Chiral carbon: Difference between revisions

Revision as of 17:11, 30 November 2012

A chiral carbon is a carbon atom which has 4 different groups attached. For each chrial carbon in a molecule there are 2 optical isomers. This increases exponentially with more chiral carbons, so a molecule with 2 chiral centers would have 4 optical isomers, and a molecule with 3 would have 8 optical isomers. This can be calcultated by 2^n where n is the number of chiral carbons. In nature often only one optical isomer is produced, for example only L isomer amino acids are produced in translation.

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	A chiral [[Carbon\|carbon]] is a carbon [[Atom\|atom]] which has 4 different groups attached. For each chrial carbon in a molecule there are 2 optical isomers. This increases exponentially with more chiral carbons, so a molecule with 2 chiral centers would have 4 optical isomers, and a molecule with 3 would have 8 optical isomers. ~~THis~~ can be calcultated by 2^n where n is the number of chiral carbons. In nature often only one optical isomer is produced, for example only L isomer amino acids are produced in translation.		A chiral [[Carbon\|carbon]] is a carbon [[Atom\|atom]] which has 4 different groups attached. For each chrial carbon in a molecule there are 2 optical isomers. This increases exponentially with more chiral carbons, so a molecule with 2 chiral centers would have 4 optical isomers, and a molecule with 3 would have 8 optical isomers. This can be calcultated by 2^n where n is the number of chiral carbons. In nature often only one optical isomer is produced, for example only L isomer amino acids are produced in translation.

Chiral carbon: Difference between revisions

Revision as of 17:11, 30 November 2012

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