8e_ch4_39.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_39_dlap.xml | 572b7f74757a2e962f000007 |
| Key Concepts of Section 4.4 | lodish8e_ch4_40.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_40_dlap.xml | 572b7f74757a2e962f000007 |
| Key Terms
| lodish8e_ch4_41.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_41_dlap.xml | 572b7f74757a2e962f000007 |
| Review the Concepts
| lodish8e_ch4_42.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_42_dlap.xml | 572b7f74757a2e962f000007 |
| Extended References
| lodish8e_ch4_43.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_43_dlap.xml | 572b7f74757a2e962f000007 |
| Perspectives for the Future
| lodish8e_ch4_44.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_44_dlap.xml | 572b7f74757a2e962f000007 |
| Classic Experiment 4-1: Separating Organelles | lodish8e_ch4_45.html | 572b7f74757a2e962f000007 |
| DLAP questions | lodish8e_ch4_45_dlap.xml | 572b7f74757a2e962f000007 |