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2-Aminopyridine 1-oxide

Diaza-compounds. Phenacyl bromide reacts with 2-aminopyridine 1-oxide to yield 2-phenylimidazo[l,2-a]pyridin-3-ol (769) another derivative of this ring system, compound (771), is produced by the action of diphenylketen on the sulphilimide (770), dimethyl sulphide being eliminated.(6-Methyl-2-pyri-dyl)acetyl azide (772) forms the dihydroimidazo[3,4-a]pyridinone (773) on heating." Whereas l-methylpyrrole-2-aldehyde and other heterocyclic aldehydes react with tosylmethyl isocyanide to give oxazoles, e.g. (774), pyrrole-2-aldehyde affords the 6-azaindolizine (775). The action of potassium amide on the derivative (776) of 3-bromopyridine furnishes the pyrrolo[3,4-c]pyridine (777) by cyclization of an intermediate pyridyne." ... [Pg.212]

Pyridine oxides form metal complexes , and 2-aminopyridine 1-oxide gives chelates with metals. ... [Pg.160]

Phosgene and 2-aminopyridine 1-oxide give the bicyclic compound (62), which reacts with ammonia and alcohols s 381 ... [Pg.354]

The diazotization of amino derivatives of six-membered heteroaromatic ring systems, particularly that of aminopyridines and aminopyridine oxides, was studied in detail by Kalatzis and coworkers. Diazotization of 3-aminopyridine and its derivatives is similar to that of aromatic amines because of the formation of rather stable diazonium ions. 2- and 4-aminopyridines were considered to resist diazotization or to form mainly the corresponding hydroxy compounds. However, Kalatzis (1967 a) showed that true diazotization of these compounds proceeds in a similar way to that of the aromatic amines in 0,5-4.0 m hydrochloric, sulfuric, or perchloric acid, by mixing the solutions with aqueous sodium nitrite at 0 °C. However, the rapidly formed diazonium ion is hydrolyzed very easily within a few minutes (hydroxy-de-diazonia-tion). The diazonium ion must be used immediately after formation, e. g., for a diazo coupling reaction, or must be stabilized as the diazoate by prompt neutralization (after 45 s) to pH 10-11 with sodium hydroxide-borax buffer. All isomeric aminopyridine-1-oxides can be diazotized in the usual way (Kalatzis and Mastrokalos, 1977). The diazotization of 5-aminopyrimidines results in a complex ring opening and conversion into other heterocyclic systems (see Nemeryuk et al., 1985). [Pg.20]

Aminopyridines, aminopyridine oxides, and 3-aminoquinoline are obviously diazotized by analogous mechanisms. Kalatzis (1967 b) studied the diazotization of 4-aminopyridine over a very large range of acid concentrations (0.0025-5.0 m HC104). This compound is comparable to 2-aminothiazole in its acid-base properties the heterocyclic nitrogen is easily protonated at pH 10, whereas the amino group is a very weak base (pKa = -6.5). Therefore, the kinetics indicate that the (mono-protonated) 4-aminopyridinium ion reacts with the nitrosyl ion. The... [Pg.53]

Pyridyne 1-oxide (893) is obtained by the action of potassium amide on 2-bromopyridine 1-oxide (892), as shown by the formation of a mixture of the 2- and 3-aminopyridine oxides. Reaction of 5-bromopyrimidine with sodium amide in liquid ammonia involves 4,5-pyrimidyne as an intermediate. [Pg.283]

The earliest report of an aminopyridine oxidation is a German patent describing the iodination of 2-aminopyridine to give 149.211 The mechanistic implications of voltammetry on several aminopyridines has been... [Pg.213]

Amine oxides, prepared to protect tertiary amines during methylation and to prevent their protonation in diazotized aminopyridines, can be cleaved by reduction (e.g., SO2/H2O, 1 h, 22°, 63% yield H2/Pd-C, AcOH, AC2O, 7 h, 91% yield Zn/HCl, 30% yield). Photolytic reduction of an aromatic amine oxide has been reported [i.e., 4-nitropyridine A-oxide, 300 nm, (MeO)3PO/CH2Cl2, 15 min, 85-95% yieldl. ... [Pg.375]

This method is not applicable if the spectra of the potentially tautomeric compound and both alkylated derivatives are very similar, e.g., it is not suited to an investigation of the tautomerism of 4-aminopyridine 1-oxide (Fig. 3). A further limitation is that often only qualitative conclusions can be drawn because no contribution from the spectrum of the minor constituent can be found in the spectrum of the tautomeric compound. It should also be noted that, un-... [Pg.328]

Comparison by Gardner and Katritzky of the pKa values of the cations formed by 2- and 4-aminopyridine 1-oxide and the alkylated derivatives of both forms showed that in aqueous solution the amino form predominates for 2- and 4-aminopyridine 1-oxide (cf. 241 242) and the methylamino form for 2- and 4-methylaminopyridine 1-oxide by factors of ca. 10 and >10 in the 2- and 4-series, respectively. The ultraviolet spectra of the 4-isomer and its alkylated derivatives... [Pg.410]

Earlier studies of 4-aminopyridine 1-oxide were less conclusive. The solid-state infrared spectrum could be interpreted to indicate the existence of both the imino structure and/or, more probably, the amino structure. Comparison of the actual pKa value of 4-aminopyridine 1-oxide wdth the value calculated using the Hammett equation was considered to indicate that the compound existed as such or as an equilibrium mixture with l-hydroxypyrid-4-onimine, the latter possibility being considered the less likely on the basis of resonance and bond energies/ Resonance energy and ultraviolet spectral considerations have been advanced to support the 4-aminopyridine 1-oxide structure/ The presence of an infrared absorption band at... [Pg.411]

Aminopyridine 1-oxides are protonated on the oxygen atom to give mesomeric ions of type 245 as predicted theoretically and confirmed by ultraviolet spectral comparisons (reference 91 and references therein). [Pg.411]

The fact that the equilibrium for aminopyridine 1-oxides is displaced further in favor of the amino form than is the equilibrium for aminopyridines is in accord with the mesomerism of these compounds. The stabilization of the amino forms (e.g., 241) by structures of type 240 is more effective than the corresponding stabilization in the pyridine series since the negative charge is associated with the oxygen atom. The stabilization of the imino form (e.g., 242) by structures of type 243 is less than in the pyridine series because of the adverse inductive effect of the oxygen atom. ... [Pg.412]

A mixture containing 186 g (0.20 mol) of 2-aminopyridine, 0.55 g of lithium amide and 75 cc of anhydrous toluene was refluxed for 1.5 hours. Styrene oxide (12.0 g = 0.10 mol) was then added to the reaction mixture with stirring over a period of ten minutes. The reaction mixture was stirred and refluxed for an additional 3.5 hours. A crystalline precipitate was formed during the reaction which was removed by filtration, MP 170°C to 171°C, 1.5 g. The filtrate was concentrated to dryness and a dark residue remained which was crystallized from anhydrous ether yield 6.0 g. Upon recrystallization of the crude solid from 30 cc of isopropyl alcohol, 2.0 g of a light yellow solid was isolated MP 170°C to 171°C. [Pg.1224]

Neither the 2- nor 4-aminopyridine-l-oxides nor their substitution products can be protonated at the heterocyclic nitrogen. The findings regarding the diazotization kinetics of these compounds indicate that, under the reaction conditions studied by Kalatzis and Mastrokalos (1977), two simultaneous mechanisms take place. In the first of these, nitrosyl ions attack the free amine, whereas in the second they attack the protonated amine. [Pg.53]

The photocyclization of enamides has been widely employed in the construction of heterocyclic systems the N-acryloyl-2-aminopyridines 37, for example, are converted on irradiation to the lactams 38.36 Numerous benzylisoquinoline alkaloids have been prepared using this approach, and in particular, the syntheses of benzo[c]phenanthridine alkaloids have been reviewed.37 Thus, irradiation of the [Z]-l-ethylidene-2-benzoyltetra-hydroisoquinoline 39 affords the corresponding 8-oxoberberine 4038 competing photoisomerization to the E-isomer is observed but cyclization occurs only via the Z-isomer. Examples of syntheses of Amaryllidaceae and indole alkaloids have also been reported. In this way, the precursor 41 of ( )-lycoran has been obtained by oxidative cyclization of the enamide 42.39... [Pg.246]

Stable 3,5-dichloro-2,4,6-trimethylbenzonitrile oxide reacts with 2- and 4-aminopyridines in their imino forms, if acids are present to promote the formation of imine, to give cycloadducts such as 168 (337). [Pg.54]

See other pages where 2-Aminopyridine 1-oxide is mentioned: [Pg.856]    [Pg.1125]    [Pg.718]    [Pg.794]    [Pg.794]    [Pg.720]    [Pg.723]    [Pg.631]    [Pg.631]    [Pg.718]    [Pg.230]    [Pg.720]    [Pg.723]    [Pg.718]    [Pg.633]    [Pg.149]    [Pg.856]    [Pg.856]    [Pg.856]    [Pg.166]    [Pg.156]    [Pg.330]    [Pg.335]    [Pg.340]    [Pg.410]    [Pg.240]    [Pg.1224]    [Pg.227]    [Pg.173]    [Pg.174]    [Pg.23]    [Pg.227]    [Pg.237]    [Pg.486]    [Pg.17]    [Pg.232]    [Pg.225]    [Pg.538]    [Pg.49]    [Pg.147]    [Pg.1125]    [Pg.1125]    [Pg.1125]    [Pg.82]   
See also in sourсe #XX -- [ Pg.206 ]



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2- aminopyridine N-oxide

2-Aminopyridine

Aminopyridine oxides, diazotization

Aminopyridine oxides, tautomerism

Aminopyridines, oxidation

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