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MCP 3-02 - Cytoskeleton I
SUNY Upstate College of Medicine Class of 2015
33
Biochemistry
Professional
11/12/2011

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Term
What are the three types of filaments founds in eukaryotic cells?
Definition
1) Microfilaments
2) Intermediate filaments
3) Microtubules
Term
Intermediate filaments
Definition
• Tough, 10 nm diameter rope-like filaments formed by assembly of fibrous intermediate filament proteins.
• Gives the cell tensile strength and helps the cell hold its shape.
• Except for the lamins during the cell cycle, intermediate filaments are not dynamic.
Term
What is the width of IF?
Definition
10 nm.
Term
T or F: IF are dynamic.
Definition
False, except for the lamins during the cell cycle.
Term
Microtubules
Definition
• 25 nm diameter tubes formed by assembly of dimers of the proteins alpha and beta tubulin.
• Used as tracks for motility, in particular the movement of vesicles, the segregation of chromosomes at cell division, and the framework for cilia.
• Microtubules are generally very dynamic.
Term
What is the width of microtubules?
Definition
25 nm.
Term
How are microtubules formed?
Definition
By assembly of dimers of the proteins alpha and beta
tubulin.
Term
T or F: Microtubules are generally dynamic?
Definition
True!
Term
Actin filaments
Definition
• 7 nm diameter flexible filaments formed by polymerization of actin, a 42 kd globular protein, stabilized and organized by the binding of actin-associated proteins.
• Used as tracks for motility and frequently associated with the plasma membrane where it plays a critical role in the dynamic organization of the cell cortex-changes in cell shape.
• The actin cytoskeleton is dynamic.
Term
What is the width of actin microfilaments?
Definition
7 nm.
Term
How are actin filaments formed?
Definition
By polymerization of actin, a 42 kd globular
protein, stabilized and organized by the binding of actin-associated proteins.
Term
T or F: Actin microfilaments are dynamic?
Definition
True.
Term
Intermediate filaments (figure)
Definition
Term
T or F: Intermediate filaments have a distinct polarity?
Definition
False, and therefore they are ill-suited for a role in motility.
Term
How are intermediate filaments assembled?
Definition
They are assembled from homo- or heterodimers of intermediate filament (IF) proteins via tetrameric intermediates. Assembly requires no cofactors and once formed these filaments are relatively stable (the exception are the lamins).
Term
What are the 4 classes of intermediate filament proteins?
Definition
1) Keratins
2) Vimentin and vimentin-related
3) Neurofilaments
4) Nuclear lamins
* 1-3 are cytoplasmic, 4 is in all nucleated cells
Term
Keratins
Definition
A class of intermediate filaments
Term
Vimentin
Definition
Vimentin is widespread in cells of mesodermal origin.
Term
Desmin
Definition
IF primarily in muscle cells where it holds together adjacent myofibrils (contractile units).
Term
Glial fibrillary acidic protein (GFA)
Definition
IF in astrocyctes and glial cells, which are supporting cells of the central nervous system (CNS).
Term
Neurofilaments
Definition
IF formed from three subunits co-assemble into filaments in neurons that extend along the length of axons, providing these long cellular extensions with tensile strength.
Term
Nuclear lamins
Definition
IF present as a meshwork on the inner surface of the nuclear membrane of all cells. These are the most dynamic of the IFs-they disassemble at the beginning of mitosis and reassemble at the end of mitosis. Phosphorylation/dephosphorylation regulates this cycle of assembly/disassembly.
Term
What are some structures associated with intermediate filaments?
Definition
1. Lamin proteins associate with the inner nuclear membrane to form a structure called the nuclear lamina (note: do not confuse this structure with the extracellular basal lamina). They are important for the assembly of the nuclear membrane around chromatin following mitosis.
2. Some IFs (keratin or desmin filaments) interact with membrane adhesion sites to form desmosomes and hemi-desmosomes. These structures mediate cell-cell attachment and thereby tissue cohesiveness. Desmosomes connect IF in adjacent cells of an epithelial sheet (ECB Fig. 17-2, above). Mutations in either the junctional proteins or the intermediate filament proteins can disrupt the strength of this cell layer.
Term
What is the clinical significance of types of (specifically keratins) intermediate filaments?
Definition
• Typing of keratins can be very useful in diagnosis and treatment of epithelial cancers.
• Mutations in human epidermal keratins can cause epidermolysis bullosa, a skin blister
disease.
Term
Epidermolysis bullosa
Definition
A skin blister disease caused by mutations in human epidermal keratins.
Term
What is the structure of microtubules?
Definition
• Microtubules are 25 nm diameter hollow tubes assembled from dimers of alpha and beta tubulin.
• Both alpha and beta tubulin are 55 kd globular proteins that contain GTP binding sites.
• Only beta tubulin can hydrolyze its bound GTP to GDP when it is assembled into a microtubule. Formation of the tubulin dimer protects the GTP on alpha tubulin.
Term
T or F: Both alpha and beta tubulin can hydrolyze its bound GTP to GDP?
Definition
False. Only beta tubulin can hydrolyze its bound GTP to GDP when it is assembled into a
microtubule.
Term
Microtubule assembly (figure)
Definition
Term
What is the process of microtubule assembly?
Definition
• In cells, assembly requires GTP, Mg++, and a ‘critical’ subunit concentration.
• Beta tubulin in a microtubule acts as a slow GTPase, and GDP must be exchanged for GTP again before a subunit is re-used for assembling another microtubule.
• End-to-end binding in a head-to-tail orientation results in structural polarity of microtubules, which have plus (fast-growing) and minus (slow-growing) ends.
• Microtubule-associated proteins and drugs can regulate assembly in vitro and in vivo.
Term
What is required of cells for microtubule assembly?
Definition
GTP, Mg2+, and a "critical" subunit concentration.
Term
T or F: Microtubules have a distinct polarity?
Definition
True. End-to-end binding in a head-to-tail orientation results in structural polarity of microtubules, which have plus (fast-growing) and minus (slow-growing) ends.
Term
Plus ends of microtubules
Definition
Fast-growing ends.
Term
Minus ends of microtubules
Definition
Slow growing ends of microtubules.
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