Stereochemistry

The different types of isomers. Stereochemistry focuses on stereoisomers

Stereochemistry, a subdiscipline of chemistry, involves the study of the relative spatial arrangement of atoms that form the structure of molecules and their manipulation. An important branch of stereochemistry is the study of chiral molecules.^[1]

Stereochemistry is also known as 3D chemistry because the prefix "stereo-" means "three-dimensionality".^[2]

The study of stereochemistry focuses on stereoisomers and spans the entire spectrum of organic, inorganic, biological, physical and especially supramolecular chemistry. Stereochemistry includes methods for determining and describing these relationships; the effect on the physical or biological properties these relationships impart upon the molecules in question, and the manner in which these relationships influence the reactivity of the molecules in question (dynamic stereochemistry).

History

Louis Pasteur could rightly be described as the first stereochemist, having observed in 1849 that salts of tartaric acid collected from wine production vessels could rotate plane polarized light, but that salts from other sources did not. This property, the only physical property in which the two types of tartrate salts differed, is due to optical isomerism. In 1874, Jacobus Henricus van 't Hoff and Joseph Le Bel explained optical activity in terms of the tetrahedral arrangement of the atoms bound to carbon.

Significance

Cahn–Ingold–Prelog priority rules are part of a system for describing a molecule's stereochemistry. They rank the atoms around a stereocenter in a standard way, allowing the relative position of these atoms in the molecule to be described unambiguously. A Fischer projection is a simplified way to depict the stereochemistry around a stereocenter.

Thalidomide example

An often cited example of the importance of stereochemistry relates to the thalidomide disaster. Thalidomide is a pharmaceutical drug, first prepared in 1957 in Germany, prescribed for treating morning sickness in pregnant women. The drug was discovered to be teratogenic, causing serious genetic damage to early embryonic growth and development, leading to limb deformation in babies. Some of the several proposed mechanisms of teratogenecity involve a different biological function for the (R)- and the (S)-thalidomide enantiomers.^[3] In the human body however, thalidomide undergoes racemization: even if only one of the two enantiomers is administered as a drug, the other enantiomer is produced as a result of metabolism.^[4] Accordingly, it is incorrect to state that one of the stereoisomer is safe while the other is teratogenic.^[5] Thalidomide is currently used for the treatment of other diseases, notably cancer and leprosy. Strict regulations and controls have been enabled to avoid its use by pregnant women and prevent developmental deformations. This disaster was a driving force behind requiring strict testing of drugs before making them available to the public.

Definitions

syn/anti peri/clinal

Many definitions that describe a specific conformer (IUPAC Gold Book) exist, developed by William Klyne and Vladimir Prelog, constituting their Klyne–Prelog system of nomenclature:

a torsion angle of ±60° is called gauche ^[6]
a torsion angle between 0° and ± 90° is called syn (s)
a torsion angle between ± 90° and 180° is called anti (a)
a torsion angle between 30° and 150° or between –30° and –150° is called clinal
a torsion angle between 0° and 30° or 150° and 180° is called periplanar (p)
a torsion angle between 0° to 30° is called synperiplanar or syn- or cis-conformation (sp)
a torsion angle between 30° to 90° and –30° to –90° is called synclinal or gauche or skew (sc)^[7]
a torsion angle between 90° to 150°, and –90° to –150° is called anticlinal (ac)
a torsion angle between ± 150° to 180° is called antiperiplanar or anti or trans (ap).

Torsional strain results from resistance to twisting about a bond.

Types

References

↑ March, Jerry (1985), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure (3rd ed.), New York: Wiley, ISBN 0-471-85472-7
↑ http://dictionary.reference.com/browse/stereo-
↑ Stephens TD, Bunde CJ, Fillmore BJ (June 2000). "Mechanism of action in thalidomide teratogenesis". Biochemical Pharmacology. 59 (12): 1489–99. doi:10.1016/S0006-2952(99)00388-3. PMID 10799645.
↑ Teo SK, Colburn WA, Tracewell WG, Kook KA, Stirling DI, Jaworsky MS, Scheffler MA, Thomas SD, Laskin OL (2004). "Clinical pharmacokinetics of thalidomide". Clin Pharmacokinet. 43 (5): 311–327. doi:10.2165/00003088-200443050-00004. PMID 15080764.
↑ Francl, Michelle (2010). "Urban legends of chemistry". Nature Chemistry. 2: 600–601. Bibcode:2010NatCh...2..600F. doi:10.1038/nchem.750.
↑ Anslyn, Eric V. and Dougherty, Dennis A. Modern Physical Organic Chemistry. University Science (July 15, 2005), 1083 pp. ISBN 1-891389-31-9
↑ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "gauche".

Concepts in organic chemistry

Aromaticity Covalent bonding Functional groups Nomenclature Organic compounds Organic reactions Organic synthesis Publications Spectroscopy Stereochemistry List of organic compounds

Basic reaction mechanisms

Nucleophilic substitutions	Unimolecular nucleophilic substitution (S_N1) Bimolecular nucleophilic substitution (S_N2) Nucleophilic aromatic substitution (S_NAr) Nucleophilic internal substitution (S_Ni) Nucleophilic acyl substitution

Elimination reactions	Unimolecular elimination (E1) E1cB-elimination reaction Bimolecular elimination (E2)

Addition reactions	Electrophilic addition Nucleophilic addition Free-radical addition Cycloaddition

Related topics	Elementary reaction Molecularity Stereochemistry Catalysis Collision theory Solvent effects Arrow pushing

Chemical kinetics	Rate equation Rate-determining step

Branches of chemistry

Dictionary of chemical formulas List of biomolecules List of inorganic compounds Periodic table

Physical	Chemical kinetics Chemical physics Nuclear chemistry Electrochemistry Femtochemistry Geochemistry Photochemistry Quantum chemistry Solid-state chemistry Spectroscopy Surface science Thermochemistry

Organic	Biochemistry Bioorganic chemistry Biophysical chemistry Chemical biology Clinical chemistry Fullerene chemistry Medicinal chemistry Neurochemistry Organic chemistry Pharmacy Physical organic chemistry Polymer chemistry

Inorganic	Bioinorganic chemistry Cluster chemistry Coordination chemistry Inorganic chemistry Materials science Organometallic chemistry

Others	Actinide chemistry Analytical chemistry Astrochemistry Chemistry education Clay chemistry Click chemistry Computational chemistry Cosmochemistry Environmental chemistry Food chemistry Forensic chemistry Green chemistry Post-mortem chemistry Supramolecular chemistry Theoretical chemistry Wet chemistry

Category Portal Commons WikiProject

Authority control	LCCN: sh85128002 GND: 4129569-9 NDL: 00569570

This article is issued from Wikipedia - version of the 11/17/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.