Phenylpropionic acid, reaction with

The substituent has to interact with the reaction centre through a longer distance in the case of the dissociation of the 2-phenylpropionic acids compared with that of benzoic acids and hence its effect on the dissociation equilibrium constant is less. 

The synthesis of meconin has been referred to already (p. 201). Cotarnine has been synthesised by Salway from myristicin (I) as a starting-point. This was transformed into jS-3-methoxy-4 5-methylenedioxy-phenylpropionic acid (II), the amide of which was converted by Hofmann s reaction into )S-3-methoxy-4 5-methylenedioxyphenylethylamine, and the phenylacetyl derivative (HI) of this condensed, by heating it in xylene solution with phosphoric oxide, giving rise to the two possible dihydroiso-quinoline derivatives. The first of these substances, 8-methoxy-6 7-methylenedipxy-1-benzyl-3 4-dihydroiioquinoline (IV), on conversion into the methochloride and reduction with tin and hydrochloric acid, gave... 

To obtain a better understanding of the reaction mechanism, some compounds that are considered to he intermediates were subjected to the reaction. Various reaction courses can be considered as illustrated in Fig. 21. Path A a-Methyltropic acid is oxidized to a-phenyl-a-methylmalonic acid. Then, the malonate is converted to optically active a-phenylpropionate hy arylmalonate decarboxylase. In order to confirm this assumption, incubation of the malonic acid with Rhodococcus sp. was carried out. The result obtained was the total recovery of the substrate, indicating that no decarboxylase is present in this bacterium. Path B a-Methyltropic acid is converted to racemic a-phenylpropionic acid, which is deracemized to optically active propionic acid. To examine the possibility of this route, racemic a-phenylpropionic acid was subjected to the reaction to observe... 

Several Pd11 complexes with thiolate or thioether derivative ligands have been studied to be applied in the hydroxycarbonylation reaction.394 Aminothiolate complexes of palladium with PPh3 catalyze the conversion of styrene to 2-phenylpropionic acid in high yield and excellent regioselectivity.644 Under mild conditions and in the presence of a catalytic amount of an S, TV-chelated palladium or//zo-amino-arenethiolate complex, styrene reacts with CO and oxalic acid or water to selectively give 2-phenylpropanic aid in high yield.645... 

Not unexpectedly, alkylation of the double carbonylated complex proceeds via a base-catalysed interfacial enolization step, but it is significant that the initial double carbonylation step also involves an interfacial reaction, as it has been shown that no pyruvic acid derivatives are obtained at low stirring rates. Further evidence comes from observations of the cobalt-catalysed carbonylation of secondary benzyl halides [8], where the overall reaction is more complex than that indicated by Scheme 8.3. In addition to the expected formation of the phenylacetic and phenylpyruvic acids, the reaction with 1-bromo-l-phenylethane also produces 3-phenylpropionic acid, 2,3-diphenylbutane, ethylbenzene and styrene (Scheme 8.4). The absence of secondary carbonylation of the phenylpropionylcobalt tetracarbonyl complex is consistent with the less favourable enolization of the phenylpropionyl group, compared with the phenylacetyl group. 

The first reactions concerned (Simons and Archer, 27) alkylation of benzene with propylene to form isopropylbenzene, with isobutene to form f-butylbenzene and di-f-butylbenzene, and trimethylethylene to form amylbenzene. Later on (Simons and Archer, 28) studied these and other reactions in more detail and showed that high yields could be obtained and that the product was not contaminated with tars or other obnoxious impurities. It was shown that the products obtained with trimethylethylene were mono- and di-f-amylbenzene, that phenyl-pentane resulted from the use of pentene-2, and that cyclohexene produced cyclohexylbenzene. Cinnamic acid reacted with benzene (Simons and Archer, 29) to form /3-phenylpropionic acid and allyl benzene reacted with benzene to form 1,2-diphenylpropane. It is interesting to note that although allyl alcohol reacted with benzene to form 1,2-diphenylpropane, the intermediate in the reaction, allylbenzene, was isolated and identified. This shows that in this case the hydroxyl reacted at a more rapid rate than the double bond. Both di- and triisobutylene reacted with phenol (Simons and Archer, 30) at 0°, when using hydrogen fluoride containing only relatively small quantities of water, to form f-butyl-benzene, but diisobutylene with 70% hydrogen fluoride produced p-f-octylphenol. Cyclohexene reacted with toluene to form cyclohexyl-toluene and octene-1 rapidly reacted with toluene to form 2-octyltoluene (Simons and Basler, 31). 

Fused 2-substituted thiazoles are most conveniently synthesized by condensing an a-haloketone with a thiono-amide. Thiazolo[5,4- ]indoles 118 were prepared via the Gunch reaction using bromindoxyl 117 and primary thionoamides of phenylacetic acid, phenylpropionic acid, and cyanoacetic acid affording the products as either... 

Racemic a-phenylethyl bromide is carbonylated under phase-transfer conditions with 5 N NaOH and dichloromethane containing bis-(dibenzylideneacetone)Pd(O) and a chiral 2-substituted 3,1,2-oxaza-phospholane to give a-phenylpropionic acid in moderate ee (Scheme 83) (196). The reaction involves kinetic resolution of the bromide with a discriminative slow oxidative addition step. 

Boron heterocycles. A novel synthesis of the natural chalcone aurentiacin (3) involves the reaction of 2,4,6-trimethoxytoluene (1) with cinnamic acid and BF3 etherate at 80° to form the novel heterocycle 2, which is hydrolyzed to 3. The formation of 2 involves a selective demethylation, since the reaction of 4 with 2-phenylpropionic acid and BF3 followed by hydrolysis gives 5, isomeric with dihydro-3. 

Succinic acids. The dianion salt of carboxylic acids, generated with LDA and freed from diisopropylamine, on reaction with L ouples to form derivatives of succinic acid. This coupling of 3-phenylpropionic acid dianion results largely in the r/Z-isomer (equation 1). 

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