Cycloaddition of alkynes

A key intermediate, 163, which possesses all but one chiral center of (+ )-brefeldin, has been prepared by the enantiocontrolled cycloaddition of the chiral fi,/3-unsaturated ester 162 to 154[107], Synthesis of phyllocladane skeleton 165 has been carried out by the Pd-catalyzed cycloaddition of the unsaturated diester 164 and cobalt-catalyzed cycloaddition of alkynes as key reactions[108]. Intramolecular cycloaddition to the vinylsulfone in 166 proceeds smoothly to give a mixture of the trans and cis isomers in a ratio of 2.4 1[109], Diastereocontrolled cycloaddition of the hindered vinylsulfone 167 affords a single stereoisomeric adduct, 168, which is used for the synthesis of the spirocarbocyclic ring of ginkgolide[l 10],... 

On the whole, the cycloaddition of alkynes to nitrile N-oxides is one of the most important routes to isoxazoles, but in spite of its potentially wide application, its synthetic utility is less than that of the corresponding reaction with alkenes for the following reasons. (1)... 

Finally, the bimolecular cycloaddition of alkynes with 2-phenylazirines in the presence of molybdenum hexacarbonyl has been studied (79TL2983). The pyrrole derivatives (294) obtained appear to arise from an initial [2 + 2] cycloaddition followed by a ring opening reaction. 

The cycloaddition of alkynes and alkenes to nitrile oxides has been used in the synthesis of functionalised azepine systems <96JHC259>, <96T5739>. The concomitantly formed isoxazole (dihydroisoxazole) ring is cleaved by reduction in the usual way. Other routes to 1-benzazepines include intramolecular amidoalkylation <96SC2241> and intramolecular palladium-catalysed aryl amination and aryl amidation <96T7525>. Spiro-substituted 2-benzazepines have been prepared by phenolic oxidation (Scheme 5) <96JOC5857> and the same method has been applied to the synthesis of dibenzazepines <96CC1481>. 

The cycloaddition of alkynes with the tributylphosphine-carbondisulfide adduct 131 results in the in situ formation of the ylides 132 which react with aldehydes to give the novel 2-arylidene or 2-alkylidene-l,3-dithioles 133 (Scheme 36) [132]. Concerning ylides C-substituted by sulfur we can also mention a publication on the behavior of various keto-stabilized ylides towards acyclic and cyclic a s-disulfides allowing the synthesis of substituted thiazoles, thiols, and dithiols [133]. 

In addition, complexes like 11 are also capable of catalyzing [2 - - 2 - - 2] cycloadditions of alkyne moieties resulting in the formation of substituted benzenes. Furthermore, Fe(I) catalysts like 22 with an odd electron count (17-electron species) have been studied in this context (Fig. 12) and the initial results demonstrate that they are catalytically relevant, uncovering a previously largely unrecognized aspect. 

Co-catalyzed transformations are concerned mainly with the [2+2+2] cycloadditions of three alkyne groups to give arenes. Another important reaction is the [2+2+1] cycloaddition of alkynes, alkenes and CO to give cyclopentenones, which is the well-known as Pauson-Khand reaction [272]. 

Deprotection of N-2 by ozonolysis furnishes triazoles 1225 (Scheme 202) <2003JA7786>. Finding that 1,3-dipolar cycloaddition of alkynes 1222 to trimethylsilyl azide, carried out in DMF/MeOH in the presence of Cul as a catalyst, leads directly to products 1225 with much higher yields provides a significant progress to the synthesis of N-unsubstituted 1,2,3-triazoles <2004EJO3789>. 

Given the commercial availability of alkynes as two-carbon components, the intermolecular [5 + 2]-cycloaddition of alkynes and VCPs represents a potentially practical route to seven-membered rings. However, initial attempts at an intermolecular [5 + 2]-reaction of alkynes and VCPs with modified Wilkinson s catalysts led to cyclotrimerization of the alkynes and/or isomerization of the VCPs. The first intermolecular [5 + 2]-cycloaddition of alkynes was realized... 

DihydroindolesA novel synthesis of fused dihydroindoles involves [2 + 2 + 2]cycloaddition of alkynes with the 2,3-double bond of N-alkynoylated pyrroles. The reaction of 1 with bis(trimethylsilyl)ethyne results in two diaster-... 

Two precedent examples had been reported of the enantioselective [2+2+2] cycloaddition of alkynes. In one case, an enantioposition-selective intermolecular reaction of a triyne with acetylene generated an asymmetric carbon at the benzylic position of a formed benzene ring [19]. In the other case, an intramolecular reaction of a triyne induced helical chirality [20]. Both reactions were developed by chiral Ni catalysts. 

A new method of preparing meso-ionic l,3-diazol-4-ones (91) in situ has been described. Condensation of a-haloacyl chlorides (R CHX.COCl) with benzamidines (R. C=NR NHR ) in benzene solution gives a-haloacylamidines (485) which in the presence of triethyl-amine cyclize to the meso-ionic l,3-diazol-4-ones (91). Using this procedure the l,3-diazol-4-ones (91) were not isolated but evidence for their formation was provided by (f) the development of a yellow coloration and (ii) the formation of pyrroles in good yield by 1,3-dipolar cycloaddition of alkynes." ... 

Ollis, and Ramsden520 treated 99, 100 and 101 with neat EPP and obtained the pyrazole 103 and the phenylpropiolic ester dimer 104, but no 105. A comparative study was carried out with phenylacetylene. When 100 was heated with DM AD in dioxane, 25% of the pyrazole 106 was obtained. These authors have concluded that the cycloaddition of alkynes to isosydnones is analogous to that of sydnones but the reactions are slower and the cycloadducts are obtained in lower yields. 

Huisgen and coworkers have also described the cycloaddition behavior of the munchnones , unstable mesoionic A2-oxazolium 5-oxides with azomethine ylide character.166 Their reactions closely parallel those of the related sydnones. These mesoionic dipoles are readily prepared by cyclodehydration of N-acyl amino acids (216) with reagents such as acetic anhydride. The reaction of munchnones with alkynic dipolarophiles constitutes a pyrrole synthesis of broad scope.158-160 1,3-Dipolar cycloaddition of alkynes to the A2-oxazolium 5-oxide (217), followed by cycloreversion of carbon dioxide from the initially formed adduct (218), gives pyrrole derivative (219 Scheme 51) in good yield. Cycloaddition studies of munchnones with other dipolarophiles have resulted in practical, unique syntheses of numerous functionalized monocyclic and ring-annulated heterocycles.167-169... 

The [Rh(NHC)Cl(COD)]/AgSbF6-catalysed intramolecular 4 + 2-cycloaddition of dienynes and the intramolecular 5 + 2-cycloaddition of alkyne vinylcyclopropanes formed the corresponding bicyclic cycloadducts in 91-99% yields within 10 min.8... 

Perez-Balderas F, Ortega-Munoz M, Morales-Sanfrutos J et al (2003) Multivalent neogly-coconjugates by regiospecific cycloaddition of alkynes and azides using organic-soluble copper catalysts. Org Lett 5( 11) 1951—1954... 

Benzene and cyclooctatetraene (COT) derivatives are formed by [2+2+2] and [2+2+2+2] cycloadditions of alkynes. At first the metallacyclopropene 107 and metallacyclopentadiene 108 are formed. Benzene and COT (106) are formed by reductive elimination of the metallacycloheptatriene 109 and the metallacyclononate-traene 110. Formation of benzene by the [2+2+2] cycloaddition of acetylene is catalysed by several transition metals. Synthesis of benzene derivatives from... 

At first, cycloaddition of alkyne to the carbene complex 259 gives the chromacyclobutene 260, which is cleaved to form the vinylcarbene complex 261. It is claimed that vinylcarbenes 255 and 261 are formed directly without forming chromacyclobutenes 254 and 260 (M = Cr) [83]. The 67r-electrocyclization of 261... 

Recently we have developed a more general approach to molecules exemplified by III. Thus the Diels-Alder cycloaddition of alkyne II and ct-pyrone, followed by aromatization by loss of carbon dioxide, led to the isolation of III (72%) (5). Alkyne II was obtained in high yields, in two steps from dichloroacetylene and triethylphosphite via Arbuzov-type reactions (5). Since the intermediate chloroalkyne phosphonate I was isolable (90%), phosphorus nucleophiles other than triethylphosphite could be used to give unsymmetrical alkyne diphosphoryl species. We have demonstrated this approach by the reaction of I with PhaPOEt and PhP(OEt)2 (5). 

An analogous cleavage of a nickeladisilacyclopentene with alkyne is shown in entry 116. It has been pointed out (297) that these reactions show certain similarities to metal-catalyzed cyclotrimerization of alkynes or to cycloaddition of alkynes and substituted disilanes, postulated to involve Si-metal intermediates. 

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