Phospholipid

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They are highly abundant in [[Cell membranes|cell membranes]], where they form a [[Lipid bi-layer|lipid bilayer]], due to the [[Amphiphatic|amphiphatic]] nature of&nbsp;their [[Hydrophilic|hydrophilic]] heads and&nbsp;[[Hydrophobic|hydrophobic]]&nbsp;tails&nbsp;<ref>Alberts et al. (2002) Molecular Biology Of The Cell, 4th edition, New York: Garland Science. p62</ref>.&nbsp;The majority of atoms in the [[Hydrophobic|hydrophobic]] tails are nonpolar and have no&nbsp;charge, this is what makes them insoluble when dissolved in [[Water|water]]. However, the hydrophilic heads are soluble in water due to the presence of either charged groups which are electrostatically attracted to the [[Water|water]] [[Molecule|molecules]],&nbsp;or polar groups which&nbsp;enable [[Hydrogen bonds|hydrogen bonds]] to be&nbsp;form between the heads and the [[Water|water]] [[Molecule|molecules]]&nbsp;<ref>Alberts et al. (2008) Molecular Biology Of The Cell, 5th edition, New York: Garland Science. p620</ref>.<br>  
 
They are highly abundant in [[Cell membranes|cell membranes]], where they form a [[Lipid bi-layer|lipid bilayer]], due to the [[Amphiphatic|amphiphatic]] nature of&nbsp;their [[Hydrophilic|hydrophilic]] heads and&nbsp;[[Hydrophobic|hydrophobic]]&nbsp;tails&nbsp;<ref>Alberts et al. (2002) Molecular Biology Of The Cell, 4th edition, New York: Garland Science. p62</ref>.&nbsp;The majority of atoms in the [[Hydrophobic|hydrophobic]] tails are nonpolar and have no&nbsp;charge, this is what makes them insoluble when dissolved in [[Water|water]]. However, the hydrophilic heads are soluble in water due to the presence of either charged groups which are electrostatically attracted to the [[Water|water]] [[Molecule|molecules]],&nbsp;or polar groups which&nbsp;enable [[Hydrogen bonds|hydrogen bonds]] to be&nbsp;form between the heads and the [[Water|water]] [[Molecule|molecules]]&nbsp;<ref>Alberts et al. (2008) Molecular Biology Of The Cell, 5th edition, New York: Garland Science. p620</ref>.<br>  
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The most common constituent of any [[Lipid bilayer|lipid bilayer]] making up a cell membrane is the phospholipid. Phospholipids are [[Amphiphilic|amphiphilic]]. They have a [[Polar|polar]] head and two hydrocarbon tails, which are [[Non-polar|nonpolar]]. The phosopholipids that make up the&nbsp;cell membranes&nbsp;of plant, bacterial or animal cells often have&nbsp;[[Fatty acids|fatty acids]] tails. Of these two fatty acid tails one is unsaturated (contains double bonds) and the other is saturated.&nbsp;This&nbsp;difference causes variation in the length of the tails and thus alters the fluidity of the [[Plasma membrane|membrane]]&nbsp;<ref name="null">Bruce Alberts,Alexander Johnson, Julian Lewis, Martin Raff, Keith Roberts, Peter Walter, Molecular Biology of the Cell, Fifth edition, 2008, Garland Science, New York. p618</ref>. The chemical make up of the tails can differ. This means that there are many different phospholipids that can make up a cell membrane. The main&nbsp;type used are the phosphoglycerides.&nbsp;&nbsp;The phospholipid [[Lipid bilayer|bilayer]] acts as a barrier allowing the smaller molecules such as O<sub>2</sub>&nbsp; and [[Glycerol|glycerol]] in, but keeping larger molecules such as [[Amino acids|amino acids]] and ions out. Thes bilayer can be broken down by detergents.<br>
  
 
=== References  ===
 
=== References  ===
  
 
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Revision as of 22:25, 8 January 2011

Phospholipids are lipid molecules which have a phosphate group attached.

They are highly abundant in cell membranes, where they form a lipid bilayer, due to the amphiphatic nature of their hydrophilic heads and hydrophobic tails [1]. The majority of atoms in the hydrophobic tails are nonpolar and have no charge, this is what makes them insoluble when dissolved in water. However, the hydrophilic heads are soluble in water due to the presence of either charged groups which are electrostatically attracted to the water molecules, or polar groups which enable hydrogen bonds to be form between the heads and the water molecules [2].

The most common constituent of any lipid bilayer making up a cell membrane is the phospholipid. Phospholipids are amphiphilic. They have a polar head and two hydrocarbon tails, which are nonpolar. The phosopholipids that make up the cell membranes of plant, bacterial or animal cells often have fatty acids tails. Of these two fatty acid tails one is unsaturated (contains double bonds) and the other is saturated. This difference causes variation in the length of the tails and thus alters the fluidity of the membrane [3]. The chemical make up of the tails can differ. This means that there are many different phospholipids that can make up a cell membrane. The main type used are the phosphoglycerides.  The phospholipid bilayer acts as a barrier allowing the smaller molecules such as O2  and glycerol in, but keeping larger molecules such as amino acids and ions out. Thes bilayer can be broken down by detergents.

References

  1. Alberts et al. (2002) Molecular Biology Of The Cell, 4th edition, New York: Garland Science. p62
  2. Alberts et al. (2008) Molecular Biology Of The Cell, 5th edition, New York: Garland Science. p620
  3. Bruce Alberts,Alexander Johnson, Julian Lewis, Martin Raff, Keith Roberts, Peter Walter, Molecular Biology of the Cell, Fifth edition, 2008, Garland Science, New York. p618
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