Ch. 8 - Protein Function WorksheetSee all chapters
All Chapters
Ch. 1 - Introduction to Biochemistry
Ch. 2 - Water
Ch. 3 - Amino Acids
Ch. 4 - Protein Structure
Ch. 5 - Protein Techniques
Ch. 6 - Enzymes and Enzyme Kinetics
Ch. 7-Enzyme Inhibition and Regulation
Ch. 8 - Protein Function
Clutch Review 1: Enzymes: Binding, Kinetics & Inhibition
Clutch Review 2: Nucleic Acids, Lipids, & Membranes
Clutch Review 3: Biosignaling, Glycolysis, Gluconeogenesis, & PP-Pathway
Clutch Review 4: Pyruvate & Fatty Acid Oxidation, Citric Acid Cycle, & Glycogen Metabolism
Clutch Review 5: Amino Acid Oxidation, Oxidative Phosphorylation, & Photophosphorylation
Sections
Introduction to Protein-Ligand Interactions
Protein-Ligand Equilibrium Constants
Protein-Ligand Fractional Saturation
Myoglobin vs. Hemoglobin
Heme Prosthetic Group
Hemoglobin Cooperativity
Hemoglobin Binding in Lungs & Tissues
Hemoglobin Carbonation & Protonation
Hill Equation
Hill Plot
Bohr Effect
BPG Regulation of Hemoglobin
Fetal Hemoglobin
Sickle Cell Anemia
Chymotrypsin
Chymotrypsin's Catalytic Mechanism
Glycogen Phosphorylase
Liver vs Muscle Glycogen Phosphorylase
Antibody
ELISA
Motor Proteins
Skeletal Muscle Anatomy
Skeletal Muscle Contraction
Learn
Next SectionBohr Effect

Concept #2: Mb’s Hill Plot

Concept #3: Hb's Hill Plot

Concept #4: Hb's Lowest O2-Affinity State 

Concept #5: Hb's Cooperative State

Concept #6: Hb's Highest O2-Affinity State

Concept #7: Hill Plot Breakdown

Concept #8: "Velocity" & "Acceleration"

Practice: Which of the following situations would produce a Hill plot with n H < 1.0?

Practice: Label the axis of the Hill Plot below & fill-in the graph with Mb’s & Hb’s approximate O2-binding data.

Practice: The slope of a Hill plot for hemoglobin _______________; whereas that for myoglobin ________________.

Previous SectionHill Equation
Next SectionBohr Effect