Cyclic nucleophilic addition reactions

Acetal and hemiacetal groups are particularly common in carbohydrate chemistry. Glucose, for instance, is a polyhydroxy aldehyde that undergoes an internal nucleophilic addition reaction and exists primarily as a cyclic hemiacetal. 

Glycolysis is a ten-step process that begins with isomerization of glucose from its cyclic hemiacetal form to its open-chain aldehyde form—a reverse nucleophilic addition reaction. The aldehyde then undergoes tautomerixa-tion to yield an enol, which undergoes yet another tautomerization to give the ketone fructose. 

Since equatorial attack is roughly antiperiplanar to two C-C bonds of the cyclic ketone, an extended hypothesis of antiperiplanar attack was proposed39. Since the incipient bond is intrinsically electron deficient, the attack of a nucleophile occurs anti to the best electron-donor bond, with the electron-donor order C—S > C —H > C —C > C—N > C—O. The transition state-stabilizing donor- acceptor interactions are assumed to be more important for the stereochemical outcome of nucleophilic addition reactions than the torsional and steric effects suggested by Felkin. 

The stereochemical outcome of nucleophilic addition reactions to cyclic ketones is the subject of numerous experimental and theoretical studies, with substituted cyclohexanones and cy-clopcntanones having been intensively studied. In addition reactions to substituted cyclohexanones 1 the problem of simple diastereoselectivity is manifested in the predominance of cither axial attack of a nucleophile, leading to the equatorial alcohol 2 A. or equatorial attack of the nucleophile which leads to the axial alcohol 2B. 

A very elegant expansion of the synthetic utility of this intramolecular amination was the insertion reactions into ethereal G-H bonds. Du Bois and co-workers have exploited this reactivity to prepare cyclic sulfamates that are then used as iminium ion equivalents. Upon treatment with a suitable Lewis acid, nucleophilic addition reactions... 

Murahashi and co-workers (49) extensively studied the synthesis of nitrones such as 29 by a decarboxylative oxidation of proline derivatives (Scheme 12.12). However, these nitrones were primarily used in nucleophilic addition reactions rather than 1,3-dipolar cycloadditions. Others have synthesized cyclic nitrones 30 and 31 having a chiral center adjacent to the nitrogen atom (50,51). Saito and co-workers (51) applied nitrone 31 in reactions with fumaric and maleic acid... 

Nucleophilic addition reactions of para-substituted benzylamines (XC6H4CH2NH2) to a-phenyl-/9-thiophenylacrylonitriles [Y(C4SH2)CH=C(CN)C6H4Y/] have been studied in acetonitrile at 25.0, 30.0, and 35.0 °C. The reactions apparently take place in a single step in which the C/ -N bond formation and proton transfer to C of a-phenyl-/3-thiophenyl acrylonitriles occur concurrently with a four-membered cyclic transition structure. These mechanistic conclusions were deduced from the following ... 

The above nucleophilic addition reactions involve N—C bond formation, a bond that can also be created by insertion (at least formally) of a nitrile into a metal-N bond.148-150 Stereochemical and kinetic4,8 studies have been reported, although with few examples, for the addition of amines to nitriles at Pt11 centers, and the latter are indicative of the involvement, similar to the addition of alcohols (see above), of cyclic 4- and 6-center transition states, with one or two amine molecules, respectively, interacting with N=C. 

Addition reactions of the 4-tm-butylcyclohexyl radical have been studied with a variety of alkenes and also in atom-abstraction reactions (see Section D.2.2.)3 58. While hydrogen or halide abstraction reactions yield preferentially the axial product, unselective addition occurs with terminally unsubstituted alkenes. In addition reactions of alkenes substituted by alkyl groups at the attacked olefinic center, the preference for axial attack decreases further and the equatorial addition product is formed. This influence of the size of the reaction partner on the selectivity is rationalized on the basis of the simultaneous presence of steric effects (hindering axial attack) and torsional effects (hindering equatorial attack), very similar to those discussed for nucleophilic addition reactions to cyclic ketones59. 

We reasoned that some cyclic enone sulfoxides should form an even more rigid chelate than that formed from the corresponding acyclic alkenyl sulfoxides when complexed with metal ions model exemplifies the case for a cyclopentenone sulfoxide and suggests a high degree of stereocontrol during the nucleophilic addition reaction. 

Proline also is synthesized from glutamate 5-semialdehyde hy nonenzy-matic formation of a cyclic imine followed by enzymatic reduction of the C=N bond with NADH in a nucleophilic addition reaction. 

Thiolate-bridged dirutheniutn complexes catalyze the [3-f3] cycloaddition reaction between propargylic alcohols and cyclic 1,3-dicarbonyl compounds to afford 4,6,7,8-tetrahydrochromen-5-ones or 4//-cyclopenta[b]pyran-5-ones [193] and with 2-naphthols or phenols to afford l//-naphtho[2,l-b]pyrans and 4//-l-benzo-pyrans, respectively [194]. This cycloaddition is considered to proceed by stepwise propargylation and intramolecular cyclization (carbon and oxygen nucleophile additions) reactions, where ruthenium allenylidene and vinylidene complexes are the key intermediates (Scheme 57). Enantioselective mthenium-catalyzed [3-f3] cycloaddition of propargylic alcohols with 2-naphthols has also been described [195]. 

Cyanohydrins are formed by nucleophilic addition of HCN to the carbonyl group of an aldehyde or a ketone Cycloadd ition (Section 10 12) Addition such as the Diels-Alder reaction in which a ring is formed via a cyclic transition state... 

Azirines (three-membered cyclic imines) are related to aziridines by a single redox step, and these reagents can therefore function as precursors to aziridines by way of addition reactions. The addition of carbon nucleophiles has been known for some time [52], but has recently undergone a renaissance, attracting the interest of several research groups. The cyclization of 2-(0-tosyl)oximino carbonyl compounds - the Neber reaction [53] - is the oldest known azirine synthesis, and asymmetric variants have been reported. Zwanenburg et ah, for example, prepared nonracemic chiral azirines from oximes of 3-ketoesters, using cinchona alkaloids as catalysts (Scheme 4.37) [54]. 

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