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Lecture
Cellular Communication and Metabolism: Energy Transformation Principles
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Metabolism: Energy and Redox Reactions
Explores metabolism, emphasizing energy production, redox reactions, ATP, and enzyme roles.
Introduction to Metabolism
Introduces the fundamental concepts of metabolism, including metabolic pathways, bioenergetics, ATP role, and enzyme catalysis.
Metabolism Integration: Gluconeogenesis and Glycolysis
Discusses the integration of metabolic pathways, focusing on gluconeogenesis and glycolysis, and their hormonal regulation in maintaining glucose homeostasis.
Cell Metabolism Fundamentals
Covers the basics of cell metabolism, including energy conversion, major pathways, enzymatic regulation, and ATP's role as the cell's energy currency.
Microbial metabolism: Energy Generation and Biomass Production
Explores microbial metabolism, focusing on energy generation, biomass production, redox reactions, and electron carriers.
Energy Minimization in Biological Systems: Equilibrium Models
Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.
Glycolysis and Gluconeogenesis
Explores the regulation of glucose metabolism, focusing on glycolysis, gluconeogenesis, and glycogen metabolism.
Targeting Glycolysis and Cancer Signaling
Explores targeting glycolysis and cancer signaling switches, enzyme inhibition mechanisms, and the role of ATP as the body's energy currency.
Enzymes: Basic Concepts and Kinetics
Delves into enzymes' basic concepts, kinetics, and catalytic strategies for reaction acceleration.
Systems Biology: Warburg Effect
Explores the Warburg Effect in cancer cells, discussing metabolic shifts and kinetic model construction.
