FileTitleManuscript Id
Chapter Introductionlodish8e_ch3_1.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_1_dlap.xml571fba59757a2e5f23000000
3.1 Hierarchical Structure of Proteins lodish8e_ch3_2.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_2_dlap.xml571fba59757a2e5f23000000
The Primary Structure of a Protein Is Its Linear Arrangement of Amino Acids lodish8e_ch3_3.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_3_dlap.xml571fba59757a2e5f23000000
Secondary Structures Are the Core Elements of Protein Architecture lodish8e_ch3_4.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_4_dlap.xml571fba59757a2e5f23000000
Tertiary Structure Is the Overall Folding of a Polypeptide Chain lodish8e_ch3_5.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_5_dlap.xml571fba59757a2e5f23000000
There Are Four Broad Structural Categories of Proteins lodish8e_ch3_6.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_6_dlap.xml571fba59757a2e5f23000000
Different Ways of Depicting the Conformation of Proteins Convey Different Types of Information lodish8e_ch3_7.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_7_dlap.xml571fba59757a2e5f23000000
Structural Motifs Are Regular Combinations of Secondary Structures lodish8e_ch3_8.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_8_dlap.xml571fba59757a2e5f23000000
Domains Are Modules of Tertiary Structure lodish8e_ch3_9.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_9_dlap.xml571fba59757a2e5f23000000
Multiple Polypeptides Assemble into Quaternary Structures and Supramolecular Complexes lodish8e_ch3_10.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_10_dlap.xml571fba59757a2e5f23000000
Comparing Protein Sequences and Structures Provides Insight into Protein Function and Evolution lodish8e_ch3_11.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_11_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.1lodish8e_ch3_12.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_12_dlap.xml571fba59757a2e5f23000000
3.2 Protein Folding lodish8e_ch3_13.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_13_dlap.xml571fba59757a2e5f23000000
Planar Peptide Bonds Limit the Shapes into Which Proteins Can Fold lodish8e_ch3_14.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_14_dlap.xml571fba59757a2e5f23000000
The Amino Acid Sequence of a Protein Determines How It Will Fold lodish8e_ch3_15.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_15_dlap.xml571fba59757a2e5f23000000
Folding of Proteins in Vivo Is Promoted by Chaperones lodish8e_ch3_16.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_16_dlap.xml571fba59757a2e5f23000000
Protein Folding Is Promoted by Proline Isomerases lodish8e_ch3_17.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_17_dlap.xml571fba59757a2e5f23000000
Abnormally Folded Proteins Can Form Amyloids That Are Implicated in Diseases lodish8e_ch3_18.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_18_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.2lodish8e_ch3_19.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_19_dlap.xml571fba59757a2e5f23000000
3.3 Protein Binding and Enzyme Catalysis lodish8e_ch3_20.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_20_dlap.xml571fba59757a2e5f23000000
Specific Binding of Ligands Underlies the Functions of Most Proteins lodish8e_ch3_21.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_21_dlap.xml571fba59757a2e5f23000000
Enzymes Are Highly Efficient and Specific Catalysts lodish8e_ch3_22.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_22_dlap.xml571fba59757a2e5f23000000
An Enzyme’s Active Site Binds Substrates and Carries Out Catalysis lodish8e_ch3_23.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_23_dlap.xml571fba59757a2e5f23000000
Serine Proteases Demonstrate How an Enzyme’s Active Site Works lodish8e_ch3_24.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_24_dlap.xml571fba59757a2e5f23000000
Enzymes in a Common Pathway Are Often Physically Associated with One Another lodish8e_ch3_25.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_25_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.3lodish8e_ch3_26.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_26_dlap.xml571fba59757a2e5f23000000
3.4 Regulating Protein Function lodish8e_ch3_27.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_27_dlap.xml571fba59757a2e5f23000000
Regulated Synthesis and Degradation of Proteins Is a Fundamental Property of Cells lodish8e_ch3_28.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_28_dlap.xml571fba59757a2e5f23000000
The Proteasome Is a Molecular Machine Used to Degrade Proteins lodish8e_ch3_29.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_29_dlap.xml571fba59757a2e5f23000000
Ubiquitin Marks Cytosolic Proteins for Degradation in Proteasomes lodish8e_ch3_30.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_30_dlap.xml571fba59757a2e5f23000000
Noncovalent Binding Permits Allosteric, or Cooperative, Regulation of Proteins lodish8e_ch3_31.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_31_dlap.xml571fba59757a2e5f23000000
Noncovalent Binding of Calcium and GTP Are Widely Used as Allosteric Switches to Control Protein Activity lodish8e_ch3_32.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_32_dlap.xml571fba59757a2e5f23000000
Phosphorylation and Dephosphorylation Covalently Regulate Protein Activity lodish8e_ch3_33.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_33_dlap.xml571fba59757a2e5f23000000
Ubiquitinylation and Deubiquitinylation Covalently Regulate Protein Activity lodish8e_ch3_34.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_34_dlap.xml571fba59757a2e5f23000000
Proteolytic Cleavage Irreversibly Activates or Inactivates Some Proteins lodish8e_ch3_35.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_35_dlap.xml571fba59757a2e5f23000000
Higher-Order Regulation Includes Control of Protein Location lodish8e_ch3_36.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_36_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.4lodish8e_ch3_37.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_37_dlap.xml571fba59757a2e5f23000000
3.5 Purifying, Detecting, and Characterizing Proteins lodish8e_ch3_38.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_38_dlap.xml571fba59757a2e5f23000000
Centrifugation Can Separate Particles and Molecules That Differ in Mass or Density lodish8e_ch3_39.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_39_dlap.xml571fba59757a2e5f23000000
Electrophoresis Separates Molecules on the Basis of Their Charge-to-Mass Ratio lodish8e_ch3_40.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_40_dlap.xml571fba59757a2e5f23000000
Liquid Chromatography Resolves Proteins by Mass, Charge, or Affinity lodish8e_ch3_41.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_41_dlap.xml571fba59757a2e5f23000000
Highly Specific Enzyme and Antibody Assays Can Detect Individual Proteins lodish8e_ch3_42.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_42_dlap.xml571fba59757a2e5f23000000
Radioisotopes Are Indispensable Tools for Detecting Biological Molecules lodish8e_ch3_43.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_43_dlap.xml571fba59757a2e5f23000000
Mass Spectrometry Can Determine the Mass and Sequence of Proteins lodish8e_ch3_44.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_44_dlap.xml571fba59757a2e5f23000000
Protein Primary Structure Can Be Determined by Chemical Methods and from Gene Sequences lodish8e_ch3_45.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_45_dlap.xml571fba59757a2e5f23000000
Protein Conformation Is Determined by Sophisticated Physical Methods lodish8e_ch3_46.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_46_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.5lodish8e_ch3_47.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_47_dlap.xml571fba59757a2e5f23000000
3.6 Proteomics lodish8e_ch3_48.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_48_dlap.xml571fba59757a2e5f23000000
Proteomics Is the Study of All or a Large Subset of Proteins in a Biological System lodish8e_ch3_49.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_49_dlap.xml571fba59757a2e5f23000000
Advanced Techniques in Mass Spectrometry Are Critical to Proteomic Analysis lodish8e_ch3_50.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_50_dlap.xml571fba59757a2e5f23000000
Key Concepts of Section 3.6lodish8e_ch3_51.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_51_dlap.xml571fba59757a2e5f23000000
Key Terms lodish8e_ch3_52.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_52_dlap.xml571fba59757a2e5f23000000
Review the Concepts lodish8e_ch3_53.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_53_dlap.xml571fba59757a2e5f23000000
Extended References lodish8e_ch3_54.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_54_dlap.xml571fba59757a2e5f23000000
Perspectives for the Future lodish8e_ch3_55.html571fba59757a2e5f23000000
DLAP questionslodish8e_ch3_55_dlap.xml571fba59757a2e5f23000000