Y cycloaddition

Classify reactions as electrocyclic reactions, [x + y] cycloadditions, or [/, /] sigma-tropic rearrangements. (Problem 22.30)... 

Zhang, X.-c. Huang, W.-y. Cycloaddition reactions of A-(cyanomethyl)pyridinium ylides with 2,2-dihydropolyfluoroalkanoates. J. Fluorine Chem. 1998, 92, 13-16. Zhang, X.-c. Huang, W.-y. A convenient synthesis of polyfluoroalkyl-substituted pyr-azolofl,5-al pyridine, pyrrolo[l,2-6]pyridazine and indolizine derivatives. J. Fluorine Chem. 1998, 87, 57-64. 

Peng, J. Deng, Y. Cycloaddition of Carbon Dioxide to Propylene Oxide Catalyzed by Ionic Liquids. NewJ. Chem. 2001,25, 639-641... 

The highest priority ring disconnective T-goals for 272 are those which disconnect a cocyclic 5,5-fusion bond and offexendo bond pair. The internal ketene-olefin cycloaddition in tactical combination with the Baeyer-Villiger transform is well suited to the double disconnection of such a cyclopentane-y-lactone ring pair. 

The addition of maleic anhydride can occur by excitation of either dienone or the anhydride. It is tempting to ascribe the 4,5-adduct (264) to a reaction between the excited dienone (260) and unexcited maleic anhydride by analogy with the observed major products of ethylene addition [cf. (261), (262)]. The 6,7-adducts (265) and (266) would then imply that these cycloadditions proceed by way of excited maleic anhydride which adds preferentially to the more electron-rich y,5-double bond of the groundstate dienone. 

A synthesis of 2-alkyl-2,3-dihydro-y-pyrones (187) from methoxybutenyne and aldehydes has been described (83TL4551). The condensation of lithiomethoxy-butenyne (184) with aldehydes at -78°C leads to the secondary alcohols 185, which form the dihydropyrones 187 via hydration of the acetylenic bond and hydrolysis of the methoxyethenyl group to the ketoenol 186 (0°C, p-TSA, THF, H2O or 30% HCIO4, 20 min) folowed by intramolecular cycloaddition. 

The stereochemistry of the product formed in the cycloaddition reaction depends on the approach of the substrate. There are two different approaches by which the reaction can proceed - endo and exo. For the reaction of e.g., a / , y-un-saturated a-keto ester with an ethyl vinyl ether there are four possible approaches... 

Our development of the catalytic enantioselective inverse electron-demand cycloaddition reaction [49], which was followed by related papers by Evans et al. [38, 48], focused in the initial phase on the reaction of mainly / , y-unsaturated a-keto esters 53 with ethyl vinyl ether 46a and 2,3-dihydrofuran 50a (Scheme 4.34). 

Mechanistically the observed stereospecificity can be rationalized by a concerted, pericyclic reaction. In a one-step cycloaddition reaction the dienophile 8 adds 1,4 to the diene 7 via a six-membered cyclic, aromatic transition state 9, where three r-bonds are broken and one jr- and two cr-bonds are formed. The arrangement of the substituents relative to each other at the stereogenic centers of the reactants is retained in the product 10, as a result of the stereospecific y -addition. 

Alkenylcarbene complexes react with in situ-generated iodomethyllithium or dibromomethyllithium, at low temperature, to produce cydopropylcarbene complexes in a formal [2C+1S] cycloaddition reaction. This reaction is highly diastereoselective and the use of chiral alkenylcarbene complexes derived from (-)-8-phenylmenthol has allowed the enantioselective synthesis of highly interesting 1,2-disubstituted and 1,2,3-trisubstituted cyclopropane derivatives [31] (Scheme 9). As in the precedent example, this reaction is supposed to proceed through an initial 1,4-addition of the corresponding halomethyllithium derivative to the alkenylcarbene complex, followed by a spontaneous y-elimi-nation of lithium halide to produce the final cydopropylcarbene complexes. 

Good yields and high diastereoselectivities were obtained by using zeolites in combination with Lewis-acid catalyst [21]. Table 4.7 illustrates some examples of Diels-Alder reactions of cyclopentadiene, cyclohexadiene and furan with methyl acrylate. Na-Y and Ce-Y zeolites gave excellent results for the cycloadditions of carbocyclic dienes, and combining these zeolites with anhydrous ZnBr2 further enhanced the endo diastereoselectivity of the reaction. An exception is the cycloaddition of furan that occurred considerably faster and with better yield, in comparison with the classic procedure [22], when performed in the presence of sole zeolites. 

The cycloaddition reactions of unsaturated esters with cyclopentadiene on y-alumina [18]... 

Langlois Y. Chiral Anxiharies for Asymmetric Cycloadditions Spec. Chem. 1998 18 405... 

Vallee Y., Chavant P. Y., Pinet S., Pelloux-Leon N., Arnaud R., Barone V. [4tt + 2tt Cycloadditions of N-Acyl-Thioformamides Phosphorus, Sulfur Silicon Relat. Elem. 1997 120 121 245-258... 

Nelson J. H. Transition Metal-Promoted Intramolecular [4 + 2 Diels-Alder Cycloadditions of Phospholes With Dienophilic Ligands in Phosphorus-31 NMR Spectral Prop. Compd. Charact. Struct. Anal. 1994 203, Ed. Quin L. and Verkade J. G., Pb. VCH N.Y. 

Fallis A. G., Lu Y. F. TT-Facial Diastereoselection in Diels-Alder Cycloadditions and Related Reactions Understanding Planar Interactions and Establishing Synthetic Potential Adv. Cydoaddit. 1993 3 1-66... 

Lubineau A., Auge J., Bienayme H., Lubin N., Queneau Y. Aqueous Cycloadditions Using Glycoorganic Substrates. Stereo- and Physicochemical Aspects ACS... 

Horton D., Koh D., Takagi Y., Usui T. Diels-Alder Cycloaddition to Unsatnrated Sugars. Stereocontrol As a Ennetion of Stmeture and Stereochemistry ACS Symp. Ser. 1992 494 66-80... 

An interesting parallel was found while the microwave-enhanced Heck reaction was explored on the C-3 position of the pyrazinone system [29]. The additional problem here was caused by the capability of the alkene to undergo Diels-Alder reaction with the 2-azadiene system of the pyrazinone. An interesting competition between the Heck reaction and the Diels-Alder reaction has been noticed, while the outcome solely depended on the substrates and the catalyst system. Microwave irradiation of a mixture of pyrazinone (Re = H), ethyl acrylate (Y = COOEt) and Pd(dppf)Cl2 resulted in the formation of a mixture of the starting material together with the cycloaddition product in a 3 1 ratio (Scheme 15). On the contrary, when Pd(OAc)2 was used in combination with the bulky phosphine ligand 2-(di-t-butylphosphino)biphenyl [41-44], the Heck reaction product was obtained as the sole product. When a mixture of the pyrazinone (Re = Ar) with ethyl acrylate or styrene and Pd(dppf)Cl2 was irradiated at 150 °C for 15 min, both catalytic systems favored the Heck reaction product with no trace of Diels-Alder adduct. 

Nakayama J, Sugihara Y (1999) Chemistry of Thiophene 1,1-Dioxides. 205 131-195 Namboothiri INN, Hassner A (2001) Stereoselective Intramolecular 1,3-Dipolar Cycloadditions. 216 1-49... 

Stable zirconate complexes of type 31 have also been described by the [3 + 2] cycloaddition of a-phosphino zirconaindene with alkyne derivatives, and the method has been extended to the synthesis of zirconium complexes from various heterocumulenes X=C=Y (X,Y=0,S,CyN) (Scheme 15) [69,70]. 

The 10 OC route was followed for the synthesis of tetrahydrofurans possessing a y-amino alcohol moiety 247 (Eq. 29) 118]. Aldoximes 21a-f (see also Eq. 3 and Table 2), when heated in benzene in a sealed tube at 110 -120 °C for 6 h, underwent smooth intramolecular cycloaddition to the tetrahydrofuranoisoxazo-lidines 246a-f in 70-83% yield (Eq. 29). This ring closure proceeded stereo-specifically to generate three adjacent stereogenic centers. LAH reduction of 246 b resulted in isolation of stereospecifically functionalized tetrahydrofuran derivative 247b in 75% yield. 

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