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The alpha helix is the name given to the  way that the [[Secondary structure|secondary structure]] of a [[Polypeptide|polypeptide]] chain can be folded. Its structure was proposed in 1951 by [[Linus Pauling|Linus Pauling]] and [[Robert Corey|Robert Corey]] along with the [[Beta pleated sheet|beta pleated sheet]].  
The alpha helix is the name given to the  way that the [[Secondary structure|secondary structure]] of a [[Polypeptide|polypeptide]] chain can be folded. Its structure was proposed in 1951 by [[Linus Pauling|Linus Pauling]] and [[Robert Corey|Robert Corey]] along with the [[Beta pleated sheet|beta pleated sheet]].  


The alpha helix was proposed to have a rod like structure and when coiled up it had a similar appearance to that of [[DNA|DNA]] presented by [[Watson and Crick|Watson and Crick]]. The inside of the helix consists of the tightly coiled backbone with the side chains ([[R Group|R&nbsp;Group]]) of the [[Amino_acids|amino acids ]]extending outwards. The helix is held together by [[Hydrogen bonds|hydrogen bonds]] which are between the [[NH Group|NH]] and the [[CO group|CO groups]] of the [[Amino acids|amino acids]].&nbsp;As the helix is tightly coiled there are 3.6 amino acid [[Amino_acid_residues|residues]] per turn and each [[Amino_acid_residues|residue]] is a traslation of 1.5 [[Angstroms|Angstroms]] and a rotation of 100 degrees. The alpha helix can either have a clockwise or anticlockwise screw sense<ref>Berg J.,Tymoczko J.,Stryer L.,(2010)Biochemistry,7th Edition,New York(USA):W.H.Freeman and Company, pgs 38,39</ref>
The alpha helix was proposed to have a rod like structure and when coiled up it had a similar appearance to that of [[DNA|DNA]] presented by [[Watson and Crick|Watson and Crick]]. The inside of the helix consists of the tightly coiled backbone with the side chains ([[R Group|R&nbsp;Group]]) of the [[Amino acids|amino acids extending]] outwards. The helix is held together by [[Hydrogen bonds|hydrogen bonds]] which are between the [[NH Group|NH]] and the [[CO group|CO groups]] of the [[Amino acids|amino acids]].&nbsp;As the helix is tightly coiled there are 3.6 amino acid [[Amino acid residues|residues]] per turn and each [[Amino acid residues|residue]] is a traslation of 1.5 [[Angstroms|Angstroms]] and a rotation of 100 degrees. The alpha helix can either have a clockwise or anticlockwise screw sense<ref>Berg J.,Tymoczko J.,Stryer L.,(2010)Biochemistry,7th Edition,New York(USA):W.H.Freeman and Company, pgs 38,39</ref>  


= '''References''' =
= '''References''' =


&nbsp;<references />
<references />

Revision as of 18:49, 28 November 2011

The alpha helix is the name given to the  way that the secondary structure of a polypeptide chain can be folded. Its structure was proposed in 1951 by Linus Pauling and Robert Corey along with the beta pleated sheet.

The alpha helix was proposed to have a rod like structure and when coiled up it had a similar appearance to that of DNA presented by Watson and Crick. The inside of the helix consists of the tightly coiled backbone with the side chains (R Group) of the amino acids extending outwards. The helix is held together by hydrogen bonds which are between the NH and the CO groups of the amino acids. As the helix is tightly coiled there are 3.6 amino acid residues per turn and each residue is a traslation of 1.5 Angstroms and a rotation of 100 degrees. The alpha helix can either have a clockwise or anticlockwise screw sense[1]

References

  1. Berg J.,Tymoczko J.,Stryer L.,(2010)Biochemistry,7th Edition,New York(USA):W.H.Freeman and Company, pgs 38,39
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