Pyrido quinazoline synthesis

Synthesis of pyrido[ 1,2-bJquinazolines through formation of the azole ring from properly substituted quinazoline precursors is also known (61AP556). Thus, the cyclodehydrobromination of the 2-(4-bromo-butyl)quinazolin-4-one (445) with alkali was claimed to give only the linearly annulated 1,2,3,4-tetrahydropyrido[ 1,2-6]quinazolin-4-ones (446) (61AP556). Oxidation of the 3-amino-2-(butyn-l-yl)quinazolin-4-ones (447) with lead tetraacetate led to intramolecular addition of the produced /V-nitrene intermediate to the triple bond to give 449 [86JC S(P 1) 1215]. 

In the following sections structure, thermodynamic aspects, theoretical calculations, spectroscopic properties, reactions, syntheses, and, more briefly, the uses of these tricyclic ring systems are discussed. Within the individual subsections of reactivity, synthesis, and applications, the pyrim-ido[l,2-6]isoquinolines, pyrido[2,l-6]quinazolines, pyrimido[l,2-a]quino-lines, pyrido[l,2-a]quinazolines, and pyrimido[2,l-a]isoquinolines are considered. 

Cyclocondensation routes also provide access to pyrimidines. 2,3-Disubstituted pyrido[2,3-/i]-quinazolin-4(3//)-ones are obtained via cyclocondensation of 5-aminoquinoline-6-caiboxylic acid with acid chlorides <02SC235>. 5,6,8-Trialkyl-7-methoxy-2-aminoquinazolines are obtained from 1,3-dimethoxybenzenes via cyclocondensation of intermediate dihydrobenzenes with guanidine carbonate <02TL3295>. Diastereoselective intramolecular hetero Diels-Alder cyclization of a pyrazole carboxaldehyde condensed onto 1,3-dimethylbarbituric acid (101) gave polycyclic heterocycle 102 <02T531>. An efficient one-step synthesis of cyclobutene-annelated pyrimidinones 103 from methyl 2-chloro-2-cyclopropylideneacetate and amidines has been... 

Nitrogen Heterocycles.- Reactions of iminophosphoranes have been used to prepare a wide range of heterocycles. Examples of compounds prepared by intramolecular aza-Wittig reactions include 3,4-dihydroquinazolines (191) and quinazolines (192), quinazoline derivatives (e.g. 193),pyrrolo( 1,2-a)quinoxalines (194), indolo[3,2-clquinolines (195), and indolo[l,2-c]quinazolines (196),"8 imidazolinones (197),"9 quinazolinones (198),"9, 120 pyrido[2,3-d]pyrimidine derivatives (199), 21 and 4,5-dihydropyrazolo(3,4-d]pyrimidine derivatives (200). 22 Tributyl(cyclohepta-1,3,5-trienylimino)phosphorane (201), prepared by thermal isomerization of the 2,4,6-derivative, reacts with a,p-unsaturated ketones to give 9H-cyclohepta[b]pyridine derivatives (202). 23 a synthesis of (2,4)pyridinophanes (204) by the reaction of N-vinyliminophosphoranes (203) with a,P-unsaturated ketones has been reported. 24... 

The palladium(II)-assisted alkenylation of aromatic compounds has also been applied to the synthesis of heterocycles. A novel synthesis of pyrido[3,4-d] pyrimidines, pyrido[2,3-d]pyrimidines and quinazolines was developed by Hirota et al. [18] employing the palladium(ll)-promoted oxidative coupling of uracil derivatives and alkenes. l,3-Dimethyluracil-6-carboxaldehyde dimethylhydrazone (22), 6-dimethylaminomethylenamino-l,3-dimethyluracil (24) and ( )-6-(2-dimethylaminovinyl) uracil (26) all reacted with methyl acrylate in the presence of stoichiometric Pd(OAc)2, producing pyrido[3,4-ii]pyrimidine 23, pyrido[2,3-if]pyrimidine 25 and quinazoline 27, each apparently arising from direct arylation, 6ti electrocycliza-tion, and elimination of dimethylamine, in 67%, 89% and 64% yields respectively (Scheme 9.3). 

Hirota, K., Kuki, H. and Maid, Y. (1994) Novel synthesis of pyrido[3,4-palladium-catalyzed oxidative coupling. Heterocycles, 37, 563-70. 

Monocyclic and Bicyclic aromatic heterocycles such as imidazoles, thiazoles, thiadiazoles, oxazoles, oxadiazoles quinazolines, indoles, benzimidazoles, purines pyrido[43-d]pyri-midines, thiazolo[5,4-d]pyrimidines, thiazolo[4,5-d]pyrimidines, oxazolo[5,4-d]pyrimi-dines and thieno[2,3-d]pyrimidines are renowned pharmacophores in drug discovery. These special structures are well explained and exemplified in chemical compound libraries. In this chapter, several types of thiazole based heterocyclic scaffolds such as mono-cyclic or bicyclic systems synthesis and their biological activities studies are presented, which are not frequently present in books and reviews. We mention the first importance of synthetic route of various thiazole based compounds and their applications in medicinal chemistry in this chapter. 

Compound 646 and the corresponding heterocyclic nitriles were used in the synthesis of other perfluorinated quinazolines (Table 33, Entry 1) and their heteroanalogues, e.g. pyrazolo[3,4-cf]pyrimidine (Entry 2), 7-deazahypoxanthine (Entry 3), pyrido[2,3-d]pyrimidine (Entry 4), or thieno[2,3-d]pyrimidine derivatives (Entry 5). In all these cases, the corresponding amides (e.g. 633) can be proposed as the intermediates in the reaction. 

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