Pyridines, 3-substituted, directed

Substituents exert their normal directive effects, and aza substitution directs meta. If there is conflict, then a strongly para directing substituent dominates. Thus, 3-hydroxypyridine reacts first at the 2- and then at the 6-position. Pyridine 1-oxide is nitrated at position 4 as the free base but sulfonated at position 3 as the conjugate acid. 

Most recently, the methods of template-directed solid-state synthesis were employed to constmct the [3]- and the [5]-ladderane. The construction involved a resorcinol derivative (5-methoxyresorcinol) as a linear template to organize pyridine-substituted polyenes for the reaction within discrete molecular assemblies in solids. The assemblies are... 

Aqueous sodium hypochlorite is another low-priced oxidant. Very efficient oxidative systems were developed which contain a meso-tetraarylporphyrinato-Mn(III) complex salt as the metal catalyst and a QX as the carrier of hypochlorite from the water phase to the organic environment. These reactions are of interest also as cytochrome P-450 models. Early experiments were concerned with epoxidations of alkenes, oxidations of benzyl alcohol and benzyl ether to benzaldehyde, and chlorination of cyclohexane at room temperature or 0°C. A certain difficulty arose from the fact that the porphyrins were not really stable under the reaction conditions. Several research groups published extensively on optimization, factors governing catalytic efficiency, and stability of the catalysts. Most importantly, axial ligands on the Mn porphyrin (e.g., substituted imidazoles, 4-substituted pyridines and their N-oxides), 2 increases rates and selectivities. This can be demonstrated most impressively with pyridine ligands directly tethered to the porphyrin [72]. Secondly, 2,4- and 2,4,6-trihalo- or 3,5-di-tert-butyl-substituted tetraarylporphyrins are more... 

In an effort to address this issue. Raw and Taylor have developed a tethered imine-enamine (TIE) methodology for the s3mthesis of highly substituted pyridines from 1,2,4-triazines 76 (04CC508, 05JOC10086). The rationale is the in situ formation of a zwitterion 80, which, it is postulated, mimics the N-oxide 82 intermediate of the Cope elimination (Scheme 27). Alternatively, the internal base may promote epimerisation and so facilitate elimination through the antiperiplanar configuration. The tethered imine-enamine species (e.g. 77) is produced from N-methy-lethylenediamine and the ketone in situ and the reaction proceeds under mild conditions to furnish the pyridines 81 directly. 

Highly efficient rhodium-catalyzed direct arylations were accomplished through the use of 2,2, 6,6 -tetramethylpiperidine-N-oxyl (TEMPO) as terminal oxidant [17]. Thereby, a variety of pyridine-substituted arenes was regioselectively functionalized with aromatic boronic acids (Scheme 9.5). However, in order for efficient catalysis to proceed, 4equiv. of TEMPO were required. The use of molecular oxygen as terminal oxidant yielded, unfortunately, only unsatisfactory results under otherwise identical reaction conditions. However, a variety of easily available boronic acids could be employed as arylating reagents. 

A very efficient group of catalysts are the 2-pyridylethanyl substituted ruthenium carbene complexes 9 and 10. Also this new class of catalyst can be easily prepared, either via the reaction of Grubbs benzylidene catalyst with a 2-(3-butenyl)pyridine or directly via a one-pot procedure for the synthesis of ruthenium carbenes starting from [RuCl2(l,5-cyclooctadiene)] via a ruthenium hydride species, see Scheme 5b. 

The above three reactions employed ortAo-directing groups for assisted C—H activation in the presence of palladium(II) catalysts. The electrophilic fluorination reaction involved cyclopalladation and two electrophilic fluorination processes. Subtly, differential nitrogen atoms (pyridine, substituted amines, and amides) in the molecules were proposed to act as the electron donor, which is required for intramolecular Pd participation in the process. In this case, formation of a flve-membered palladium (II) complex (Schemes 9.12 and 9.13) has been proposed. ... 

The desired transformation can be achieved via reduction of the carboxylic acid, followed by substitution. Direct conversion of the resultant alcohol may be accomplished using PBr3, or one can utilize a two-step method involving 1) tosylate formation using TsCl and pyridine followed by, 2) Sn2 displacement using sodium bromide in DMSO ... 

The most common reaction of this type is the cyclization of various derivatives of hydrazine and substituted hydrazines with pyridine o-dicarboxylic acids and related compounds. Reactions in which the acid derivative reacts directly with the hydrazine are dealt with as [4 + 2] reactions in Section 2.15.10.6.1. 

Sulfonate esters are especially useful substrates in nucleophilic substitution reactions used in synthesis. They have a high level of reactivity, and, unlike alkyl halides, they can be prepared from alcohols by reactions that do not directly involve bonds to the carbon atom imdeigoing substitution. The latter aspect is particularly important in cases in which the stereochemical and structural integrity of the reactant must be maintained. Sulfonate esters are usually prepared by reaction of an alcohol with a sulfonyl halide in the presence of pyridine ... 

A iD-Corticoids have been important intermediates since it was shown ° that substitution at C-9 enhances anti-inflammatory activity. These olefins are usually obtained from 11a- or 11)5-alcohols, and consequently several refined methods have been devised for effecting this dehydration. It is desirable that such methods be compatible with the presence of A" -3-ketone and 17-hydroxy functions. The first direct procedure for which high yields were claimed was described in a patent issued to Upjohn. According to this method, the alcohol (11a or )5) is treated first with A-bromoacetamide in pyridine, then with sulfur dioxide. Recently it has been claimed " that the A-haloamide/sulfur dioxide method gives results superior to other methods, although the methanesulfonyl chloride/sulfur dioxide procedure (see below) apparently was not compared (see also ref. 94). 

In their acidity, basicity, and the directive influence exerted on electrophilic substitution reactions in benzenoid nuclei, acylamino groups show properties which are intermediate between those of free amino and hydroxyl groups, and, therefore, it is at first surprising to find that the tautomeric behavior of acylaminopyridines closely resembles that of the aminopyridines instead of being intermediate between that of the amino- and hydroxy-pyridines. The basicities of the acylaminopyridines are, indeed, closer to those of the methoxy-pyridines than to those of the aminopyridines, the position of the tautomeric equilibrium being determined by the fact that the acyl-iminopyridones are strong bases like the iminopyridones and unlike the pyridones themselves. Thus, relative to the conversion of an... 

In similar fashion, A-substituted-2(3fT)-oxazolones were prepared directly from the hydroxy-ketone by reaction with urethanes in the presence of pyridine and dimethylformamide or by using isocyanates. 

It is believed (54IZV47 72JPR353) that in the first stage the intermediate 282 is formed due to the addition of the CH acid to the enamine moiety with subsequent elimination of amine. The enol form of the intermediate 282 undergoes cyclization in two fashions, depending on the nature of substituent X. In the case of the ester (X = OMe) the attack is directed to the cyano group to form substituted 3-methoxycarbonyl-I//-pyridin-2-one (283) or its tautomer (2-hydroxy-3-methoxycarbonylpyridine). With the amide (X = NH2) intramolecular condensation leads to 3-cyano-l//-pyridin-2-one and its hydroxy tautomer (284). 

No direct nucleophilic substitution of the hydrogen atoms in the isoxazole nucleus a or y to the nitrogen is as yet known. Thus, the Chichibabin reaction fails in the isoxazole series because of the cleavage of the heterocyclic nucleus under these conditions. It is the lability of the isoxazole ring toward nucleophilic reagents that makes the chemical behavior of isoxazole fundamentally different from that of pyridine. 

The versatility of poly(phenylcne) chemistry can also be seen in that it constitutes a platform for the design of other conjugated polymers with aromatic building blocks. Thus, one can proceed from 1,4- to 1,3-, and 1,2-phenylene compounds, and the benzene block can also be replaced by other aromatic cores such as naphthalene or anthracene, helerocyclcs such as thiophene or pyridine as well as by their substituted or bridged derivatives. Conceptually, poly(pheny ene)s can also be regarded as the parent structure of a series of related polymers which arc obtained not by linking the phenylene units directly, but by incorporation of other conjugated, e.g. olefinic or acetylenic, moieties. 

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