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11 Nov 2019
Please help me to understand each boulley point with explanation Chapter 19: Oxidative Phosphorylation Location of Oxidative Phosphorylation Process Types of electron transfer, and major redox players in electron transport chain (NADH, FADH2, QH2, cytochrome c whether they transfer one or two electrons, or either, whether they are mobile or not) How to calculate ÎG for a reaction based on reduction potential, and know how to interpret a reduction potential table · The 4 Electron Transport Chain complexes, the number of protons pumped into the Intermembrane space for each. . The proton motive force, definition and meaning... Chemiosmotic theory Coupling of Respiratory Chain and ATP synthesis... experiments that show coupling. Decoupling agents (examples) and how they work (such as dinitrophenol) The structure of ATP synthase, major functions of the subunits. The energetics of ATP formation in ATP synthase Conformational changes in the hexameric ring... and what the proton motive force is really doing. Rotational model of ATP synthase Stoichiometry of protons to ATP generated Stoichiometry of NADH, FADH2 to ATP generated Transport for ADP, Pi, ATP Regulation via ADP levels Also Know generalities of papers we read such as conclusions and techniques used.
Please help me to understand each boulley point with explanation
Chapter 19: Oxidative Phosphorylation Location of Oxidative Phosphorylation Process Types of electron transfer, and major redox players in electron transport chain (NADH, FADH2, QH2, cytochrome c whether they transfer one or two electrons, or either, whether they are mobile or not) How to calculate ÎG for a reaction based on reduction potential, and know how to interpret a reduction potential table · The 4 Electron Transport Chain complexes, the number of protons pumped into the Intermembrane space for each. . The proton motive force, definition and meaning... Chemiosmotic theory Coupling of Respiratory Chain and ATP synthesis... experiments that show coupling. Decoupling agents (examples) and how they work (such as dinitrophenol) The structure of ATP synthase, major functions of the subunits. The energetics of ATP formation in ATP synthase Conformational changes in the hexameric ring... and what the proton motive force is really doing. Rotational model of ATP synthase Stoichiometry of protons to ATP generated Stoichiometry of NADH, FADH2 to ATP generated Transport for ADP, Pi, ATP Regulation via ADP levels Also Know generalities of papers we read such as conclusions and techniques used.
Patrina SchowalterLv2
8 Jul 2019