Cycloaddition Cyclocondensations

Scheme 54 Cl-cycloaddition-cyclocondensation four-component synthesis of dihydropyrindines 99, tetrahydroquinolines 100, naphthyridines 101, and substituted pyridines 102...

Scheme 55 Mechanistic rationalization of the Cl-cycloaddition-cyclocondensation sequence to annelated and substituted pyridines 99-102...

Scheme 56 Cl-cycloaddition-cyclocondensation three-component synthesis of l-acetyl-2-amino-cyclohexa-l,3-dienes 104...

Conceptually similar palladium-catalyzed cascade reactions have been developed, involving molecular-queuing cycloaddition, cyclocondensation and Diels-Alder reactions [71], cydization-anion-capture-olefin metathesis [72], carbonylation-allene insertion [73], carbonylation/amination/Michael addition [74], sequential Petasis reaction/palladium-catalyzed process [75], supported allenes as substrates [76], and palladium-ruthenium catalysts [77]. 

Grigg, R Liu, A., Shaw, D Suganthan, S Washington, M.L., Woodall, D.E. and Yoganathan, G. (2000) Palladium-catalysed cascade molecular queuing-cycloaddition, cyclocondensation and Diels-Alder reactions. Tetrahedron Letters, 41,... 

The isomeric 4-iodopyrazole-5-carboxylic acid is cyclocondensed in a similar way. Introduction of the additional methyl group into the ring has no effect on the direction of cycloaddition 4-iodo-l,3-dimethylpyrazole-5-carboxylic acid forms only 5-lactones (Scheme 118). 

Scheme 31 Microwave-assisted cyclocondensation-cycloaddition-N2 expulsion for the synthesis of the canthine skeleton...

Abstract Controlled microwave heating has foimd many important applications in the synthesis of heterocycles. Almost all kinds of heterocycles have been prepared (or their preparation attempted) with the aid of microwaves. Many examples of cyclocondensations, reactions where two or more fimctional groups combine with the loss of another small molecule (usually water), have been described. Moreover, microwave irradiation successfully induces cycloaddition reactions, especially in the cases where high temperatures are required. This review collects the most representative examples of the application of microwaves to these two kinds of transformations. Except for a few examples, all the reactions selected have been carried out imder controlled microwave irradiation using dedicated instruments. 

Keywords Cycloaddition reactions Cyclocondensation reactions Heterocycles ... 

Rodriquez M, Taddei M (2006) Synthesis of Heterocycles via Microwave-Assisted Cycloadditions and Cyclocondensations. T. 213-266... 

Cu-mediated/Pd-catalyzed 207 Cyanation 189,277 2-Cyanobenzothiazoles 70 Cyanodehalogenation 24 Cycloaddition 51 Cyclocondensation 34... 

The cycloaddition between a nitrilimine 319 and an aroyl substituted heterocyclic ketene aminal 318 has been found to be stepwise, involving an initial nucleophilic addition of 318 to 319 followed by intramolecular cyclocondensation of the intermediate 320 providing fully substituted pyrazole 321 (Eq. 36) [92]. When Ar was the 2,4-dinitrophenyl group, the intermediate 320 was isolable and required forcing conditions (xylene, reflux, 10 h) to undergo cyclization ... 

Type Ilbd pyrrole syntheses fall into three general categories (1) Hinsberg-type (2) azomethine ylide cycloadditions and (3) isocyanide-based cyclocondensations. The Hinsberg pyrrole synthesis, the cyclocondensation between iminodiacetates and oxalates, has been further exploited in the total synthesis of the lamellarins <06T594,06TL3755>. 

Ethyl 3-azido-l-methyl-177-indole-2-carboxylate 361 is prepared in 70% yield by diazotization of amine 360 followed by substitution of the created diazonium group with sodium azide. In cycloadditions with nitrile anions, azide 361 forms triazole intermediates 362. However, under the reaction conditions, cyclocondensation of the amino and ethoxycarbonyl groups in 362 results in formation of an additional ring. This domino process provides efficiently 4/7-indolo[2,3-i ]l,2,3-triazolo[l,5- ]pyrimidines 363 in 70-80% yield (Scheme 57) <2006TL2187>. 

Azide 367 is prepared from 4-r -butyl-2-nitroaniline in 76% yield by its diazotization followed by treatment with sodium azide. In a 1,3-dipolar cycloaddition with cyanoacetamide, azide 367 is converted to triazole 368 that without separation is directly subjected to Dimroth rearrangement to give derivative 369 in 46% yield. Reduction of the nitro group provides ortfc-phenylenediamine 371 in 91% yield <2000EJM715>. Cyclocondensation of diamine 371 with phosgene furnishes benzimidazol-2-one 370 in 39% yield, whereas its reaction with sodium nitrite in 18% HC1 leads to benzotriazole derivative 372, which is isolated in 66% yield (Scheme 59). Products 370 and 372 exhibit potassium channel activating ability <2001FA841>. 

---