Pyridines, alkynyl-, synthesis

Moody s synthesis of promothiocin 43 provided evidence that the Bohlmann-Rahtz method can be used for the rapid synthesis of complex pyridines. Oxazaole 44 was treated with alkynyl ketone 45 to afford 46 in 83% yield. The ester moiety of 46 was elaborated into a thiazole substituent providing entry into the northeast quadrant of 43. 

Scheme 56 Synthesis of pyridines and pyrimidines from alkynyl ketones...

Comins et al. <20010L469> achieved the synthesis of the same allopumiliotoxin 267A 215 by a stereoselective alkynylation of the appropriately substituted 4-MeO-pyridine 226. The C-6 side chain is introduced by an aldol condensation between an aldehyde and indolizidinone 227 (Equation 17). 

Movassaghi et al. [21[ reported the synthesis of substituted pyridine derivatives via ruthenium-catalyzed cycloisomerization of 3-azadienynes. To avoid the isolation of the chemically active alkynyl imines, trimethysilyl alkynyl amines served as initial substrates, as shown in Scheme 6.19. The formation of ruthenium vinylidene intermediates is accompanied by a 1,2-silyl migration according to controlled... 

While the alkynyl ketone route occurs under mild conditions, and can provide 4-substituted pyrimidines both substituted and unsubstituted at the 6-position, it cannot provide products substituted at the 5-position. However, this can be achieved by use of an oxidative enone cyclization, as demonstrated by the synthesis of the 3-(5-methylpyrimidinyl)pyrazolo[l,5- ]pyridine 1006 from 1002, where air oxidation of the initial adduct was catalyzed by the addition of palladium on carbon <2003T9001>. 

Nina A. Nedolya was born in Irkutsk (Russia) and educated in organic chemistry at the Irkutsk State University (Diploma 1972, PhD 1982, DSc 1998). From 1995 to 1999 she was associated with Prof. L. Brandsma at the Utrecht University (The Netherlands). In 1999 she obtained her second PhD from the Utrecht University. She is presently Head of the Research Group of Chemistry of Heterocyclic Compounds at A. E. Favorsky Irkutsk Institute of Chemistry. She is the author of over 210 review articles and research papers. She is also one of the inventors for 112 patents. She is interested in the chemistry of polyfunctional unsaturated heteroatomic systems (vinyl, allenyl, and alkynyl ethers and their derivatives, linear and cyclic heteropolyenes, hetero-cumulenes), including synthesis of important heterocycles, particularly pyrroles, thiophenes, thiazoles, imidazoles, dihydrofurans, dihydropyridines, pyridines, quinolines, dihydroazepines, and azepines, based on metallated allenes or alkynes and/or heterocumulenes. 

A further extension of this strategy has been employed as a route to carbazoles, as illustrated by the synthesis of the system 116 from the 2-nitrobiphenyl derivative 117 (Equation 30) <20040L533>. A substituted 2-nitrobiphenyl derivative has been cyclized to a carbazole using P(OEt)3 en route to the pyridocarbazole alkaloid ellipticine <2006HCA111>. It should also be mentioned that annulation of o-(alkynyl)nitrobenzene precursors with TBAF or pyridine gave access to indol-3-one-l-oxides (isatogens) <2003T2497>. 

The synthesis of conjugated diynes via the Glaser coupling reaction " is the classical method for homocoupling of terminal alkynes. The coupling reaction is catalyzed by CuCl or Cu(OAc)2 in the presence of an oxidant and ammonium chloride or pyridine to yield symmetrically substituted diynes. " The oxidative dimerization appears to proceed via removal of the acetylenic proton, formation of an alkynyl radical, and its dimerization. 

Copper complexes of chiral Pybox (pyridine-2,6-bis(oxazoline))-type ligands have been found to catalyze the enantioselective alkynylation of imines [26]. Moreover, the resultant optically active propargylamines are important intermediates for the synthesis of a variety of nitrogen compounds [27], as well as being a common structural feature of many biologically active compounds and natural products. Portnoy prepared PS-supported chiral Pybox-copper complex 35 via a five-step solid-phase synthetic sequence [28]. Cu(l) complexes of the polymeric Pybox ligands were then used as catalysts for the asymmetric addition of phenylacetylene to imine 36, as shown in Scheme 3.11. tBu-Pybox gave the best enantioselectivity of 83% ee in the synthesis of 37. 

Boehringer Ingelheim applied a chiral auxiliary for introduction of the trifluor-omethyl group in their synthesis of indole and azaindole trifluoropentanols (Figure 9.7). Under tetrabutylammonium fluoride catalysis the trifluoromethylation to the chiral a-ketocarboxylate ester results in a 84 16 diastereoselectivity. Further crystallization yields enantiopure material that is saponified to the acid under recovery of the chiral auxiliary. Transformation to the epoxide and construction of the azaindole from alkynyl pyridine [73] give access to the whole class of enantiopure pentanol indoles and azaindoles including BI 115. 

Various flve-membered heterocycles can be prepared by inter- or intramolecular addition/cyclizations of appropriate nucleophiles with alkynyliodonium salts via alkylidene carbene intermediates [856, 978, 979]. The intermolecular variant of this cyclization has been employed in the synthesis of 3-substituted-5,6-dihydroimidazo[2,l-( ]thiazoles [997], 2-substituted imidazo[l,2-a]pyrimidines [998] and 2-substituted-imidazo[l,2-fl]pyridines [999]. In a representative example, 2-substituted imidazo[l,2-fl]pyridines 744 were synthesized in good yield by cyclocondensation of 2-aminopyridine (742) with alkynyl(phenyl)iodonium tosylates 743 under mild conditions (Scheme 3.293) [999]. The mechanism of this cyclization involves... 

The Bohlmann-Rahtz synthesis is viable for the construction of di- or tri-substituted pyridines and has been applied in the synthesis of complex target molecules. The Baldwin group was one of the first to employ this method for the construction of pyridine substituted a-amino acids. Exposure of alkynyl ketone 182 to 3-aminocrotoyl ester 183 or ketone 184 in ethanol at reflux gave rise to the desired pyridyl-P-alanines 185 and 186, respectively, which were subsequently deprotected to afford the a-amino acid L-azatyrosine analogues 187 and 188, respectively. 

P-carbohnes [29] (Schane 3, equation 1). A variety of secondary amines were employed, and the method was adapted to the preparation of pyrrolo[3,2-/lindoles and dipyrrolo[3,2-h 2, 3 -c]pyridines [30]. Cacchi and colleagues synthesized 3-aroylindoles from the copper-catalyzed cyclization of lV-(2-iodoaryl)enaminones (equation 2) [31]. The latter were prepared from 2-haloanilines and a,p-ynones, which can react directly with 2-iodoaniline under the copper protocol to give 3-benzoyl-2-phenylindole (76%), thus bypassing the enaminone. Patel described a copper-catalyzed 3-aroylindole synthesis from 2-alkynylated... 

Aryl-substituted pyridines and pyrimidines have been prepared by 2 - - 2-cycloadditions of alkynyl-substituted pyridines and pyrimidines with electron-rich dienes." The reactions proceed by formation of a bridged cycloadduct and subsequent thermal extrusion of ethylene. The pyridine moiety plays a crucial role for the success of the reaction. 2-Benzoylbenzoyl azides undergo facile cycUzation under acidic conditions to give substituted dibenzo[ / [l,5]-diazocines in good yields. The mechanism of the diazocine synthesis was assumed to proceed by an unprecedented intermolecular 2 - - 2-cyclization. 

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