Cyclic ion intermediate

Br The Br" ion then attacks the cyclic ion intermediate from the side opposite / H to where the Br atom is attached. This happens because the Br atom in the... 

In the second step, the Br" ion is acting as a nucleophile while the cyclic ion intermediate is acting as an electrophile. 

The mechanism for the electrophilic addition of a halogen to an alkene proceeds via a cyclic ion intermediate. 

McCasland and coworkers,which developed the theoretical basis for this type of reaction in cyclohexane derivatives, has been extensively applied to synthetic work in the carbohydrate field by Baker, Goodman, and their CO workers. The conversion of trans amino alcohols (106, Z = OH, Y = NHa) to the cis derivatives (109, X = OH, Y = NHo), through the AT-acetyl O-(methylsulfonyl) derivatives (107, Z = OS02Me, RCXY = MeCONH), with hydrolysis of the cyclic ion intermediate (108), is of general applicability. The conversion of (mns-diols to cfs-diols by this procedure is feasible with cyclohexane derivatives, but has not yet been developed as a general reaction with sugar derivatives, which are much less reactive. 

Step 2 of the mechanism m Figure 6 12 is a nucleophilic attack by Br at one of the carbons of the cyclic bromonium ion For reasons that will be explained m Chapter 8 reactions of this type normally take place via a transition state m which the nude ophile approaches carbon from the side opposite the bond that is to be broken Recall mg that the vicinal dibromide formed from cyclopentene is exclusively the trans stereoisomer we see that attack by Br from the side opposite the C—Br bond of the bromonium ion intermediate can give only trans 1 2 dibromocyclopentane m accordance with the experimental observations... 

You have just seen that cyclic halonmm ion intermediates are formed when sources of electrophilic halogen attack a double bond Likewise three membered oxygen containing rings are formed by the reaction of alkenes with sources of electrophilic oxygen... 

In order to explain the observed product, a cyclic bromonium ion intermediate has been proposed. 

Emission spectra have been recorded for four aryl-substituted isoindoles rmder conditions of electrochemical stimulation. Electrochemiluminescence, which was easily visible in daylight, was measured at a concentration of 2-10 mM of emitter in V jV-dimethylformamide with platinum electrodes. Emission spectra due to electrochemi-luminescence and to fluorescence were found to be identical, and quantum yields for fluorescence were obtained by irradiation with a calibrated Hght source. Values are given in Table X. As with peak potentials determined by cyclic voltammetry, the results of luminescence studies are interpreted in terms of radical ion intermediates. ... 

We saw in the previous section that when Br2 reacts with an alkene, th cyclic bromonium ion intermediate reacts with the only nucleophile presen Br- ion. If the reaction is carried out in the presence of an additional nuclec phile, however, the intermediate bromonium ion can be intercepted by th added nucleophile and diverted to a different product. In the presence of watei for instance, water competes with Br- ion as nucleophile and reacts with th bromonium ion intermediate to yield a broinohydrin. The net effect is additioi of HO-Br to the alkene by the pathway shown in Figure 7.1. 

Intramolecular nucleophilic addition of the ester enolate ion to the carbonyl group of the second ester at the other end of the chain then gives a cyclic tetrahedral intermediate. 

Direct alkylation of allylic alcohols via the (allyloxy)phosphonium ion intermediate normally proceeds with anti-y selectivity for the Cyclic system, and sy/i-y selectivity for the acyclic system (see Table l)35 36. 

Other evidence cited for SET mechanisms has been detection of radical or radical ion intermediates by ESR or CIDNP the finding that such reactions can take place at 1 -norbomyl bridgeheads and the formation of cyclic side products when the substrate has a double bond in the 5,6 position (such substrates are called radical probes). 

The stereochemistry of oxymercuration has been examined in a number of systems. Conformationally biased cyclic alkenes such as 4-r-butylcyclohexene and 4-f-butyl-l-methycyclohexene give exclusively the product of anti addition, which is consistent with a mercurinium ion intermediate.17,22... 

The reactions of the internal alkynes are considered to involve a cyclic halonium ion intermediate, whereas the terminal alkynes seem to react by a rapid collapse of a vinyl cation. 

Addition is initiated by the positively polarised end (the less electronegative halogen atom) of the unsymmetrical molecule, and a cyclic halonium ion intermediate probably results. Addition of I—Cl is particularly stereoselective (ANTI) because of the ease of formation (and relative stability compared with carbocations) of cyclic iodonium ions. With an unsymmetrical alkene, e.g. 2-methylpropene (32), the more heavily alkyl-substituted carbon will be the more carbocationic (i.e. the less bonded to Br in 33), and will therefore be attacked preferentially by the residual nucleophile, Cle. The overall orientation of addition will thus be Markownikov to yield (34) ... 

Epoxides, though uncharged, have a formal resemblance to cyclic bromonium ion intermediates (cf. p. 180), but unlike them are stable and may readily be isolated. They do, however, undergo nucleophilic attack under either acid- or base-catalysed conditions to yield the 1,2-diol. In either case attack by the nucleophile on a carbon atom will be on the side opposite to the oxygen bridge in (49) such attack on the epoxide will involve inversion of configuration (cf. p. 94) ... 

Support for the suggestion that Fig. 13.6 involves a change in actual reaction pathway is provided by acetolysis of the threo diastereoisomer (31) of the brosylate. Acetolysis leads to two different distinguishable, diastereoisomers whose relative proportion will depend on how much of the total reaction proceeds by external nucleophilic attack via the SN2 pathway (erythro product, 32), and how much by internal nucleophilic attack via a cyclic phenonium ion intermediate (threo product, 33) ... 

The reversible acid-catalyzed transacetalation of the cyclophane formal 3 has been shown to undergo a ring-fusion/ring-fission process to generate a mixture of polymer cyclic formaldehyde acetals by means of oxonium ion intermediates <06CEJ8566>. The stepwise... 

The exact course of the periodate reaction has not yet been established. That an intermediate complex, compound, or ion is involved has been determined kinetically.28 269 261 262 283-286 The exact structure of this intermediate is still in doubt. The most universally accepted structure is a cyclic ester intermediate propounded by Criegee,27 285 analogous to his cyclic ester intermediate for another agent oxidizing 1,2-glycols, lead tetraacetate. 

Using the principles outlined in this article, the crystal structures of the following complexes of RNase A have been determined the free enzyme, both with and without a sulfate ion in the active site, the enzyme-dinucleotide complex, the enzyme-cyclic phosphate intermediate complex, the enzyme-transition state complex, and the enzyme-product complex, all at or near atomic resolution. This structural informa-... 

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