Microvilli

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Each microvilli has about 20-30 parallel [[Actin filaments|actin filaments]] that extend from the tip into the cell cortex. In all the actin filaments the plus ends point away from the cell body and are held together by actin-bundling proteins. The most important of which is villin, a [[Protein|protein]] that is specific to microvilli and cross-links actin filaments into tight bundles.  
 
Each microvilli has about 20-30 parallel [[Actin filaments|actin filaments]] that extend from the tip into the cell cortex. In all the actin filaments the plus ends point away from the cell body and are held together by actin-bundling proteins. The most important of which is villin, a [[Protein|protein]] that is specific to microvilli and cross-links actin filaments into tight bundles.  
  
At the base of each microvillus the actin filaments are anchored into a specialized region known as the terminal web. This contains a concentrated network of spectrin molecules and a layer of [[Intermediate filaments|intermediate filaments]]. It is thought that spectrin imparts rigidity to the cell cortex; because the actin filaments are anchored to the terminal web, this keeps the microvilli orientated perpendicularly to the apical surface of the cell. The [[Actin|actin]] filaments are attached to the [[Plasma membrane|plasma membrane]] by lateral bridges composed of [[Myosin-I|myosin-I]] and several other [[Molecules|molecules]] including the Ca<sup>2+</sup> and the Ca<sup>2+</sup> binging protein, Camodulin<ref>G M. Fuller and D, Shiels. Molecular Basis of Medical Cell Biology (1998) 1st edition. Chapter 7 PP.140-141</ref>.  
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At the base of each microvillus the actin filaments are anchored into a specialized region known as the terminal web. This contains a concentrated network of spectrin molecules and a layer of [[Intermediate filaments|intermediate filaments]]. It is thought that spectrin imparts rigidity to the cell cortex; because the actin filaments are anchored to the terminal web, this keeps the microvilli orientated perpendicularly to the apical surface of the cell. The [[Actin|actin]] filaments are attached to the [[Plasma membrane|plasma membrane]] by lateral bridges composed of [[Myosin-I|myosin-I]] and several other [[Molecules|molecules]] including the Ca<sup>2+</sup> and the Ca<sup>2+</sup> binding protein, Camodulin<ref>G M. Fuller and D, Shiels. Molecular Basis of Medical Cell Biology (1998) 1st edition. Chapter 7 PP.140-141</ref>.
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Beyond the plasma membrane of Microvilli, there exists a Glycocalyx layer. This layer contains glycoproteins which provide an additional layer for absorption and the carbohydrates present promote adhesion with proteins in neighbouring cells.
  
 
=== Reference  ===
 
=== Reference  ===
  
 
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Revision as of 20:13, 2 December 2018

Microvilli are thin, finger-like projections on the surface of cells and are particularly abundant in epithelia, where a large surface area is required for efficient functionality such as absorption. Microvilli increase the surface area of the cell[1] and can be often found in large numbers. A multitude of microvilli seen in the lining of the small intestine are described as a brush border due to their 'paintbrush tip' appearance[2].

Each microvilli has about 20-30 parallel actin filaments that extend from the tip into the cell cortex. In all the actin filaments the plus ends point away from the cell body and are held together by actin-bundling proteins. The most important of which is villin, a protein that is specific to microvilli and cross-links actin filaments into tight bundles.

At the base of each microvillus the actin filaments are anchored into a specialized region known as the terminal web. This contains a concentrated network of spectrin molecules and a layer of intermediate filaments. It is thought that spectrin imparts rigidity to the cell cortex; because the actin filaments are anchored to the terminal web, this keeps the microvilli orientated perpendicularly to the apical surface of the cell. The actin filaments are attached to the plasma membrane by lateral bridges composed of myosin-I and several other molecules including the Ca2+ and the Ca2+ binding protein, Camodulin[3].

Beyond the plasma membrane of Microvilli, there exists a Glycocalyx layer. This layer contains glycoproteins which provide an additional layer for absorption and the carbohydrates present promote adhesion with proteins in neighbouring cells.

Reference

  1. Lodish et al.(2013)Molecular Cell Biology.United States: Katherine
  2. W J Krause. Krause's essential human histology for medical students, third edition. Boca Raton 2005. p37
  3. G M. Fuller and D, Shiels. Molecular Basis of Medical Cell Biology (1998) 1st edition. Chapter 7 PP.140-141
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