By Dieckmann cyclization

Preparation of the quaternary anticholinergic agent benzilonium bromide (47) is begun by conjugate addition of ethylamine to methylacrylate, giving aminoester 42. Alkylation of 42 with methyl bromo-acetate leads to diester 43, which is transformed into pyrrolidone 44 by Dieckmann cyclization, followed by decarboxylation. Reduction of 44 by lithium aluminum hydride leads to the corresponding amino-alcohol (45). Transesterification of alcohol 45 with methyl benzilate leads to 46. Benzilonium bromide (47) is obtained by alkylation of ester 46 with ethyl bromide. 2... 

Selenolo[3,2-h]selenophene (12) and selenolo[2,3-b]selenophene (13) have been synthesized from lithium derivatives of 2-(3-bromo-2-selienienyl) 1,3-dioxane and 2-(3-selenienyl) 1,3-dioxane, respectively, by reaction with selenium and methyl chloroacetate followed by Dieckmann cyclization.46 Even the third classical selenophthene (11) has been synthesized by two different routes, using 2,3-bischloromethyl-5-carbomethoxyselenophene (14) or preferably 4-methylseleno-3-selenophene aldehyde (IS).46 The fourth selenophthene isomer (16), which has a nonclassical structure, has not yet... 

The 2,2 -bisindole (1384), required for the synthesis of staurosporinone (293) and the protected aglycon 1381, was prepared by a double Madelung cyclization as reported by Bergman. For the synthesis of the diazolactams 1382 and 1383, the glycine esters 1385 and 1386 were transformed to the lactams 1389 and 1390 by DCC/DMAP-promoted coupling with monoethyl malonate, followed by Dieckmann cyclization. The lactams 1389 and 1390 were heated in wet acetonitrile, and then treated with mesyl azide (MsNs) and triethylamine, to afford the diazolactams 1382 and 1383. This one-pot process involves decarboethoxylation and a diazo transfer reaction (Scheme 5.234). 

In a related type of reaction, the styryl isocyanates, readily available by Curtius rearrangement of cinnamoyl azides, undergo thermal cyclization to l-isoquinolones in good yield (equation 34) the reaction can also be carrried out using Friedel-Crafts catalysts. 2,3-Dihydro-4( 1//)- isoquinolones are obtained by Dieckmann cyclization of N- (o- carbalkoxy-benzyl)glycine ester derivatives (equation 35). The same reaction has been used for the synthesis of a range of non-aromatic heterocycles (equations 36 and 37). 

The ketone (48) can be obtained by Dieckmann cyclization, but this reaction failed for other isomers of (48) (72JCS(Pl)885). Friedel-Crafts cyclization has been used to obtain the N-tosyl ketone (49) (72JCS(Pl)2l3). Ring expansion reactions based on dibromocarbene additions have also been used to prepare benzo derivatives (72JCS(Pl)889). 

The transformation (190 — 191) exemplifies the use of transition metal reagents the reaction probably involves aminopalladation of the C = C bond (77JOC1329). 2,3-Dihydro-4(l//)isoquinolones are obtained by Dieckmann cyclization of 7V-(o-alkoxycarbonylbenzyl)glycine ester derivatives (192 - 193). 

Formation of y C—C bonds by Dieckmann cyclization has been known for many years. Diethyl /3/3- thiodipropionate readily affords 4-oxo-3,4,5,6-tetrahydro-2Ff-thiin-3-carboxy-late (27JCS194), which on decarboxylation affords the 4-thianone from which many thian... 

Conjugate addUion-cyclization. 3-Substituied 2-carbomethoxycyclopentanones are prepared conveniently in one step from dimethyl (2E)-hexenedioate by conjugate addition of lithium dialkyl cuprates or higher-order cyan[Pg.348]

The total synthesis of (+ )-dehydroheliotridine (4), a toxic metabolite of the pyrrolizidine alkaloids (e.g. lasiocarpine and heliotrine), has also been described.2 The pyrrole ring was obtained by reaction of l,6-dihydroxy-2,5-dicyanohexa-l,3,5-triene-l,6-dicarboxylic ester (5) with j3-alanine, which afforded the N-substituted pyrrole ester (6), together with the appropriate amide of oxalic acid. Careful hydrolysis of (6) with dilute alkali afforded the related tricarboxylic acid, which was converted, by Dieckmann cyclization, hydrolysis and decarboxylation, into the keto-acid (7). Esterification of (7) with diazomethane, followed by reduction with lithium aluminium hydride, finally afforded ( )-dehydroheliotridine (4), identical, except in optical rotation, with dehydroheliotridine obtained earlier by Culvenor et al.3... 

The addition of salts of /0-keto-esters to (67) at room temperature gave (68). A route to modified benzomorphans is provided by Dieckmann cyclization of (69) after hydrolysis, this affords (70). 

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