| File | Title | Manuscript Id |
|---|
| Chapter 10 Introduction | morris2e_ch10_1.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_1_dlap.xml | 560d8e93757a2e7c70000000 |
| 10.1 Tissues and Organs
| morris2e_ch10_2.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_2_dlap.xml | 560d8e93757a2e7c70000000 |
| Tissues and organs are communities of cells.
| morris2e_ch10_3.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_3_dlap.xml | 560d8e93757a2e7c70000000 |
| The structure of skin relates to its function.
| morris2e_ch10_4.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_4_dlap.xml | 560d8e93757a2e7c70000000 |
| 10.2 The Cytoskeleton
| morris2e_ch10_5.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_5_dlap.xml | 560d8e93757a2e7c70000000 |
| Microtubules and microfilaments are polymers of protein subunits.
| morris2e_ch10_6.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_6_dlap.xml | 560d8e93757a2e7c70000000 |
| Microtubules and microfilaments are dynamic structures.
| morris2e_ch10_7.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_7_dlap.xml | 560d8e93757a2e7c70000000 |
| Motor proteins associate with microtubules and microfilaments to cause movement.
| morris2e_ch10_8.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_8_dlap.xml | 560d8e93757a2e7c70000000 |
| Intermediate filaments are polymers of proteins that vary according to cell type.
| morris2e_ch10_9.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_9_dlap.xml | 560d8e93757a2e7c70000000 |
| The cytoskeleton is an ancient feature of cells.
| morris2e_ch10_10.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_10_dlap.xml | 560d8e93757a2e7c70000000 |
| 10.3 Cell Junctions
| morris2e_ch10_11.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_11_dlap.xml | 560d8e93757a2e7c70000000 |
| Cell adhesion molecules allow cells to attach to other cells and to the extracellular matrix.
| morris2e_ch10_12.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_12_dlap.xml | 560d8e93757a2e7c70000000 |
| Anchoring junctions connect adjacent cells and are reinforced by the cytoskeleton.
| morris2e_ch10_13.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_13_dlap.xml | 560d8e93757a2e7c70000000 |
| Tight junctions prevent the movement of substances through the space between cells.
| morris2e_ch10_14.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_14_dlap.xml | 560d8e93757a2e7c70000000 |
| Communicating junctions allow the passage of molecules between cells.
| morris2e_ch10_15.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_15_dlap.xml | 560d8e93757a2e7c70000000 |
| 10.4 The Extracellular Matrix
| morris2e_ch10_16.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_16_dlap.xml | 560d8e93757a2e7c70000000 |
| The extracellular matrix of plants is the cell wall.
| morris2e_ch10_17.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_17_dlap.xml | 560d8e93757a2e7c70000000 |
| The extracellular matrix is abundant in connective tissues of animals.
| morris2e_ch10_18.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_18_dlap.xml | 560d8e93757a2e7c70000000 |
| Case 2: How do cancer cells spread throughout the body?
| morris2e_ch10_19.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_19_dlap.xml | 560d8e93757a2e7c70000000 |
| Extracellular matrix proteins influence cell shape and gene expression.
| morris2e_ch10_20.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_20_dlap.xml | 560d8e93757a2e7c70000000 |
| Chapter 10 Summary | morris2e_ch10_21.html | 560d8e93757a2e7c70000000 |
| DLAP questions | morris2e_ch10_21_dlap.xml | 560d8e93757a2e7c70000000 |