Table of contents

1. Overview of Cell Biology2h 49m
2. Chemical Components of Cells1h 14m
3. Energy1h 33m
4. DNA, Chromosomes, and Genomes2h 31m
5. DNA to RNA to Protein2h 31m
6. Proteins1h 36m
7. Gene Expression1h 42m
8. Membrane Structure1h 4m
- The Lipid Bilayer
  38m
- Membrane Proteins
  25m
9. Transport Across Membranes1h 52m
10. Anerobic Respiration1h 5m
11. Aerobic Respiration1h 11m
12. Photosynthesis52m
13. Intracellular Protein Transport2h 18m
14. Cell Signaling1h 28m
15. Cytoskeleton and Cell Movement1h 39m
16. Cell Division3h 5m
17. Meiosis and Sexual Reproduction50m
18. Cell Junctions and Tissues48m
19. Stem Cells13m
- Stem Cells
  13m
20. Cancer44m
21. The Immune System1h 6m
22. Techniques in Cell Biology1h 41m

8. Membrane Structure

Membrane Proteins

Cell Biology

8. Membrane Structure

Membrane Proteins

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Multiple Choice

The sodium-potassium pump is called an electrogenic pump because it:

creates a net movement of charge across the membrane

transports sodium and potassium ions at equal rates

requires ATP to function

moves ions down their concentration gradients

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Verified step by step guidance

Understand the function of the sodium-potassium pump: It is a membrane protein that actively transports sodium (Na⁺) and potassium (K⁺) ions across the plasma membrane using energy from ATP hydrolysis.

Recall that the pump moves 3 sodium ions (Na⁺) out of the cell and 2 potassium ions (K⁺) into the cell during each cycle. This creates an imbalance in the number of positive charges moved across the membrane.

Recognize that this imbalance in charge movement results in a net movement of positive charge out of the cell, which contributes to the membrane potential. This is why the pump is referred to as 'electrogenic.'

Eliminate incorrect options: The pump does not transport sodium and potassium ions at equal rates (it moves 3 Na⁺ out and 2 K⁺ in). It does require ATP to function, but this is not why it is called electrogenic. It also moves ions against their concentration gradients, not down them.

Conclude that the correct answer is: 'creates a net movement of charge across the membrane,' as this is the defining feature of an electrogenic pump.