2: Unit 2 - Enzymes

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2.1: Enzyme Thermodynamics
Living cells maintain order despite the natural tendency toward disorder, requiring continuous energy input. Thermodynamics governs biochemical reactions, distinguishing endergonic reactions that require energy from exergonic reactions that occur spontaneously. Gibbs free energy (ΔG) determines reaction spontaneity. Biological systems avoid equilibrium through constant energy use. Enzymes increase reaction rates but do not change equilibrium, enabling efficient metabolism.
2.2: Enzyme Kinetics
Enzyme kinetics examines how enzymes accelerate biochemical reactions by lowering activation energy. Reaction rates depend on enzyme concentration, substrate binding, and catalytic mechanisms. The Michaelis-Menten model describes the relationship between reaction rate and substrate concentration. Cofactors, ribozymes, and enzyme inhibitors regulate catalytic activity and efficiency.
2.3: Enzyme Inhibition
Enzymes catalyze reactions by creating favorable electronic environments, with serine proteases serving as key examples. A diverse range of reaction mechanisms allows enzymes to perform specific functions while maintaining regulatory control. Activation and inactivation processes enable enzymes to adjust to changing conditions, preserving homeostasis and ensuring proper cellular function.
2.4: Enzyme Allostery

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