Transition states, cyclic

The Diels-Alder cycloaddition is one example of a pencyclic reaction, which is a one step reaction that proceeds through a cyclic transition state Bond formation occurs at both ends of the diene system and the Diels-Alder transition state involves a cyclic array of six carbons and six tt electrons The diene must adopt the s cis conformation m the transition state... 

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... 

The bond highlighted m yellow is the peptide bond ) Pencyclic reaction (Section 10 12) A reaction that proceeds through a cyclic transition state Period (Section 1 1) A honzontal row of the penodic table Peroxide (Section 6 8) A compound of the type ROOR Peroxide effect (Section 6 8) Reversal of regioselectivity oh served m the addition of hydrogen bromide to alkenes brought about by the presence of peroxides m the reaction mixture... 

When fragmentation is accompanied by the formation of a new bond as well as by the breaking of an existing bond, a rearrangement process is involved. These will be even mass peaks when only C, H, and O are involved. The migrating atom is almost exclusively hydrogen six-membered cyclic transition states are most important. 

AUylic organoboranes react via cyclic transition states not only with aldehydes and ketones, but also with alkynes, aHenes, and electron-rich or strained alkenes. Bicyclic stmctures, which can be further transformed into boraadamantanes, are obtained from triaHyl- or tricrotylborane and alkynes (323,438,439). 

An unusual addition of acetoacetic acid to pyrido[2,3-Z>]pyrazin-2(l//)-one (400) to give (eventually) the 3-acetonyl derivative (401) was postulated (71TH21500) to occur via a cyclic transition state, and the similar addition of oxalacetic ester may occur via a related mechanism. 

REACTIONS WITH CYCLIC TRANSITION STATES 5.02.9.1 Cycloadditions... 

The advantage of starting with a ring of -1 members lies in the nature of the rearrangements, which proceed through cyclic transition states, so that the system never becomes open-chain — the carbon-carbon bond is broken only while the carbon-heteroatom bond is being made. 

Enby 6 is an example of a stereospecific elimination reaction of an alkyl halide in which the transition state requires die proton and bromide ion that are lost to be in an anti orientation with respect to each odier. The diastereomeric threo- and e/ytAra-l-bromo-1,2-diphenyl-propanes undergo )3-elimination to produce stereoisomeric products. Enby 7 is an example of a pyrolytic elimination requiring a syn orientation of die proton that is removed and the nitrogen atom of the amine oxide group. The elimination proceeds through a cyclic transition state in which the proton is transferred to die oxygen of die amine oxide group. 

Unimolecular reactions that take place by way of cyclic transition states typically have negative entropies of activation because of the loss of rotational degrees of freedom associated with the highly ordered transition state. For example, thermal isomerization of allyl vinyl ether to 4-pentenal has AS = —8eu. ... 

The reaction of phenyllithium and alfyl chloride labeled with C reveals that allylic rearrangement occurs. About three-fourths of the product results from bond formation at C-3 rather than C-1. This can be accounted for by a cyclic transition state. ... 

The fundamental mechanistic concept by which the stereochemical course of the aldol addition under conditions of kinetic control has been analyzed involves a cyclic transition state in which both the carbonyl and enolate oxygens are coordinated to a Lewis... 

There has been little study of the stereoselectivity of the reaction under acidic conditions. In the absence of a coordinating Lewis acid, there is no preference for a cyclic transition state. When regioisomeric enols are possible, acid-catalyzed reactions tend to proceed through the more substituted of the enols. This reflects the predominance of this enol. (See Section 7.2.)... 

The rearrangement of the simplest possible case, 1,5-hexadiene, has been studied using deuterium labeling. The activation enthalpy is 33.5kcal/mol, and the entropy of activation is — 13.8eu. The substantially negative entropy reflects the formation of the cyclic transition state. 

Substitution, addition, and group transfer reactions can occur intramolecularly. Intramolecular substitution reactions that involve hydrogen abstraction have some important synthetic applications, since they permit functionalization of carbon atoms relatively remote from the initial reaction site. ° The preference for a six-membered cyclic transition state in the hydrogen abstraction step imparts position selectivity to the process ... 

A mechanism of the 1,2-addition of Grignard reagents to ketones has been suggested by Swain involving a six-membered cyclic transition state. Ashby proposed a detailed mechanism as shown in (l)-(2). 

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