UsefulLinks
Engineering
Biochemical and Bioprocess Engineering
Biocatalysis
1. Introduction to Biocatalysis
2. Enzyme Structure and Function
3. Enzyme Classification and Nomenclature
4. Enzyme Catalysis Mechanisms
5. Enzyme Kinetics
6. Whole Cell Biocatalysis
7. Biocatalyst Discovery and Development
8. Enzyme Engineering
9. Reaction Media and Conditions
10. Enzyme Immobilization
11. Bioreactor Design and Operation
12. Downstream Processing
13. Industrial Applications
14. Advanced Biocatalytic Systems
15. Emerging Technologies
16. Economic and Regulatory Aspects
17. Future Perspectives
5.
Enzyme Kinetics
5.1.
Basic Kinetic Principles
5.1.1.
Reaction Rate Theory
5.1.2.
Activation Energy
5.1.3.
Catalytic Rate Enhancement
5.2.
Michaelis-Menten Kinetics
5.2.1.
Model Assumptions
5.2.2.
Derivation
5.2.3.
Kinetic Parameters
5.2.3.1.
Vmax
5.2.3.2.
Km
5.2.3.3.
kcat
5.2.3.4.
kcat/Km
5.3.
Kinetic Analysis Methods
5.3.1.
Lineweaver-Burk Plot
5.3.2.
Hanes-Woolf Plot
5.3.3.
Eadie-Hofstee Plot
5.3.4.
Direct Fitting Methods
5.4.
Enzyme Inhibition
5.4.1.
Reversible Inhibition
5.4.1.1.
Competitive Inhibition
5.4.1.2.
Noncompetitive Inhibition
5.4.1.3.
Uncompetitive Inhibition
5.4.1.4.
Mixed Inhibition
5.4.2.
Irreversible Inhibition
5.4.2.1.
Covalent Modification
5.4.2.2.
Suicide Inhibition
5.5.
Complex Kinetics
5.5.1.
Multi-substrate Reactions
5.5.2.
Allosteric Enzymes
5.5.3.
Cooperative Binding
5.5.4.
Product Inhibition
5.6.
Environmental Effects
5.6.1.
Temperature Dependence
5.6.2.
pH Effects
5.6.3.
Ionic Strength
5.6.4.
Solvent Effects
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4. Enzyme Catalysis Mechanisms
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6. Whole Cell Biocatalysis