Phenyl stereoselective cyclization

Acylcyclohexanes have received considerable study and, especially as solids, undergo highly stereoselective cyclization, since H-abstraction occurs with the phenyl twisted away from the a-methyl, where it stays until the biradical cyclizes [56]. Addition of a chiral ammonium salt to the benzene ring fosters enantioselective cyclization, presumably by inducing a tilt of the benzoyl group that leads to preferred abstraction from one of the two y carbons [57],... 

The results can be rationalized as follows the first cyclization of substrate 68 gave a mixture of a-sulfonyl radical intermediates 71 and 72 (Scheme 19). These then underwent a second fully stereoselective cyclization to give the cis- and franr-fused bicyclic products 69 and 70, respectively, as single isomers. Such sequential transformations, in which two carbon-carbon bonds are formed in a single step, are attractive methods for enhancing the efficiency of organic synthesis. As y-hydroxy-a,P-unsaturated phenyl sulfones can be prepared in enantiomerically pure form,48 this procedure should be readily applied to the synthesis of enantiomerically pure bicyclic products. 

Tetrahydrofurans The reagent is prepared in situ from bis(2,4,6-triisopropyl-phenyl) diselenide and bromine in dichloromethane at -78°. It promotes a highly stereoselective cyclization of homoallylic alcohols. 

Scheme 1-101. Stereoselective cyclization of 1 -methoxy-1 -phenyl-5-hexenyllithium.

The asymmetric synthesis of (4i ,9S, 9ai )-4-phenyl-l-trimethylsilyloxy-9-vinylperhydropyrido[2,l-c][l,4]oxazine by a high level of stereoselectivity in the cyclization of (3i ,5i )-5-phenyl-3-phenylsulfanyl-4-(6-trimethylsila-nylhex-4-enyl)-2-trimethylsilyloxymorpholine was rationalized via AMI calculations (98T10309). 

Treatment of an epimeric mixture of 4-substituted 2-(trimethylsilyloxy)-5-phenyl-3-phenylthio-l,4-oxazine 264 with ZnBr2 led to the stereoselective formation of perhydropyrido[2,l-c][l,4]oxazine 266 via the iminium ion 265 by the phenyl bearing stereocenter directed addition of the olefinic double bond from the /S-face of the cyclic moiety (97SL799, 98T10309). Similarly, an epimeric mixture of (45,9aS)-l-trimethylsilyloxy-4-phenyl-3,4,6,7-tetra-hydropyrido[2,l-c][l,4]oxazine was prepared by cyclization of (Z)-5(S)-phenyl-3-phenvlsulfanyl-2-trimethylsilyloxy-4-[4-(trimethylsilyl)but-3-enyll morpholine (OOSC2565). 

The formation of cyclopropanes from 7C-deficient alkenes via an initial Michael-type reaction followed by nucleophilic ring closure of the intermediate anion (Scheme 6.26, see also Section 7.3), is catalysed by the addition of quaternary ammonium phase-transfer catalysts [46,47] which affect the stereochemistry of the ring closure (see Chapter 12). For example, equal amounts of (4) and (5) (X1, X2 = CN) are produced in the presence of benzyltriethylammonium chloride, whereas compound (4) predominates in the absence of the catalyst. In contrast, a,p-unsatu-rated ketones or esters and a-chloroacetic esters [e.g. 48] produce the cyclopropanes (6) (Scheme 6.27) stereoselectively under phase-transfer catalysed conditions and in the absence of the catalyst. Phenyl vinyl sulphone reacts with a-chloroacetonitriles to give the non-cyclized Michael adducts (80%) to the almost complete exclusion of the cyclopropanes. 

There are very few examples of photolysis being used for preparation of a carbonyl ylide. The Dittami protocol follows work completed from his lab with aryl vinyl sulfides. Photolysis, followed by cycloaddition, led to the cycloadduct 305 in excellent yield and stereoselectivity. If the aryl vinyl ether 304 was subjected to irradiation in a mixed solution of toluene-methanol at 366 nm rather than a single solvent of toluene, cyclized product was obtained, but no cycloadduct was formed. If a simple phenyl aryl ether was subjected to the same tandem conditions, the cyclized product was generated, but no cycloadduct was detected. 

Guided by Marks s report of the samarium-catalyzed hydroboration of alkenes, Molander has developed a samarium-catalyzed protocol for the cyclization/hydroboration of unfunctionalized 1,6-dienes. In an optimized procedure, reaction of 1,5-hexadiene and l,3-dimethyl-l,3-diaza-2-boracyclopentane catalyzed by Gp 2Sm(THF) in toluene at room temperature for 18 h followed by oxidation gave hydroxymethylcyclopentane in 86% yield (Equation (70) R = H, n — ). The transformation was stereoselective, and Sm-catalyzed cyclization/hydroboration of 2-phenyl-1,5-hexadiene followed by oxidation formed /ra/ i--l-hydroxymethyl-2-phenylcyclopentane in 64% yield (Equation (70) R = Ph, n = ). The samarium-catalyzed reactions was also applicable to the synthesis of hydroxymethylcyclohexanes (Equation (70), n=X) but tolerated neither polar functionality nor substitution on the alkenyl carbon atoms. 

The effect of the nature of the electrophile on the stereoselectivity of reactions with substrates containing a terminal alkene and an allylic substituent is dramatically illustrated by some recent results with palladium electrophiles.124 Cyclizations of 3-methyl- or 3-phenyl-5-hydroxyalkenes with palladium catalysts proceed with high selectivity (>9 1) for the 2,3-trans isomer (equation 41).50-124 It is suggested that the steric interactions of the palladium-alkene complex affects the stereochemistry of these cyclizations. In some related cyclizations to form tetrahydropyran products (equation 42 and Table 10), reaction with iodine in the presence of sodium bicarbonate gives a different major diastereomer from cyclization with mercury(II) trifluoroacetate or palladium chloride.123... 

Highly stereoselective aldol reactions of lithium ester enolates (LiCR1 R2CC>2R3) with (/0-2-(/ -tolylsulfiny I (cyclohexanone have been attributed to intermediacy of tricoordinate lithium species which involve the enolate and the sulfinyl and carbonyl oxygens of the substrates.43 The O-metallated /<-hydroxyalkanoatcs formed by aldol-type reaction of carbonyl compounds with enolates derived from esters of alkanoic acids undergo spontaneous intramolecular cyclization to /1-lactones if phenyl rather than alkyl esters are used the reaction has also been found to occur with other activated derivatives of carboxylic acids.44... 

Photoinduced cyclizations of phenyl triphenylsilyl thioketone (156) with cis- and fraws-l,2-dichloroethene give a mixture of silyl thietanes 157 and 158 in a regio- and stereoselective manner (equation 66)207. These reactions involving biradical intermediates and ring closure are governed by the steric effect. The steric hindrance between the Ph3Si group and the vicinal chlorine atom ensures their trans relationship in the thietane products. 

Free-radical cyclization of phenyl selenide 15 to indolizidinone 16 represented a key step in the total synthesis of (—)-slaframine (equation 52). The two pairs of diastereomers were first separated and then hydrolyzed to the corresponding alcohols in 76% overall yield77. (TMS)3SiH-mediated acyl radical reactions from phenylseleno esters 17 have recently been utilized for the stereoselective synthesis of cyclic ethers78. In fact, the experimental conditions reported in equation 53 are particularly good for both improving cis diastereoselectivity and suppressing decarbonylation. 

Cyclization of electrochemically generated aminyl radicals is more efficient when the species contains a phenyl-substituted double bond. Evidently, this facilitates cyclization relative to other reactions, and good yields of 5-unsubstituted, 5-alkyl, and 5-aryl-2-benzylpyrrolidines were obtained (Table II, entries 4-6) (91T747). Moderate yields of 4-substituted-2-benzylpyrrolidines also were obtained (entries 7-8). Again, the stereoselectivity was excellent for R2 = Ph, but it was only 3 1 for R2 = CHV... 

A similar intermolecular cyclization was recently utilized in the synthesis of highly substituted dihydropyrrole derivatives [133 -135]. In a specific example, the addition of pentadienyltosylamide derivatives 177 to propynyl(phenyl)iodo-nium triflate initiates a sequence of transformations that furnishes the complex, highly functionalized cyclopentene-annelated dihydropyrrole products 178 in moderate yields with complete stereoselection (Scheme 66). Under similar reaction conditions, the isomeric isoprene-derived tosylamide 179 reacts with propynyl(phenyl)iodonium triflate to give azabicyclo[3.1.0]hexane 180 as the final product [134]. 

The regioselective anti-Markovnikov addition of benzoic acid to phenyl-acetylene has also been carried out with success at 111 °C in the presence of ruthenium complexes containing a tris(pyrazolyl)borate (Tp) ligand [RuCl(Tp)(cod), RuCl(Tp)(pyridine), RuCl(Tp)(N,N,Ar,AT-tetramethylethyl-enediamine )] with a stereoselectivity in favour of the (E)-enol ester isomer [22]. The o-enynyl complex Ru(Tp)[PhC=C(Ph)C=CPh](PMe/-Pr2) (C) efficiently catalyses the regioselective cyclization of a,cu-alkynoic acids to give en-docyclic enol lactones [23] (Eq. 2). 

Total stereoselectivity was also observed on cyclization of /V -alkenyl carbamates with phenyl-selenenyl chloride to give TV-substituted piperidines 5. Due to the sense of the 1,3-asymmetric induction, cis-2,6-piperidine derivatives are obtained exclusively, their stereochemistry was assigned on the basis of H NMR107. 

The biomimetic construction of piperidine skeletons from N-methylhomoallyl-amines is performed by means of the ruthenium-catalyzed oxidation and subsequent olefm-iminium ion cyclization reaction. trans-l-Phenyl-3-propyl-4-chloropiper-idine 57 ivas obtained from N-methyl-N-(3-heptenyl)aniline stereoselectively via 56 upon treatment ivith a 2 N HCI solution (Eq. 3.72). This cyclization is the first demonstration of biomimetic formation of piperidine structure using N-methyl group, and can be rationalized by assuming the formation of iminium ion 58 by protonation of the oxidation product 56, subsequent elimination of f-BuOOH, nucleophilic attack of an alkene, giving a carbonium ion, which is trapped with Cl nucleophile from the less hindered side. 

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