Nucleophilic conjugate addition
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Nucleophilic conjugate addition is a type of organic reaction. Ordinary nucleophilic additions or 1,2-nucleophilic additions deal mostly with additions to carbonyl compounds. Simple alkene compounds do not show 1,2 reactivity due to lack of polarity, unless the alkene is activated with special substituents. With α,β-unsaturated carbonyl compounds such as cyclohexenone it can be deduced from resonance structures that the β position is an electrophilic site which can react with a nucleophile. The negative charge in these structures is stored in as an hydroxide anion. Such a nucleophilic addition is called a nucleophilic conjugate addition or 1,4-nucleophilic addition. The most important actived alkenes are the aforementioned conjugated carbonyls and acrylonitriles.
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[edit] Reaction mechanism
A nucleophile reacts with a α,β-unsaturated carbonyl compound in the β position. The negative charge carried by the nucleophile is now delocalized in the hydroxyl anion and the α carbon carbanion by resonance. Protonation leads through Keto-enol tautomerism to the saturated carbonyl compound.
[edit] Reactions
- Conjugated carbonyls react with secondary amines to 1,4-keto-amines. For example the conjugate addition of methylamine to 2-cyclohexenone gives the compound 3-(N-methylamino)-cyclohexanone.
- Conjugated carbonyls react with hydrogen cyanide to 1,4-keto-nitriles. In the Nagata reaction the cyanide source is diethylaluminum cyanide.
- The Gilman reagent is an effective nucleophile for 1,4-additions to conjugated carbonyls.
- The Michael reaction involves conjugate additions of enolates to conjugated carbonyls.
- The Stork enamine reaction involves the conjugate addition of enamines to conjugated carbonyls.
[edit] Scope
Conjugate addition is effective in the formation of new carbon-carbon bonds with the aid of organometallic reagents such as the organo zinc iodide reaction with methylvinylketone.
An example of an asymmetric synthesis by conjugate addition is the synthesis of (R)-3-phenyl-cyclohexanone from cyclohexenone, phenylboronic acid, a rhodium acac catalyst and the chiral ligand BINAP.
In another example of asymmetric synthesis the α,β-unsaturated carbonyl compound first reacts with a chiral imidazolidinone catalyst and chiral auxiliary to an iminium compound in an alkylimino-de-oxo-bisubstitution which then reacts enantioselective with the furan nucleophile. The immediate reaction product is an nucleophilic enamine and the reaction cascades with abstraction of chlorine from a chlorinated quinone. After removal of the amine catalyst the ketone is effectively functionalized with a nucleophile and an electrophile with syn:anti ratio of 8:1 and 97% enantiomeric excess.
This principle is also applied in an enantioselective multicomponent domino conjugated Addition of nucleophilic thiols such as benzyl mercaptan and electrophilic DEAD.
[edit] References
- ^ Asymmetric Synthesis of exo-Isobrevicomin and exo-Brevicomin via Conjugated Addition of Primary Alkyl Iodides to a, b-Unsaturated Ketones Andréa L. de Sousa and Inês S. Resck J. Braz. Chem. Soc. vol.13 no.2 São Paulo 2002 Online Article
- ^ (R)-3-phenyl-cyclohanone Tamio Hayashi, Makoto Takahashi, Yoshiaki Takaya, and Masamichi Ogasawara Organic Syntheses, Coll. Vol. 10, p.609 (2004); Vol. 79, p.84 (2002). Online article
- ^ Enantioselective Organo-Cascade Catalysis Yong Huang, Abbas M. Walji, Catharine H. Larsen, and David W. C. MacMillan J. Am. Chem. Soc.; 2005; 127(43) pp 15051 - 15053; (Communication) DOI: 10.1021/ja055545d Abstract
- ^ Asymmetric Multicomponent Domino Reactions and Highly Enantioselective Conjugated Addition of Thiols to ,α,β-Unsaturated AldehydesMauro Marigo, Tobias Schulte, Johan Franzén, and Karl Anker Jorgensen J. Am. Chem. Soc.; 2005; 127(45) pp 15710 - 15711; (Communication) DOI: 10.1021/ja055291 Abstract