Showing papers on "Annulation published in 2011"
TL;DR: This work observed unprecedented ruthenium-catalyzed direct annulations of alkynes through the chemoand site-selective functionalization of both C H and N H bonds, and became interested in understanding the remarkable activity of the novel catalytic system.
Abstract: Oxidative transition-metal-catalyzed C H bond functionalizations have attracted significant recent interest, because these methods avoid the multi-step preparation of preactivated starting materials, and hence allow for an overall streamlining of organic synthesis. Pioneering reports by the research groups of Miura and Satoh, Fagnou, and Jones revealed that particularly rhodium catalysts enabled effective dehydrogenative annulation reactions of alkynes through chelation assistance, which have set the stage for very recently developed rhodium-catalyzed isoquinolone syntheses. On the contrary, the use of less-expensive ruthenium catalysts for oxidative annulations through cleavage of C H bonds has thus far not been reported. During studies on oxidative ruthenium-catalyzed homodehydrogenative arylations, we observed unprecedented ruthenium-catalyzed direct annulations of alkynes through the chemoand site-selective functionalization of both C H and N H bonds, and we wish to disclose our results herein. At the outset of our studies, we explored the effect of different reaction parameters on the oxidative annulation of alkyne 2a by amide 1a, which included the use of representative ruthenium precursors, solvents, oxidants, and additives (Table 1, and Table S1 in the Supporting Information). Among a variety of ruthenium complexes, optimal yields of product 3a were obtained with [{RuCl2(p-cymene)}2], along with Cu(OAc)2·H2O as the terminal oxidant, and tAmOH (tAm= tert-amyl) as the solvent. On the contrary, the use of silver(I) salts as stoichiometric oxidants resulted in decreased catalytic efficacy. As to the reaction mechanism (see below), the formation of compound 4a in apolar solvents is noteworthy. With an optimized catalytic system in hand, we explored its scope in C H bond functionalizations by employing differently substituted benzamides 1 (Scheme 1). Owing to its remarkable chemoselectivity the ruthenium catalyst proved tolerant of valuable electrophilic functional groups, such as fluoro, chloro, or ester substituents. Furthermore, amides 1 bearing different groups on the nitrogen atom, such as N-alkyl, N-benzyl, or N-aryl derivatives, were efficiently reacted, with the latter being chemoselectively converted into isoquinolones 3k and 3 l, without the formation of any indole by-products. Likewise, the successful use of a heteroaromatic benzamide turned out to be viable. The catalytic system was not restricted to the use of tolane (2a), but also allowed for efficient oxidative annulations of aryl-, alkenylor alkyl-substituted alkynes 2 (Scheme 2). Importantly, the annulation process occurred with high regioselectivity even when using unsymetrically substituted aryl/alkyl or alkenyl/alkyl alkynes 2. Given the remarkable activity of the novel catalytic system, we became interested in understanding its mode of action. Thus, intramolecular competition experiments with meta-substituted substrates were largely controlled by steric interactions, thus delivering isoquinolones 3m and 3n as the sole products (Scheme 1). In contrast, the use of substrates 1b and 1c, which have electronegative heteroatoms in metaposition, gave significant amounts of products 3w and 3y, respectively, through C H bond functionalizations at the 2[*] Prof. Dr. L. Ackermann, Dr. A. V. Lygin, Dipl.-Chem. N. Hofmann Institut f r Organische und Biomolekulare Chemie Georg-August-Universit t Tammannstrasse 2, 37077 G ttingen (Germany) Fax: (+49)551-39-6777 E-mail: lutz.ackermann@chemie.uni-goettingen.de Homepage: http://www.org.chemie.uni-goettingen.de/ackermann/
412 citations
TL;DR: The Morita-Baylis-Hillman (MBH) carbonates (II, (IV), and (VII) serve as C3 synthons in asymmetric [3 + 2] annulation reactions to give a series of 3-spirocyclopentene-2-oxindoles with two contiguous quaternary centers such as (III, (V), or (VIII) as present in various alkaloids as discussed by the authors.
Abstract: The Morita—Baylis—Hillman (MBH) carbonates (II), (IV), and (VII) serve as C3 synthons in asymmetric [3 + 2] annulation reactions to give a series of 3-spirocyclopentene-2-oxindoles with two contiguous quaternary centers such as (III), (V), or (VIII) as present in various alkaloids.
402 citations
TL;DR: The first efficient intermolecular reaction of gold carbene intermediates generated via gold-catalyzed alkyne oxidation has been realized using nitriles as both the reacting partner and the reaction solvent, offering a generally efficient synthesis of 2,5-disubstituted oxazoles with broad substrate scope.
Abstract: The first efficient intermolecular reaction of gold carbene intermediates generated via gold-catalyzed alkyne oxidation has been realized using nitriles as both the reacting partner and the reaction solvent, offering a generally efficient synthesis of 2,5-disubstituted oxazoles with broad substrate scope. The overall reaction is a [2 + 2 + 1] annulation of a terminal alkyne, a nitrile, and an oxygen atom from an oxidant. The reaction conditions are exceptionally mild, and a range of functional groups are easily tolerated. With complex and/or expensive nitriles, only 3 equiv could be sufficient to achieve serviceable yields in the absence of any solvent and using only 1 mol % BrettPhosAuNTf2 as the catalyst.
335 citations
TL;DR: Vinyl azides were successfully applied as a three-atom unit including one nitrogen to prepare pyridines and δ-lactams by the reactions with monocyclic cyclopropanols as well as to construct 2-azabicyclo[3.3.1].
Abstract: Mn(III)-mediated formal [3+3]-annulation has been developed using readily available vinyl azides and cyclopropanols with a wide range of substituents. Vinyl azides were successfully applied as a three-atom unit including one nitrogen to prepare pyridines and δ-lactams by the reactions with monocyclic cyclopropanols as well as to construct 2-azabicyclo[3.3.1] and 2-azabicyclo[4.3.1] frameworks with bicyclic cyclopropanols, bicyclo[3.1.0]hexan-1-ols, and bicyclo[4.1.0]heptan-1-ols. These reactions were initiated by a radical addition of β-carbonyl radicals, generated by the one-electron oxidation of cyclopropanols with Mn(III), to vinyl azides to give iminyl radicals, which cyclized with the intramolecular carbonyl groups. In addition, application of the present methodology to a synthesis of the quaternary indole alkaloid, melinonine-E, was accomplished.
230 citations
TL;DR: Both enantiomers of the resultant dihydropyranone could be easily obtained by choosing N-heterocyclic carbenes (NHCs) with the same stereocenter but different substituents under the optimized reaction conditions.
Abstract: Highly enantioselective [3+3] annulation reactions of bromoenals and 1,3-dicarbonyl compounds are reported. In addition, both enantiomers of the resultant dihydropyranone could be easily obtained by choosing N-heterocyclic carbenes (NHCs) with the same stereocenter but different substituents under the optimized reaction conditions.
199 citations
TL;DR: Polycyclic azepinoindoles and related compounds are obtained in a single step with good to excellent yields.
Abstract: Aminobenzaldehydes react with indoles in an unprecedented cascade reaction. This acid-catalyzed redox-neutral annulation proceeds via a condensation/1,5-hydride shift/ring-closure sequence. Polycyclic azepinoindoles and related compounds are obtained in a single step with good to excellent yields.
193 citations
TL;DR: The two reactions provided direct and efficient methods for enantioselective synthesis of functionalized dihydropyranones and demonstrated broader substrate compatibility.
164 citations
TL;DR: Selective synthesis of quinolines has been achieved via oxidative annulation of functionalized pyridines with two alkyne molecules under Rh(III)-catalyzed cascade C-H activation of p Pyridines using Cu(OAc)(2) as an oxidant.
Abstract: Selective synthesis of quinolines has been achieved via oxidative annulation of functionalized pyridines with two alkyne molecules under Rh(III)-catalyzed cascade C–H activation of pyridines using Cu(OAc)2 as an oxidant. The selectivity of this reaction is oxidant-dependent, particularly on the anion of the oxidant.
153 citations
TL;DR: A tandem C-H olefination/annulation sequence directed by N-acylsulfonamides affords a variety of isoindolinones that can be used as the sole, eco-friendly oxidant.
148 citations
TL;DR: From practical point of view, this methodology provides the most straightforward approach to a series of 3-(imino)isoindolinones.
Abstract: Isocyanide insertion: the first rhodium-catalyzed annulation of N-benzoylsulfonamide incorporating with isocyanide via C-H activation is described. The transformation is broadly compatible with N-benzoylsulfonamides bearing various electron-properties as well as isocyanides. From practical point of view, this methodology provides the most straightforward approach to a series of 3-(imino)isoindolinones.
145 citations
TL;DR: A new strategy for the construction of the compounds with two different heterocycles, linked by a C(2)-tether via a domino process involving [5 + 1] annulation, ring-opening, and subsequent double isocyanide cyclization from the reaction of ethyl isOCyanoacetate with divinyl ketones (DVKs).
Abstract: A new strategy for the construction of the compounds with two different heterocycles, linked by a C(2)-tether via a domino process involving [5 + 1] annulation, ring-opening, and subsequent double isocyanide cyclization, from the reaction of ethyl isocyanoacetate with divinyl ketones (DVKs) has been developed. The chemoselective fragmentation of the cyclohexanone intermediate is the key for the formation of not only the C(2)-tether but also the two different heterocycles.
TL;DR: An efficient synthesis of N-methyl-3-chalcogeno-indoles has been developed via iodine-mediated electrophilic annulation reactions of 2-alkynylaniline derivatives with disulfides or diselenides in moderate to excellent yields and it is noteworthy that iron can promote the reaction.
Abstract: An efficient synthesis of N-methyl-3-chalcogeno-indoles has been developed via iodine-mediated electrophilic annulation reactions of 2-alkynylaniline derivatives with disulfides or diselenides In the presence of iodine and iron, a variety of 2-alkynylanilines selectively underwent the electrophilic annulation with numerous disulfides or diselenides leading to the corresponding 3-sulfenylindoles and 3-selenenylindoles in moderate to excellent yields It is noteworthy that iron can promote the reaction
TL;DR: This work features a highly stereoselective synthesis of the C(10) quaternary center and the central furanoindoline core enabled by an iminium-catalyzed alkylation-cyclization cascade.
Abstract: A total synthesis of the marine natural product diazonamide A (1) has been accomplished. This work features a highly stereoselective synthesis of the C(10) quaternary center and the central furanoindoline core enabled by an iminium-catalyzed alkylation–cyclization cascade. Additionally, a magnesium-mediated intramolecular macroaldolization and a palladium-catalyzed tandem borylation/annulation were developed to enable the closure of the two 12-membered macrocycles of diazonamide A. This synthesis involves 20 steps in its longest linear sequence and proceeds in 1.8% overall yield.
TL;DR: A copper-catalyzed thiolation annulation reaction of 2-bromo alkynylbenzenes with sodium sulfide with high yields of benzo[b]thiophenes has been developed.
Abstract: A copper-catalyzed thiolation annulation reaction of 2-bromo alkynylbenzenes with sodium sulfide has been developed. In the presence of CuI and TMEDA, a variety of 2-substituted benzo[b]thiophenes were readily prepared in moderate to good yields by the reaction of 2-bromo alkynylbenzenes and Na2S·9H2O.
TL;DR: This reaction represents the first realization of catalytic [4 + 1] cyclization of 1,3-azadienes with in situ formed phosphorus ylides, which provides highly efficient and diastereoselective synthesis of 2-pyrrolines.
Abstract: In this report, a phosphine-catalyzed [4 + 1] annulation between α,β-unsaturated imines and allylic carbonates is described This reaction represents the first realization of catalytic [4 + 1] cyclization of 1,3-azadienes with in situ formed phosphorus ylides, which provides highly efficient and diastereoselective synthesis of 2-pyrrolines
TL;DR: Tricyclic indolines were obtained by the present new intramolecular [3+2] annulation between a vinyl group and an aniline moiety using Selectfluor as oxidant.
Abstract: Tricyclic indolines are obtained by the present new intramolecular [3+2] annulation between a vinyl group and an aniline moiety using Selectfluor as oxidant.
TL;DR: A diastereoselective synthesis of pentasubstituted tetrahydrofurans via a Lewis acid catalyzed (3 + 2)-annulation of quaternary donor site cyclopropanes and aldehydes is described.
TL;DR: This method allows a clean and general synthesis of previously inaccessible and synthetically demanding thiophenes containing the ferrocenyl group and are improvements over existing methods to access this important substructure.
Abstract: An efficient and experimentally rapid protocol for the synthesis of hitherto unreported 2,3-dicarboalkoxy-4-aroyl/heteroaroyl/alkanoyl thiophenes has been developed via 1-2 (C-S) and 3-4 (C-C) bond connections promoted by 4-dimethylaminopyridine (DMAP). Optimally, the reaction takes only 3-5 min when β-oxodithioester and dialkyl acetylenedicarboxylate are stirred in DCM at room temperature in the presence of DMAP. This method allows a clean and general synthesis of previously inaccessible and synthetically demanding thiophenes containing the ferrocenyl group. The speed, experimental ease, and high yields of this process are improvements over existing methods to access this important substructure.
TL;DR: Of particular interest to us is the generation of three consecutive reactive carbon centers, which opens an opportunity for the formation of multifarious intermediates in N-heterocyclic carbene catalysis.
Abstract: A new asymmetric annulation of bis-enone derivatives of type (I) is achieved in the presence of a NHC-catalyst.
TL;DR: The first chemical synthesis of solanoeclepin A, the key hatch-stimulating substance for potato cyst nematode, is reported, which has the potential to contribute to addressing one of the critical food issues of the twenty-first century.
Abstract: The first chemical synthesis of solanoeclepin A is described. The novel 5-4-6-7-5-5 polycyclic architecture was constructed in a stereoselective manner via a cyclopentene annulation strategy, the intramolecular cyclization of an epoxy nitrile intermediate, and an intramolecular Diels–Alder reaction of a furan derivative.
TL;DR: The phosphine-catalyzed annulations between Morita-Baylis-Hillman adduct carbonates and enones are reported, providing efficient syntheses of highly functionalizedcyclopentenes and cyclopentanes.
TL;DR: A new type of intermolecular (4 + 2) cycloaddition, based on a gold-catalyzed reaction between allenamides and acyclic conjugated dienes, is reported, which provides a straight entry to a variety of differently substituted cyclohexenes.
Abstract: A new type of intermolecular (4 + 2) cycloaddition, based on a gold-catalyzed reaction between allenamides and acyclic conjugated dienes, is reported. The annulation, which fails under standard Diels–Alder conditions, provides a straight entry to a variety of differently substituted cyclohexenes, and takes place with excellent regio- and diastereoselectivity.
TL;DR: An efficient and selective approach for the synthesis of functionalized pyranocoumarins has been developed via a gold(III)-catalyzed tandem conjugate addition/annulation reaction of 4-hydroxycoumarin with α,β-unsaturated ketones.
Abstract: An efficient and selective approach for the synthesis of functionalized pyranocoumarins has been developed via a gold(III)-catalyzed tandem conjugate addition/annulation reaction of 4-hydroxycoumarins with α,β-unsaturated ketones.
TL;DR: The versatility and efficiency of this phosphine-free Pd(II)-NHC complex in different types of carbonylations of aryl iodides under mild conditions are demonstrated.
Abstract: A series of carbene complexes [PdBr2(iPr2-bimy)L] (C2–C13) with different types of co-ligands (L) have been tested for their catalytic activities in the carbonylative annulation of 2-iodophenol with phenylacetylene in DMF to afford the respective flavone 2a Complex C12 with an N-phenylimidazole co-ligand showed the best activity and also afforded high yields when the substrate scope was extended to other aryl or pyridyl acetylenes In addition, catalyst C12 was also efficient in the carbonylative annulation of 2-iodoaniline with acid chlorides giving the desirable 2-substituted 4H-3,1-benzoxazin-4-ones (4) in good yields Additionally, this Pd–NHC complex also proved to be a very efficient catalyst for the hydroxycarbonylation of iodobenzene derivatives at low catalyst loading and under low CO pressure These results demonstrate the versatility and efficiency of this phosphine-free Pd(II)–NHC complex in different types of carbonylations of aryl iodides under mild conditions
TL;DR: A highly efficient one-pot three-component regioselective synthesis of 4-aryl-3-aroyl-2-methylsulfanyl-4,6,7,8-tetrahydrothiochromen-5-ones has been developed by annulation of β-oxodithioesters with aldehydes and cyclic 1,3-diketones under solvent-free conditions promoted by P(2)O(5).
TL;DR: Nitrogen-bridged donor-acceptor multifused dithienopyrrolobenzothiadiazole and dibenzothoquinoxaline were successfully synthesized by intramolecular Cadogan annulation to induce intermolecular interaction and intramolescular charge transfer.
TL;DR: Tricyclic indolines were obtained by the present new intramolecular [3+2] annulation between a vinyl group and an aniline moiety using Selectfluor as oxidant.
Abstract: Tricyclic indolines are obtained by the present new intramolecular [3+2] annulation between a vinyl group and an aniline moiety using Selectfluor as oxidant.
TL;DR: Regiodivergent annulations of 3-phenoxy alkynyl indoles have been developed and tuned by protective groups through gold catalysis and afforded the structurally useful spiro-pseudoindoxyl found in natural indole alkaloids.
TL;DR: The procedure-controlled synthesis of the title compounds has been achieved for the first time by an organolithium-promoted convergent tandem annulation involving readily available terminal alkynes, chalcogen elements, carbodiimides, and acid chlorides.
Abstract: Concise and selective: the procedure-controlled synthesis of the title compounds has been achieved for the first time by an organolithium-promoted convergent tandem annulation involving readily available terminal alkynes, chalcogen elements (S, Se, and Te), carbodiimides, and acid chlorides. A novel 1,5-acyl migration is considered to be essential for this useful transformation.