In eukaryotic cells, NADH and FADH are transported along electron carriers of the inner mitochondrial membrane. NADH stands for nicotinamide adenine dinucleotide.
The difference in H+ concentrations on opposite sides of the inner mitochondrial membrane. During oxidative phosphorylation, NADH and FADH oxidizes at the hydrogen carriers to provide electrons to the electron transport chain (etc) (chain of electron carriers) and H+ ions. As electrons pass through the etc, ATP is synthesized. If energy is ever needed along the process, ATP is used. But i doubt it as the electron do not require external chemical energy to move along the carriers.
Just rearrange words from the definition.. (Usage of high-energy electrons from the Krebs Cylce to convert ADP into ATP).So you could say something like:"ADP is converted to ATP using high-energy electrons that come from the Krebs Cycle through the Electron Transport Chain."Or, if you're lazy/don't mind failing your class, just put something along these lines:"I don't like the Electron Transport Chain.""The Electron Transport Chain has a very long name."I really hope that this helps!!(:Oh.. and even though this is very irrelevant.. My YouTube is Brandino69chu.It would be amazing if you could sub and give me ideas on what to post?
Chemical energy that is contained in and transported by the molecule called Adenosine Tri Phosphate.
The new production of ATP is 2, because fermentation includes the previous process of glycolysis which has a net 2 ATP production. Fermentation also oxidizes NADH back to NAD+.
Because the crucial process of electron transport occurs along the Electron-Transport-Chain using/employing H+. (Short Answer)
Transport chain series of proteins embedded in a membrane along which energized electrons are transported as electrons are passed from molecule energy is released?
The difference in H+ concentrations on opposite sides of the inner mitochondrial membrane. During oxidative phosphorylation, NADH and FADH oxidizes at the hydrogen carriers to provide electrons to the electron transport chain (etc) (chain of electron carriers) and H+ ions. As electrons pass through the etc, ATP is synthesized. If energy is ever needed along the process, ATP is used. But i doubt it as the electron do not require external chemical energy to move along the carriers.
The electrons are transported through a series of carrier proteins via simultaneous oxidation-reduction reactions. The carriers harvest energy from these electrons to pump H+ ions across the inner mitochondrial membrane. When the electrons reach the very end of the chain i.e. complex 4, they are transferred to Oxygen atoms to form O2- ions. O2- ions then combine with H+ ions in the mitochondrial matrix to form H2O.
The energy is used to supply electron carriers and to pump protons into the stroma so they can come down their concentration gradient through an ATP-synthase and synthesize ATP.
Earthworms, along with other animals, are eukaryotic.
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
the waves
lol hahaha
Just rearrange words from the definition.. (Usage of high-energy electrons from the Krebs Cylce to convert ADP into ATP).So you could say something like:"ADP is converted to ATP using high-energy electrons that come from the Krebs Cycle through the Electron Transport Chain."Or, if you're lazy/don't mind failing your class, just put something along these lines:"I don't like the Electron Transport Chain.""The Electron Transport Chain has a very long name."I really hope that this helps!!(:Oh.. and even though this is very irrelevant.. My YouTube is Brandino69chu.It would be amazing if you could sub and give me ideas on what to post?
"Wind power" in itself isn't transported, but the generators of wind power (wind turbines) are transported by delivery trucks. The energy they produce is electricity, and this is transported along cables into the grid.
The high-energy electrons that are passed to the electron transport chain combine with O2 and H+ ions. This results to the formation of water molecules.
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