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Carbohydrates exist in a variety of isomeric forms, they have stereoisomers, molecules that have the same molecular formula but differ in their spatial arrangement. Carbohydrates can have a D-configuration or L-configuation, known as enantiomers, these are mirror images of each other. The D/L configuation is dictated by the assymmetrical carbon in the carbohydrate carbon chain which is furthest from the aldohyde or ketone group. Most of the carbohydrates found in vertebrates are in the D-configuation. An example is the hexose carbohydrate, D-glucose, the carbon5 (C5) is the furtherest assymmetrical carbon from the aldehyde group, CH2OH group on the C5 lies in the equatorial plane and the Hydrogen is in the axial plane. In its enantimer L-glucose this configuration is reverse, the Hydrogen in the equatorial plane and the CH2OH roup in the axial.<ref>Berg JM, Tymoczko JL, Gatto GJ, Stryer L: Biochemistry.  8th Ed, New York: W.H. Freeman and Company. 2015: p317</ref><sub></sub>  
Carbohydrates exist in a variety of [[Isomeric forms|isomeric forms]], they have [[Stereoisomers|stereoisomers]], [[Molecules|molecules]] that have the same molecular formula but differ in their spatial arrangement. Carbohydrates can have a D-configuration or L-configuration, known as [[Enantiomers|enantiomers]], these are mirror images of each other. The D/L configuration is dictated by the asymmetrical [[Carbon|carbon]] in the carbohydrate carbon chain which is furthest from the [[Aldehyde|aldehyde]] or [[Ketone|ketone]] group. Most of the carbohydrates found in vertebrates are in the D-configuration. An example is the hexose carbohydrate, D-glucose, the carbon5 (C5) is the furthermost asymmetrical carbon from the aldehyde group, CH2OH group on the C5 lies in the equatorial plane and the Hydrogen is in the axial plane. In its enantiomer L-glucose this configuration is reversed, the Hydrogen in the equatorial plane and the CH<sub>2</sub>OH group in the axial<ref>Berg JM, Tymoczko JL, Gatto GJ, Stryer L: Biochemistry.  8th Ed, New York: W.H. Freeman and Company. 2015: p317</ref>.<sub></sub><br>  
 
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=== References  ===
=== References  ===


=== <references />&nbsp; ===
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Latest revision as of 07:49, 23 November 2018

Carbohydrates exist in a variety of isomeric forms, they have stereoisomers, molecules that have the same molecular formula but differ in their spatial arrangement. Carbohydrates can have a D-configuration or L-configuration, known as enantiomers, these are mirror images of each other. The D/L configuration is dictated by the asymmetrical carbon in the carbohydrate carbon chain which is furthest from the aldehyde or ketone group. Most of the carbohydrates found in vertebrates are in the D-configuration. An example is the hexose carbohydrate, D-glucose, the carbon5 (C5) is the furthermost asymmetrical carbon from the aldehyde group, CH2OH group on the C5 lies in the equatorial plane and the Hydrogen is in the axial plane. In its enantiomer L-glucose this configuration is reversed, the Hydrogen in the equatorial plane and the CH2OH group in the axial[1].

References

  1. Berg JM, Tymoczko JL, Gatto GJ, Stryer L: Biochemistry. 8th Ed, New York: W.H. Freeman and Company. 2015: p317
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