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Electrochemical gradient - General overview | A Wisdom Archive on Electrochemical gradient - General overview | | Electrochemical gradient - General overview A selection of articles related to Electrochemical gradient - General overview | |
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Electrochemical gradient, Electrochemical gradient - Biological context, Electrochemical gradient - Chemistry, Electrochemical gradient - General overview, Electrochemical gradient - Ion gradients, Electrochemical gradient - Proton gradients, Transmembrane potential difference, action potential, cell potential, electrodiffusion, galvanic cell, Electrochemical cell
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ARTICLES RELATED TO Electrochemical gradient - General overview | |
| | |  Electrochemical gradient - General overview: Encyclopedia II - Electrochemical gradient - Proton gradientsThe proton gradient can be used as an intermediate energy storage for heat production and flagellar rotation. Additionally, it is an interconvertible form of energy in active transport, electron potential generation, NADPH synthesis, and ATP synthesis/hydrolysis.
The electrochemical potential difference between the two sides of the membrane in mitochondria, chloroplasts, bacteria and other membranous compartments that engage in active transport involving proton pumps, is at times called a chemiosmotic potential or ...
See also:Electrochemical gradient, Electrochemical gradient - General overview, Electrochemical gradient - Chemistry, Electrochemical gradient - Biological context, Electrochemical gradient - Ion gradients, Electrochemical gradient - Proton gradients Read more here: » Electrochemical gradient: Encyclopedia II - Electrochemical gradient - Proton gradients |
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| | | | Electrochemical gradient - General overview: Encyclopedia II - Electrochemical gradient - Ion gradients With respect to a cell, organelle, or other subcellular compartments, the inclined tendency of an electrically charged solute, such as a potassium ion, to move across the membrane is decided by the difference in it's electrochemical potential on either side of the membrane, which arises from three factors:
the difference in the concentration of the solute between the two sides of the membrane
the charge or "valence" of the solute molecule
the difference in voltage between the two sides ...
See also:Electrochemical gradient, Electrochemical gradient - General overview, Electrochemical gradient - Chemistry, Electrochemical gradient - Biological context, Electrochemical gradient - Ion gradients, Electrochemical gradient - Proton gradients Read more here: » Electrochemical gradient: Encyclopedia II - Electrochemical gradient - Ion gradients |
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| | | | Electrochemical gradient - General overview: Encyclopedia II - Electrochemical gradient - Proton gradients The proton gradient can be used as an intermediate energy storage for heat production and flagellar rotation. Additionally it is an interconvertible form of energy in active transport, electron potential generation, NADPH synthesis and ATP synthesis/hydrolysis.
The electrochemical potential difference between the two sides of the membrane in mitochondria, chloroplasts, bacteria and other membranous compartments that engage in active transport involving proton pumps, is at times called a chemiosmotic potential or < ...
See also:Electrochemical gradient, Electrochemical gradient - General overview, Electrochemical gradient - Chemistry, Electrochemical gradient - Biological context, Electrochemical gradient - Ion gradients, Electrochemical gradient - Proton gradients Read more here: » Electrochemical gradient: Encyclopedia II - Electrochemical gradient - Proton gradients |
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| | | | Electrochemical gradient - General overview: Encyclopedia II - Electrochemical gradient - Ion gradients With respect to a cell, organelle, or other subcellular compartment, the propensity of an electrically charged solute, such as a potassium ion, to move across the membrane is decided by the difference in its electrochemical potential on either side of the membrane, which arises from three factors:
the difference in the concentration of the solute between the two sides of the membrane
the charge or "valence" of the solute molecule
the difference in voltage between the two sides ...
See also:Electrochemical gradient, Electrochemical gradient - General overview, Electrochemical gradient - Chemistry, Electrochemical gradient - Biological context, Electrochemical gradient - Ion gradients, Electrochemical gradient - Proton gradients Read more here: » Electrochemical gradient: Encyclopedia II - Electrochemical gradient - Ion gradients |
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