Imines 2 / cycloaddition

Azaallyl anion cycloadditions. Imines bearing one or more aryl groups are converted by LDA into 2-azaallyl anions. These anions undergo cycloaddition not only with activated alkenes,2 but can also undergo intramolecular cycloaddition with a double bond to form as-fused bicyclic pyrrolidines.3... 

In a different approach, one may synthesize molecular scaffolds that have not been found in nature. These templates are often also called new chemotypes, expressing the hope of finding interesting and unexpected biological activities. For example, cycloadditions, imine formation, and Michael reactions are used to generate such novel backbones (34,35). 

Allylic phosphates are used for carbonylation in the presence of amines under pressure. Carbonylation of diethyl neryl phosphate (389) affords ethyl homonerate (390), maintaining the geometric integrity of the double bond[244]. The carbonylation of allyl phosphate in the presence of the imine 392 affords the /3-lactam 393. The reaction may be explained by the formation of the ketene 391 from the acyl phosphate, and its stereoselective (2 + 2] cycloaddition to the imine 392 to give the /3-lactam 393(247],... 

Dipolar cycloaddition reactions with azides, imines, and nitrile oxides afford synthetic routes to nitrogen-containing heterocycles (25—30). 

Thiatriazolin-5-imines undergo a variety of cycloaddition reactions with the elimination of Nt. 1,3-Dithiolylium-4-olates undergo cycloaddition reactions, e.g. as in Scheme 36 80AHC(27)i5l). Scheme 37 gives an example of cycloaddition in the oxathiazole series. 

As the sp nitrogen atom in many heterocycles can be alkylated and aminated, the construction of an azomethine ylide or azomethine imine dipole is readily attainable as shown in Scheme 13. These ylides are very reactive and undergo cycloaddition with a... 

Reactions of azines and imines (including criss-cross cycloaddition) 76S349... 

The cycloaddition of nitrones with ketenes produced 5-isoxazolidinones as well as oxazolones, as shown in Scheme 162 (78H(9)457, 79JOC2961). In a similar fashion, nitrones also react with ketenimines to generate the 5-isoxazolidinone imines (75JHC175, 68JHC881). 

Two extreme mechanisms can be envisaged (Scheme 12), concerted [2 + 2] cycloaddition or the more generally accepted formation of a dipolar intermediate (164) which closes to a /3-lactam or which can interact with a second molecule of ketene to give 2 1 adducts (165) and (166) which are sometimes found as side products. In some cases 2 1 adducts result from reaction of the imine with ketene dimer. 

The interaction of acid chlorides (167 X = Cl) with imines in the presence of bases such as triethylamine may involve prior formation of a ketene followed by cycloaddition to the imine, but in many cases it is considered to involve interaction of the imine with the acid chloride to give an immonium ion (168). This is then cyclized by deprotonation under the influence of the base. Clearly, the distinction between these routes is a rather fine one and the mechanism involved in a particular case may well depend on the reactants and the timing of mixing. Particularly important acid chlorides are azidoacetyl chloride and phthalimidoacetyl chloride, which provide access to /3-lactams with a nitrogen substituent in the 3-position as found in the penicillins and cephalosporins. 

There is some evidence for the formation of unstable benzazetidines from [2 + 2] cycloaddition of benzyne to imines (75BCJ1063). A novel formation of a benzazetidine is reported in the solvolysis of the exo iV-chloro compound (297). Neighbouring group participation by the benzene ring leads to the cation (298), which is intercepted by methanol to give the benzazetidine (299) (81CC1028). 

Reactions offluorinated dipoles. In recent years, much effort has been devoted to the preparation of tnfluoromethyl-substituted 1,3-dipoles with the goal of using them to introduce trifluoromethyl groups into five-membered nng heterocycles Fluorinated diazoalkanes were the first such 1,3-dipoles to be prepared and used in synthesis A number of reports of cycloadditions of mono- and bis(tnfluo-romethyl)diazomethane appeared prior to 1972 [9] Other types of fluonne-substi-tuted 1,3-dipoles were virtually unknown until only recently However, largely because of the efforts of Tanaka s group, a broad knowledge of the chemistry of tnfluoromethyl-substituted nitrile oxides, nitnle imines, nitnle ylides, and nitrones has been accumulated recently... 

Bis(tnfluoromethyl)-4,5-dihydrooxazin-6-ones [28] and their O-acetylated dcnvatives [96] are formed on treatment of acyl imines with acetyl chloride-hiethylamine at room temperature. The reaction was interpreted as a cycloaddition reaction involving a ketene [28] However, the periselectivity and regiochemistry of this reactwn-are not in agreement with results obtained from the reaction of... 

The A-benzenesulfonyl imines of hexafluoroacetone readily react with nitrile oxides to give [3-1-2] adducts, apparently in a multistep reaction [151] (equation 36) Although only a few examples of [3-1-2] cycloaddition reactions of this type have been descnbed so far, most 1,3-dipoles should react in this way with predictable regiochemistry [5 146, ISO 151]... 

The above cycloaddition process consists of two separate [3-1-2] cycloaddition steps and represents a 1,3-2,4 addition of a multiple bond system to a hetero-1,3-diene [7S7]. The structure ot the azomethine imine intermediate has been proved unequivocally by X-ray analysis [195] Ethylene [194], acetylene [/iS2] . many alkyl- and aryl- as well sgemmal dialkyl- and diaryl-substituted alkenes [196,197, 198, 199], dienes [200], and alkynes [182, 201], certain cyclic alkenes [198, 199,... 

The azomethine imines exhibit the typical cycloaddition behavior expected of 1,3-dipolar species [fSJ] Numerous [3+2] cycloaddition reactions have been performed [201 204] Tetracyanoethylene adds to azomethine imines across the nitnle function instead of the C=C double bond This reaction is a rare example of this type of periselectivity [208] (equation 47)... 

Cycloaddition reactions where bis(trifluoromethyl)-substituted hetero-1,3-dienes act as dienophiles have been descnbed for open-chain and cyclic dienes [115, 126, 127] The balance of the diene -dienophile activity of bis(tnfluoro-methyl)-substituted hetero-l,3-dienes can be influenced strongly by the substituents bonded to the inuno nitrogen atom For instance, A/-(arylsulfonyl) denvatives of tnfluoroacetaldimine and hexafluoroacetone imine do not act as dienes but exhibit only the dienophile reactivity of electron deficient imines [5 229, 234,235, 236 237] (equation 52)... 

Asymmetric synthesis of 3-amino (3-lactams via Staudinger ketene-imine cycloaddition reaction 98KGS1448. 

Silylketenes in formation of (3-lactones and (3-lactams 98JCS(P1)2105. Syntheses of (3-lactams, (3-lactones, and 1,3- and 1,4-diazetidinediones by pho-tochemically induced cycloaddition reactions of chromium carbene complexes with imines, aldehydes, and azo compounds 97T4105. 

Asymmetric dipolar cycloaddition of azomethine imines derived from diazoal-kane-pyridazine cycloadducts 98JHC1187. 

An example of 1,3-dipolar cycloaddition involving a thiazole dioxide derivative was described (99T(55)201). A-Benzoyl-(R)-thiazolidin-4-carboxylic acid 5,5-dioxide 120 was cyclized to the bicylic mesoionic thiazolo-oxazolium 5,5-dioxide with Ac O and reacted with the imine 121 in DMF... 

Cycloaddition of 4-acylsubstituted fulvene 425 with the imine 427 in boiling toluene gave the tricyclic pyrroline 428. Treatment of 426 with 427 and subsequent reaction of the product 429 with malononitrile gave 428 (86S908) (Scheme 72). 

Other advances include the construction of seven- and nine-membered rings via the analogous [4-1-3] and [6-1-3] cycloadditions with dienes and trienes respectively. Heterocycles, such as tetrahydrofurans and pyrrolidines, are accessible using carbonyl compounds and imines as substrates. The following discussion is organized around these recent discoveries. It serves to illustrate the versatility and the high degree of selectivity which are some of the distinctive features of the Pd-TMM chemistry. 

Placing an electron-withdrawing group on the carbon atom of the imine also increases its reactivity toward TMM cycloaddition. Glyoxalate imine (90, R=H) and... 

Substituted TMMs also participate smoothly in imine cycloaddition to generate more structurally elaborate pyrrolidines. The regioselectivity of these reactions is similar to that of olefin addition, although subsequent isomerization of the initial adduct is often observed. For example, the cyano system produced the thermody-... 

The [4-1-3] cycloaddition has also been realized in acceptors containing a nitrogen atom. While a,/ -unsaturated aldimines, and structurally flexible ketimine such as (87), generally only undergo [3-1-2] cycloadditions (see Scheme 24), the ketimine (112), which is rigidly held in a cisoid conformation, does give exclusively the [4-1-3] adduct azepine (113). On the other hand, the steroidal imine (114) produces a quantitative yield of a 1 1 mixture of the [4-1-3] and [3-1-2] cycloadducts (115) and (116), respectively (Scheme 2.31) [36]. 

PI Recent reviews dealing with catalytic en-antioselective cycloaddition reactions of carbonyl compounds and imines see. e.g.. Refs. 2(g) and 2(h) K.A. 

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