Introduction to the Cytoskeleton: Videos & Practice Problems

The cytoskeleton has several crucial functions in a cell. It provides the cell with its shape and structural integrity, much like a skeleton does for the human body. Additionally, the cytoskeleton is essential for cell movement, enabling cells to change shape and migrate. It also plays a vital role in intracellular transport, facilitating the movement of organelles and vesicles within the cell. Furthermore, the cytoskeleton is involved in bio-signaling, helping to transmit signals from the cell membrane to the interior, which is crucial for various cellular processes.

The cytoskeleton is composed of three main components: microfilaments, intermediate filaments, and microtubules. Microfilaments are the smallest and are made up of actin proteins. Intermediate filaments are of intermediate size and can be composed of various proteins, providing mechanical support to the cell. Microtubules are the largest components, formed from tubulin proteins, and they play a key role in maintaining cell shape, enabling intracellular transport, and facilitating cell division.

Microfilaments and microtubules differ significantly in both structure and function. Microfilaments are the smallest components of the cytoskeleton, composed of actin proteins arranged in thin rods. They are primarily involved in maintaining cell shape, enabling cell movement, and facilitating muscle contraction. In contrast, microtubules are the largest components, formed from tubulin proteins that create hollow tubes. Microtubules are crucial for maintaining cell shape, providing tracks for intracellular transport, and playing a key role in cell division by forming the mitotic spindle.

Microfilaments are primarily composed of actin proteins. Actin molecules polymerize to form long, thin rods that make up the microfilaments. On the other hand, microtubules are made up of tubulin proteins. Tubulin dimers, consisting of α-tubulin and β-tubulin, polymerize to form the hollow tubes that constitute microtubules. These structural proteins are essential for the various functions that microfilaments and microtubules perform within the cell.

Intermediate filaments play a crucial role in providing mechanical support and stability to cells. They are of intermediate size compared to microfilaments and microtubules and can be composed of various proteins, such as keratins, vimentin, and lamins. These filaments help maintain cell integrity by resisting mechanical stress and distributing tension across the cell. They also play a role in anchoring organelles in place and are involved in cell signaling and the formation of the nuclear lamina, which supports the nuclear envelope.