Dienes cyclisation

In addition to the examples of diene cyclisations described above there are reports of alkoxyallenes as precursors of five- to seven-membered oxygen heterocycles <99TL1747>. Of interest here is the cyclisation of 45 to 46 in 88% yield in the presence of Pd(0 Ac)2-dppb complex. The same reagent system has also been used in the regioselective lactonisation of steroids where the aromatic ring of estrone is fused to a seven-membered lactone <99TL1171>. 

The first examples of intramolecular diene transmissive HDA reactions have been reported. Thus, the divinyl thioketones, derived from the ketones by treatment with Lawesson s reagent, spontaneously cyclise to the thiopyran derivative (27) and react further as shown <96CC811>. 

The work of Sharp and his many co-workers at Edinburgh cannot be underestimated. In a more recent communication they have extended the scope of his cyclisation of diene-conjugated nitrile ylides to triene homologues <96CC2739>. Thus cyclisation of the triene 21 afforded the cyclopropa[c]isoquinoline 22, which on heating gave a mixture of 23 and 24. The isomeric triene 25 also gave 24 as the sole product (Scheme 4). In this instance the intermediate cyclopropane could not be isolated. 

An unusual [4+1] cycloaddition gold-catalysed reaction between propargyl tosylates 102 and imines 103 led to the formation of eyclopent-2-enimines 104 (Scheme 5.27) [27], A possible mechanism for this reaction involves a 1,2-migration of the tosylate that generates the 1,3-diene 105 followed by a Nazarov-hke cyclisation. 

The base-catalysed ring contraction of 1,3-dioxepanes offers an attractive route to 4-formyl tetrahydropyrans (Scheme 14) , whilst fused exo-cyclic dienes 27 result from the radical cyclisation of alkenyl iodides 26 (Scheme 15) <00OL2011>. Intramolecular radical addition to vinylogous sulfonates is highly stereoselective, leading to the ci s-2,6-disubstituted tetrahydropyran (Scheme 16) . 

In an electrocyclic ring-closure reaction a new o-bond is formed between the end atoms of a conjugated system of double bonds. Consider the cyclisation of buta-1,3-diene ... 

Oxidative cyclisation of 1,6-dienes to trani-2,6-bis(hydroxyl-methyl)-tetrahy-dropyranyl-diols was effected by RuClj/aq. Na(lO )/CH3CN-EtOAc/0°C 1,6-heptadiene (1) and 7-methyl-l,6-octadiene (2) were so oxidised (Fig. 3.13 cf. mech. Ch. 1) [184],. 

As part of the total synthesis of the triterpene (+)-a-onocerin, one of the first total syntheses in which RuO played a key role, a diphenylethyleneacetoxyketone was oxidised to the corresponding acetoxyketoacid by RuO /aq. Na(10yacetone. Aromatic ring oxidation was also involved (cf. 3.3.1 below) [219]. An oxidative cyclisation of a 1,5-diene to a diol by RuCl3/Na(10 )/wet SiO /THF formed part of the synthesis of the antitumour agent cw-solamin [220]. 

Hexahydro-4/f-chromenes are formed from 1,5-dienes in a one-pot process in which a Rh-complex catalyses sequential hydroformylation, carbonyl ene reaction, a second hydroformylation, cyclisation to a lactol and dehydration <99TL7455>. 

Terpenoids are synthesised by the condensation of a series of isoprene (2-meth-ylbuta-1,3-diene) units, followed by enzymatic cyclisation by a terpene cyclase, and subsequent modification such as hydroxylation, and are grouped on the basis of their carbon chain length. Monoterpenes and sesquiterpenes consisting of ten and 15 carbon atoms, respectively, are ranked among the most important aroma compounds. Despite their diversity, all terpenoids are synthesised... 

Dienes, 11 addition to, 194-198 cisoid conformation, 197, 350 conjugated, 11 Cope rearrangement, 354 cyclisation, 346 cycloaddition to, 348 Diels-Alder reaction, 197, 349 excited state, 13 heat of hydrogenation, 16,194 isolated, 11 m.o.s of, 12 polymerisation, 323 Dienone intermediates, 356 Dienone/phenol rearrangement, 115 Dienophiles, 198, 350 Digonal hybridisation, 5 Dimedone, 202 Dimroth s Ej- parameter, 391 solvatochromic shifts, 391 solvent polarity, 391 Y and,392 Dinitrofluorobenzene proteins and, 172... 

Carbocyclization of a monoepiselenonium intermediate derived from a diene has been discussed earlier in this chapter (Scheme 8),33 as was the acid-catalysed transannular cyclisation of a bisalkyne (Scheme 9).41... 

The synthesis of a tetraphenyl derivative (rubrene, Expt 6.13) of the linearly fused tetracyclic aromatic hydrocarbon naphthacene involves an interesting intermolecular cyclisation process between two molecules of 1-chloro-1,3,3-triphenylpropa-1,2-diene. This substituted allene is formed in situ from 1,1,3-triphenylprop-2-yn-l-ol (Expt 5.41) when the latter is allowed to react with thionyl chloride and the resulting chlorosulphite ester heated with a little quinoline cyclisation occurs spontaneously under these reaction conditions to give rubrene which has an intense red colour. 

Pancratistatln. The first total synthesis of ( )-pancratistatin (94) (Scheme 14), the structurally most complex of narciclasine alkaloids, was achieved by Danishefsky [27]. The requisite starting material, the substituted benzaldehyde 95 prepared from pyrogallol in six steps in 18% overall yield, was converted via the homoallylic alcohol 96 into the diene 97. Reaction of 97 with 2-nitrovinylsulphone yielded the cycloadduct 98, which on treatment with tributyltinhydride and 2,2 -azobisisobutyronitrile furnished the cyclohexadiene 99. Whilst the cyclisation of the silylether 99 or the derived phenol, under the influence of iodine, could not be accomplished, the more nucleophilic stannylether did participate in the desired ring closure and provided via the iminium salt, the iodolactone 100 on aqueous work-up. 

Conversion of the trimer (80) to the seven-membered ring system (81) occurs readily with cesium fluoride [3,75], whereas in the presence of TAS fluoride, the di-anion (82) is trapped. These observations lead to the most likely mechanism for rearrangement as that in Scheme 37 [3]. The cyclisation step shown in Scheme 37 is made more easily accepted by the fact that the diene (83) (Scheme 38), undergoes rapid rearrangement in the presence of fluoride ion, giving the cyclic system (86) [77]. The ready cyclisation of a crowded anion (84) to give what appears to be a sterically unfavourable intermediate (85) would not be easily predictable ... 

An exciting addition to the armoury of asymmetric phase transfer catalysed reactions has been the oxidative cyclisation of 1,5-dienes (Scheme 13) [21]. This tandem reaction process leads to the formation of tetrahydrofurans such as 35 in a single step from the open chain dienes 34. The step which determines the sense of asymmetry is the initial attack of permanganate anion, and this chiral information is efficiently relayed in the cyclisation to give products with three new stereogenic centres. For example, oxidation of the di-enone 34 with potassium permanganate, catalysed by the salt 36, gave the tetrahydrofuran 35 in 72% ee. 

Dihydropyran-4-ones are formed with good enantiomeric excess by a chiral Lewis acid catalysed reaction of aldehydes with Danishefsky s diene and cyclisation of the initial aldol product. The overal process equates to a hetero-Diels-Alder cycloaddition (95JOC5998). Lactams also react with the electron rich diene under the influence of a Lewis acid, yielding 7-aza-l-oxaspiroalkenones (95JOC7724). 

Chiral quinolinones can be accessed by the palladium-catalyzed coupling between aryl bromides and /3-amino acids, followed by intramolecular acid-catalyzed cyclisation (Equation 136) <1998TA1137>. The reaction of 2-amino-1,3-diene with quinolinone yields the acridine derivative directly (Scheme 75) <1997J(P1)2807>. 

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