Bromide phenacyl

B) Phenacyl and p-Bromophenacyl esters. The sodium salt of an acid in aqueous-ethanolic solution will react with phenacyl bromide, CjHjCOCHgBr, and with p-bromophenacyl bromide, BrC,H4COCH2Br... 

Example. Dissolve 0 3 g. of />-chlorobenzoic ncid in a small quantity of warm ethanol (about 10 ml.), and ctlrefully add 5 o aqueous sodium hydroxide drop- wise until the solution is just pink to phenolphthalein. Evaporate to dryness on a water-bath. Dissolve the sodium -chlorobenzoate in a minimum of water, add a solution of 0-5 g. of phenacyl bromide in ethanol (about 5 ml.), and boil the mixture under reflux for i hour, and then cool. The phenacyl ester usually ciy stallises on cooling if it does not, add water dropnise with stirring to the chilled solution until separation of the ester just begins. Filter the ester, wash on the filter with water, drain and recrystallise from ethanol m.p. 90 . The /)-bromophenacyl ester is similarly prepared, and after recrystallisation from aqueous ethanol has m.p. 128 . (M.ps., pp. 543-545.)... 

Phenacyl chloride Phenacyl bromide p-Bromophcnacyl bromide Benzalacetone Dibenzalacetone... 

The one-step condensation of phenacyl bromide on dithiomalonanilide (method D) leads to A -phenyl thiazolocyanines (Scheme 37),... 

In 1937, Kondo and Nagasawa confirmed the reactivity of the sole 2-methyl group in the condensation of 2,4-dimethylthiazole with benzal-dehyde (505) and in the cyclizafion to tbiazolopyrrole in the reaction with phenacyl bromide (506) (Scheme 113). 

The cyclization of pentaacetyl-o-gluconic thioamide with chloroacetone and of pentaacetyl-D-galactonic acid thioamide with phenacyl bromide give the corresponding 4-substituted 2-(D-galactopentaacetoxypentyl)-thiazoles (27) (660) but in low yield (23 to 27%) (Scheme 13). The products may be deacetylated in the usual way. These compounds are interesting from a pharmacological point of view. 

The rates of reaction of phenacyl bromide with thiosemicarbazide and its phenylated derivative were determined by conductivity measurements in ethanol (517). The reaction is second order up to 85% completion. The activation energies are 10.5 to 11.3 kcal/mole with the phenyl thiosemicarbazide and 8.5 to 9.3 kcal/mole for the unsubstituted derivatives. 

The reaction with the oxime of phenacyl bromide is much slower than that of the parent ketone itself. Hammett s correlation applicated to these reactions gave p = 0.63 and 0.74 for 141, R, = Ph and Rj = H, respectively (517). 

Reduced pyrido[4,3-c]pyridazines are obtained from piperidine derivatives such as (371) with hydra2dne e.g. 79AF1835), whilst another related synthesis coupled the enamine (372) with phenacyl bromide semicarbazone to give (373) (74JAP(K)7488897). 

Phenacyl esters can be prepared from the phenacyl bromide, a carboxylic acid, and potassium fluoride as base. These phenacyl esters can be cleaved by irradiation (313 nm, dioxane or EtOH, 20°, 6 h, 80-95 % yield, R = amino acids > 300 nm, 30°, 8 h, R = a gibberellic acid, 36-62% yield ). Another phenacyl derivative, RC02CH(C0C6H5)C6H3 3,5-(0CH3)2, cleaved by irradiation, has also been reported. ... 

Phenacyl esters can be prepared from the phenacyl bromide, a carboxylic acid. 

Thiopyrones and selenopyrones can be alkylated more readily than pyrones. Thus 2,6-dimethyl-4/f-pyran-4-thionc (4,6-dimethyl-4-thiopyrone) (23, Y = S) reacts rapidly with methyl iodide yielding a 4-methylmercaptopyrylium iodide (24, Y = S, R = Me, X = I). Many alkylating agents were investigated by King et al. The kinetics of the reaction between 2,6-dimethyl-4-thiopyrone and substituted phenacyl bromides was found to be described by the Hammett... 

Trimethylpyrimidine and phenacyl bromide give a salt which on further heating ring-closed to 49, but 2,4-dimethylpyrimidine does not react with phenacyl bromide. 

The salicylic acid functionality incorporated in a rather complex molecule interestingly leads to a compound that exhibits much the same activity as the parent. The 1,4 diketone required for formation of the pyrrole ring can be obtained by alkylation of the enamine from 2-tetralone (38) with phenacyl bromide. Condensation of the product, 39, with salicylic acid derivative 40 leads to the requisite heterocyclic system (41). The acid is then esterified (42) and the compound dehydrogenated to the fully aromatic system (43). Saponification affords fendosal (44). ... 

Most of the widely used antidepressants are tricyclics related to imipramine. A 1-phenyltetrahy-droisoquinoline analogue, nomifensine (60), departs from this structural pattern. Hiarmacologi-cally it inhibits the reuptake of catecholamines such as dopamine at neurons. It can be synthesized by alkylation of 2-nitrobenzyl-methylamine with phenacyl bromide followed by catalytic reduction of the nitro group (Pd-C) and then hydride reduction of the keto moiety to give 59. Strong acid treatment leads to cyclodehydration to nomifensine (60) [17]. 

Treatment of phenylhydrazonothiazolidinone 663 with phenacyl bromide gave 664, which was cyclized [84MI2, 84ZN(B)390) to give thiazolo-triazine 665. Cyclization of 663 with ethyl bromoacetate afforded 662 (Scheme 136). 

Alternatively, the thiazolotriazine ring was prepared from l-nitro-2-aminonaphthalene with an isothiocyanate to give naphthylpyrimidine 669, whose reaction with phenacyl bromide gave thiazoline 670. Reduction with stanous chloride and cyclization with (V-bromosuccinimide gave naphthothiazolotriazine 671 (74JIC631) (Scheme 138). 

Examples 673 and 674 were prepared by treating phenylhydrazonothia-zolidinethione 672 with either ethyl bromoacetate or phenacyl bromide (86PHA101) (Scheme 139). 

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