Introduces the basic concepts of metabolism, enzymes, energy production, and ATP synthesis, exploring the fundamental principles of biochemical reactions.
Covers modeling and analyzing complex biological networks, focusing on metabolism and signaling, using techniques like flux balance analysis and kinetic modeling.
Delves into metabolic pathways, energy-rich compounds, and fermentation processes, emphasizing the importance of biofuels as an alternative to fossil fuels.
Explores metabolic diversity, oxidative phosphorylation, and Fe/Mn cycles in biological systems, emphasizing electron transfer mechanisms and environmental implications.
Explores metabolic signaling, glycolysis, cancer switches, and a case study on breast tumor aggressiveness through integrated proteomics and metabolomics.
Explores metabolic signaling through glycolysis, the Warburg effect, and glycolytic switches in cancer, emphasizing ATP as the universal energy carrier.
