Cytoskeleton: Difference between revisions
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Only clearly seen in [[Eukaryotes|eukaryotes]], the cytoskeleton is seen as filaments running through the [[Cytoplasm|cytoplasm]] of a cell. The cytoskeleton is responsible for a [[Cell|cells]] shape and movement. Other properties include positioning [[Organelles|organelles]] within a cell and directing transport between intracellular compartments. The cytoskeleton is associated with motor [[Proteins|proteins]] which generate movement and allow the cell to be dynamic. The cytoskelton can be sub-divided into three components; [[Actin filaments|Actin filaments]] the smallest fibres being up to 7nm in length, [[Microtubules|Microtubules]] the largest fibres 25nm in length and [[Intermediate filaments|Intermediate filaments]] | Only clearly seen in [[Eukaryotes|eukaryotes]], the cytoskeleton is seen as filaments running through the [[Cytoplasm|cytoplasm]] of a cell. The cytoskeleton is responsible for a [[Cell|cells]] shape and movement. Other properties include positioning [[Organelles|organelles]] within a cell and directing transport between intracellular compartments. The cytoskeleton is associated with motor [[Proteins|proteins]] which generate movement and allow the cell to be dynamic. The cytoskelton can be sub-divided into three components; [[Actin filaments|Actin filaments]] the smallest fibres being up to 7nm in length, [[Microtubules|Microtubules]] the largest fibres 25nm in length and lastly [[Intermediate filaments|Intermediate filaments]] which the fibres are 10nm in length. <br> | ||
Recent cytological studies have shown cytoskeletal structures comprising homologues of actin and tubulin to exist in [[Prokaryotes|prokaryotes]]. These skeletal systems often interract with the murein cell wall and contribute to the vast array of cell shapes exhibited by bacteria <ref>Margolin W. (2009) "Review: Sculpting the Bacterial Cell" Current Biology 19(17): R812-R822</ref>. | Recent cytological studies have shown cytoskeletal structures comprising homologues of actin and tubulin to exist in [[Prokaryotes|prokaryotes]]. These skeletal systems often interract with the murein cell wall and contribute to the vast array of cell shapes exhibited by bacteria <ref>Margolin W. (2009) "Review: Sculpting the Bacterial Cell" Current Biology 19(17): R812-R822</ref>. | ||
Revision as of 14:22, 28 November 2011
Only clearly seen in eukaryotes, the cytoskeleton is seen as filaments running through the cytoplasm of a cell. The cytoskeleton is responsible for a cells shape and movement. Other properties include positioning organelles within a cell and directing transport between intracellular compartments. The cytoskeleton is associated with motor proteins which generate movement and allow the cell to be dynamic. The cytoskelton can be sub-divided into three components; Actin filaments the smallest fibres being up to 7nm in length, Microtubules the largest fibres 25nm in length and lastly Intermediate filaments which the fibres are 10nm in length.
Recent cytological studies have shown cytoskeletal structures comprising homologues of actin and tubulin to exist in prokaryotes. These skeletal systems often interract with the murein cell wall and contribute to the vast array of cell shapes exhibited by bacteria [1].
References
- ↑ Margolin W. (2009) "Review: Sculpting the Bacterial Cell" Current Biology 19(17): R812-R822