FileTitleManuscript Id
Chapter Introductionlodish8e_ch7_1.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_1_dlap.xml572b8980757a2eab31000000
7.1 The Lipid Bilayer: Composition and Structural Organization lodish8e_ch7_2.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_2_dlap.xml572b8980757a2eab31000000
Phospholipids Spontaneously Form Bilayers lodish8e_ch7_3.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_3_dlap.xml572b8980757a2eab31000000
Phospholipid Bilayers Form a Sealed Compartment Surrounding an Internal Aqueous Space lodish8e_ch7_4.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_4_dlap.xml572b8980757a2eab31000000
Biomembranes Contain Three Principal Classes of Lipids lodish8e_ch7_5.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_5_dlap.xml572b8980757a2eab31000000
Most Lipids and Many Proteins Are Laterally Mobile in Biomembranes lodish8e_ch7_6.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_6_dlap.xml572b8980757a2eab31000000
Lipid Composition Influences the Physical Properties of Membranes lodish8e_ch7_7.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_7_dlap.xml572b8980757a2eab31000000
Lipid Composition Is Different in the Exoplasmic and Cytosolic Leaflets lodish8e_ch7_8.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_8_dlap.xml572b8980757a2eab31000000
Cholesterol and Sphingolipids Cluster with Specific Proteins in Membrane Microdomains lodish8e_ch7_9.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_9_dlap.xml572b8980757a2eab31000000
Cells Store Excess Lipids in Lipid Droplets lodish8e_ch7_10.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_10_dlap.xml572b8980757a2eab31000000
Key Concepts of Section 7.1lodish8e_ch7_11.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_11_dlap.xml572b8980757a2eab31000000
7.2 Membrane Proteins: Structure and Basic Functions lodish8e_ch7_12.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_12_dlap.xml572b8980757a2eab31000000
Proteins Interact with Membranes in Three Different Ways lodish8e_ch7_13.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_13_dlap.xml572b8980757a2eab31000000
Most Transmembrane Proteins Have Membrane-Spanning α Helices lodish8e_ch7_14.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_14_dlap.xml572b8980757a2eab31000000
Multiple β Strands in Porins Form Membrane-Spanning “Barrels” lodish8e_ch7_15.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_15_dlap.xml572b8980757a2eab31000000
Covalently Attached Lipids Anchor Some Proteins to Membranes lodish8e_ch7_16.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_16_dlap.xml572b8980757a2eab31000000
All Transmembrane Proteins and Glycolipids Are Asymmetrically Oriented in the Bilayer lodish8e_ch7_17.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_17_dlap.xml572b8980757a2eab31000000
Lipid-Binding Motifs Help Target Peripheral Proteins to the Membrane lodish8e_ch7_18.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_18_dlap.xml572b8980757a2eab31000000
Proteins Can Be Removed from Membranes by Detergents or High-Salt Solutions lodish8e_ch7_19.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_19_dlap.xml572b8980757a2eab31000000
Key Concepts of Section 7.2lodish8e_ch7_20.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_20_dlap.xml572b8980757a2eab31000000
7.3 Phospholipids, Sphingolipids, and Cholesterol: Synthesis and Intracellular Movement lodish8e_ch7_21.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_21_dlap.xml572b8980757a2eab31000000
Fatty Acids Are Assembled from Two-Carbon Building Blocks by Several Important Enzymes lodish8e_ch7_22.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_22_dlap.xml572b8980757a2eab31000000
Small Cytosolic Proteins Facilitate Movement of Fatty Acids lodish8e_ch7_23.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_23_dlap.xml572b8980757a2eab31000000
Fatty Acids Are Incorporated into Phospholipids Primarily on the ER Membrane lodish8e_ch7_24.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_24_dlap.xml572b8980757a2eab31000000
Flippases Move Phospholipids from One Membrane Leaflet to the Opposite Leaflet lodish8e_ch7_25.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_25_dlap.xml572b8980757a2eab31000000
Cholesterol Is Synthesized by Enzymes in the Cytosol and ER Membrane lodish8e_ch7_26.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_26_dlap.xml572b8980757a2eab31000000
Cholesterol and Phospholipids Are Transported Between Organelles by Several Mechanisms lodish8e_ch7_27.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_27_dlap.xml572b8980757a2eab31000000
Key Concepts of Section 7.3lodish8e_ch7_28.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_28_dlap.xml572b8980757a2eab31000000
Key Terms lodish8e_ch7_29.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_29_dlap.xml572b8980757a2eab31000000
Review the Concepts lodish8e_ch7_30.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_30_dlap.xml572b8980757a2eab31000000
References lodish8e_ch7_31.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_31_dlap.xml572b8980757a2eab31000000
Perspectives for the Future lodish8e_ch7_32.html572b8980757a2eab31000000
DLAP questionslodish8e_ch7_32_dlap.xml572b8980757a2eab31000000