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Intramolecular alkynes

Terminal alkynes readily react with coordinatively unsaturated transition metal complexes to yield vinylidene complexes. If the vinylidene complex is sufficiently electrophilic, nucleophiles such as amides, alcohols or water can add to the a-carbon atom to yield heteroatom-substituted carbene complexes (Figure 2.10) [129 -135]. If the nucleophile is bound to the alkyne, intramolecular addition to the intermediate vinylidene will lead to the formation of heterocyclic carbene complexes [136-141]. Vinylidene complexes can further undergo [2 -i- 2] cycloadditions with imines, forming azetidin-2-ylidene complexes [142,143]. Cycloaddition to azines leads to the formation of pyrazolidin-3-ylidene complexes [143] (Table 2.7). [Pg.25]

Hydrocarboxylation of Alkynes Intramolecular addition of carboxylic acids (weak nucleophiles) to alkynes led to lactones, which were first reported by Schmidbaur et al. in the reaction of acetic add with 3-hexynes to obtain, in addition to enol ester, 3-hexanone. Traces of water were probably present in the solvent to enable the process to be carried out [99]. [Pg.461]

Later, Arcadi showed that /J-keto-imines react with alkynes intramolecularly to give pyrroles. The intermolecular animation with aniliaes was later developed by Hayashi and Tanaka using a cationic Au(I) catalyst to form imines (equation 27). More recently, Arcadi etal. developed an intramolecular version for the cyclization of o-alkynylanilines to form indoles (equation 28) and Li reported a double intra- and intermolecular hydroamination to obtain A-vinylindoles. " O-Substituted hydroxylamines can also undergo this type of transformation to dihydroisoxazole derivatives. " " Tandem sequences that involve a first alkyne-hydroamination step with anilines have been recently developed " " and are similar to the previonsly discnssed additions with phenols that access isoflavone skeletons. [Pg.6583]

Scrima M, Le Chevalier-Isaad A, Rovero P et al (2010) Cul-catalyzed azide-alkyne intramolecular i-to-(i + 4) side-chain-to-side-chain cyclization promotes the formation of helix-like secondary structures. Eur J Org Chem 2010 446-457... [Pg.161]

The reaction forms the five-membered ring in a single step it is a cycloaddition, in which the alkyne is using its HOMO to attack the LUMO of the nitrile oxide (see Chapter 34 for an explanation). If the alkyne has an electron-withdrawing group, mixtures of isomers are usually formed as the HOMO of the nitrile oxide also attacks the LUMO of the alkyne. Intramolecular reactions are usually clean regardless of the preferred electronic orientation if... [Pg.773]

Aryl- and allylsilanes reacted with alkynes intramolecularly in the presence of HfCU catalyst to afford the corresponding trans-carbosilylated cyclic compounds. The reaction of phenylsilylalkyne (149) proceeded in exclusively exo-cyclization mode to afford cyclic ( )-vinylsilane (150) in a good yield (Equation 65) [71]. In the case of silylated enyne (151), only endo-dig cyclization proceeded to afford vinylcyclohexene (152) in excellent yield (Equation 66) [72]. The reaction was applied for the synthesis of disilanylene-containing polymers [73]. [Pg.320]

Recently, Pt DENs were used as an electrophilic catalyst in an intramolecular addition of phenols to alkynes (intramolecular hydroalkoxylation), as shown in Fig. 4.13b [100], The Pt DENs were supported on a mesoporous silica material known as SBA-15 (Fig. 4.13a). Since the as-synthesized SBA-15 consists of micrometer-sized particles, the supported Pt DENs can be easily separated from the reaction solution by centrifugation. This reaction has only been catalyzed by homogeneous catalysts (e.g., PtCy before this report. The use of the supported Pt DENs to catalyze this reaction was the first demonstration that a heterogeneous catalyst could also catalyze this conversion. It was also found that adding an oxidation agent, PhICF, would dramatically increase the benzofuran yield from 10 to 98 %, as shown in Fig. 4.13b. The authors proposed that PhICl2 could render the surface of the Pt nanoparticles more electrophilic, which is required for the Pt DENs to be active for the hydroalkoxylation reaction. [Pg.81]

The novel intramolecular reaction of the alkenyl bromide with the terminal alkyne in 328, followed by intramolecular Diels-Alder reaction, afforded the highly strained dynemicin A structure 329 in one stepf237]. [Pg.174]

The formation of disubstituted alkynes by coupling of terminal alkynes, followed by intramolecular attack of an alcohol or amine, is used for the preparation of benzofurans and indoles. The benzo[il)]furan 356 can be prepared easily by the reaction of o-iodophenol with a terminal alkyne[262]. The 2-substituted indole 358 is prepared by the coupling of 2-ethynylaniline (357) with aryl and alkenyl halides or triflates, followed by Pd(ll)-catalyzed cycliza-tion[263]. [Pg.178]

Intramolecular reaction can be used for polycyclization reaction[275]. In the so-called Pd-catalyzed cascade carbopalladation of the polyalkenyne 392, the first step is the oxidative addition to alkenyl iodide. Then the intramolecular alkyne insertion takes place twice, followed by the alkene insertion twice. The last step is the elimination of/3-hydrogen. In this way, the steroid skeleton 393 is constructed from the linear diynetriene 392(276]. [Pg.181]

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],... [Pg.184]

The intramolecular insertion of an internal alkyne into an aryl or alkenyl halide 727 generates aryl- or alkenylpalladium as an intermediate, which is trapped with an organozinc or organostannane to give 728. Overall cis addition to the alkyne takes place[595,596]. The reaction of the alkenylstannane 730 with the 2-bromomethylfuran 729 is used for the introduction of a prenyl group[597]. [Pg.236]

No intennolecular reaction of malonate or /3-keto esters with halides has been reported, but the intramolecular reaction of /3-diketones such as 790 and malonates proceeds smoothly[652,653]. Even the simple ketone 791 can be arylated or alkenylated intramolecularly. In this reaction, slow addition of a base is important to prevent alkyne formation from the vinyl iodide by elim-ination[654]. [Pg.245]

The a-bromo-7-lactone 901 undergoes smooth coupling with the acetonyltin reagent 902 to afford the o-acetonyl-7-butyrolactone 903[763j. The o-chloro ether 904, which has no possibility of //-elimination after oxidative addition, reacts with vinylstannane to give the allyl ether 905, The o -bromo ether 906 is also used for the intramolecular alkyne insertion and transmetallation with allylstannane to give 907[764],... [Pg.261]

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],... [Pg.313]

Similarly to alkenes. alkynes also insert. In the reaction of 775 carried out under a CO atmosphere in AcOH, sequential insertions of alkyne, CO. alkene. and CO take place in this order, yielding the keto ester 776[483]. However, the same reaction carried out in THF in the presence of LiCl affords the ketone 777, but not the keto ester[484]. The tricyclic terpenoid hirsutene (779) has been synthesized via the Pd-catalyzed metallo-ene carbonylation reaction of 778 with 85% diastereoselectivity as the key reaction[485], Kainic acid and allo-kainic acid (783) have been synthesized by the intramolecular insertion ol an alkene in 780, followed by carbonylation to give 781 and 782[486],... [Pg.397]

The intramolecular [In + 2 rr] cycloaddition ofmethylenecyclopropane with the alkyne in 117 using isopropyl phosphite as a ligand affords the methylene-cyclopentene 118[55]. [Pg.486]

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)... [Pg.502]

The regioselectivity of the reaction with unsymmetrical alkynes is poor. Mixtures of isomers are obtained with alkyl substituted acetylenes, if the alkyl groups do not differ much in size. A solution to this problem has been reported by Semmelhack et al. The reactants are connected by a -OCHaCHaO-tether, which can later be removed the coupling step thus becomes intramolecular ... [Pg.99]


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See also in sourсe #XX -- [ Pg.83 , Pg.126 , Pg.127 ]

See also in sourсe #XX -- [ Pg.3 , Pg.49 , Pg.55 , Pg.83 , Pg.126 , Pg.127 ]




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Alkoxycarbonylation intramolecular alkyne reactions

Alkynals intramolecular cyclization

Alkyne Amination, intramolecular

Alkyne carbolithiation intramolecular

Alkyne derivatives intramolecular carbopalladation

Alkyne derivatives intramolecular reactions

Alkyne-gold intramolecular

Alkynes azomethine ylide intramolecular cycloadditions

Alkynes gold -catalyzed intramolecular

Alkynes intramolecular addition

Alkynes intramolecular carbozincations

Alkynes intramolecular cyclization with

Alkynes intramolecular oxidation

Alkynes intramolecular reactions

Alkynes intramolecular reactions, with arenes

Alkynes intramolecular ring-closing metathesis

Carbonylation intramolecular alkyne reactions

Intramolecular Acylpalladation Reactions with Alkenes, Alkynes, and Related Unsaturated ompounds

Intramolecular Alkene-Alkyne Coupling

Intramolecular Coupling of Enynes or Alkynes

Intramolecular Reactions with Alkenes and Alkynes

Intramolecular carbolithiation reactions alkynes

Intramolecular cycloadditions alkynes

Intramolecular hydroarylation of alkynes

Intramolecular reactions terminal alkynes

Intramolecular silylformylation alkynes

Intramolecular with alkynes

Propargylic compounds intramolecular alkyne reactions

Terminal alkynes intramolecular silylformylation

Transition metal-catalyzed intramolecular internal alkynes

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