Cycloaddition alternative approaches

In the alternative approach.the 1,3-dipolar system can be constructed in several ways. Treatment of a-chloroacylhydrazones of diaryl ketones and certain aralkyl and dialkyl ketones (382) with NaH in anhydrous THF gives l-(disubstituted methylene)-3-oxo-l,2-diazetidinium inner salts (383). Reaction of (383) with DMAD in methylene chloride gave (384), a 2 1 adduct with loss of CO. Double bond migration in (384) occurred on heating to give (385). The intermediate in the cycloaddition was found to be (386), which on heating lost CO to form a new ylide system which in turn underwent reaction with more DMAD <81JA7743). 

An alternative approach to thionitrosoarenes involves the reaction of amines with SCla. This method has also been adapted to the production of selenonitrosoarenes ArN=Se by using the selenium(If) synthon PhSOaSeCl as the Se source (Scheme 10.2). It is likely that SeCla, generated in situ in THF, could also be used in this process. The Diels-Alder cycloaddition of ArN=Se species with dimethylbutadiene gives 1,2-selenazine derivatives in low yields. 

Oxathiins derived from the cyclic diacylthione (60) and glycals by a cycloaddition reaction yield glycosides on desulfurization, offering an alternative approach to glycosyl transfer <96AG(E)777>. 

In an alternative approach to annulation across the indole 2,3-tt system, Padwa and coworkers have reported approaches to the pentacyclic and hexacyclic frameworks of the aspidosperma and kopsifoline alkaloids respectively that involve as the key step a Rh(II)-promoted cyclization-cycloaddition cascade <06OL3275, 06OL5141>. As illustrated in their approach to ( )-aspidophytine 150, Rh2(OAc)4-catalyzed cyclization of a diazo ketoester 148 affords a carbonyl ylide dipole that undergoes [3+2]-cycloaddition across the indole 2,3-tt bond to generate 149 <06OL3275>. 

An alternative approach to [3 + 2 + 2]-cycloadditions has been reported by Saito and co-workers and involves cleavage of a methylenecyclopropane to produce, after capture with two alkynes, the cycloheptadiene products shown in Scheme 54.144 In a mechanistically distinct [3 + 2 + 2]-reaction, Murakami and Miura report a route to a cycloheptadienone involving the capture of two alkynes initiated by a Suzuki coupling to 2-cyanophenylboronic acid (Equation (32)).145... 

Interestingly, treatment of the allylic carbonate 23, which had proven problematic in the previous study, under analogous reaction conditions with the copper enolate derived from 24 furnished the a,/9-disubstituted ketone. Subsequent ring-closing metathesis furnished the 1,2-cyclohexenes 25a/25b in 75% overall yield favoring the trans-dia-stereomer 25a (2° 1°=30 1, ds=10 l) [14]. Overall, this reaction provides an alternative approach to an exo-selective Diels-Alder cycloaddition, and indicates that a-substituted enolates are even more tolerant nucleophiles than the unsubstituted derivatives. 

The [3 + 2] cycloaddition of diazo compounds to imines or nitriles is an alternative approach to the preparation of 1,2,3-triazoles and 1,2,3-triazolines. For reviews, see CHEC-I <84CHEC-I(5)7I7>. 

An alternative approach in the asymmetric catalysis in 1,3-dipole cycloaddition has been developed by Suga and coworkers. The achiral 1,3-dipole 106 was generated by intramolecular reaction of an Rh(ii) carbene complex with an ester carbonyl oxygen in the Rh2(OAc)4-catalyzed diazo decomposition of <9-methoxycarbonyl-o -diazoacetophenone 105 (Scheme 12). The asymmetric induction in the subsequent cycloaddition to G=G and G=N bond was achieved by chiral Lewis acid Sc(iii)-Pybox-/-Pr or Yb(iii)-Pybox-Ph, which can activate the dipolarophile through complexation. With this approach, up to 95% ee for G=0 bond addition and 96% ee for G=G bond addition have been obtained, respectively. ... 

Two possible [2+2] cycloadditions can be envisaged for the synthesis of (3-lactams (Scheme 1). Interestingly, the same fragmentations have been observed in the mass spectra of these compounds [10, 11], One possibility consists of the [2+2] cycloaddition between ketenes (2) and imines (3) to yield (3-lactams (1). This reaction has been explored experimentally and it is also known as the Staudinger reaction between ketenes and imines [12-15]. In an alternative approach, the [2+2] cycloaddition between alkenes (5) and isocyanates (4) leads to (3-lactams (1). This reaction has been less extensively used, but it has proven to be useful in the chemical synthesis of interesting compounds [16-19]. 

Steroidal, alicyclic or aromatic annulated pyridines were prepared via a microwave-assisted, base-catalyzed Henry reaction of /1-formyl enamides and nitromethane on an alumina support [97]. Highly substituted tri- and tetrasubstituted pyridines were synthesized in a Bohlmann-Rahtz reaction from ethyl /3-amino crotonate and various alkynones. The reaction involved a Michael addition-cyclodehydration sequence and was effected in a single synthetic step under microwave heating conditions [98]. An alternative approach towards polysubstituted pyridines was based on a reaction sequence involving an inverse electron-demand Diels-Alder reaction between various enamines 45 and 1,2,4-triazines 44 (Sect. 3.6), followed by loss of nitrogen and subsequent elimination-aromatization. Enamines 45 were formed in situ from various ketones and piperidine under one-pot microwave dielectric heating conditions [99]. Furthermore, a remarkable acceleration of the reaction speed (from hours and days to minutes) was observed in a microwave-assisted cycloaddition. Unsymmetrically substituted enamines 45 afforded mixtures of regioisomers (Scheme 35). 

The alternative approach to isoxazoles relies on cycloadditions of nitrile oxides with alkynes. We saw in Chapter 35 that there are two good routes to these reactive compounds, the y-elimination of chlorooximes or the dehydration of nitroalkanes. 

In an alternative approach to the nitrone method for the synthesis of Elaeocarpus alkaloids (cf. vol.ll, p.61), a 1,3 dipolar cycloaddition of 1-pyrroline 1-oxlde to a substituted enone gives the isoxazolidine (2), which was converted in a number of steps into the compound (3), the C-7 epimer of elaeokanine C. Oxidation of the epimer (3) afforded the diketone (4), an intermediate in a previously published synthesis of ( )-elaeokanlne C. 

Cycloadditions are stereospecific cis additions, as has been shown in several cases using geometric isomers as dipolarophiles . In addition to the rigid structure of norbornene, as well-defined approach is preferred, namely the one that gives an exo adduct, as is shown in (a) above for azides, but also occurs with C-phenyl-N-methyl-nitrone and for diphenylnitrilimine -. The alternative approach of the reactants is sterically hindered in the case of norbornene the steric course of reactions of norbornadiene can be different, as was found using phenyl azide as the 1,3-dipole . 

An alternative approach to celecoxib using a 1,3-dipolar addition between a trifluoromethyl-containing nitrile imine and an eneamine derived from /i-methyla-cetophenone avoids the issue of regiochemistry. The nitrile imine was readily prepared by reaction of trifluoroacetylated sulfonamidophenyUiydrazine with benzoyl chloride to give the benzenesulfonate 134. Treatment with triethylamine causes elimination of sulfonate to generate the 1,3-dipole for the cycloaddition reaction. The reaction was regiospecific for the formation of celecoxib (Fig. 3.79). " ... 

The pyrrolo[3,4-Z ]indoles offer an alternative approach to access indolo-2,3-quinodimethane analogs and have also been used in Diels-Alder cycloaddition reactions with acetylenes to produce a variety of substituted carbazoles. The most widely used methods developed for the synthesis of pyrrolo[3,4-b]indoles have already been reviewed [126, 127] and thus wiU not be discussed here. 

Scheme 50). An alternate approach to the oxindole C3 to C7 bicyclic core found in members of welwitindolinone family has been reported by the Shea and coworkers who set the C3 linkage via a Znl2 promoted coupling of silyl ketene aminal 204 with functionalized furan 205 (Scheme 51) [120]. An intramolecular cycloaddition between C3 tethered furan of 206 and C7 pendant a,p-imsaturated ester closed the bridged oxindole scaffold of 207 in 41% yield. 

An alternative approach to the p-lactam ring system uses the cycloaddition of an alkene with an isocyanate such as chlorosulfonyl isocyanate (0=C= N—SOiCl). For example, reaction of cyclopentadiene with chlorosulfonyl isocyanate gave the p-lactam 183 (3.121). The A-unsubstituted -lactam is formed under these conditions owing to the ease of removal of the SO2CI group. The regioselectivity can be explained by combination of the more electron-rich end of the alkene with the electron-dehcient carbon atom of the isocyanate. 

Recent advances have been made in the enantioselective cycloaddition of nitrones and alkenes. By using a chiral auxiliary attached to the nitrone or the alkene, moderate to good levels of asymmetric induction have been reported. A number of metal complexes with chiral ligands catalyse the cycloaddition reaction of nitrones, particularly for dipolarophiles containing two carbonyl groups for biden-tate co-ordination to the metal. An alternative approach, using a,p-unsaturated aldehydes and chiral secondary amines has been successful (3.138). The endo product is the major stereoisomer in these cycloaddition reactions and the catalysis is thought to proceed via the reactive intermediate iminium ion 210, with addition of the nitrone to the face of the alkene opposite the benzyl substituent. 

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