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(Página creada con '{{traducción}} right Molecules like amino acids are '''chiral''', meaning they exist as optical isomers of each other. A "chiral" molecule (fr...')
 
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The two isomeric forms ([[enantiomer|enantiomers]]) of [[amino acids]] are known as the D and L forms. Enantiomeric molecules are physically and chemically indistinguishable by most of the techniques available and only when probed asymmetrically, for instance, by plane-polarized light can they be distinguished.<ref name=bio /> Although most amino acids (except for [[glycine]], which is non-chiral) can exist in both L and D forms, [[life]] on Earth is made of only L-form amino acids. The L form is found in proteins. The D form is found in only some [[proteins]] that are formed by exotic sea dwelling organisms. No one knows why this is the case, but it offers strong evidence that life was designed rather than the result of random [[Abiogenesis|chemical evolution]].
 
The two isomeric forms ([[enantiomer|enantiomers]]) of [[amino acids]] are known as the D and L forms. Enantiomeric molecules are physically and chemically indistinguishable by most of the techniques available and only when probed asymmetrically, for instance, by plane-polarized light can they be distinguished.<ref name=bio /> Although most amino acids (except for [[glycine]], which is non-chiral) can exist in both L and D forms, [[life]] on Earth is made of only L-form amino acids. The L form is found in proteins. The D form is found in only some [[proteins]] that are formed by exotic sea dwelling organisms. No one knows why this is the case, but it offers strong evidence that life was designed rather than the result of random [[Abiogenesis|chemical evolution]].
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==Discovery==
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In 1848, [[Louis Pasteur]] working as a [[chemist]] with a solution of synthetic ammonium tartrate tetrahydrate contaminated it with a mold and the solution became more optically active as the time passed.<ref>{{cite book|author=Yockey, Hubert P|authorlink=Hubert Yockey|title=Information Theory, Evolution, and the Origin of Life|publisher=Cambridge University Press|location=Cambridge|year=2005|page=
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2|isbn=978-0-521-80293-2}}</ref> For the first time anyone had demonstrated chiral molecules.
  
 
== Formula Mass ==
 
== Formula Mass ==
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* [http://www.icr.org/article/evolution-hopes-you-dont-know-chemistry-problem-wi/ Evolution Hopes You Don't Know Chemistry: The Problem with Chirality] by [[Charles McCombs]], Ph.D.
 
* [http://www.icr.org/article/evolution-hopes-you-dont-know-chemistry-problem-wi/ Evolution Hopes You Don't Know Chemistry: The Problem with Chirality] by [[Charles McCombs]], Ph.D.
  
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Revisión del 15:42 31 oct 2013

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Molecules like amino acids are chiral, meaning they exist as optical isomers of each other. A "chiral" molecule (from the Plantilla:Greek Name[1], Plantilla:Greek Name2, a hand) is one that can not be superimposed on its mirror image. Just as left and right hands are mirror images and not the same, chiral molecules have the same things attached in the same order, but opposite of each other.

The two isomeric forms (enantiomers) of amino acids are known as the D and L forms. Enantiomeric molecules are physically and chemically indistinguishable by most of the techniques available and only when probed asymmetrically, for instance, by plane-polarized light can they be distinguished.[1] Although most amino acids (except for glycine, which is non-chiral) can exist in both L and D forms, life on Earth is made of only L-form amino acids. The L form is found in proteins. The D form is found in only some proteins that are formed by exotic sea dwelling organisms. No one knows why this is the case, but it offers strong evidence that life was designed rather than the result of random chemical evolution.


Discovery

In 1848, Louis Pasteur working as a chemist with a solution of synthetic ammonium tartrate tetrahydrate contaminated it with a mold and the solution became more optically active as the time passed.[2] For the first time anyone had demonstrated chiral molecules.

Formula Mass

The formula mass of any compound (ionic or molecular) is equal to the sum of the atomic masses of its constituent elements. If the compound is molecular, then the terms molecular mass or molar mass may properly describe this quantity.

Plantilla:Chemistry portal

See Also

References

Plantilla:Reflist

Related references

  1. 1,0 1,1 Plantilla:Cite book
  2. Plantilla:Cite book