Alkynes, cyclization

Owing to flexibility in the substrate, the TycATE was also used to synthesize a variety of novel cyclic structures. Inclusion of a propargylated amino acid into the linear substrate allowed the synthesis of over 247 macrocyclic glycopeptides, where azido-sugars were coupled onto the cyclized alkyne via copper-catalyzed 1,3-dipolar cycloaddition [44] (Figure 13.12). 

The benzene derivative 409 is synthesized by the Pd-catalyzed reaction of the haloenyne 407 with alkynes. The intramolecular insertion of the internal alkyne, followed by the intermolecular coupling of the terminal alkyne using Pd(OAc)2, Ph3P, and Cul, affords the dienyne system 408, which cyclizes to the aromatic ring 409[281]. A similar cyclization of 410 with the terminal alkyne 411 to form benzene derivatives 412 and 413 without using Cul is explained by the successive intermolecular and intramolecuar insertions of the two triple bonds and the double bond[282]. The angularly bisannulated benzene derivative 415 is formed in one step by a totally intramolecular version of polycycli-zation of bromoenediyne 414[283,284],... 

Dimethyl acetylenedicarboxylate (DMAD) (125) is a very special alkyne and undergoes interesting cyclotrimerization and co-cyclization reactions of its own using the poorly soluble polymeric palladacyclopentadiene complex (TCPC) 75 and its diazadiene stabilized complex 123 as precursors of Pd(0) catalysts, Cyclotrimerization of DMAD is catalyzed by 123[60], In addition to the hexa-substituted benzene 126, the cyclooctatetraene derivative 127 was obtained by the co-cyclization of trimethylsilylpropargyl alcohol with an excess of DMAD (125)[6l], Co-cyclization is possible with various alkenes. The naphthalene-tetracarboxylate 129 was obtained by the reaction of methoxyallene (128) with an excess of DMAD using the catalyst 123[62],... 

Amines undergo aminopalladation to alkynes. The intramolecular addition of amines to alkynes yields cyclic imines. The 3-alkynylamine 273 was cyclized to the 1-pyrroline 274, and the 5-alkynylamine 275 was converted into the 2,3,4,5-tetrahydropyridine 276[137]. Cyclization of o-(l-hexynyl)aniline (277)... 

The reaction of a ,)3-alkynic nitriles (317) with hydroxylamine gave the 5-aminoisoxazoles (318) regiospecifically, whereas in the presence of sodium hydroxide the 3-aminoisoxazoles (319) were obtained exclusively (66CPB1277). Similarly, the course of the cyclization of arylhydrazones (320) was influenced by a change in the base employed (75JOC2604). 

Recently, Burger devised an improved method of carrying out mild, regiospecific cyclizations that involve an intermediate that acts as a synthon for a nitrile ylide of HCN [47 (equation 48). With this methodology, cycloadditions with activated alkenes, alkynes, and azo compounds were earned out [47] (equation 49). All such reported reactions were regiospecific and had the same orientational preference... 

The first example of a cyclization of fluorine-containing 5-hexenyl radicals was the study of the radical-iniOated cyclodimenzation reaction of 3,3,4,4-tetra-fluoro-4-iodo-1-butene. In this reaction, the intermediate free radical adds either to more of the butene or to an added unsaturated species [54, 55] (equation 56). Electron-deficient alkenes are not as effective trapping agents as electron-nch alkenes and alkynes [55]. 

A unique method to generate the pyridine ring employed a transition metal-mediated 6-endo-dig cyclization of A-propargylamine derivative 120. The reaction proceeds in 5-12 h with yields of 22-74%. Gold (HI) salts are required to catalyze the reaction, but copper salts are sufficient with reactive ketones. A proposed reaction mechanism involves activation of the alkyne by transition metal complexation. This lowers the activation energy for the enamine addition to the alkyne that generates 121. The transition metal also behaves as a Lewis acid and facilitates formation of 120 from 118 and 119. Subsequent aromatization of 121 affords pyridine 122. 

The von Richter cinnoline process was further extended to solid-phase synthesis. The route began from benzylaminomethyl polystyrene and the required diverse o-haloaryl resins represented by 21 were prepared from substituted o-haloanilines. A Pd-mediated cross-coupling reaction with 21 and the alkynes provided the alkynylaryl derivatives represented by alkyne 22. The von Richter cyclization reaction with hydrobromic or hydrochloric acid in acetone/HaO and cleavage from the resin occurred in the same step to furnish the cinnoline derivatives 23 in 47-95% yield and 60-90% purity (no yield reported for each entry). 

TABLE III. Alkynylpyrazoles Prepared by Cyclization of Alkynes with Diazo Compounds [68CB3700 68LA113 88JOM247 91ZOB2286]. 

TABLE XXVI. Pyranopyrazoles Prepared by Cyclization of Vicinal (Alkyn-1-yl)pyrazolecarboxylic Acid [81IZV1342]. 

TABLE XXVn. l-Methyl-l,6-dihydropyrazolo[3,4-c]pyridin-7-ones Prepared by Cyclization of Vicinal 4-(Alkyn- l-yl)pyrazole-5-carboxylic Acid Amides [90IZV2089]. 

TABLE XXX. Pyrazolopyridazines Prepared by Cyclization Eollowed by Di-azotization of Vicinal (Alkyn-l-yl)aminopyrazoles [95LA775 98HEC519 99JCS(P1)3721]. 

In an effort to identify a more stereoselective route to dihydroagarofuran (15), trimethylsilylated alkyne 17 was utilized as a substrate for radical cyclization (Scheme 2). Treatment of 17 with a catalytic amount of AIBN and tri-n-butyltin hydride (1.25 equiv) furnishes a mixture of stereoisomeric vinyl silanes 18 (72% combined yield) along with an uncyclized reduction product (13% yield). The production of stereoisomeric vinyl silanes in this cyclization is inconsequential because both are converted to the same alkene 19 upon protodesiiyiation. Finally, a diastereoselective di-imide reduction of the double bond in 19 furnishes dihydroagaro-... 

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