Meso compound

Not to be confused with Mesomer.

A meso compound or meso isomer is a non-optically active member of a set of stereoisomers, at least two of which are optically active.^[1]^[2] This means that despite containing two or more stereogenic centers, the molecule is not chiral. A meso compound is "superposable" on its mirror image (not to be confused with superimposable, as any two objects can be superimposed over one another regardless of whether they are the same. If two objects can be superposed, all aspects of the objects coincide) and it does not produce a "(+)" or "(-)" reading when analyzed with a polarimeter.^[3]

For example, tartaric acid can exist as any of three stereoisomers depicted below in a Fischer projection. Of the four colored pictures at the top of the diagram, the first two represent the meso compound (the 2R,3S and 2S,3R isomers are equivalent), followed by the optically active pair of dextrotartaric acid (L-(R,R)-(+)-tartaric acid) and levotartaric acid (D-(S,S)-(-)-tartaric acid). The meso compound is bisected by an internal plane of symmetry that is not present for the non-meso isomers (indicated by an X). That is, on reflecting the meso compound through a mirror plane perpendicular to the screen, the same stereochemistry is obtained; this is not the case for the non-meso tartaric acid.^[3]

It is a requirement for two of the stereocenters in a meso compound to have at least two substituents in common (although having this characteristic does not necessarily mean that the compound is meso). For example, in 2,4-pentanediol, both the second and fourth carbons, which are stereocenters, have all four substituents in common.

Since a meso isomer has a superposable mirror image, a compound with a total of n chiral centers cannot attain the theoretical maximum of 2ⁿ stereoisomers if one of the stereoisomers is meso.^[4]

Cyclic meso compounds

1,2-substituted cyclopropane has a meso cis-isomer (molecule has a mirror plane) and two trans-enantiomers:

The two cis stereoisomers of 1,2-substituted cyclohexanes behave like meso compounds at room temperature in most cases. At room temperature, most 1,2-disubstituted cyclohexanes undergo rapid ring flipping (exceptions being rings with bulky substituents), and as a result, the two cis stereoisomers behave chemically identically with chiral reagents.^[5] At low temperatures, however, this is not the case, as the activation energy for the ring-flip cannot be overcome, and they therefore behave like enantiomers. Also noteworthy is the fact that when a cyclohexane undergoes a ring flip, the absolute configurations of the sterocenters do not change.

References

↑ The Meaning of Meso Addison Ault Vol. 85 No. 3 March 2008 • Journal of Chemical Education 441
↑ http://goldbook.iupac.org/M03839.html
1 2 McMurry, John (2008). Organic Chemistry (7th Ed.). Thomson. pp. 305–7. ISBN 978-0-495-11258-7.
↑ Bruice, Paula. Organic Chemistry. 2007. Pearson Prentice Hall. Upper Saddle River NJ.
↑ Vollhardt, K. Peter C. Organic Chemistry: Structure and Function, Fourth Ed. 2003. W.H. Freeman and Co. New York. pp. 187.

Concepts in asymmetric synthesis

Chirality types	Chirality Stereocenter Planar chirality Chiral ligand Axial chirality Supramolecular chirality Inherent chirality

Chiral molecules	Stereoisomer Enantiomer Diastereomer meso compound racemic mixture Enantiomeric excess (ee) Diastereomeric excess (de)

Analysis	Optical rotation Chiral derivatizing agents NMR spectroscopy of stereoisomers Ultraviolet-visible spectroscopy of stereoisomers

Chiral resolution	Recrystallization Kinetic resolution Chiral column chromatography Diastereomeric recrystallization

Reactions	Asymmetric induction Chiral pool synthesis Chiral auxiliaries Asymmetric catalysis Organocatalysis Biocatalysis

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