Plasma membrane: Difference between revisions

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A plasma membrane encapsules each and every [[Cell|cell]]. The plasma membrane is necessary to allow different concentrations of substances to be maintained between the [[Cell|cell]] and it's environment. [[Eukaryotic cells|Eukaryotic cells]] have internal membranes which surround [[Organelles|organelles]], allowing different constituent concentrations within the [[Cell|cell]].  
A plasma membrane encapsulates each and every [[Cell|cell]], and is also known as the cell membrane. It acts as a selective barrier which is necessary to allow different concentrations of substances to be maintained between the cell and it's environment.&nbsp;[[Eukaryotic cells|Eukaryotic cells]] have internal membranes which surround [[Organelles|organelles]], allowing different constituent concentrations within the [[Cell|cell]]<ref>Alberts B., Johnson A., Lewis J., Raff M., Roberts K., Walkter P., (2008) Molecular Biology Of The Cell, 5th edition, Newy York: Garland Science</ref>.&nbsp;


The structure of the plasma membrane is made up of a [[Lipid bilayer|lipid bilayer]] embedded with [[Proteins|proteins]] and [[Cholesterol|cholesterol]]. Most lipid bilayers are comprised of [[Phospholipids|phospholipids]], the most common being [[Phosphatidylcholine|phosphatidylcholine]]. The head part of it is made up of a [[Phosphate|phosphate]] and a [[Hydrophilic|hydrophilic]] [[Choline|choline]], the tails component of the [[Phospholipid|phospholipid]] are two fatty acid chains, long hydrocarbon structures with chemically active COOH. Since the head is [[Hydrophilic|hydrophilic]] and the tails are [[Hydrophobic|hydrophobic]], the [[Phospholipid|phospholipid]] is said to be [[Amphipathic|amphipathic]].&nbsp;The structure of the bilayer is such that the tails are shielded from contact with [[Water|water]], creating a selectively-permeable barrier.&nbsp;<br>  
The plasma membrane is a [[Lipid bilayer|lipid bilayer]] embedded with [[Proteins|proteins]] and [[Cholesterol|cholesterol]]&nbsp;which is 5nm thick. Lipid bilayers&nbsp;are composed of [[Phospholipid|phospholipids]], the most common being [[Phosphatidylcholine|phosphatidylcholine]]. The head part of which is made up of a [[Phosphate|phosphate]] and a [[Hydrophilic|hydrophilic]] [[Choline|choline]], the tail component of the phospholipid&nbsp;is comprised of&nbsp;two fatty acid chains, long hydrocarbon structures with a chemically active [[Carboxylic acid (COOH)|COOH]]. Since the head is [[Hydrophilic]] and the tails are [[Hydrophobic|hydrophobic]], the phospholipid is said to be [[Amphipathic|amphipathic]].&nbsp;The structure of the bilayer is such that the tails are shielded from contact with [[Water|water]], creating a selectively-permeable barrier which will be impermeable to most hydrophilic molecules.&nbsp;<br>  


The function of the plasma membrane is to communicate with the environment and other cells, by means of the [[Glycocalyx|glycocalyx]]. It allows passage of selective molecules in and out of the cell via [[Carrier proteins|carrier]] or [[Channel proteins|channel proteins]] embedded within the membrane, and it regulates cell growth, shape change, movement and division.&nbsp;  
The plasma membrane has many functions&nbsp;and is&nbsp;a fundamental part of the cell. It&nbsp;communicates with the environment and other cells by means of&nbsp;a [[Glycocalyx|glycocalyx]], a system of protein-linked and lipid-linked [[Carbohydrate|carbohydrates]]. It allows passage of selective molecules in and out of the cell via [[Carrier proteins|carrier]] or [[Channel proteins|channel proteins]] embedded within the membrane, and it regulates cell growth, shape, movement and division.&nbsp;  


The membrane is associated with proteins, both integral and peripheral which act as either: transporters, linkers, receptors or&nbsp;[[Enzyme|enzymes]].<br>
The membrane is associated with proteins, both integral and peripheral which act as either:  


*fluidity of the lipid bilayer
*transporters
*the [[Glycocalyx|glycocalyx]]
*linkers
*more about [[Proteins|proteins]]
*[[Receptor|receptors]] &nbsp;
*[[Enzyme|enzymes]]<br>
 
The [[Lipid|lipids]] within the [[Lipid bilayer|bilayer]] can freely move, they can diffuse laterally along the membrane (across the same layer), or rotate along their axis, but move occasionally between layers (transverse diffusion). Therefore, plasma membranes are highly assymetric, as protein and lipid composition on intracelullar and extracellular faces of membranes varies<ref>Voet D., Voet J. (2011): Biochemistry, 4th Edition, Hoboken: John Wiley and Sons, Inc. p410</ref>.
 
Lipids&nbsp;are said to be fluid within the system.This fluidity is dependent on:
 
*the length of the [[Phospholipid|phospholipid]] tail
*whether the tail is saturated or not
*the presence of [[Cholesterol|cholesterol]].<br>
 
=== References  ===
 
<references />

Latest revision as of 11:47, 23 November 2018

A plasma membrane encapsulates each and every cell, and is also known as the cell membrane. It acts as a selective barrier which is necessary to allow different concentrations of substances to be maintained between the cell and it's environment. Eukaryotic cells have internal membranes which surround organelles, allowing different constituent concentrations within the cell[1]

The plasma membrane is a lipid bilayer embedded with proteins and cholesterol which is 5nm thick. Lipid bilayers are composed of phospholipids, the most common being phosphatidylcholine. The head part of which is made up of a phosphate and a hydrophilic choline, the tail component of the phospholipid is comprised of two fatty acid chains, long hydrocarbon structures with a chemically active COOH. Since the head is Hydrophilic and the tails are hydrophobic, the phospholipid is said to be amphipathic. The structure of the bilayer is such that the tails are shielded from contact with water, creating a selectively-permeable barrier which will be impermeable to most hydrophilic molecules. 

The plasma membrane has many functions and is a fundamental part of the cell. It communicates with the environment and other cells by means of a glycocalyx, a system of protein-linked and lipid-linked carbohydrates. It allows passage of selective molecules in and out of the cell via carrier or channel proteins embedded within the membrane, and it regulates cell growth, shape, movement and division. 

The membrane is associated with proteins, both integral and peripheral which act as either:

The lipids within the bilayer can freely move, they can diffuse laterally along the membrane (across the same layer), or rotate along their axis, but move occasionally between layers (transverse diffusion). Therefore, plasma membranes are highly assymetric, as protein and lipid composition on intracelullar and extracellular faces of membranes varies[2].

Lipids are said to be fluid within the system.This fluidity is dependent on:

References

  1. Alberts B., Johnson A., Lewis J., Raff M., Roberts K., Walkter P., (2008) Molecular Biology Of The Cell, 5th edition, Newy York: Garland Science
  2. Voet D., Voet J. (2011): Biochemistry, 4th Edition, Hoboken: John Wiley and Sons, Inc. p410
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