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Iminium ions reactions

In the laboratory of S.F. Martin, the vinylogous Mannich reaction (VMR) of a 2-silyloxyfuran with a regioselectively generated iminium ion was utilized as the key step in the enantioselective construction of (+)-croomine. " The carboxylic acid moiety of the starting material was converted to the acid chloride which spontaneously underwent decarbonylation to give the corresponding iminium ion. Reaction of this iminium ion with the 2-silyloxyfuran afforded the desired threo butenolide isomer as the major product. [Pg.275]

This methodology was employed for the synthesis of the reported structure of the alkaloid jamtine (02OL715, 02JOC929). The key sulfoxide intermediate 307 was heated with CSA to produce several tricyclic products (98% yield) as a mixture (5 2 1 1) of diastereomers in which 308 predominated (Scheme 57). The stereochemistry of 308 was secured by X-ray crystallographic analysis and is consistent with a Nazarov-type conrotatory 47i-electrocyclization followed by attack of the nucleophilically disposed aromatic ring from the least hindered side of the intermediate iminium ion. Reaction of a-ethylthio amide 308 with NaH effected an intramolecular alkylation to provide tetracycle 309. [Pg.40]

Steroidal a,j8-unsaturated ketones such as /l -3-ketones undergo a facile reaction with pyrrolidine to give the corresponding, d - -dienamines (111) (40,53). The reaction is much slower with morpholine and piperidine, which is undoubtedly due to the generation of the double bond exocyclic to the six-membered hetero rings in the step involving the dehydration of the intermediate carbinolamine (112) to the corresponding iminium ion (113). [Pg.32]

Two-step 1,4 cycloaddition of enamines, such as was observed with methyl vinyl ketone, is not possible with acrylate or maleate esters. This is due to the fact that, following the initial simple substitution, no side-chain carbanion is available for nueleophilic attack on the a carbon of the iminium ion. Likewise two-step 1,3 eycloaddition, such as that found when alicyclic enamines were treated with acrolein, is impossible with acrylate or maleate esters because transfer of the amine moiety from the original enamine to the side chain to form a new enamine just prior to the final cyclization step is not possible. That is, the reaction between a seeondary amine and an ester does not produce an enamine. [Pg.219]

Photolysis with visible light, DAP " TMSCN. The photochemical reaction generates an iminium ion that is trapped with cyanide."... [Pg.573]

A more practical solution to this problem was reported by Larson, in which the amide substrate 20 was treated with oxalyl chloride to afford a 2-chlorooxazolidine-4,5-dione 23. Reaction of this substrate with FeCL affords a reactive A-acyl iminium ion intermediate 24, which undergoes an intramolecular electrophilic aromatic substitution reaction to provide 25. Deprotection of 25 with acidic methanol affords the desired dihydroisoquinoline products 22. This strategy avoids the problematic nitrilium ion intermediate, and provides generally good yields of 3-aryl dihydroisoquinolines. [Pg.379]

Under acidic conditions, imine 12 is protonated to give the iminium ion 13 which undergoes an electrophilic aromatic substitution reaction to form the new carbon-carbon bond. Rapid loss of a proton and concomitant re-aromatization gives the tetrahydroisoquinoline 14. [Pg.470]

In all the reactions described so far a chiral Lewis acid has been employed to promote the Diels-Alder reaction, but recently a completely different methodology for the asymmetric Diels-Alder reaction has been published. MacMillan and coworkers reported that the chiral secondary amine 40 catalyzes the Diels-Alder reaction between a,/ -unsaturated aldehydes and a variety of dienes [59]. The reaction mechanism is shown in Scheme 1.73. An a,/ -unsaturated aldehyde reacts with the chiral amine 40 to give an iminium ion that is sufficiently activated to engage a diene reaction partner. Diels-Alder reaction leads to a new iminium ion, which upon hydrolysis af-... [Pg.46]

There have been extensive investigations on the reaction mechanism. In most cases the reaction proceeds via initial nucleophilic addition of ammonia 2 to formaldehyde 1 to give adduct 5, which is converted into an iminium ion species 6 (note that a resonance structure—an aminocarbenium ion can be formulated) through protonation and subsequent loss of water. The iminium ion species 6 then reacts with the enol 7 of the CH-acidic substrate by overall loss of a proton ... [Pg.194]

Reaction of an aldehyde or ketone with a secondary amine, R2NH, rather than a primary amine yields an enamine. The process is identical to imine formation up to the iminium ion stage, but at this point there is no proton on nitrogen that can be lost to form a neutral imine product. Instead, a proton is lost from the neighboring carbon (the a carbon), yielding an enamine (Figure 19.10). [Pg.713]

Mechanism of enamine formation by reaction of an aldehyde or ketone with a secondary amine, R2NH. The iminium ion intermediate has no hydrogen attached to N and so must lose H+ from the carbon two atoms away. [Pg.713]

The aza-Cope/Mannich reaction takes advantage of the facility with which a y,<5-unsaturated itninium ion, such as 6, participates in a [3,3] sigmatropic rearrangement to give an isomeric species which is suitably functionalized for an intramolecular and irreversible Mannich cyclization (see intermediate 7). The aza-Cope rearrangement substrate 6 is simply an unsaturated iminium ion which can be fashioned in a number of ways from a homoallylic... [Pg.642]

Some covalent compounds, such as a-aminonitriles D (formation of an iminium ion by solvolysis) or TV-substituted 1,3-oxazolidincs E can be regarded as masked iminium salts because there is evidence that in reactions of these species with organometallic reagents iminium intermediates are involved101214-17. [Pg.731]

Intramolecular Mannich reactions of iminium 1 and acyliminium ions (see Section D.1.4.5.) with electron-rich double bonds are important reactions in the synthesis of naturally occurring alkaloids. In general, the iminium ions are not isolated but produced as intermediates. [Pg.775]

Reactions are faster, because the concentration of iminium ions is higher than that generated via equilibria. [Pg.775]

Iminium ions (2) would be expected to undergo hydrolysis quite readily, since there is a contributing form with a positive charge on the carbon. Indeed, they react with water at room temperature." Acid-catalyzed hydrolysis of enamines (the last step of the Stork reaction, 12-18) involves conversion to iminium ions " ... [Pg.1178]

The reductive couphng of imines can follow different pathways, depending on the nature of the one-electron reducing agent (cathode, metal, low-valent metal salt), the presence of a protic or electrophihc reagent, and the experimental conditions (Scheme 2). Starting from the imine 7, the one-electron reduction is facihtated by the preliminary formation of the iminiiim ion 8 by protonation or reaction with an electrophile, e.g., trimethylsilyl (TMS) chloride. Alternatively, the radical anion 9 is first formed by direct reduction of the imine 7, followed by protonation or reaction with the electrophile, so giving the same intermediate a-amino radical 10. The 1,2-diamine 11 can be formed from the radical 10 by dimerization (and subsequent removal of the electrophile) or addition to the iminium ion 8, followed by one-electron reduction of the so formed aminyl radical. In certain cases/conditions the radical 9 can be further reduced to the carbanion 12, which then attacks the... [Pg.5]

A plausible mechanism for this new alkyne aza-Prins cyclization is outlined in Scheme 27. Thus, reaction of the homopropargyl tosyl amine with an aldehyde promoted by ferric halide generates the W-sulfonyl iminium ion. This intermediate evolves to the corresponding piperidine, via the vinyl carbocation. Ah initio theoretical calculations support the proposed mechanism. [Pg.19]


See other pages where Iminium ions reactions is mentioned: [Pg.256]    [Pg.65]    [Pg.64]    [Pg.909]    [Pg.916]    [Pg.256]    [Pg.909]    [Pg.256]    [Pg.65]    [Pg.64]    [Pg.909]    [Pg.916]    [Pg.256]    [Pg.909]    [Pg.792]    [Pg.471]    [Pg.286]    [Pg.901]    [Pg.915]    [Pg.915]    [Pg.1147]    [Pg.1163]    [Pg.61]    [Pg.643]    [Pg.650]    [Pg.288]    [Pg.731]    [Pg.735]    [Pg.826]    [Pg.417]    [Pg.52]    [Pg.1190]    [Pg.1261]    [Pg.214]    [Pg.6]    [Pg.39]   


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Acyl iminium ions addition reactions

Addition Reactions of Imines and Iminium Ions

Addition Reactions using Iminium Ions Derived from Hydrazines, Hydroxylamines and Sulfinamides

Asymmetric aqueous aza Diels-Alder reaction with simple protonated iminium ions

Iminium ion

Iminium ions Knoevenagel reactions

Iminium ions Mannich reactions

Iminium ions addition reactions

Iminium ions aldol reaction

Iminium ions intermolecular reactions

Iminium ions intramolecular Mannich reactions

Iminium ions intramolecular reactions

Iminium ions reaction with allyl organometallic reagents

Iminium ions reaction with chiral

Iminium ions reaction with enol silanes

Iminium ions reactions with

Iminium ions reactions with alkynes

Iminium-Ion-Catalyzed Cascade Reactions in Natural Product Synthesis

Mannich Reaction Alkylation of Enols by Iminium Ions

Other Iminium Ion-Involved Cascade Reaction

Oxidation reactions with iminium ions

Petasis Borono-Mannich Reaction Iminium Ions Possessing Neighboring Heteroatom Functionality

Reaction of enolates with iminium ions or imines

Reactions of Imines and Iminium Ions

Reactions of Iminium Ions Bearing P-Heteroatom Substituents

Synthetic applications of the aqueous aza Diels-Alder reaction involving simple protonated iminium ions

Synthetic applications of the aqueous aza Diels-Alder reaction with protonated C-acyl iminium ions

Synthetic applications of the asymmetric aqueous aza Diels-Alder reaction with simple protonated iminium ions

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