Tautomerism, aniline

Thus, it was shown that the tautomerization may be of importance in the thermal dehalogenation of chloroaromatics14. The formation of diarylamines in this reaction can be also explained by the presence of aniline tautomers in the reaction mixtures14. One of the well-known types of aniline tautomerism is the enol-imine-keto-amine equilibrium. In effect, it is a reversible conversion of Schiff bases into enamines that is frequently employed for the synthesis of photochromic compounds, as well as of mesomorphic... 

In many cases, substituents linked to a pyrrole, furan or thiophene ring show similar reactivity to those linked to a benzenoid nucleus. This generalization is not true for amino or hydroxyl groups. Hydroxy compounds exist largely, or entirely, in an alternative nonaromatic tautomeric form. Derivatives of this type show little resemblance in their reactions to anilines or phenols. Thienyl- and especially pyrryl- and furyl-methyl halides show enhanced reactivity compared with benzyl halides because the halogen is made more labile by electron release of the type shown below. Hydroxymethyl and aminomethyl groups on heteroaromatic nuclei are activated to nucleophilic attack by a similar effect. 

The proposed mechanism for the Conrad-Limpach reaction is shown below. Condensation of an aniline with a 3-keto-ester (i.e., ethyl acetoacetate 5) with loss of water provides enamino-ester 6. Enolization furnishes 10 which undergoes thermal cyclization, analogous to the Gould-Jacobs reaction, via 6n electrocyclization to yield intermediate 11. Compound 11 suffers loss of alcohol followed by tautomerization to give 4-hydroxy-2-methylquinoline 7. An alternative to the proposed formation of 10 is ejection of alcohol from 6 furnishing ketene 13, which then undergoes 671 electrocyclization to provide 12. 

This information coupled with the proposed mechanism of the Conrad-Limpach reaction, reasonably lead to the below proposed mechanisms. Conjugate addition of aniline and elimination of alcohol provides the P-anilinoacrylate 14, which upon heating to 180-320 °C gives species, like 34a,b, which undergo 6n-electrocyclization to 35 or 36, respectively. Loss of ethanol from 36 gives 35 and tautomerization provides 4-... 

Dipole moment data have provided valuable information for the study of the tautomerism of compounds such as isonicotinic acid, pyrid-4-one, and ethyl acetoacetate, However, this method must be used with discretion since it can lead to inconclusive results. Thus, the fact that 4-aminopyridine has a higher dipole moment than the algebraic sum of the dipole moments of pyridine and aniline was originally interpreted as proof that structure 54 exists with a strong contribution from 36, and it was stated that 55 w ould have a very low moment. Later, Angyal and AngyaF pointed out that the... 

It was already suggested in the early investigations that the differences between the chemical properties of aminopyrimidines and anilines might result from tautomerism see, for example, reference 319. The early infrared studies on the solid-state spectra of these... 

The reactions of arenediazonium ions with 7V-alkyl- or 7V-arylhydroxylamines were investigated by Bamberger (1920b, and earlier papers). Mitsuhashi et al. (1965) showed that the l,3-diaryl-3-hydroxytriazenes are tautomeric with 1,3-diaryltriazene-3-oxides (Scheme 6-16). Oxidation of 1,3-diaryltriazenes with peroxybenzoic acid in ether yields the same product as that from diazonium salts and TV-arylhydroxyl-amine. The infrared spectrum of the product obtained by coupling diazotized relabeled aniline with A/-phenylhydroxylamine indicates that the diaryltriazene-oxide is the preponderant tautomer. 

The second way in which the substituent R affects the charge distribution of the molecule is called the resonance effect (or sometimes the tautomeric or electromeric effect). This results when the molecule resonates among several electronic structures. For example, for aniline the structures... 

The synthesis of this aminoquinoline starts with one of the standard sequences for preparation of 4-hydroxyquinolines, i.e., with the formation of the Shiff base (5) from the appropriately substituted aniline and diethyl oxaloacetate. Thermal cycliza-tion gives the quinolone (6) this then spontaneously tautomerizes to the enol form (7). Saponification followed by decarboxylation gives the desired quinolol... 

The Sn2 reaction of quinazolinone 147 with phenylhydrazine was followed by rearrangement of the tautomerized intermediate 148 <00T7987>. The loss of both ammonia and aniline was followed by the addition of a second equivalent of phenylhydrazine to the resulting imine to produce quinazolinone hydrazone 149. Subsequent Fischer indolization of 149 followed by condensations with aldehydes led to 7-azarutacarpines. 

A. Proton Loss from and Potential Tautomerism of Phenol and Aniline... 

Recently a novel reaction between the azlactone 76, R = Ph R = Me, and cinnamylidene aniline yielding the adduct 79 has been described.This result has been interpreted as involving a Diels-Alder cycloaddition between cinnamylidene aniline and the valence tautomeric ketene 78, R = Ph R = Me. 

The reaction of or//io-substituted anilines containing substituent groups, e.g., phenyl, cyano, and nitro, gives rise to simple enamine fumarates these in turn can be cyclized to the corresponding 4-quinolones. " Aromatic diamines such as o-phenylenediamine and 2,3-diaminonaphthalene, however, react with DMAD to give tetra-hydroquinoxaline derivatives (7) [Eq. (2)]. ° It has been suggested that these tetrahydroquinoxalines exist in tautomeric equilibrium between the imine and enamine forms and that the enamine form (7) is more favored in inert organic solvents. On the other hand, an iso-... 

To suppress enamine-derived side products, we explored addition of benzotriazole (BtH) to the reaction mixture. The premise behind these experiments was the ability of BtH to form stable adducts with imines,23,24 thereby blocking tautomerization of 19 to 20 through in situ formation of the benzotriazolyl derivative 21. It was hoped that subsequent hydride displacement of the Bt moiety would afford the desired mono alkylated products 23. Indeed, analytical high-performance liquid chromatography (HPLC) revealed a remarkable improvement in terms of product purity, especially for reactions carried out at room temperature, with the desired secondary anilines 23 being essentially the only products detected. In... 

The monoazo and disazo pigments contain one or more chromophoric groups usually referred to as the azo -fN=N> group. However, it has been shown by x-ray diffraction analysis and nuclear magnetic resonance (nmr) techniques that azo pigments exist in the hydrazone rather than the azo tautomeric form. The hydrazone form, which has three intramolecular hydrogen bonds, renders the molecule planar (with the exception of the aniline moiety) which is a stabilizing influence. 

Thus, with methyl and also ethyl cyanoacetate, the anilinomethylene chromonedione (220) (this form has been found94 to predominate in dimethylsulfoxide solution rather than the tautomeric structure of the formal SchifFs base from 3-formyl-4-hydroxycoumarin and aniline) yields, initially, with potassium hydroxide in DMF, following hydrolysis, the pyronocoumarin 221. 

In another synthesis of quinolines involving imine intermediates, o-oxazoline-substi-tuted anilines (6) react with ketones in dry butanol reflux to give 4-amino-substituted quinolines [e.g. (7)], or 4-quinolones, using tosic acid as catalyst.18 A mechanism involving ketoimine formation with subsequent tautomerization to give an enamine which attacks the oxazoline ring is discussed. 

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