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A eukaryotic flagellum's movement is driven by which structural component?

Understand the Problem

The question asks about the mechanism driving the movement of eukaryotic flagella. It requires knowledge of cell biology, specifically the structure and function of flagella.

Answer

Dynein ATPase motors drive the movement.

The movement of a eukaryotic flagellum is driven by dynein ATPase motors, which interact with microtubules to generate force.

More Information

Eukaryotic flagella and cilia share a similar structure called an axoneme, which is composed of microtubules and associated proteins. Dynein arms attached to the microtubules use ATP to slide along adjacent microtubules, causing the flagellum to bend and generate movement.

Tips

A common mistake is confusing the structural components (microtubules) with the motor proteins (dynein) that drive the movement.

Sources

Eukaryotic cilia and flagella are motile organelles built on a scaffold of doublet microtubules and powered by dynein ATPase motors. - pmc.ncbi.nlm.nih.gov
The cytoskeleton (article) - Khan Academy - khanacademy.org

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