Allyl bromides alkylation

Aldehydes, ketones, and imines are all suitable electrophiles for the reaction with the allylic terminus, whereas allyl chlorides, allyl bromides, alkyl iodides, and iodine add to the vinyl-copper bond. 

Nickel-allyl complexes prepared from Ni(CO)4 and allyl bromides are useful for the ole-fination of alkyl bromides and iodides (E.J. Corey, 1967 B A.P. Kozikowski, 1976). The reaction has also been extended to the synthesis of macrocycles (E.J. Corey, 1967 C, 1972A). 

The starting material in the example is obtained by alkyl ation of ethyl acetoacetate with allyl bromide... 

An asymmetric synthesis of estrone begins with an asymmetric Michael addition of lithium enolate (178) to the scalemic sulfoxide (179). Direct treatment of the cmde Michael adduct with y /i7-chloroperbenzoic acid to oxidize the sulfoxide to a sulfone, followed by reductive removal of the bromine affords (180, X = a and PH R = H) in over 90% yield. Similarly to the conversion of (175) to (176), base-catalyzed epimerization of (180) produces an 85% isolated yield of (181, X = /5H R = H). C8 and C14 of (181) have the same relative and absolute stereochemistry as that of the naturally occurring steroids. Methylation of (181) provides (182). A (CH2)2CuLi-induced reductive cleavage of sulfone (182) followed by stereoselective alkylation of the resultant enolate with an allyl bromide yields (183). Ozonolysis of (183) produces (184) (wherein the aldehydric oxygen is by isopropyUdene) in 68% yield. Compound (184) is the optically active form of Ziegler s intermediate (176), and is converted to (+)-estrone in 6.3% overall yield and >95% enantiomeric excess (200). 

The dianions derived from furan- and thiophene-carboxylic acids by deprotonation with LDA have been reacted with various electrophiles (Scheme 64). The oxygen dianions reacted efficiently with aldehydes and ketones but not so efficiently with alkyl halides or epoxides. The sulfur dianions reacted with allyl bromide, a reaction which failed in the case of the dianions derived from furancarboxylic acids, and are therefore judged to be the softer nucleophiles (81JCS(Pl)1125,80TL505l). 

Alkylation of 3-methyl-4-phenylisoxazolin-5-one with allyl bromide gave a mixture of N- and C(4)- alkylation in a 2 1 ratio. Heating the mixture changed the ratio to 1 99 and this conversion is believed to take place by an amino-Claisen rearrangement (Scheme 91) (69TL543). 

The corresponding 2a-allyl steroids in the androstane series have been obtained similarly by alkylation of the hydroxymethylene ketone with allyl bromide. 

When N alkylation is not possible forsterie reasons, C alkylation appears to occur directly (55). Solvents of high dielectric also favor C alkylation 27,29). Thus l-N-pyrrolidino-2-methyl-l-propene (22) with allyl bromide in ether gave only 20 % of C-alkylated product, while in acetonitrile over 50% of this product is obtained. 

One of the advantages of the enamine alkylation reaction over direct alkylation of the ketone under the influenee of strong base is that the major product is the monoalkylated derivative 29,32). When dialkylation is observed, it occurs at the least substituted carbon in contrast to alkylation with base, where the a-disubstituted product is formed. Dialkylation becomes the predominant reaction when a strong organic base is added and an excess of alkyl halide is used (29). Thus 1-N-pyrrolidino-l-cyclo-hexene (28) on treatment with two moles of allyl bromide in the presence of ethyl dicyclohexylamine (a strong organic base which is not alkylated under the reaction conditions) gave a 95 % yield of 2,6-diallylcyclohexanone (29). 

KF-alumina, allyl bromide, 80% yield. These conditions were developed because the typical strongly basic metal alkoxide-induced alkylation led to Beckmann fragmentation of the isoxazoline. 

Allyl bromide, AI2O3, days. These conditions were developed to alkylate selectively an alcohol in the presence of an amide. ... 

Few other reactions of series of substituted pyridines have been investigated extensively. Dondoni, Modena, and Todesco have measured the rate of N-oxidation of a limited series of pyridines and found a good correlation with normal u-values with a p-value of — 2.23. The A-alkylation of pyridines with alkyl iodides in nitrobenzene has been studied by Brown and Cahn and by Clarke and Rothwell. Unfortunately, the only data available are for the parent compound and for alkyl derivatives, and, since the a-values for the various alkyl groups in a given position are substantially constant, this leaves a correlation of only three independent points. However, the rates of A-alkylation of the j8- and y-alkyl derivatives are so nearly equal that it appears as if no correlation existed. Clarke and Rothwell have also studied the alkylation with allyl bromide in nitromethane at various temperatures, and in this case a more extensive series is available. The authors state that no overall Hammett correlation is obtained however, the j8-substituted derivatives fall on one straight line and the y-derivatives on another one with a different slope. The data are shown in Fig. 2. The line for the j8-compounds, p = — 2.53 0.31, r = 0.95, is seen not to be very good the line for the y-derivatives, p = — 1.42 0.06, r = 0.99, is much more satisfactory. It does not seem likely that the discrepancy is due to the intervention of resonance effects, since in this case one would expect the correlation for the y-derivatives to be poorer than that for the j8-analogs. More extensive studies with a wider variety of substituents would seem very desirable. 

Fig. 2. A Hammett plot of the rates of alkylation of substituted pyridines with allyl bromide in nitromethane. Circles represent 4-substituted compounds and crosses 3-substituted compounds. Cf. ref. 54.

Hydroxy group of 8-hyd oxy-2-cycloalkyl-2,3,4,6,ll,lla-hexahydro-l//-pyrazino[l,2-i]isoquinoline-l,4-diones was alkylated with allyl bromide, 2-(bromodifluoromethyl)pyridines, l-(bromodifluoromethyl)- and l-(bro-momethyl)benzenes, halomethyl derivatives of different heterocycles (pyridine, pyrazine, pyrazole, pyrrole, thiazole, thiophene) in the presence of CS2CO3 or K2CO3 (98MIP7). Hydroxy group of 8-hydroxy-2-cyclopentyl-... 

Prior to tlie advent of tripbenylpbospbine-stab dized CuH [6a, b, 11], Tsuda and Saegusa described use of Gve mole percent MeCu/DtBAL in THE/HMPA to effect bydtoaluminaiion of conjugated ketones and esters [26], Hie likely aluminium etiolate intermediate could be quendied witli water ot TMSCl, ot alkylated/acylated widi various electrophiles fsudi as Mel, allyl bromide, etc. Sdieme 5.5). Mote... 

In general the Stork reaction gives moderate yields with simple alkyl halides better yields of alkylated product are obtained with more electrophilic reactants such like allylic, benzylic or propargylic halides or an a-halo ether, a-halo ester or a-halo ketone. An example is the reaction of 1-pyrrolidino-l-cyclohexene 6 with allyl bromide, followed by aqueous acidic workup, to yield 2-allylcyclohexanone ... 

Treatment of 49 with a strong base such as sodium ethoxide serves to remove the last proton on the heterocyclic ring. Alkylation of the resulting carbanion with allyl bromide affords aloxidone (50) methyl sulfate on the carbanion gives trimetha-dione (51), while ethyl sulfate yields paramethadione (52). ... 

The prototype of this series is synthesized by first reacting morphine with cyanogen bromide. This reagent in effect serves to replace the methyl group by cyano. Hydrolysis of the intermediate (11) affords desmethylmorphine (12). Alkylation of the last with allyl bromide affords nalorphine (13). ... 

Demethylation of the acetyl derivative (47) of levorphanol affords desmethyl compound, 48. Hydrolytic removal of the acetate (49) followed by alkylation with allyl bromide affords the narcotic antagonist levallorphan (50), an agent with properties... 

In the preparation of the thiazides containing more highly functionalized side chains (183-185), an acetal of the aldehyde is usually used rather than the free carbonyl compound. Thus, trichlomethiazide (183) is prepared by reaction of 160 with the dimethyl acetal from dichloroacetaldehyde. In a similar vein, alkylation of the acetalthiol, 190, with allyl bromide affords 191. This yields altizide (184) on condensation with 160. Alkylation of 190 with 2,2,2-trifluoroethyl iodide gives 192. This leads to epithiazide (185) on condensation with 160. 

Unlike the acid-catalyzed ether cleavage reaction discussed in the previous section, which is general to all ethers, the Claisen rearrangement is specific to allyl aryl ethers, Ar—O—CH2CH = CH2. Treatment of a phenoxide ion with 3-bromopropene (allyl bromide) results in a Williamson ether synthesis and formation of an allyl aryl ether. Heating the allyl aryl ether to 200 to 250 °C then effects Claisen rearrangement, leading to an o-allylphenol. The net result is alkylation of the phenol in an ortho position. 

Removal of the unsaturated side-chain appendage from C-8 in 22 provides diol lactone 23 and allylic bromide 24 as potential precursors. In the synthetic direction, a diastereoselective alkylation of a hydroxyl-protected lactone enolate derived from 23 with allylic bromide 24 could accomplish the assembly of 22, an intermediate that possesses all of the carbon atoms of PGF2o- It was anticipated that preexisting asymmetry in the lactone enolate would induce the... 

High-boiling products found in this procedure and in similar experiments involving cyclohex-2-enone derivatives5 probably result from bimolecular reduction processes.15 3-Methylcyclohexanone, which arises by protonation rather than alkylation of the enolate (and which made up ca. 12% of the volatile products), is probably the result of reaction of allyl bromide with liquid ammonia to form the acidic species allyl ammonium bromide.5 10... 

Both sides of acetone have been alkylated with different alkyl groups, in one operation, by treatment of the Al,lV-dimethylhydrazone of acetone with n-BuLi, followed by a primary alkyl, benzylic, or allylic bromide or iodide then another mole of n-BuLi, a second halide, and finally hydrolysis of the hydrazone. ... 

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