Nucleophile isotope effects

Secondary isotope effects at the position have been especially thoroughly studied in nucleophilic substitution reactions. When carbocations are involved as intermediates, substantial /9-isotope effects are observed. This is because the hyperconjugative stabliliza-... 

However, measurements of substituent effects supported the hypothesis that the aryl cation is a key intermediate in dediazoniations, provided that they were interpreted in an appropriate way (Zollinger, 1973a Ehrenson et al., 1973 Swain et al., 1975 a). We will first consider the activation energy and then discuss the influence of substituents, as well as additional data concerning the aryl cation as a metastable intermediate (kinetic isotope effects, influence of water acitivity in hydroxy-de-di-azoniations). Finally, the cases of dediazoniation in which the rate of reaction is first-order with regard to the concentration of the nucleophile will be critically evaluated. 

In TFE the secondary isotope effect for solvolysis ( h/ d3)s is found to have the value 1.46 and that for Na,Np-rearrangement (kH/kD3)r has the value 1.42 (Szele and Zollinger, 1981). The two isotope effects are similar to the largest values observed in nucleophilic aliphatic substitutions following the DN + AN mechanism (Shiner,... 

If one limits the consideration to only that limited number of reactions which clearly belong to the category of nucleophilic aromatic substitutions presently under discussion, only a few experimental observations are pertinent. Bunnett and Bernasconi30 and Hart and Bourns40 have studied the deuterium solvent isotope effect and its dependence on hydroxide ion concentration for the reaction of 2,4-dinitrophenyl phenyl ether with piperidine in dioxan-water. In both studies it was found that the solvent isotope effect decreased with increasing concentration of hydroxide ion, and Hart and Bourns were able to estimate that fc 1/ for conversion of intermediate to product was approximately 1.8. Also, Pietra and Vitali41 have reported that in the reaction of piperidine with cyclohexyl 2,4-dinitrophenyl ether in benzene, the reaction becomes 1.5 times slower on substitution of the N-deuteriated amine at the highest amine concentration studied. 

Kinetic solvent isotope effect as a measure of electrophilic assistance to bromide ion departure limiting values rate data in ethanol, methanol and their aqueous mixtures using Bentley s TBr scale its decrease corresponds to the involvement of nucleophilic assistance. R = (/caqhtOII//cAcoH)r as a measure of nucleophilic solvent assistance. Model for a limiting bromination mechanism. Ruasse et al. (1991). /Ruasse and Zhang (1984). 9Argile and Ruasse (to be published). Modro et al. (1979). 

The only series of alkenes that show anomalously low KSIEs is that of highly congested adamantylidenealkanes (last rows of Table 20). The decrease in the isotope effect, associated with particularly small m-values and the absence of nucleophilic solvent assistance, can be attributed to reversible... 

Analysis of deacylation by histidinyl-functionalized micelles suggests that the histidinyl group can act both nucleophilically, generating an acylated histidine intermediate, and as a general base. These conclusions are consistent with the kinetic solvent hydrogen isotope effect (Murakami et al., 1981). 

The observed normal isotope effect of 1.9 provides further evidence supporting the role of Asp55 as the general base. Namely, a normal isotope effect of 1.9 is most consistent with general base catalysis by an amino acid side chain, as inverse isotope effects are commonly observed when a zinc-bound water molecule, or hydroxide, is the attacking nucleophile. For example, the zinc-containing enzymes AMP deaminase [111], thermolysin [112], stromelysin [113], and a desuccinylase [114] are each believed to utilize a zinc-bound water as the nucleophile, and all of these reactions are characterized by an inverse deuterium isotope effect. This inverse isotope effect is thought to result from a dominant... 

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