Protein pumps in active transport bind a solute, undergo a conformational change via ATP hydrolysis, and translocate the solute across the membrane against its gradient.
Protein pumps, used in active transport, function by binding a solute on one side of the membrane. ATP hydrolysis causes a conformational change, translocating the solute against its gradient and releasing it on the other side.
| Original | binding to the protein pump on one side of the membrane. The hydrolysis of ATP (to ADP + Pi) causes a conformational change in the protein pump so that the solute molecule is translocated across the membrane (against the gradient) and released |
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| Title | Protein pumps (for active transport) function by a specific solute |
| Settings | 1,1,0 | n,n,n,n |
| Text1 | binding to the protein pump on one side of the membrane. The hydrolysis of ATP (to ADP + Pi) causes ... ... |
| Text2 | binding to the protein pump on one side of the membrane. The hydrolysis of ATP (to ADP + Pi) causes a conformational change in the protein pump so that the solute molecule is ... |
| Text3 | ... a conformational change in the protein pump so that the solute molecule is translocated across the membrane (against the gradient) and released |
| Full | binding to the protein pump on one side of the membrane. The hydrolysis of ATP (to ADP + Pi) causes a conformational change in the protein pump so that the solute molecule is translocated across the membrane (against the gradient) and released |
Tags: 1_4_membrane_transport
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