1- Indanone synthesis

Scheme 7.11 Palladium-catalyzed carbonylative indanone synthesis...

Quinolin-2-one, 3-cyano-4-hydroxy-synthesis, 2, 428 Quinolin-2-one, 3,4-dialkyl-Knorr synthesis, 2, 425 Quinolin-2-one, dihydro-Camps synthesis, 2, 418 synthesis, 2, 402 from benzazepinones, 2, 506 from indanone oxime, 2, 487 from indanones, 2, 488 by intramolecular Friedel-Crafts reactions, 2, 421... 

Imidazoles 775 /J-Iminosulphones 640 /J-Iminosulphoxides, synthesis of 69 Inclusion compounds 59, 287 Indanols 256 Indanones 338 Indenes 267 Indoles 323... 

Dihydro-1-vinylnaphthalene (67) as well as 3,4-dihydro-2-vinylnaphtha-lene (68) are more reactive than the corresponding aromatic dienes. Therefore they may also undergo cycloaddition reactions with low reactive dienophiles, thus showing a wider range of applications in organic synthesis. The cycloadditions of dienes 67 and 68 and of the 6-methoxy-2,4-dihydro-1-vinylnaphthalene 69 have been used extensively in the synthesis of steroids, heterocyclic compounds and polycyclic aromatic compounds. Some of the reactions of dienes 67-69 are summarized in Schemes 2.24, 2.25 and 2.26. In order to synthesize indeno[c]phenanthrenones, the cycloaddition of diene 67 with 3-bromoindan-l-one, which is a precursor of inden-l-one, was studied. Bromoindanone was prepared by treating commercially available indanone with NBS [64]. 

The Pd-catalyzed carbonylation of o-vinylaryl bromides using Mo(CO)6 as CO source with microwave irradiation gave indanone 338 and 3-acylaminoindanone 340, which are key intermediates for the synthesis of inhibitors of human immunodeficiency virus type 1 (HIV-1) protease and Plasmepsin I and II (Scheme 46). These polycyclic compounds were obtained in less than 30 min in high yields. The results clearly indicate the power and advantage of this protocol, especially for the combinatorial parallel synthesis of a library of compounds. 

Alkene acylation may be used in the synthesis of cyclic products by appropriately selecting the alkene and the acid derivative. When a,P-unsaturated acid halides react with cycloalkenes, the intermediate undergoes cyclization to yield octalones and indanones 112... 

An alternative approach to the synthesis of isocoumarins which probably proceeds through the intermediacy of 2-carboxybenzyl ketones is based on the oxidative cleavage of indan-1-ones (76JCS(P1)1438). Although ozonolysis of the silyl enol ether (505) leads to the 2-hydroxy-2-methylindan-l-one (506), periodate oxidation of which gives the isocoumarin, a more convenient and direct route involves ozonolysis of the enol trifluoroacetate (Scheme 182). This synthesis is especially attractive for the preparation of isotopically labelled isocoumarins, since the precursors of the indanones, arylpropanoic acids or acrylophenones, are readily available bearing labels at specific sites. 

Synthesis of 1 -benzyl-4- (5,6-dimethoxy[2- 14 C]-1 -indanon)-2-yl -methylpiperi-dine hydrochloride, E2020-UC (281)... 

The mechanism of the catalytic cycle is outlined in Scheme 1.37 [11]. It involves the formation of a reactive 16-electron tricarbonyliron species by coordination of allyl alcohol to pentacarbonyliron and sequential loss of two carbon monoxide ligands. Oxidative addition to a Jt-allyl hydride complex with iron in the oxidation state +2, followed by reductive elimination, affords an alkene-tricarbonyliron complex. As a result of the [1, 3]-hydride shift the allyl alcohol has been converted to an enol, which is released and the catalytically active tricarbonyliron species is regenerated. This example demonstrates that oxidation and reduction steps can be merged to a one-pot procedure by transferring them into oxidative addition and reductive elimination using the transition metal as a reversible switch. Recently, this reaction has been integrated into a tandem isomerization-aldolization reaction which was applied to the synthesis of indanones and indenones [81] and for the transformation of vinylic furanoses into cydopentenones [82]. 

An important issue is the right choice of substrate 1 which functions as an anion precursor. Successful organocatalytic conversions have been reported with indanones and benzophenone imines of glycine derivatives. The latter compounds are, in particular, useful for the synthesis of optically active a-amino acids. Excellent enantioselectivity has been reported for these conversions. In the following text the main achievements in this field of asymmetric organocatalytic nucleophilic substitutions are summarized [1, 2], The related addition of the anions 2 to Michael-acceptors is covered by chapter 4. 

H. Sugimoto, Y. Iimura, Y. Yamanishi, K. Yamatsu, Synthesis and antiacetylcholinesterase activity of l-benzyl-4-[(5,6-dimethoxy-l-indanon-2-yl)methyl]piperidine hydrochloride (E2020) and related compounds, Bioorg. Med. Chem. Lett. 2 (1992) 871-876. 

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