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Substituted isoquinolines

Isoquinoline, 38, 59 1-METHYL-, 38, 58 Isoquinolines, 1-substituted, 38, 61 ISOTHIOCYANIC ACID, 1-NAPHTHYL ESTER, 36, 56... [Pg.52]

A Diels-Alder reaction of arynes with 1,2,4-triazines 102 allows the preparation of isoquinolines substituted with electron-withdrawing groups in the nitrogen-containing ring. The isoquinoline-1-carboxylic esters bearing additional substituents are of particular interest because they are not readily available by the usual routes [100,101] (Scheme 2.42). [Pg.70]

The Pomeranz-Fritsch synthesis [Eqs. (1) and (2)]1 is the only isoquinoline synthesis involving a simple two-step sequence from common starting materials. Furthermore, it is one of the few methods which can be used to prepare isoquinolines substituted in the 7- and 8-positions. The first step, Schiff base formation [Eq. (1)], takes place readily, but the ring closure [Eq. (2)] is difficult. The yields vary markedly with the concentration of H2S04 and are generally low. Frequently the reaction fails completely. Most of the work described in this chapter was undertaken to circumvent these problems and to realize the potential promise of the synthesis. [Pg.99]

Isoquinolines substituted at C-1 are not easily formed by the standard Pomeranz-Fritsch procedure. The first step would require formation of a ketimine from aminoacetal and a aromatic ketone, which would proceed much less well than for an aryl aldehyde. A variation, which overcomes this difficulty, has a benzylamine condensing with glyoxal diethyl acetal the resulting, isomeric imine, can be cyclised with acid. ... [Pg.137]

Chemical Properties. The presence of both a carbocycHc and a heterocycHc ring faciUtates a broad range of chemical reactions for (1) and (2). Quaternary alkylation on nitrogen takes place readily, but unlike pyridine both quinoline and isoquinoline show addition by subsequent reaction with nucleophiles. Nucleophilic substitution is promoted by the heterocycHc nitrogen. ElectrophiHc substitution takes place much more easily than in pyridine, and the substituents are generally located in the carbocycHc ring. [Pg.389]

Isoquinoline can be reduced quantitatively over platinum in acidic media to a mixture of i j -decahydroisoquinoline [2744-08-3] and /n j -decahydroisoquinoline [2744-09-4] (32). Hydrogenation with platinum oxide in strong acid, but under mild conditions, selectively reduces the benzene ring and leads to a 90% yield of 5,6,7,8-tetrahydroisoquinoline [36556-06-6] (32,33). Sodium hydride, in dipolar aprotic solvents like hexamethylphosphoric triamide, reduces isoquinoline in quantitative yield to the sodium adduct [81045-34-3] (25) (152). The adduct reacts with acid chlorides or anhydrides to give N-acyl derivatives which are converted to 4-substituted 1,2-dihydroisoquinolines. Sodium borohydride and carboxylic acids combine to provide a one-step reduction—alkylation (35). Sodium cyanoborohydride reduces isoquinoline under similar conditions without N-alkylation to give... [Pg.396]

Several modified forms of this synthesis are available. For example, treatment of either isocyanate (28) or urethane (29) derivatives with phosphoryl chloride followed by stannic chloride has been reported to give the substituted isoquinoline [80388-01-8] (158). [Pg.396]

Pomeranz-Fntsch Synthesis, Isoquinolines aie available fiom the cycUzation of benzalamiaoacetals undei acidic conditions (165). The cyclization is preceded by the formation of the Schiff base (33). Although the yields ate modest, polyphosphoric acid produces product in all cases, and is especially useful for 8-substituted isoquinolines (166). [Pg.397]

A variation involves the reaction of benzylamines with glyoxal hemiacetal (168). Cyclization of the intermediate (35) with sulfuric acid produces the same isoquinoline as that obtained from the Schiff base derived from an aromatic aldehyde and aminoacetal. This method has proved especially useful for the synthesis of 1-substituted isoquinolines. [Pg.397]

A number of isoquinoline derivatives have fungicidal properties, eg, 1,2,3,4-tetrahydroisoquinoiines bearing acyl nitrogen substituents like (36) [41910-26-3] (189). Substituted isoquinolines (37) have proved to be effective in controlling undesired vegetation, insects, acarina, and fungi (190). [Pg.398]

When two fused six-membered rings (naphthalene analogues) are considered, possibilities become very numerous, partly on account of the reduced symmetry of naphthalene, compared with benzene, and also because of the larger number of positions available for substitution. Thus, there are two monoazanaphthalenes, quinoline (8) and isoquinoline (9), four benzodiazines [cinnoline (10), phthalazine (11), quinazoline (12) and quinoxaline(13)], with the two nitrogen atoms in the same ring, and six naphthyridines (e.g. (14), named and... [Pg.2]

In the case of the 2-dimethylamino- (or 2-amino-)methylene derivatives, the products were at first thought to be pyrimido[4,5-c]isoquinolines (267), but later work with 6-(N-substituted amino)uracils assigned the structures of the products (268) as belonging to the isomeric pyrimido[4,5-f>]quinoline system (74CB2537), in agreement with the regioselection rules above. [Pg.231]

True electrophilic substitution is very difficult in pyridopyridazines. For example, the [3,4-d] parent (286) is inert to hot 65% oleum (68AJC1291), and although formation of a 3-bromo derivative (308) was reported in the [2,3-d] series, it seems to have arisen by an addition-elimination reaction via the dibromide (309) (69AJC1745). Attempted chlorination led to ring opening. A similar effect was observed in the [3,4-d] system, where an 8-bromo derivative was obtained (77BSF665), and in iV-oxides of the pyrido[2,3-c]pyridazine and fused pyridazino[3,4-c]isoquinoline series (72JHC351). The formation of (311) from (310)... [Pg.237]

Isoquinoline, l-(dimethylamino)-methylation, 2, 179 Isoquinoline, halo-lithium derivatives, 2, 363 Isoquinoline, 3-halo-nucleophilic substitution, 2, 59 Isoquinoline, l-halo-3-hydroxy-synthesis... [Pg.679]

Chichibabin reaction, 5, 409-410 UV spectra, 5, 356 Naphthimidazoles, 2-amino-tautomerism, 5, 368 Naphth[2,3-h]imidazoles oxidation, 5, 405 Naphth[l,2-d]imidazolium salts nucleophilic substitution, 5, 412 Naphth[l, 2-h]isoquinolines... [Pg.705]

As exemplified in the present procedure, the reaction has been optimized and extended in scope it affords functionalized benzocyclobutenes as well as substituted isoquinolines in high yields. Benzocyclobutenes have been used as intermediates in the synthesis of many naturally occurring alkaloids, - steroids,polycyclic terpenoids,and anthracycline antibiotics. The traditional routes leading to the preparation of benzocyclobutenes have been... [Pg.80]

Although, in most cases, iodine is a fairly inert halogen (in contrast to bromine) and does not normally react with the substances that have been chromatographed there are, nevertheless, examples where chemical changes have been observed. Oxidations can evidently take place (e.g. aromatic hydrocarbons and isoquinoline alkaloids [252,253]) and additions and substitutions have also been observed. Pale zones then appear on a brown background. [Pg.46]

The Gabriel-Colman reaction can be used to prepare isoquinoline-1,4-diols regioselectively by the use of unsymmetrically substituted phthalimides. Reaction of phthalimide 32 with sodium ethoxide in ethanol provides a 1 7 mixture of 33 34. It was rationalized that attack at carbon b is preferred because of its greater steric accessibility and diminished electron density compared to carbon a. In spite of the reasonable regioselectivity observed m this reaction, the Gabriel-Colman reaction has not been substantially investigated in the preparation of non-symmetrically substituted isoquinolines. [Pg.419]

The Schlittler-Muller variation of the Pomeranz-Fritsch reaction involves reaction of diethoxyethanal 17 with benzylamine 16 to prepare the desired imine 18. Intermediate 18 is subsequently cyclised to substituted isoquinoline 19. The advantage here lies in the fact that the initial condensation can still take place between an aldehyde and an amine. [Pg.481]

In the isoquinoline series, infrared spectral data favor nonaromatic forms of type 50 for homophthalimide," a series of substituted homo-phthalimides, and certain iV-hydroxyhomophthalimides the predominance of this structure type gains support from the ultraviolet spectra of homophthalimide and A"-ethylhomophthalimide. ... [Pg.358]

Charton has recently examined substituent effects in the ortho position in benzene derivatives and in the a-position in pyridines, quinolines, and isoquinolines. He concludes that, in benzene derivatives, the effects in the ortho position are proportional to the effects in the para position op). However, he finds that effects of a-sub-stituents on reactions involving the sp lone pair of the nitrogen atoms in pyridine, quinoline, and isoquinoline are approximately proportional to CT -values, or possibly to inductive effects (Taft s a ). He also notes that the effects of substituents on proton-deuterium exchange in the ortho position of substituted benzenes are comparable to the effects of the same substituents in the a-position of the heterocycles. [Pg.232]

Resonance activation in the 8-substituted-isoquinolines (344) or -2-nitronaphthalenes is predicted to be greater than that in 5-substituted-quinolines (345) or -1 -nitronaphthalenes due to the lower energy charge-... [Pg.313]


See other pages where Substituted isoquinolines is mentioned: [Pg.245]    [Pg.301]    [Pg.246]    [Pg.322]    [Pg.337]    [Pg.343]    [Pg.69]    [Pg.37]    [Pg.22]    [Pg.149]    [Pg.679]    [Pg.680]    [Pg.730]    [Pg.81]    [Pg.186]    [Pg.73]    [Pg.260]    [Pg.356]    [Pg.379]    [Pg.78]    [Pg.83]    [Pg.97]    [Pg.149]    [Pg.151]    [Pg.312]    [Pg.313]    [Pg.313]   
See also in sourсe #XX -- [ Pg.38 , Pg.61 ]

See also in sourсe #XX -- [ Pg.38 , Pg.61 ]




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1 substituted isoquinolines, asymmetric

1 substituted isoquinolines, asymmetric hydrogenations

1-Substituted 2//-isoquinolin-3-ones

1.4- substituted isoquinolines, synthesis

4-Alkenyl substituted isoquinolines

Aromatic substitutions isoquinoline

Electrophilic aromatic substitution of isoquinoline

Electrophilic aromatic substitutions isoquinoline

Electrophilic substitution isoquinoline

Isoquinoline nucleophilic substitution

Isoquinoline radical substitution

Isoquinoline, activation halo-, kinetics for substitution

Isoquinoline, activation nucleophilic substitution

Isoquinoline, aromaticity electrophilic substitution reaction

Isoquinolines electrophilic substitution, regioselectivity

Isoquinolines nucleophilic substitution, regioselectivity

Isoquinolines radical substitution

Ketone substituted isoquinolines

Nucleophilic aromatic substitution isoquinoline

Nucleophilic substitution isoquinolines

Nucleophilic substitution—continued of isoquinolines

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