NameFileManuscript
Biochemistry and the Unity of Lifetymoczko3e_ch1_1.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_1_dlap.xml5508e052757a2e2d12000005
1.1 Living Systems Require a Limited Variety of Atoms and Molecules tymoczko3e_ch1_2.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_2_dlap.xml5508e052757a2e2d12000005
1.2 There Are Four Major Classes of Biomolecules tymoczko3e_ch1_3.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_3_dlap.xml5508e052757a2e2d12000005
1.3 The Central Dogma Describes the Basic Principles of Biological Information Transfer tymoczko3e_ch1_4.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_4_dlap.xml5508e052757a2e2d12000005
1.4 Membranes Define the Cell and Carry Out Cellular Functions tymoczko3e_ch1_5.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_5_dlap.xml5508e052757a2e2d12000005
SUMMARYtymoczko3e_ch1_6.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_6_dlap.xml5508e052757a2e2d12000005
KEY TERMStymoczko3e_ch1_7.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_7_dlap.xml5508e052757a2e2d12000005
PROBLEMStymoczko3e_ch1_8.html5508e052757a2e2d12000005
DLAP questionstymoczko3e_ch1_8_dlap.xml5508e052757a2e2d12000005
Water, Weak Bonds, and the Generation of Order Out of Chaostymoczko3e_ch2_1.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_1_dlap.xml552db05d757a2e9129000001
2.1 Thermal Motions Power Biological Interactions tymoczko3e_ch2_2.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_2_dlap.xml552db05d757a2e9129000001
2.2 Biochemical Interactions Take Place in an Aqueous Solution tymoczko3e_ch2_3.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_3_dlap.xml552db05d757a2e9129000001
2.3 Weak Interactions Are Important Biochemical Properties tymoczko3e_ch2_4.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_4_dlap.xml552db05d757a2e9129000001
2.4 Hydrophobic Molecules Cluster Together tymoczko3e_ch2_5.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_5_dlap.xml552db05d757a2e9129000001
2.5 pH Is an Important Parameter of Biochemical Systems tymoczko3e_ch2_6.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_6_dlap.xml552db05d757a2e9129000001
SUMMARYtymoczko3e_ch2_7.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_7_dlap.xml552db05d757a2e9129000001
KEY TERMStymoczko3e_ch2_8.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_8_dlap.xml552db05d757a2e9129000001
PROBLEMStymoczko3e_ch2_9.html552db05d757a2e9129000001
DLAP questionstymoczko3e_ch2_9_dlap.xml552db05d757a2e9129000001
Amino Acidstymoczko3e_ch3_1.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_1_dlap.xml552db144757a2e6d2c000000
3.1 Proteins Are Built from a Repertoire of 20 Amino Acids tymoczko3e_ch3_2.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_2_dlap.xml552db144757a2e6d2c000000
3.2 Amino Acids Contain a Wide Array of Functional Groups tymoczko3e_ch3_3.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_3_dlap.xml552db144757a2e6d2c000000
3.3 Essential Amino Acids Must Be Obtained from the Diet tymoczko3e_ch3_4.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_4_dlap.xml552db144757a2e6d2c000000
SUMMARYtymoczko3e_ch3_5.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_5_dlap.xml552db144757a2e6d2c000000
KEY TERMStymoczko3e_ch3_6.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_6_dlap.xml552db144757a2e6d2c000000
PROBLEMStymoczko3e_ch3_7.html552db144757a2e6d2c000000
DLAP questionstymoczko3e_ch3_7_dlap.xml552db144757a2e6d2c000000
Protein Three-Dimensional Structuretymoczko3e_ch4_1.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_1_dlap.xml552db17e757a2ebc29000000
4.1 Primary Structure: Amino Acids Are Linked by Peptide Bonds to Form Polypeptide Chains tymoczko3e_ch4_2.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_2_dlap.xml552db17e757a2ebc29000000
4.2 Secondary Structure: Polypeptide Chains Can Fold into Regular Structures tymoczko3e_ch4_3.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_3_dlap.xml552db17e757a2ebc29000000
4.3 Tertiary Structure: Water-Soluble Proteins Fold into Compact Structures tymoczko3e_ch4_4.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_4_dlap.xml552db17e757a2ebc29000000
4.4 Quaternary Structure: Multiple Polypeptide Chains Can Assemble into a Single Protein tymoczko3e_ch4_5.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_5_dlap.xml552db17e757a2ebc29000000
4.5 The Amino Acid Sequence of a Protein Determines Its Three-Dimensional Structure tymoczko3e_ch4_6.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_6_dlap.xml552db17e757a2ebc29000000
SUMMARYtymoczko3e_ch4_7.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_7_dlap.xml552db17e757a2ebc29000000
KEY TERMStymoczko3e_ch4_8.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_8_dlap.xml552db17e757a2ebc29000000
PROBLEMStymoczko3e_ch4_9.html552db17e757a2ebc29000000
DLAP questionstymoczko3e_ch4_9_dlap.xml552db17e757a2ebc29000000
Techniques in Protein Biochemistrytymoczko3e_ch5_1.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_1_dlap.xml552db1b0757a2eb126000004
5.1 The Proteome Is the Functional Representation of the Genome tymoczko3e_ch5_2.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_2_dlap.xml552db1b0757a2eb126000004
5.2 The Purification of a Protein Is the First Step in Understanding Its Function tymoczko3e_ch5_3.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_3_dlap.xml552db1b0757a2eb126000004
5.3 Immunological Techniques Are Used to Purify and Characterize Proteins tymoczko3e_ch5_4.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_4_dlap.xml552db1b0757a2eb126000004
5.4 Determination of Primary Structure Facilitates an Understanding of Protein Function tymoczko3e_ch5_5.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_5_dlap.xml552db1b0757a2eb126000004
SUMMARYtymoczko3e_ch5_6.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_6_dlap.xml552db1b0757a2eb126000004
KEY TERMStymoczko3e_ch5_7.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_7_dlap.xml552db1b0757a2eb126000004
PROBLEMStymoczko3e_ch5_8.html552db1b0757a2eb126000004
DLAP questionstymoczko3e_ch5_8_dlap.xml552db1b0757a2eb126000004
Basic Concepts of Enzyme Actiontymoczko3e_ch6_1.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_1_dlap.xml552db41c757a2ec12c000000
6.1 Enzymes Are Powerful and Highly Specific Catalysts tymoczko3e_ch6_2.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_2_dlap.xml552db41c757a2ec12c000000
6.2 Many Enzymes Require Cofactors for Activity tymoczko3e_ch6_3.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_3_dlap.xml552db41c757a2ec12c000000
6.3 Gibbs Free Energy Is a Useful Thermodynamic Function for Understanding Enzymes tymoczko3e_ch6_4.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_4_dlap.xml552db41c757a2ec12c000000
6.4 Enzymes Facilitate the Formation of the Transition State tymoczko3e_ch6_5.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_5_dlap.xml552db41c757a2ec12c000000
SUMMARYtymoczko3e_ch6_6.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_6_dlap.xml552db41c757a2ec12c000000
KEY TERMStymoczko3e_ch6_7.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_7_dlap.xml552db41c757a2ec12c000000
PROBLEMStymoczko3e_ch6_8.html552db41c757a2ec12c000000
DLAP questionstymoczko3e_ch6_8_dlap.xml552db41c757a2ec12c000000
Kinetics and Regulationtymoczko3e_ch7_1.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_1_dlap.xml552db462757a2ea32c000000
7.1 Kinetics Is the Study of Reaction Rates tymoczko3e_ch7_2.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_2_dlap.xml552db462757a2ea32c000000
7.2 The Michaelis–Menten Model Describes the Kinetics of Many Enzymes tymoczko3e_ch7_3.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_3_dlap.xml552db462757a2ea32c000000
7.3 Allosteric Enzymes Are Catalysts and Information Sensors tymoczko3e_ch7_4.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_4_dlap.xml552db462757a2ea32c000000
7.4 Enzymes Can Be Studied One Molecule at a Time tymoczko3e_ch7_5.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_5_dlap.xml552db462757a2ea32c000000
SUMMARYtymoczko3e_ch7_6.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_6_dlap.xml552db462757a2ea32c000000
APPENDIX: Derivation of the Michaelis–Menten Equationtymoczko3e_ch7_7.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_7_dlap.xml552db462757a2ea32c000000
KEY TERMStymoczko3e_ch7_8.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_8_dlap.xml552db462757a2ea32c000000
PROBLEMStymoczko3e_ch7_9.html552db462757a2ea32c000000
DLAP questionstymoczko3e_ch7_9_dlap.xml552db462757a2ea32c000000
Mechanisms and Inhibitorstymoczko3e_ch8_1.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_1_dlap.xml552db6a8757a2e822c000001
8.1 A Few Basic Catalytic Strategies Are Used by Many Enzymes tymoczko3e_ch8_2.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_2_dlap.xml552db6a8757a2e822c000001
8.2 Enzyme Activity Can Be Modulated by Temperature, pH, and Inhibitory Molecules tymoczko3e_ch8_3.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_3_dlap.xml552db6a8757a2e822c000001
8.3 Chymotrypsin Illustrates Basic Principles of Catalysis and Inhibition tymoczko3e_ch8_4.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_4_dlap.xml552db6a8757a2e822c000001
SUMMARYtymoczko3e_ch8_5.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_5_dlap.xml552db6a8757a2e822c000001
KEY TERMStymoczko3e_ch8_6.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_6_dlap.xml552db6a8757a2e822c000001
PROBLEMStymoczko3e_ch8_7.html552db6a8757a2e822c000001
DLAP questionstymoczko3e_ch8_7_dlap.xml552db6a8757a2e822c000001
Hemoglobin, an Allosteric Proteintymoczko3e_ch9_1.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_1_dlap.xml552db6df757a2e6d2f000000
9.1 Hemoglobin Displays Cooperative Behavior tymoczko3e_ch9_2.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_2_dlap.xml552db6df757a2e6d2f000000
9.2 Myoglobin and Hemoglobin Bind Oxygen in Heme Groups tymoczko3e_ch9_3.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_3_dlap.xml552db6df757a2e6d2f000000
9.3 Hemoglobin Binds Oxygen Cooperatively tymoczko3e_ch9_4.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_4_dlap.xml552db6df757a2e6d2f000000
9.4 An Allosteric Regulator Determines the Oxygen Affinity of Hemoglobin tymoczko3e_ch9_5.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_5_dlap.xml552db6df757a2e6d2f000000
9.5 Hydrogen Ions and Carbon Dioxide Promote the Release of Oxygen tymoczko3e_ch9_6.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_6_dlap.xml552db6df757a2e6d2f000000
9.6 Mutations in Genes Encoding Hemoglobin Subunits Can Result in Disease tymoczko3e_ch9_7.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_7_dlap.xml552db6df757a2e6d2f000000
SUMMARYtymoczko3e_ch9_8.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_8_dlap.xml552db6df757a2e6d2f000000
KEY TERMStymoczko3e_ch9_9.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_9_dlap.xml552db6df757a2e6d2f000000
PROBLEMStymoczko3e_ch9_10.html552db6df757a2e6d2f000000
DLAP questionstymoczko3e_ch9_10_dlap.xml552db6df757a2e6d2f000000
Carbohydratestymoczko3e_ch10_1.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_1_dlap.xml552db71a757a2ec22c000000
10.1 Monosaccharides Are the Simplest Carbohydrates tymoczko3e_ch10_2.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_2_dlap.xml552db71a757a2ec22c000000
10.2 Monosaccharides Are Linked to Form Complex Carbohydrates tymoczko3e_ch10_3.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_3_dlap.xml552db71a757a2ec22c000000
10.3 Carbohydrates Are Attached to Proteins to Form Glycoproteins tymoczko3e_ch10_4.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_4_dlap.xml552db71a757a2ec22c000000
10.4 Lectins Are Specific Carbohydrate-Binding Proteins tymoczko3e_ch10_5.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_5_dlap.xml552db71a757a2ec22c000000
SUMMARYtymoczko3e_ch10_6.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_6_dlap.xml552db71a757a2ec22c000000
KEY TERMStymoczko3e_ch10_7.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_7_dlap.xml552db71a757a2ec22c000000
PROBLEMStymoczko3e_ch10_8.html552db71a757a2ec22c000000
DLAP questionstymoczko3e_ch10_8_dlap.xml552db71a757a2ec22c000000
Lipidstymoczko3e_ch11_1.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_1_dlap.xml552db779757a2ee42c000000
11.1 Fatty Acids Are a Main Source of Fuel tymoczko3e_ch11_2.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_2_dlap.xml552db779757a2ee42c000000
11.2 Triacylglycerols Are the Storage Form of Fatty Acids tymoczko3e_ch11_3.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_3_dlap.xml552db779757a2ee42c000000
11.3 There Are Three Common Types of Membrane Lipids tymoczko3e_ch11_4.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_4_dlap.xml552db779757a2ee42c000000
SUMMARYtymoczko3e_ch11_5.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_5_dlap.xml552db779757a2ee42c000000
KEY TERMStymoczko3e_ch11_6.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_6_dlap.xml552db779757a2ee42c000000
PROBLEMStymoczko3e_ch11_7.html552db779757a2ee42c000000
DLAP questionstymoczko3e_ch11_7_dlap.xml552db779757a2ee42c000000
Membrane Structure and Functiontymoczko3e_ch12_1.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_1_dlap.xml552db7b0757a2e9c2c000000
12.1 Phospholipids and Glycolipids Form Bimolecular Sheets tymoczko3e_ch12_2.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_2_dlap.xml552db7b0757a2e9c2c000000
12.2 Membrane Fluidity Is Controlled by Fatty Acid Composition and Cholesterol Content tymoczko3e_ch12_3.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_3_dlap.xml552db7b0757a2e9c2c000000
12.3 Proteins Carry Out Most Membrane Processes tymoczko3e_ch12_4.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_4_dlap.xml552db7b0757a2e9c2c000000
12.4 Lipids and Many Membrane Proteins Diffuse Laterally in the Membrane tymoczko3e_ch12_5.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_5_dlap.xml552db7b0757a2e9c2c000000
12.5 A Major Role of Membrane Proteins Is to Function as Transporters tymoczko3e_ch12_6.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_6_dlap.xml552db7b0757a2e9c2c000000
SUMMARYtymoczko3e_ch12_7.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_7_dlap.xml552db7b0757a2e9c2c000000
KEY TERMStymoczko3e_ch12_8.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_8_dlap.xml552db7b0757a2e9c2c000000
PROBLEMStymoczko3e_ch12_9.html552db7b0757a2e9c2c000000
DLAP questionstymoczko3e_ch12_9_dlap.xml552db7b0757a2e9c2c000000
Signal-Transduction Pathwaystymoczko3e_ch13_1.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_1_dlap.xml552db7ef757a2e872f000000
13.1 Signal Transduction Depends on Molecular Circuits tymoczko3e_ch13_2.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_2_dlap.xml552db7ef757a2e872f000000
13.2 Receptor Proteins Transmit Information into the Cell tymoczko3e_ch13_3.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_3_dlap.xml552db7ef757a2e872f000000
13.3 Some Receptors Dimerize in Response to Ligand Binding and Recruit Tyrosine Kinases tymoczko3e_ch13_4.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_4_dlap.xml552db7ef757a2e872f000000
13.4 Metabolism in Context: Insulin Signaling Regulates Metabolism tymoczko3e_ch13_5.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_5_dlap.xml552db7ef757a2e872f000000
13.5 Calcium Ion Is a Ubiquitous Cytoplasmic Messenger tymoczko3e_ch13_6.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_6_dlap.xml552db7ef757a2e872f000000
13.6 Defects in Signaling Pathways Can Lead to Diseases tymoczko3e_ch13_7.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_7_dlap.xml552db7ef757a2e872f000000
SUMMARYtymoczko3e_ch13_8.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_8_dlap.xml552db7ef757a2e872f000000
KEY TERMStymoczko3e_ch13_9.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_9_dlap.xml552db7ef757a2e872f000000
PROBLEMStymoczko3e_ch13_10.html552db7ef757a2e872f000000
DLAP questionstymoczko3e_ch13_10_dlap.xml552db7ef757a2e872f000000
Digestion: Turning a Meal into Cellular Biochemicalstymoczko3e_ch14_1.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_1_dlap.xml552db82f757a2eab2c000000
14.1 Digestion Prepares Large Biomolecules for Use in Metabolism tymoczko3e_ch14_2.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_2_dlap.xml552db82f757a2eab2c000000
14.2 Proteases Digest Proteins into Amino Acids and Peptides tymoczko3e_ch14_3.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_3_dlap.xml552db82f757a2eab2c000000
14.3 Dietary Carbohydrates Are Digested by Alpha-Amylase tymoczko3e_ch14_4.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_4_dlap.xml552db82f757a2eab2c000000
14.4 The Digestion of Lipids Is Complicated by Their Hydrophobicity tymoczko3e_ch14_5.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_5_dlap.xml552db82f757a2eab2c000000
SUMMARYtymoczko3e_ch14_6.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_6_dlap.xml552db82f757a2eab2c000000
KEY TERMStymoczko3e_ch14_7.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_7_dlap.xml552db82f757a2eab2c000000
PROBLEMStymoczko3e_ch14_8.html552db82f757a2eab2c000000
DLAP questionstymoczko3e_ch14_8_dlap.xml552db82f757a2eab2c000000
Metabolism: Basic Concepts and Designtymoczko3e_ch15_1.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_1_dlap.xml552db86b757a2e852f000000
15.1 Energy Is Required to Meet Three Fundamental Needs tymoczko3e_ch15_2.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_2_dlap.xml552db86b757a2e852f000000
15.2 Metabolism Is Composed of Many Interconnecting Reactions tymoczko3e_ch15_3.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_3_dlap.xml552db86b757a2e852f000000
15.3 ATP Is the Universal Currency of Free Energy tymoczko3e_ch15_4.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_4_dlap.xml552db86b757a2e852f000000
15.4 The Oxidation of Carbon Fuels Is an Important Source of Cellular Energy tymoczko3e_ch15_5.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_5_dlap.xml552db86b757a2e852f000000
15.5 Metabolic Pathways Contain Many Recurring Motifs tymoczko3e_ch15_6.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_6_dlap.xml552db86b757a2e852f000000
15.6 Metabolic Processes Are Regulated in Three Principal Ways tymoczko3e_ch15_7.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_7_dlap.xml552db86b757a2e852f000000
SUMMARYtymoczko3e_ch15_8.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_8_dlap.xml552db86b757a2e852f000000
KEY TERMStymoczko3e_ch15_9.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_9_dlap.xml552db86b757a2e852f000000
PROBLEMStymoczko3e_ch15_10.html552db86b757a2e852f000000
DLAP questionstymoczko3e_ch15_10_dlap.xml552db86b757a2e852f000000
Glycolysistymoczko3e_ch16_1.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_1_dlap.xml552db8b0757a2e722f000000
16.1 Glycolysis Is an Energy-Conversion Pathway tymoczko3e_ch16_2.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_2_dlap.xml552db8b0757a2e722f000000
16.2 NAD+ Is Regenerated from the Metabolism of Pyruvate tymoczko3e_ch16_3.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_3_dlap.xml552db8b0757a2e722f000000
16.3 Fructose and Galactose Are Converted into Glycolytic Intermediates tymoczko3e_ch16_4.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_4_dlap.xml552db8b0757a2e722f000000
16.4 The Glycolytic Pathway Is Tightly Controlled tymoczko3e_ch16_5.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_5_dlap.xml552db8b0757a2e722f000000
16.5 Metabolism in Context: Glycolysis Helps Pancreatic Beta Cells Sense Glucose tymoczko3e_ch16_6.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_6_dlap.xml552db8b0757a2e722f000000
SUMMARYtymoczko3e_ch16_7.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_7_dlap.xml552db8b0757a2e722f000000
KEY TERMStymoczko3e_ch16_8.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_8_dlap.xml552db8b0757a2e722f000000
PROBLEMStymoczko3e_ch16_9.html552db8b0757a2e722f000000
DLAP questionstymoczko3e_ch16_9_dlap.xml552db8b0757a2e722f000000
Gluconeogenesistymoczko3e_ch17_1.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_1_dlap.xml552db8f7757a2e9f2f000000
17.1 Glucose Can Be Synthesized from Noncarbohydrate Precursors tymoczko3e_ch17_2.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_2_dlap.xml552db8f7757a2e9f2f000000
17.2 Gluconeogenesis and Glycolysis Are Reciprocally Regulated tymoczko3e_ch17_3.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_3_dlap.xml552db8f7757a2e9f2f000000
17.3 Metabolism in Context: Precursors Formed by Muscle Are Used by Other Organs tymoczko3e_ch17_4.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_4_dlap.xml552db8f7757a2e9f2f000000
SUMMARYtymoczko3e_ch17_5.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_5_dlap.xml552db8f7757a2e9f2f000000
KEY TERMStymoczko3e_ch17_6.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_6_dlap.xml552db8f7757a2e9f2f000000
PROBLEMStymoczko3e_ch17_7.html552db8f7757a2e9f2f000000
DLAP questionstymoczko3e_ch17_7_dlap.xml552db8f7757a2e9f2f000000
Preparation for the Cycletymoczko3e_ch18_1.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_1_dlap.xml552db932757a2e892f000000
18.1 Pyruvate Dehydrogenase Forms Acetyl Coenzyme A from Pyruvate tymoczko3e_ch18_2.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_2_dlap.xml552db932757a2e892f000000
18.2 The Pyruvate Dehydrogenase Complex Is Regulated by Two Mechanisms tymoczko3e_ch18_3.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_3_dlap.xml552db932757a2e892f000000
SUMMARYtymoczko3e_ch18_4.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_4_dlap.xml552db932757a2e892f000000
KEY TERMStymoczko3e_ch18_5.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_5_dlap.xml552db932757a2e892f000000
PROBLEMStymoczko3e_ch18_6.html552db932757a2e892f000000
DLAP questionstymoczko3e_ch18_6_dlap.xml552db932757a2e892f000000
Harvesting Electrons from the Cycletymoczko3e_ch19_1.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_1_dlap.xml552db96d757a2e722f000001
19.1 The Citric Acid Cycle Consists of Two Stages tymoczko3e_ch19_2.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_2_dlap.xml552db96d757a2e722f000001
19.2 Stage One Oxidizes Two Carbon Atoms to Gather Energy-Rich Electrons tymoczko3e_ch19_3.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_3_dlap.xml552db96d757a2e722f000001
19.3 Stage Two Regenerates Oxaloacetate and Harvests Energy-Rich Electrons tymoczko3e_ch19_4.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_4_dlap.xml552db96d757a2e722f000001
19.4 The Citric Acid Cycle Is Regulated tymoczko3e_ch19_5.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_5_dlap.xml552db96d757a2e722f000001
19.5 The Glyoxylate Cycle Enables Plants and Bacteria to Convert Fats into Carbohydrates tymoczko3e_ch19_6.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_6_dlap.xml552db96d757a2e722f000001
SUMMARYtymoczko3e_ch19_7.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_7_dlap.xml552db96d757a2e722f000001
KEY TERMStymoczko3e_ch19_8.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_8_dlap.xml552db96d757a2e722f000001
PROBLEMStymoczko3e_ch19_9.html552db96d757a2e722f000001
DLAP questionstymoczko3e_ch19_9_dlap.xml552db96d757a2e722f000001
The Electron-Transport Chaintymoczko3e_ch20_1.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_1_dlap.xml552db9a9757a2e992f000000
20.1 Oxidative Phosphorylation in Eukaryotes Takes Place in Mitochondria tymoczko3e_ch20_2.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_2_dlap.xml552db9a9757a2e992f000000
20.2 Oxidative Phosphorylation Depends on Electron Transfer tymoczko3e_ch20_3.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_3_dlap.xml552db9a9757a2e992f000000
20.3 The Respiratory Chain Consists of Proton Pumps and a Physical Link to the Citric Acid Cycle tymoczko3e_ch20_4.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_4_dlap.xml552db9a9757a2e992f000000
SUMMARYtymoczko3e_ch20_5.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_5_dlap.xml552db9a9757a2e992f000000
KEY TERMStymoczko3e_ch20_6.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_6_dlap.xml552db9a9757a2e992f000000
PROBLEMStymoczko3e_ch20_7.html552db9a9757a2e992f000000
DLAP questionstymoczko3e_ch20_7_dlap.xml552db9a9757a2e992f000000
The Proton-Motive Forcetymoczko3e_ch21_1.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_1_dlap.xml552dcf23757a2ea338000000
21.1 A Proton Gradient Powers the Synthesis of ATP tymoczko3e_ch21_2.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_2_dlap.xml552dcf23757a2ea338000000
21.2 Shuttles Allow Movement Across Mitochondrial Membranes tymoczko3e_ch21_3.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_3_dlap.xml552dcf23757a2ea338000000
21.3 Cellular Respiration is Regulated by the Need for ATP tymoczko3e_ch21_4.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_4_dlap.xml552dcf23757a2ea338000000
SUMMARYtymoczko3e_ch21_5.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_5_dlap.xml552dcf23757a2ea338000000
KEY TERMStymoczko3e_ch21_6.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_6_dlap.xml552dcf23757a2ea338000000
PROBLEMStymoczko3e_ch21_7.html552dcf23757a2ea338000000
DLAP questionstymoczko3e_ch21_7_dlap.xml552dcf23757a2ea338000000
The Light Reactionstymoczko3e_ch22_1.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_1_dlap.xml552dcf6c757a2eb138000000
22.1 Photosynthesis Takes Place in Chloroplasts tymoczko3e_ch22_2.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_2_dlap.xml552dcf6c757a2eb138000000
22.2 Photosynthesis Transforms Light Energy into Chemical Energy tymoczko3e_ch22_3.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_3_dlap.xml552dcf6c757a2eb138000000
22.3 Two Photosystems Generate a Proton Gradient and NADPH tymoczko3e_ch22_4.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_4_dlap.xml552dcf6c757a2eb138000000
22.4 A Proton Gradient Drives ATP Synthesis tymoczko3e_ch22_5.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_5_dlap.xml552dcf6c757a2eb138000000
SUMMARYtymoczko3e_ch22_6.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_6_dlap.xml552dcf6c757a2eb138000000
KEY TERMStymoczko3e_ch22_7.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_7_dlap.xml552dcf6c757a2eb138000000
PROBLEMStymoczko3e_ch22_8.html552dcf6c757a2eb138000000
DLAP questionstymoczko3e_ch22_8_dlap.xml552dcf6c757a2eb138000000
The Calvin Cycletymoczko3e_ch23_1.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_1_dlap.xml552dcfac757a2ea538000000
23.1 The Calvin Cycle Synthesizes Hexoses from Carbon Dioxide and Water tymoczko3e_ch23_2.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_2_dlap.xml552dcfac757a2ea538000000
23.2 The Calvin Cycle Is Regulated by the Environment tymoczko3e_ch23_3.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_3_dlap.xml552dcfac757a2ea538000000
SUMMARYtymoczko3e_ch23_4.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_4_dlap.xml552dcfac757a2ea538000000
KEY TERMStymoczko3e_ch23_5.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_5_dlap.xml552dcfac757a2ea538000000
PROBLEMStymoczko3e_ch23_6.html552dcfac757a2ea538000000
DLAP questionstymoczko3e_ch23_6_dlap.xml552dcfac757a2ea538000000
Glycogen Degradationtymoczko3e_ch24_1.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_1_dlap.xml552dcfe8757a2ed038000000
24.1 Glycogen Breakdown Requires Several Enzymes tymoczko3e_ch24_2.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_2_dlap.xml552dcfe8757a2ed038000000
24.2 Phosphorylase Is Regulated by Allosteric Interactions and Reversible Phosphorylation tymoczko3e_ch24_3.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_3_dlap.xml552dcfe8757a2ed038000000
24.3 Epinephrine and Glucagon Signal the Need for Glycogen Breakdown tymoczko3e_ch24_4.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_4_dlap.xml552dcfe8757a2ed038000000
SUMMARYtymoczko3e_ch24_5.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_5_dlap.xml552dcfe8757a2ed038000000
KEY TERMStymoczko3e_ch24_6.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_6_dlap.xml552dcfe8757a2ed038000000
PROBLEMStymoczko3e_ch24_7.html552dcfe8757a2ed038000000
DLAP questionstymoczko3e_ch24_7_dlap.xml552dcfe8757a2ed038000000
Lipid Synthesis: Storage Lipids, Phospholipids, and Cholesteroltymoczko3e_ch29_1.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_1_dlap.xml552dd159757a2eed38000000
29.1 Phosphatidate Is a Precursor of Storage Lipids and Many Membrane Lipids tymoczko3e_ch29_2.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_2_dlap.xml552dd159757a2eed38000000
29.2 Cholesterol Is Synthesized from Acetyl Coenzyme A in Three Stages tymoczko3e_ch29_3.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_3_dlap.xml552dd159757a2eed38000000
29.3 The Regulation of Cholesterol Synthesis Takes Place at Several Levels tymoczko3e_ch29_4.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_4_dlap.xml552dd159757a2eed38000000
29.4 Lipoproteins Transport Cholesterol and Triacylglycerols Throughout the Organism tymoczko3e_ch29_5.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_5_dlap.xml552dd159757a2eed38000000
29.5 Cholesterol Is the Precursor of Steroid Hormones tymoczko3e_ch29_6.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_6_dlap.xml552dd159757a2eed38000000
SUMMARYtymoczko3e_ch29_7.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_7_dlap.xml552dd159757a2eed38000000
KEY TERMStymoczko3e_ch29_8.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_8_dlap.xml552dd159757a2eed38000000
PROBLEMStymoczko3e_ch29_9.html552dd159757a2eed38000000
DLAP questionstymoczko3e_ch29_9_dlap.xml552dd159757a2eed38000000
Fatty Acid Synthesistymoczko3e_ch28_1.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_1_dlap.xml552dd108757a2ef538000001
28.1 Fatty Acid Synthesis Takes Place in Three Stages tymoczko3e_ch28_2.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_2_dlap.xml552dd108757a2ef538000001
28.2 Additional Enzymes Elongate and Desaturate Fatty Acids tymoczko3e_ch28_3.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_3_dlap.xml552dd108757a2ef538000001
28.3 Acetyl CoA Carboxylase Is a Key Regulator of Fatty Acid Metabolism tymoczko3e_ch28_4.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_4_dlap.xml552dd108757a2ef538000001
28.4 Metabolism in Context: Ethanol Alters Energy Metabolism in the Liver tymoczko3e_ch28_5.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_5_dlap.xml552dd108757a2ef538000001
SUMMARYtymoczko3e_ch28_6.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_6_dlap.xml552dd108757a2ef538000001
KEY TERMStymoczko3e_ch28_7.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_7_dlap.xml552dd108757a2ef538000001
PROBLEMStymoczko3e_ch28_8.html552dd108757a2ef538000001
DLAP questionstymoczko3e_ch28_8_dlap.xml552dd108757a2ef538000001
Fatty Acid Degradationtymoczko3e_ch27_1.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_1_dlap.xml552dd0cb757a2ef538000000
27.1 Fatty Acids Are Processed in Three Stages tymoczko3e_ch27_2.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_2_dlap.xml552dd0cb757a2ef538000000
27.2 The Degradation of Unsaturated and Odd-Chain Fatty Acids Requires Additional Steps tymoczko3e_ch27_3.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_3_dlap.xml552dd0cb757a2ef538000000
27.3 Ketone Bodies Are Another Fuel Source Derived from Fats tymoczko3e_ch27_4.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_4_dlap.xml552dd0cb757a2ef538000000
27.4 Metabolism in Context: Fatty Acid Metabolism Is a Source of Insight into Various Physiological States tymoczko3e_ch27_5.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_5_dlap.xml552dd0cb757a2ef538000000
SUMMARYtymoczko3e_ch27_6.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_6_dlap.xml552dd0cb757a2ef538000000
KEY TERMStymoczko3e_ch27_7.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_7_dlap.xml552dd0cb757a2ef538000000
PROBLEMStymoczko3e_ch27_8.html552dd0cb757a2ef538000000
DLAP questionstymoczko3e_ch27_8_dlap.xml552dd0cb757a2ef538000000
The Pentose Phosphate Pathwaytymoczko3e_ch26_1.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_1_dlap.xml552dd08d757a2ece38000001
26.1 The Pentose Phosphate Pathway Yields NADPH and Five-Carbon Sugars tymoczko3e_ch26_2.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_2_dlap.xml552dd08d757a2ece38000001
26.2 Metabolism in Context: Glycolysis and the Pentose Phosphate Pathway Are Coordinately Controlled tymoczko3e_ch26_3.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_3_dlap.xml552dd08d757a2ece38000001
26.3 Glucose 6-phosphate Dehydrogenase Lessens Oxidative Stress tymoczko3e_ch26_4.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_4_dlap.xml552dd08d757a2ece38000001
SUMMARYtymoczko3e_ch26_5.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_5_dlap.xml552dd08d757a2ece38000001
KEY TERMStymoczko3e_ch26_6.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_6_dlap.xml552dd08d757a2ece38000001
PROBLEMStymoczko3e_ch26_7.html552dd08d757a2ece38000001
DLAP questionstymoczko3e_ch26_7_dlap.xml552dd08d757a2ece38000001
Glycogen Synthesistymoczko3e_ch25_1.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_1_dlap.xml552dd03f757a2ece38000000
25.1 Glycogen Is Synthesized and Degraded by Different Pathways tymoczko3e_ch25_2.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_2_dlap.xml552dd03f757a2ece38000000
25.2 Metabolism in Context: Glycogen Breakdown and Synthesis Are Reciprocally Regulated tymoczko3e_ch25_3.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_3_dlap.xml552dd03f757a2ece38000000
SUMMARYtymoczko3e_ch25_4.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_4_dlap.xml552dd03f757a2ece38000000
KEY TERMStymoczko3e_ch25_5.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_5_dlap.xml552dd03f757a2ece38000000
PROBLEMStymoczko3e_ch25_6.html552dd03f757a2ece38000000
DLAP questionstymoczko3e_ch25_6_dlap.xml552dd03f757a2ece38000000
Amino Acid Degradation and the Urea Cycletymoczko3e_ch30_1.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_1_dlap.xml552dd29d757a2ed038000001
30.1 Nitrogen Removal Is the First Step in the Degradation of Amino Acids tymoczko3e_ch30_2.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_2_dlap.xml552dd29d757a2ed038000001
30.2 Ammonium Ion Is Converted into Urea in Most Terrestrial Vertebrates tymoczko3e_ch30_3.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_3_dlap.xml552dd29d757a2ed038000001
30.3 Carbon Atoms of Degraded Amino Acids Emerge As Major Metabolic Intermediates tymoczko3e_ch30_4.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_4_dlap.xml552dd29d757a2ed038000001
SUMMARYtymoczko3e_ch30_5.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_5_dlap.xml552dd29d757a2ed038000001
KEY TERMStymoczko3e_ch30_6.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_6_dlap.xml552dd29d757a2ed038000001
PROBLEMStymoczko3e_ch30_7.html552dd29d757a2ed038000001
DLAP questionstymoczko3e_ch30_7_dlap.xml552dd29d757a2ed038000001
Amino Acid Synthesistymoczko3e_ch31_1.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_1_dlap.xml552dd2db757a2e4f3b000000
31.1 The Nitrogenase Complex Fixes Nitrogen tymoczko3e_ch31_2.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_2_dlap.xml552dd2db757a2e4f3b000000
31.2 Amino Acids Are Made from Intermediates of Major Pathways tymoczko3e_ch31_3.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_3_dlap.xml552dd2db757a2e4f3b000000
31.3 Feedback Inhibition Regulates Amino Acid Biosynthesis tymoczko3e_ch31_4.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_4_dlap.xml552dd2db757a2e4f3b000000
SUMMARYtymoczko3e_ch31_5.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_5_dlap.xml552dd2db757a2e4f3b000000
KEY TERMStymoczko3e_ch31_6.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_6_dlap.xml552dd2db757a2e4f3b000000
PROBLEMStymoczko3e_ch31_7.html552dd2db757a2e4f3b000000
DLAP questionstymoczko3e_ch31_7_dlap.xml552dd2db757a2e4f3b000000
Nucleotide Metabolismtymoczko3e_ch32_1.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_1_dlap.xml552dd31e757a2e593b000000
32.1 An Overview of Nucleotide Biosynthesis and Nomenclature tymoczko3e_ch32_2.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_2_dlap.xml552dd31e757a2e593b000000
32.2 The Pyrimidine Ring Is Assembled and Then Attached to a Ribose Sugar tymoczko3e_ch32_3.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_3_dlap.xml552dd31e757a2e593b000000
32.3 The Purine Ring Is Assembled on Ribose Phosphate tymoczko3e_ch32_4.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_4_dlap.xml552dd31e757a2e593b000000
32.4 Ribonucleotides Are Reduced to Deoxyribonucleotides tymoczko3e_ch32_5.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_5_dlap.xml552dd31e757a2e593b000000
32.5 Nucleotide Biosynthesis Is Regulated by Feedback Inhibition tymoczko3e_ch32_6.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_6_dlap.xml552dd31e757a2e593b000000
32.6 Disruptions in Nucleotide Metabolism Can Cause Pathological Conditions tymoczko3e_ch32_7.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_7_dlap.xml552dd31e757a2e593b000000
SUMMARYtymoczko3e_ch32_8.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_8_dlap.xml552dd31e757a2e593b000000
KEY TERMStymoczko3e_ch32_9.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_9_dlap.xml552dd31e757a2e593b000000
PROBLEMStymoczko3e_ch32_10.html552dd31e757a2e593b000000
DLAP questionstymoczko3e_ch32_10_dlap.xml552dd31e757a2e593b000000
The Structure of Informational Macromolecules: DNA and RNAtymoczko3e_ch33_1.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_1_dlap.xml552dd360757a2e683b000000
33.1 A Nucleic Acid Consists of Bases Linked to a Sugar–Phosphate Backbone tymoczko3e_ch33_2.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_2_dlap.xml552dd360757a2e683b000000
33.2 Nucleic Acid Strands Can Form a Double-Helical Structure tymoczko3e_ch33_3.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_3_dlap.xml552dd360757a2e683b000000
33.3 DNA Double Helices Can Adopt Multiple Forms tymoczko3e_ch33_4.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_4_dlap.xml552dd360757a2e683b000000
33.4 Eukaryotic DNA Is Associated with Specific Proteins tymoczko3e_ch33_5.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_5_dlap.xml552dd360757a2e683b000000
33.5 RNA Can Adopt Elaborate Structures tymoczko3e_ch33_6.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_6_dlap.xml552dd360757a2e683b000000
SUMMARYtymoczko3e_ch33_7.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_7_dlap.xml552dd360757a2e683b000000
KEY TERMStymoczko3e_ch33_8.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_8_dlap.xml552dd360757a2e683b000000
PROBLEMStymoczko3e_ch33_9.html552dd360757a2e683b000000
DLAP questionstymoczko3e_ch33_9_dlap.xml552dd360757a2e683b000000
DNA Replicationtymoczko3e_ch34_1.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_1_dlap.xml552dd3eb757a2e6d3b000000
34.1 DNA Is Replicated by Polymerases tymoczko3e_ch34_2.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_2_dlap.xml552dd3eb757a2e6d3b000000
34.2 DNA Replication Is Highly Coordinated tymoczko3e_ch34_3.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_3_dlap.xml552dd3eb757a2e6d3b000000
SUMMARYtymoczko3e_ch34_4.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_4_dlap.xml552dd3eb757a2e6d3b000000
KEY TERMStymoczko3e_ch34_5.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_5_dlap.xml552dd3eb757a2e6d3b000000
PROBLEMStymoczko3e_ch34_6.html552dd3eb757a2e6d3b000000
DLAP questionstymoczko3e_ch34_6_dlap.xml552dd3eb757a2e6d3b000000
DNA Repair and Recombinationtymoczko3e_ch35_1.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_1_dlap.xml552dd428757a2e693b000000
35.1 Errors Can Arise in DNA Replication tymoczko3e_ch35_2.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_2_dlap.xml552dd428757a2e693b000000
35.2 DNA Damage Can Be Detected and Repaired tymoczko3e_ch35_3.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_3_dlap.xml552dd428757a2e693b000000
35.3 DNA Recombination Plays Important Roles in Replication and Repair tymoczko3e_ch35_4.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_4_dlap.xml552dd428757a2e693b000000
SUMMARYtymoczko3e_ch35_5.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_5_dlap.xml552dd428757a2e693b000000
KEY TERMStymoczko3e_ch35_6.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_6_dlap.xml552dd428757a2e693b000000
PROBLEMStymoczko3e_ch35_7.html552dd428757a2e693b000000
DLAP questionstymoczko3e_ch35_7_dlap.xml552dd428757a2e693b000000
RNA Synthesis and Regulation in Bacteriatymoczko3e_ch36_1.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_1_dlap.xml552dd463757a2e693b000001
36.1 Cellular RNA Is Synthesized by RNA Polymerases tymoczko3e_ch36_2.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_2_dlap.xml552dd463757a2e693b000001
36.2 RNA Synthesis Comprises Three Stages tymoczko3e_ch36_3.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_3_dlap.xml552dd463757a2e693b000001
36.3 The lac Operon Illustrates the Control of Bacterial Gene Expression tymoczko3e_ch36_4.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_4_dlap.xml552dd463757a2e693b000001
SUMMARYtymoczko3e_ch36_5.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_5_dlap.xml552dd463757a2e693b000001
KEY TERMStymoczko3e_ch36_6.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_6_dlap.xml552dd463757a2e693b000001
PROBLEMStymoczko3e_ch36_7.html552dd463757a2e693b000001
DLAP questionstymoczko3e_ch36_7_dlap.xml552dd463757a2e693b000001
Gene Expression in Eukaryotestymoczko3e_ch37_1.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_1_dlap.xml552dd4a9757a2eaa3b000000
37.1 Eukaryotic Cells Have Three Types of RNA Polymerases tymoczko3e_ch37_2.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_2_dlap.xml552dd4a9757a2eaa3b000000
37.2 RNA Polymerase II Requires Complex Regulation tymoczko3e_ch37_3.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_3_dlap.xml552dd4a9757a2eaa3b000000
37.3 Gene Expression Is Regulated by Hormones tymoczko3e_ch37_4.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_4_dlap.xml552dd4a9757a2eaa3b000000
37.4 Histone Acetylation Results in Chromatin Remodeling tymoczko3e_ch37_5.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_5_dlap.xml552dd4a9757a2eaa3b000000
SUMMARYtymoczko3e_ch37_6.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_6_dlap.xml552dd4a9757a2eaa3b000000
KEY TERMStymoczko3e_ch37_7.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_7_dlap.xml552dd4a9757a2eaa3b000000
PROBLEMStymoczko3e_ch37_8.html552dd4a9757a2eaa3b000000
DLAP questionstymoczko3e_ch37_8_dlap.xml552dd4a9757a2eaa3b000000
RNA Processing in Eukaryotestymoczko3e_ch38_1.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_1_dlap.xml552dd4eb757a2ea23b000000
38.1 Mature Ribosomal RNA Is Generated by the Cleavage of a Precursor Molecule tymoczko3e_ch38_2.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_2_dlap.xml552dd4eb757a2ea23b000000
38.2 Transfer RNA Is Extensively Processed tymoczko3e_ch38_3.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_3_dlap.xml552dd4eb757a2ea23b000000
38.3 Messenger RNA Is Modified and Spliced tymoczko3e_ch38_4.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_4_dlap.xml552dd4eb757a2ea23b000000
38.4 RNA Can Function as a Catalyst tymoczko3e_ch38_5.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_5_dlap.xml552dd4eb757a2ea23b000000
SUMMARYtymoczko3e_ch38_6.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_6_dlap.xml552dd4eb757a2ea23b000000
KEY TERMStymoczko3e_ch38_7.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_7_dlap.xml552dd4eb757a2ea23b000000
PROBLEMStymoczko3e_ch38_8.html552dd4eb757a2ea23b000000
DLAP questionstymoczko3e_ch38_8_dlap.xml552dd4eb757a2ea23b000000
The Genetic Codetymoczko3e_ch39_1.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_1_dlap.xml552dd532757a2ea33b000000
39.1 The Genetic Code Links Nucleic Acid and Protein Information tymoczko3e_ch39_2.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_2_dlap.xml552dd532757a2ea33b000000
39.2 Amino Acids Are Activated by Attachment to Transfer RNA tymoczko3e_ch39_3.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_3_dlap.xml552dd532757a2ea33b000000
39.3 A Ribosome Is a Ribonucleoprotein Particle Made of Two Subunits tymoczko3e_ch39_4.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_4_dlap.xml552dd532757a2ea33b000000
SUMMARYtymoczko3e_ch39_5.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_5_dlap.xml552dd532757a2ea33b000000
KEY TERMStymoczko3e_ch39_6.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_6_dlap.xml552dd532757a2ea33b000000
PROBLEMStymoczko3e_ch39_7.html552dd532757a2ea33b000000
DLAP questionstymoczko3e_ch39_7_dlap.xml552dd532757a2ea33b000000
The Mechanism of Protein Synthesistymoczko3e_ch40_1.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_1_dlap.xml552dd570757a2eba3b000000
40.1 Protein Synthesis Decodes the Information in Messenger RNA tymoczko3e_ch40_2.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_2_dlap.xml552dd570757a2eba3b000000
40.2 Peptidyl Transferase Catalyzes Peptide-Bond Synthesis tymoczko3e_ch40_3.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_3_dlap.xml552dd570757a2eba3b000000
40.3 Bacteria and Eukaryotes Differ in the Initiation of Protein Synthesis tymoczko3e_ch40_4.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_4_dlap.xml552dd570757a2eba3b000000
40.4 A Variety of Biomolecules Can Inhibit Protein Synthesis tymoczko3e_ch40_5.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_5_dlap.xml552dd570757a2eba3b000000
40.5 Ribosomes Bound to the Endoplasmic Reticulum Manufacture Secretory and Membrane Proteins tymoczko3e_ch40_6.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_6_dlap.xml552dd570757a2eba3b000000
40.6 Protein Synthesis Is Regulated by a Number of Mechanisms tymoczko3e_ch40_7.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_7_dlap.xml552dd570757a2eba3b000000
SUMMARYtymoczko3e_ch40_8.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_8_dlap.xml552dd570757a2eba3b000000
KEY TERMStymoczko3e_ch40_9.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_9_dlap.xml552dd570757a2eba3b000000
PROBLEMStymoczko3e_ch40_10.html552dd570757a2eba3b000000
DLAP questionstymoczko3e_ch40_10_dlap.xml552dd570757a2eba3b000000
Recombinant DNA Techniquestymoczko3e_ch41_1.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_1_dlap.xml552dd5b9757a2ea53b000000
41.1 Nucleic Acids Can Be Synthesized from Protein-Sequence Data tymoczko3e_ch41_2.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_2_dlap.xml552dd5b9757a2ea53b000000
41.2 Recombinant DNA Technology Has Revolutionized All Aspects of Biology tymoczko3e_ch41_3.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_3_dlap.xml552dd5b9757a2ea53b000000
41.3 Eukaryotic Genes Can Be Manipulated with Considerable Precision tymoczko3e_ch41_4.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_4_dlap.xml552dd5b9757a2ea53b000000
SUMMARYtymoczko3e_ch41_5.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_5_dlap.xml552dd5b9757a2ea53b000000
KEY TERMStymoczko3e_ch41_6.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_6_dlap.xml552dd5b9757a2ea53b000000
PROBLEMStymoczko3e_ch41_7.html552dd5b9757a2ea53b000000
DLAP questionstymoczko3e_ch41_7_dlap.xml552dd5b9757a2ea53b000000
Biochemistry Helps Us to Understand Our Worldtymoczko3e_part1_1.html552dd636757a2eda3b000000
DLAP questionstymoczko3e_part1_1_dlap.xml552dd636757a2eda3b000000
Protein Composition and Structuretymoczko3e_part2_1.html552dd694757a2ea83b000000
DLAP questionstymoczko3e_part2_1_dlap.xml552dd694757a2ea83b000000
Basic Concepts and Kinetics of Enzymestymoczko3e_part3_1.html552dd6ce757a2ee33b000000
DLAP questionstymoczko3e_part3_1_dlap.xml552dd6ce757a2ee33b000000
Carbohydrates and Lipidstymoczko3e_part4_1.html552dd704757a2ee43b000000
DLAP questionstymoczko3e_part4_1_dlap.xml552dd704757a2ee43b000000
Cell Membranes, Channels, Pumps, and Receptorstymoczko3e_part5_1.html552dd73f757a2efb3b000000
DLAP questionstymoczko3e_part5_1_dlap.xml552dd73f757a2efb3b000000
Basic Concepts and Design of Metabolismtymoczko3e_part6_1.html552dd797757a2ef43b000000
DLAP questionstymoczko3e_part6_1_dlap.xml552dd797757a2ef43b000000
Glycolysis and Gluconeogenesistymoczko3e_part7_1.html552dd801757a2eff3b000000
DLAP questionstymoczko3e_part7_1_dlap.xml552dd801757a2eff3b000000
The Citric Acid Cycletymoczko3e_part8_1.html552dd83c757a2ee13b000000
DLAP questionstymoczko3e_part8_1_dlap.xml552dd83c757a2ee13b000000
Oxidative Phosphorylationtymoczko3e_part9_1.html552dd874757a2e003c000000
DLAP questionstymoczko3e_part9_1_dlap.xml552dd874757a2e003c000000
The Light Reactions of Photosynthesis and the Calvin Cycletymoczko3e_part10_1.html552dd8b4757a2ea83b000001
DLAP questionstymoczko3e_part10_1_dlap.xml552dd8b4757a2ea83b000001
APPENDIX D: Water-Soluble Vitaminstymoczko3e_appd_1.html552ddc89757a2e7b3d000001
DLAP questionstymoczko3e_appd_1_dlap.xml552ddc89757a2e7b3d000001
APPENDIX C: Standard Bond Lengthstymoczko3e_appc_1.html552ddc46757a2efa3b000001
DLAP questionstymoczko3e_appc_1_dlap.xml552ddc46757a2efa3b000001
APPENDIX B: Acidity Constantstymoczko3e_appb_1.html552ddc00757a2ef43b000002
DLAP questionstymoczko3e_appb_1_dlap.xml552ddc00757a2ef43b000002
APPENDIX A: Physical Constants and Conversion of Unitstymoczko3e_appa_1.html552ddbc1757a2e623e000002
DLAP questionstymoczko3e_appa_1_dlap.xml552ddbc1757a2e623e000002
Chapter 1tymoczko3e_answer_1.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_1_dlap.xml552ddb27757a2ef13b000002
Chapter 2tymoczko3e_answer_2.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_2_dlap.xml552ddb27757a2ef13b000002
Chapter 3tymoczko3e_answer_3.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_3_dlap.xml552ddb27757a2ef13b000002
Chapter 4tymoczko3e_answer_4.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_4_dlap.xml552ddb27757a2ef13b000002
Chapter 5tymoczko3e_answer_5.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_5_dlap.xml552ddb27757a2ef13b000002
Chapter 6tymoczko3e_answer_6.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_6_dlap.xml552ddb27757a2ef13b000002
Chapter 7tymoczko3e_answer_7.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_7_dlap.xml552ddb27757a2ef13b000002
Chapter 8tymoczko3e_answer_8.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_8_dlap.xml552ddb27757a2ef13b000002
Chapter 9tymoczko3e_answer_9.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_9_dlap.xml552ddb27757a2ef13b000002
Chapter 10tymoczko3e_answer_10.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_10_dlap.xml552ddb27757a2ef13b000002
Chapter 11tymoczko3e_answer_11.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_11_dlap.xml552ddb27757a2ef13b000002
Chapter 12tymoczko3e_answer_12.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_12_dlap.xml552ddb27757a2ef13b000002
Chapter 13tymoczko3e_answer_13.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_13_dlap.xml552ddb27757a2ef13b000002
Chapter 14tymoczko3e_answer_14.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_14_dlap.xml552ddb27757a2ef13b000002
Chapter 15tymoczko3e_answer_15.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_15_dlap.xml552ddb27757a2ef13b000002
Chapter 16tymoczko3e_answer_16.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_16_dlap.xml552ddb27757a2ef13b000002
Chapter 17tymoczko3e_answer_17.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_17_dlap.xml552ddb27757a2ef13b000002
Chapter 18tymoczko3e_answer_18.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_18_dlap.xml552ddb27757a2ef13b000002
Chapter 19tymoczko3e_answer_19.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_19_dlap.xml552ddb27757a2ef13b000002
Chapter 20tymoczko3e_answer_20.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_20_dlap.xml552ddb27757a2ef13b000002
Chapter 21tymoczko3e_answer_21.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_21_dlap.xml552ddb27757a2ef13b000002
Chapter 22tymoczko3e_answer_22.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_22_dlap.xml552ddb27757a2ef13b000002
Chapter 23tymoczko3e_answer_23.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_23_dlap.xml552ddb27757a2ef13b000002
Chapter 24tymoczko3e_answer_24.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_24_dlap.xml552ddb27757a2ef13b000002
Chapter 25tymoczko3e_answer_25.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_25_dlap.xml552ddb27757a2ef13b000002
Chapter 26tymoczko3e_answer_26.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_26_dlap.xml552ddb27757a2ef13b000002
Chapter 27tymoczko3e_answer_27.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_27_dlap.xml552ddb27757a2ef13b000002
Chapter 28tymoczko3e_answer_28.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_28_dlap.xml552ddb27757a2ef13b000002
Chapter 29tymoczko3e_answer_29.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_29_dlap.xml552ddb27757a2ef13b000002
Chapter 30tymoczko3e_answer_30.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_30_dlap.xml552ddb27757a2ef13b000002
Chapter 31tymoczko3e_answer_31.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_31_dlap.xml552ddb27757a2ef13b000002
Chapter 32tymoczko3e_answer_32.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_32_dlap.xml552ddb27757a2ef13b000002
Chapter 33tymoczko3e_answer_33.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_33_dlap.xml552ddb27757a2ef13b000002
Chapter 34tymoczko3e_answer_34.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_34_dlap.xml552ddb27757a2ef13b000002
Chapter 35tymoczko3e_answer_35.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_35_dlap.xml552ddb27757a2ef13b000002
Chapter 36tymoczko3e_answer_36.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_36_dlap.xml552ddb27757a2ef13b000002
Chapter 37tymoczko3e_answer_37.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_37_dlap.xml552ddb27757a2ef13b000002
Chapter 38tymoczko3e_answer_38.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_38_dlap.xml552ddb27757a2ef13b000002
Chapter 39tymoczko3e_answer_39.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_39_dlap.xml552ddb27757a2ef13b000002
Chapter 40tymoczko3e_answer_40.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_40_dlap.xml552ddb27757a2ef13b000002
Chapter 41tymoczko3e_answer_41.html552ddb27757a2ef13b000002
DLAP questionstymoczko3e_answer_41_dlap.xml552ddb27757a2ef13b000002
Biochemistrytymoczko3e_fm_1.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_1_dlap.xml552ddaa6757a2e7c3d000000
About the Authorstymoczko3e_fm_2.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_2_dlap.xml552ddaa6757a2e7c3d000000
Prefacetymoczko3e_fm_3.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_3_dlap.xml552ddaa6757a2e7c3d000000
New to this Editiontymoczko3e_fm_4.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_4_dlap.xml552ddaa6757a2e7c3d000000
Teaching and Learning Toolstymoczko3e_fm_5.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_5_dlap.xml552ddaa6757a2e7c3d000000
Media and Supplementstymoczko3e_fm_6.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_6_dlap.xml552ddaa6757a2e7c3d000000
Acknowledgmentstymoczko3e_fm_7.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_7_dlap.xml552ddaa6757a2e7c3d000000
Brief Contentstymoczko3e_fm_8.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_8_dlap.xml552ddaa6757a2e7c3d000000
Contentstymoczko3e_fm_9.html552ddaa6757a2e7c3d000000
DLAP questionstymoczko3e_fm_9_dlap.xml552ddaa6757a2e7c3d000000
Glycogen Metabolism and the Pentose Phosphate Pathwaytymoczko3e_part11_1.html552dd90f757a2ef43b000001
DLAP questionstymoczko3e_part11_1_dlap.xml552dd90f757a2ef43b000001
Fatty Acid and Lipid Metabolismtymoczko3e_part12_1.html552dd94c757a2ea53b000001
DLAP questionstymoczko3e_part12_1_dlap.xml552dd94c757a2ea53b000001
The Metabolism of Nitrogen-Containing Moleculestymoczko3e_part13_1.html552dd986757a2ef13b000001
DLAP questionstymoczko3e_part13_1_dlap.xml552dd986757a2ef13b000001
Nucleic Acid Structure and DNA Replicationtymoczko3e_part14_1.html552dd9be757a2e7b3d000000
DLAP questionstymoczko3e_part14_1_dlap.xml552dd9be757a2e7b3d000000
RNA Synthesis, Processing, and Regulationtymoczko3e_part15_1.html552dd9f6757a2ed53b000000
DLAP questionstymoczko3e_part15_1_dlap.xml552dd9f6757a2ed53b000000
Protein Synthesis and Recombinant DNA Techniquestymoczko3e_part16_1.html552dda2a757a2e623e000000
DLAP questionstymoczko3e_part16_1_dlap.xml552dda2a757a2e623e000000