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A Proton Gradient Powers the Synthesis of ATP". Biochemistry (5th ed.). W. H. Freeman. A set of experiments aiming to test some tenets of the chemiosmotic theory – Ogawa S, Lee TM (August 1984). "The relation between the internal phosphorylation potential and the proton motive force in mitochondria during ATP synthesis and hydrolysis".
Ionophores that disrupt the proton gradient by carrying protons across a membrane. This ionophore uncouples proton pumping from ATP synthesis because it carries protons across the inner mitochondrial membrane. [110] Rotenone: Pesticide: Complex I Prevents the transfer of electrons from complex I to ubiquinone by blocking the ubiquinone-binding ...
Energy associated with the transfer of electrons down the electron transport chain is used to pump protons from the mitochondrial matrix into the intermembrane space, creating an electrochemical proton gradient across the inner mitochondrial membrane. This proton gradient is largely but not exclusively responsible for the mitochondrial membrane ...
It is an active pump that generates a proton concentration gradient across the inner mitochondrial membrane, because there are more protons outside the matrix than inside. The difference in pH and electric charge (ignoring differences in buffer capacity) creates an electrochemical potential difference that works similar to that of a battery or ...
Taking this into account, it takes 8/3 +1 or 3.67 protons for vertebrate mitochondria to synthesize one ATP in the cytoplasm from ADP and Pi in the cytoplasm. Within aerobic respiration , the P/O ratio continues to be debated; however, current figures place it at 2.5 ATP per 1/2(O 2 ) reduced to water, though some claim the ratio is 3. [ 5 ]
An electrochemical gradient is a gradient of electrochemical potential, usually for an ion that can move across a membrane. The gradient consists of two parts: The chemical gradient, or difference in solute concentration across a membrane. The electrical gradient, or difference in charge across a membrane.
This ratio is variable and mitochondria from cells that have a greater demand for ATP, such as muscle cells, contain even more cristae. Cristae membranes are studded on the matrix side with small round protein complexes known as F 1 particles, the site of proton-gradient driven ATP synthesis. Cristae affect overall chemiosmotic function of ...
Complex III and IV are proton pumps, pumping H+ protons out of the mitochondrial matrix, and work in conjunction with complex I to create the proton gradient found at the inner membrane. Cytochrome c is and electron carrier protein that travels between complex III and IV, and triggers apoptosis if it leaves the cristae. Complex IV passes ...