Tautomer

Tautomers (/ˈtɔːtəmər/)[1] are structural isomers (constitutional isomers) of chemical compounds that readily interconvert.[2][3][4][5] This reaction commonly results in the relocation of a proton. Tautomerism is for example relevant to the behavior of amino acids and nucleic acids, two of the fundamental building blocks of life.

The two tautomers of an amino acid: (1) neutral and (2) zwitterionic forms.

The concept of tautomerizations is called tautomerism. Tautomerism is also called desmotropism. The chemical reaction interconverting the two is called tautomerization.

Care should be taken not to confuse tautomers with depictions of "contributing structures" in chemical resonance. Tautomers are distinct chemical species and can be identified as such by their differing spectroscopic data,[6] whereas resonance structures are merely convenient depictions and do not physically exist.

Examples

Some examples of tautomers
Keto-enol tautomerization typically strongly favors the keto tautomer, but an important exception is the case of 1,3-diketones such as acetylacetone.

Tautomerization is pervasive in organic chemistry. It is typically associated with polar molecules and ions containing functional groups that are at least weakly acidic. Most common tautomers exist in pairs, which means that the proton is located at one of two positions, and even more specifically the most common form involves a hydrogen changing places with a double bond: H−X−Y=Z ⇌ X=Y−Z−H. Common tautomeric pairs include:[7]

Prototropy

Prototropy is the most common form of tautomerism and refers to the relocation of a proton.[8] Prototropic tautomerism may be considered a subset of acid-base behavior. Prototropic tautomers are sets of isomeric protonation states with the same empirical formula and total charge. Tautomerizations are catalyzed by:

  • bases, involving a series of steps: deprotonation, formation of a delocalized anion (e.g., an enolate), and protonation at a different position of the anion; and
  • acids, involving a series of steps: protonation, formation of a delocalized cation, and deprotonation at a different position adjacent to the cation).
Glucose can exist in both a straight-chain and ring form.

Two specific further subcategories of tautomerizations:

  • Annular tautomerism is a type of prototropic tautomerism wherein a proton can occupy two or more positions of a heterocyclic system, for example, 1H- and 3H-imidazole; 1H-, 2H- and 4H- 1,2,4-triazole; 1H- and 2H- isoindole.[9]
  • Ring–chain tautomers occur when the movement of the proton is accompanied by a change from an open structure to a ring, such as the open chain and cyclic hemiacetal (typically pyranose or furanose forms) of many sugars.[7] (See Carbohydrate § Ring-straight chain isomerism.) The tautomeric shift can be described as H−OC=O ⇌ O−C−O−H, where the "⋅" indicates the initial absence of a bond.

Valence tautomerism

Valence tautomerism is a type of tautomerism in which single and/or double bonds are rapidly formed and ruptured, without migration of atoms or groups.[10] It is distinct from prototropic tautomerism, and involves processes with rapid reorganisation of bonding electrons.

Oxepin – benzene oxide equilibrium

A pair of valence tautomers with formula C6H6O are benzene oxide and oxepin.[10][11]

Other examples of this type of tautomerism can be found in bullvalene, and in open and closed forms of certain heterocycles, such as organic azides and tetrazoles,[12] or mesoionic münchnone and acylamino ketene.

Valence tautomerism requires a change in molecular geometry and should not be confused with canonical resonance structures or mesomers.

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See also

References

  1. "tautomer". Oxford Dictionaries - English. Archived from the original on 2018-02-19.
  2. Antonov L (2013). Tautomerism: Methods and Theories (1st ed.). Weinheim, Germany: Wiley-VCH. ISBN 978-3-527-33294-6.
  3. Antonov L (2016). Tautomerism: Concepts and Applications in Science and Technology (1st ed.). Weinheim, Germany: Wiley-VCH. ISBN 978-3-527-33995-2.
  4. Smith MB, March J (2001). Advanced Organic Chemistry (5th ed.). New York: Wiley Interscience. pp. 1218–1223. ISBN 978-0-471-58589-3.
  5. Katritzky AR, Elguero J, et al. (1976). The Tautomerism of heterocycles. New York: Academic Press. ISBN 978-0-12-020651-3.
  6. Smith, Kyle T.; Young, Sherri C.; DeBlasio, James W.; Hamann, Christian S. (27 January 2016). "Measuring Structural and Electronic Effects on Keto–Enol Equilibrium in 1,3-Dicarbonyl Compounds". Journal of Chemical Education. 93 (4): 790–794. doi:10.1021/acs.jchemed.5b00170.
  7. Smith, Michael B.; March, Jerry (2007), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure (6th ed.), New York: Wiley-Interscience, ISBN 978-0-471-72091-1
  8. IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006) "Tautomerism". doi:10.1351/goldbook.T06252
  9. Roman M. Balabin (2009). "Tautomeric equilibrium and hydrogen shifts in tetrazole and triazoles: Focal-point analysis and ab initio limit". J. Chem. Phys. 131 (15): 154307. Bibcode:2009JChPh.131o4307B. doi:10.1063/1.3249968. PMID 20568864.
  10. IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006) "valence tautomerization". doi:10.1351/goldbook.V06591.html
  11. E. Vogel and H. Günther (1967). "Benzene Oxide-Oxepin Valence Tautomerism". Angewandte Chemie International Edition in English. 6 (5): 385–401. doi:10.1002/anie.196703851.
  12. Lakshman Mahesh K., Singh Manish K., Parrish Damon, Balachandran Raghavan, Day Billy W. (2010). "Azide−Tetrazole Equilibrium of C-6 Azidopurine Nucleosides and Their Ligation Reactions with Alkynes". The Journal of Organic Chemistry. 75 (8): 2461–2473. doi:10.1021/jo902342z. PMC 2877261. PMID 20297785.CS1 maint: multiple names: authors list (link)
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