Stabilized intramolecular alkylation

Olefination of the Aldehyde 178 using a stabilized Wittig reagent followed by protecting group chemistry at the lower branch and reduction of the a,p-unsaturated ester afforded the allylic alcohol 179 (Scheme 29). The allylic alcohol 179 was then converted into an allylic chloride and the hydroxyl function at the lower branch was deprotected and subsequently oxidized to provide the corresponding aldehyde 161 [42]. The aldehyde 161 was treated with trimethylsilyl cyanide to afford the cyanohydrin that was transformed into the cyano acetal 180. The decisive intramolecular alkylation was realized by treatment of the cyano acetal 180 with sodium bis(trimethylsi-lyl)amide. Subsequent treatment of the alkylated cyano acetal 182 with acid (to 183) and base afforded the bicyclo[9.3.0]tetradecane 184. 

A limited number of other anionic species have been employed as Michael donors in tandem vicinal difunctionalizations. In a manner similar to sulfur ylides described above, phosphonium ylides can be used as cyclopropanating reagents by means of a conjugate addition-a-intramolecular alkylation sequence. Phosphonium ylides have been used with greater frequency261-263 than sulfur ylides and display little steric sensitivity.264 Phosphorus-stabilized allylic anions can display regiospecific 7-1,4-addition when used as Michael donors.265... 

The closure of the macrocyclic ring by means of an intramolecular 8 2 reaction is a straightforward approach, and sulfur-stabilized carbanion alkylation has been successfully applied in the synthesis of 14-membered cembranoids. The synthesis of nephthenol (40) and cembrene A (59) is an example of this methodology. In Li and Yue s report, the total synthesis of ( )-sarcophytol M (17) was achieved from ger-aniol (137) through 12 steps and in 8.9% overall yield with an intramolecular nucleophilic addition of a sulfur-stabilized carbanion to a ketone as a key step. This example is the first of the closure of a macrocyclic ring with the intramolecular nucleophihc addition of a sulfur-stabilized carbanion to a ketone (Scheme 6-7). 

In conclusion, C-C bond formation on carbohydrates has absorbed lots of widely used methods from general synthetic organic chemistry. Typical among these methods are intramolecular alkylation and intramolecular condensation of aldehyde with enolates, phosphonates, and nitro-stabilized anions. Metal-mediated radical reactions, cycloadditions, and rearrangements have also been applied frequently. 

Intramolecular alkylations of nitrile-stabilized carbanions have been used to synthesize large rings such as those with 10 and 14 members. Tsuji and coworkers carried out a synthesis of the macrocy-clic antibiotic zearalenone by this route. As shown in Scheme 70, conversion of either of the protected cyanohydrins (144) or (145) to the corresponding dianions, resulting from deprotonation at the benzylic positions and a to the nitrile groups, gave the same cyclization product (146) in excellent yields. Dianion formation (i) provided control of the conformation of the side chain (ii) protected the ester from nucleophilic attack and (iii) appeared to increase the rate of the intramolecular cyclization. 

The formation of cyclic compounds by intramolecular alkylations of stabilized enolates has been widely used in organic synthesis. A recent study of the kinetics of the reaction of diethyl (a)-bromoalkyl)ma-lonates in DMSO using tetramethylammonium hydroxide as the base has shown that relative rates of closure of rings of varying size follow the order 3>5>6>4>7> 12-21 > 8 > 9 > 11 > 10. These results are consistent with earlier studies in which other base-solvent combinations were employed. The high rates of closure of three-membered rings allow the formation of a variety of cyclopropane deriva-... 

There has been a review of asymmetric Friedel—Crafts reactions. It has been shown that the rhodium-catalysed reaction of potassium phenyltrifluoroborate with A-tosyl ketimines may lead to products such as (18) with high enantioselectivity. (g) The reaction of A-t-butanesuUinylimino esters with arenes to give products (19) is catalysed by Lewis acids, such as indium triflate, and may lead to enantio-metrically enriched a-glycines. The intramolecular alkylation of hydrogenated 0 tetralins, shown in Scheme 2, using iron(III) or aluminium(III) catalysts yields cis-hexahydrobenzophenanthridines. Formation of a stabilized carbocation intermediate is... 

The formation of silane is consistent with a reaction pathway in which the silicon-stabilized cationic intermediate resulting from l,6-ad(fition by the allylsilane undergoes intramolecular alkylation to form a cyclobutane ring. This analysis complements House s observations that signficant quantities of cyclobutyl silane 75 are produced when 22 reacts with an enone and TiCU at elevated temperatures (Eq. 3).ll... 

In the synthesis of molecules without functional groups the application of the usual polar synthetic reactions may be cumbersome, since the final elimination of hetero atoms can be difficult. Two solutions for this problem have been given in the previous sections, namely alkylation with nucleophilic carbanions and alkenylation with ylides. Another direct approach is to combine radical synthons in a non-polar reaction. Carbon radicals are. however, inherently short-lived and tend to undergo complex secondary reactions. Escheirmoser s principle (p. 34f) again provides a way out. If one connects both carbon atoms via a metal atom which (i) forms and stabilizes the carbon radicals and (ii) can be easily eliminated, the intermolecular reaction is made intramolecular, and good yields may be obtained. 

Preformed Carbocationic Intermediates. Propargyl cations stabilized by hexacarbonyl dicobalt have been used to effect Friedel-Crafts alkylation of electron-rich aromatics, such as anisole, /V, /V- dim ethyl a n il in e and 1,2,4,-trimethoxybenzene (24). Intramolecular reactions have been found to be regio and stereo-selective, and have been used ia the preparatioa of derivatives of 9JT- uoreaes and dibenzofurans (25). 

The most common rearrangement reaction of alkyl carbenes is the shift of hydrogen, generating an alkene. This mode of stabilization predominates to the exclusion of most intermolecular reactions of aliphatic carbenes and often competes with intramolecular insertion reactions. For example, the carbene generated by decomposition of the tosylhydrazone of 2-methylcyclohexanone gives mainly 1- and 3-methylcyclohexene rather than the intramolecular insertion product. 

Carbenes can also be stabilized by migration of alkyl or aryl groups. 2-Methyl-2-phenyl-1-diazopropane provides a case in which products of both phenyl and methyl migration, as well as intramolecular insertion, are observed. 

As with carbocation-initiated polyene cyclizations, radical cyclizations can proceed through several successive steps if the steric and electronic properties of the reactant provide potential reaction sites. Cyclization may be followed by a second intramolecular step or by an intermolecular addition or alkylation. Intermediate radicals can be constructed so that hydrogen atom transfer can occur as part of the overall process. For example, 2-bromohexenes having radical stabilizing substituents at C(6) can undergo cyclization after a hydrogen atom transfer step.348... 

Salaun and de Meijere s groups have applied successfully the intramolecular PKR on 1-cyclopropylidene-1,6-enynes 421-426 (Table 34) [108], accessible via the Pd(0) catalysed alkylation of stabilized carbanions with 1-vinylcyclo-propanes 1-substituted with leaving groups [3a, 109]. 

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