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18.3: The Molecular Structure and Organization of Cytoskeletal Components

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    Of the three main cytoskeletal fibers, intermediate filaments serve a mainly structural role in cells. Microtubules and microfilaments have dual functions, dynamically maintaining cell shape and enabling cell motility. For example, when attached to the plasma membrane, actin microfilaments maintain cell shape. And when they interact with motor proteins (e.g., myosin), they can pull or push against a muscle-cell membrane, changing the shape of the cell. Likewise, motor proteins such as dynein and kinesin can move cargo back and forth along microtubule tracks from one point to another in the cell.

    We will look at how motor proteins interact with microtubules and microfilaments shortly. For now, let’s take another look at the drawings and micrographs of the three main cytoskeletal filaments of eukaryotic cells, which we also saw earlier in the text (Figure 18.2, below).

    Screen Shot 2022-05-25 at 3.10.16 PM.png
    Figure 18.2: The assembly, structure, and polarity of microtubules, microfilaments (actins), and intermediate filaments, alongside immunofluorescence micrographs made using fluorescent antibodies against isolated microtubule (top), microfilament (middle), and intermediate-filament (bottom) proteins.

    321-2 Introduction to the Cytoskeleton

    We also saw earlier the location and general functions of microtubules, microfilaments, and intermediate filaments. Let’s look at those fluorescence micrographic localizations of fibers in cells, shown again in Figure 18.3 (below). They are consistent with known functions of the major cytoskeletal component filaments in cell structure and motility. Despite the small size of prokaryotic cells, they too were recently found to have previously unsuspected cytoplasmic structures that could function as a cytoskeleton. For more, see A Prokaryotic Cytoskeleton. So perhaps not just eukaryotic cells, but all cells are more than an unorganized bag of fluid sap!

    Screen Shot 2022-05-25 at 3.17.27 PM.png
    Figure 18.3: Illustration and immunofluorescence and confocal microscope localization of microtubules, microfilaments (actins), and intermediate filaments in cells.

    322-2 Microtubles, Microfilaments, and Intermediate Filaments in Cells

    Next, we’ll consider the specific roles of microtubules, microfilaments, intermediate filaments, and related proteins in the eukaryotic cytoskeleton.

    This page titled 18.3: The Molecular Structure and Organization of Cytoskeletal Components is shared under a not declared license and was authored, remixed, and/or curated by Gerald Bergtrom.

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