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Isoquinoline dihydropyridine

Besides being useful precursors to pyrroles pyridine-2-ones -4-ones, -4-thiones. and -4-imines 4-alkylidene-dihydropyridines thiophenes 1,2,4-triazoles thiapyrane-2-thiones, isoquinoline-3-ones isoben-zothiophenes and 4-mercaptoimidazolium hydroxide inner salts, mesoionic thiazoles are potentially useful in the construction of molecules with herbicidic (39). central nerve stimulating, and antiinflammatory properties (40,41). Application in dye synthesis has likewise been reported (42). [Pg.15]

This section is concerned with the structure of pyridines within this context we consider pyridine itself, pyridines substituted on carbon and nitrogen, including in the latter category ylide, betaine and zwitterion structures, and in the former benzo substituents. Thus quinolines and isoquinolines will receive attention as well as bipyridyls, but not, for example, cinnoline or quinoxaline. Completely saturated derivatives, such as piperidine, and partially saturated derivatives, such as dihydropyridines, will also be treated. [Pg.99]

Nucleophilic reagents attack pyridine at the a-position to form an adduct that rearomatizes by dissociation (Scheme 1). Only very strong nucleophiles, e.g. NH2-, RLi, LAH, Na-NH3, react, and for the second step to afford a substitution product (5), conditions that favour hydride loss are required. Adducts formed with hydride ions (from LAH) or carbanions (from lithium alkyls) are relatively more stable than the others at low temperature, and dihydropyridines (6) can be obtained by careful neutralization. Fusion of a benzene ring to pyridine increases reactivity towards nucleophiles, and attack is now found at both a- and y-positions in quinoline (7) and at C-l in isoquinoline (8). This may be attributed to a smaller loss of aromaticity in forming the initial adduct than in pyridine, and thus a correspondingly decreased tendency to rearomatize is also observed. Acridine reacts even more easily, but nucleophilic attack is now limited to the y -position (9), as attachment of nucleophiles at ring junctions is very rare. [Pg.167]

Dihydropyridines have also been starting points for stereospecific syntheses of hydro-phenanthridines and isoquinolines. Interest exists in these compounds because of the occurrence of this structural feature in alkaloids. For example, isoquinuclidine (263), derived from JV-alkoxycarbonyl-l,2-dihydropyridine, undergoes a Cope rearrangement to give the isoquinoline derivative (264) (80JA6157). Further chemical transformations of (264) provided a formal total synthesis of reserpine (Scheme 50). [Pg.392]

The interaction between pyridine and organolithium compounds in benzene was first reported by Ziegler and Zeiser129 and was attributed to the formation of 1 1 adducts. Indirect evidence for intermediates of this kind was based on the formation of dihydropyridines by treatment of the reaction mixture with water. More definite evidence was obtained with quinoline, isoquinoline, and acridine.130 Phenyllithium reacts quantitatively with quinoline in ether to yield an adduct as a yellow powder that can be recrystallized. In order to define the site of attachment, the adducts were hydrolyzed to dihydro derivatives and the latter dehydrogenated. Because this treatment leads mainly to 2-phenyIquinoIine and l-phenylisoquinoline from quinoline and isoquinoline, respectively, the related adducts can be assumed to have structures 80 and 81. Isolation and characterization of the dihydro derivatives have been carried out, as well as in the case of the reaction of acridine with phenyllithium. [Pg.369]

A-Acylpyridinium salts are more reactive than the A-alkyl derivatives and afford more stable dihydropyridine products on addition of nucleophiles. Organocuprates are utilized for entry into 2-alkynyl-substituted quinoline systems (Equation 53) <2005TL8905>. They have the advantage of superior selectivity over Grignard reagents, which yield a mixture of the 2- and 4-substituted products. The reaction has been expanded to include isoquinolines and pyridines. [Pg.68]

Allyl and benzyl bromides react with a,/ -unsaturated nitriles in the presence of indium(i) iodide under sonication to produce the corresponding allylated and benzylated imines, involving exclusive addition of the allyl/benzyl group to the nitrile moiety (Equation (63)).273 The reaction of allylindium reagents with methyl cyanoacetates affords the corresponding allylation-enamination products (Equation (64)).27 l-Acyl-l,2-dihydropyridines are prepared by indium-mediated allylation of 1-acylpyridinium salts (Equation (65)).275 Quinoline and isoquinoline activated by... [Pg.692]

Condensation reaction of an enaminone with 2-aminopropene-l,l,3-tricarbonitrile leads to a low yield of 2-dicyanomethylene-3-cyano-dihydropyridines, which are used as synthons for 1,6-naphthyridines63 (equation 45). Cyclic enaminones react similarly with malononitrile to give isoquinoline derivatives (equation 46). [Pg.542]

This review deals with the formation of reduced pyridines and their benzo analogs from the parent heteroaromatic bases. Included are acridines, isoquinolines, pyridines and quinolines and their quaternary ammonium salts and N-oxides. The formation of the reduced species by other methods, e.g. Hantzsch dihydropyridine synthesis, is not addressed. [Pg.579]

Heteroaromatic cations undergo reduction when treated with 1,4-dihydronicotinamide. An early study showed that the 10-methylacridinium ion (87) was rapidly reduced in a redox reaction to the 9,10-dihydro adduct by 1,4-dihydronicotinamides (M Scheme 18). A variety of systems including py-ridines, isoquinolines, quinolines and phenanthridines have been studied using this and related procedures. The selective reduction of pyridinium and quinolinium salts with 1-benzyl-1,2-dihydro-isonicotinamide (89) has been achieved. The selective conversion to the thermodynamically more stable 1,4-dihydro species (90 Scheme 18) is rationalized by the reversibility in the formation of the kinetic products (i.e. the 1,2-adducts) in the presence of pyridinium ions. In the pyridinium case 1,6-di-hydro adducts were also observed in some cases. Reactivity in such systems is sometimes hindered due to hydration of the dihydropyridine system. This is particularly so in aqueous systems designed to replicate biological activity. Dihydroazines derived from isoquinolines and 3,5-disubstituted pyridines have been reported to overcome some of these difficulties. ... [Pg.589]

In contrast to pyridine, isoquinoline, acridine and related compounds which fail to undergo ionic hydrogenation1, Hantzsch-type 1,4-dihydropyridines 1 are conveniently reduced by tri-ethylsilane/trifluoroacetic acid to yield the all-nww-isomers of 1,2,3,4-tetrahydropyridines 2 and piperidines 311. The steric course of the reduction is a function of the temperature and the amount of silane used. [Pg.1013]

In the past year, reviews on 1,8-naphthyridines, perimidines, polyazaphen-anthrenes, 3-azabicyclo[3.3.1]nonanes, and 1,2- and 2,1-benzothiazines have appeared. Reviews on specialist aspects of pyridine chemistry are devoted to the reactions of newly available pyridines, a,a -disubstituted pyridines, the reactions of pyridines with nucleophiles, the electrochemistry of IjT-disubstituted 4,4 -bipyridinium ions (the viologens such as paraquat), dihydropyridines, and 4-aryl-dihydropyridines (a new class of calcium antagonists). Reviews have been published on the cyclization of oximes and amides to quinolines and isoquinolines, quinoline- and isoquinoline-diones, benzo[fl ]- and benzo[c]-quinolizinium ions, azachrysene preparation, quinazolines with plant-growth-regulating and biocidal activities, quinazolines in pharmaceutical research, isotopic hydrogen exchange in... [Pg.285]

Nitropyridine and 4-nitropyridine A-oxide have been shown to react with iso-prene, 1-methoxy-l,3-butadiene, and Danishefsky s diene to produce isoquinoline cycloadducts. One asymmetric and asynchronous transition state (TS) was detected between the reactants and the cycloadduct with isoprene and two TS were observed when 1-methoxy-l,3-butadiene and Danishefsky s diene were used. The Diels-Alder reaction of highly substituted dihydropyridines with e-deficient alkenes produced highly substituted isoquinuclidines with high stereo- and regio-selectivity. The Diels-Alder cycloaddition of cyclopentadiene to lithium ion encapsulated [60]fullerene proceeds at a higher rate than with that of empty [60]fullerene. ... [Pg.499]

Excited states of enones such as 100 can abstract hydrogen preferentially from the a position of alkyl ether or alkyl amines leading to the biradical intermediates V. Intramolecular addition to the benzene ring leads to dihydropyran or dihydropyridin derivatives 101 (Scheme 17). Dibenzofuran derivatives 103 were obtained from polyfluorinated aryloxodihydronaphthalene compounds such as 102. Probably, in such cases, a photochemical electron transfer from the nonfluorinated aryl substituent to the fluori-nated moiety takes place. When compound 104 was irradiated in the presence of HCIO4, the isoquinoline derivative 105 was isolated in good yields. ... [Pg.690]

See other pages where Isoquinoline dihydropyridine is mentioned: [Pg.175]    [Pg.349]    [Pg.62]    [Pg.102]    [Pg.241]    [Pg.141]    [Pg.7]    [Pg.69]    [Pg.709]    [Pg.319]    [Pg.62]    [Pg.102]    [Pg.419]    [Pg.497]    [Pg.168]    [Pg.709]    [Pg.261]    [Pg.271]   
See also in sourсe #XX -- [ Pg.8 , Pg.589 ]

See also in sourсe #XX -- [ Pg.8 , Pg.589 ]



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