FileTitleManuscript Id
Chapter 5 Introductionmorris2e_ch5_1.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_1_dlap.xml560c2cf2757a2e125d000000
5.1 Structure of Cell Membranes morris2e_ch5_2.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_2_dlap.xml560c2cf2757a2e125d000000
Cell membranes are composed of two layers of lipids. morris2e_ch5_3.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_3_dlap.xml560c2cf2757a2e125d000000
Case 1: How did the first cell membranes form? morris2e_ch5_4.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_4_dlap.xml560c2cf2757a2e125d000000
Cell membranes are dynamic. morris2e_ch5_5.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_5_dlap.xml560c2cf2757a2e125d000000
Proteins associate with cell membranes in different ways. morris2e_ch5_6.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_6_dlap.xml560c2cf2757a2e125d000000
5.2 The Plasma Membrane and Cell Wall morris2e_ch5_7.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_7_dlap.xml560c2cf2757a2e125d000000
The plasma membrane maintains homeostasis. morris2e_ch5_8.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_8_dlap.xml560c2cf2757a2e125d000000
Passive transport involves diffusion. morris2e_ch5_9.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_9_dlap.xml560c2cf2757a2e125d000000
Primary active transport uses the energy of ATP. morris2e_ch5_10.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_10_dlap.xml560c2cf2757a2e125d000000
Secondary active transport is driven by an electrochemical gradient. morris2e_ch5_11.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_11_dlap.xml560c2cf2757a2e125d000000
Many cells maintain size and composition using active transport. morris2e_ch5_12.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_12_dlap.xml560c2cf2757a2e125d000000
The cell wall provides another means of maintaining cell shape. morris2e_ch5_13.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_13_dlap.xml560c2cf2757a2e125d000000
5.3 The Internal Organization of Cells morris2e_ch5_14.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_14_dlap.xml560c2cf2757a2e125d000000
Eukaryotes and prokaryotes differ in internal organization. morris2e_ch5_15.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_15_dlap.xml560c2cf2757a2e125d000000
Prokaryotic cells lack a nucleus and extensive internal compartmentalization. morris2e_ch5_16.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_16_dlap.xml560c2cf2757a2e125d000000
Eukaryotic cells have a nucleus and specialized internal structures. morris2e_ch5_17.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_17_dlap.xml560c2cf2757a2e125d000000
5.4 The Endomembrane System morris2e_ch5_18.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_18_dlap.xml560c2cf2757a2e125d000000
The endomembrane system compartmentalizes the cell. morris2e_ch5_19.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_19_dlap.xml560c2cf2757a2e125d000000
The nucleus houses the genome and is the site of RNA synthesis. morris2e_ch5_20.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_20_dlap.xml560c2cf2757a2e125d000000
The endoplasmic reticulum is involved in protein and lipid synthesis. morris2e_ch5_21.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_21_dlap.xml560c2cf2757a2e125d000000
The Golgi apparatus modifies and sorts proteins and lipids. morris2e_ch5_22.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_22_dlap.xml560c2cf2757a2e125d000000
Lysosomes degrade macromolecules. morris2e_ch5_23.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_23_dlap.xml560c2cf2757a2e125d000000
Protein sorting directs proteins to their proper location in or out of the cell. morris2e_ch5_24.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_24_dlap.xml560c2cf2757a2e125d000000
5.5 Mitochondria and Chloroplasts morris2e_ch5_25.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_25_dlap.xml560c2cf2757a2e125d000000
Mitochondria provide the eukaryotic cell with most of its usable energy. morris2e_ch5_26.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_26_dlap.xml560c2cf2757a2e125d000000
Chloroplasts capture energy from sunlight. morris2e_ch5_27.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_27_dlap.xml560c2cf2757a2e125d000000
Chapter 5 Summarymorris2e_ch5_28.html560c2cf2757a2e125d000000
DLAP questionsmorris2e_ch5_28_dlap.xml560c2cf2757a2e125d000000