Cinnamyl methyl carbonate

Interesting results were obtained by Kimura and Uozumi with a series of phos-phorodiamidites L7 as ligands [65]. Here, only cinnamyl methyl carbonate was probed as substrate, and moderate selectivities were achieved the best results are described in Scheme 9.32. An interesting switch in the configurational course of... 

Ir-catalyzed alkylation with a nitro compound was applied in a synthesis of flS,2R)-tra s-2-phenylcyclopentanamine, a compound with antidepressant activity (Scheme 9.41) [45]. The reaction of cinnamyl methyl carbonate with 4-nitro-l-butene gave the substitution product with 93% ee in 82% yield. A Grubbs I catalyst sufficed for the subsequent RCM. Further epimerization with NEts yielded a trans-cyclopentene in 83% yield via the two steps, while additional reduction steps proceeded in 90% yield. 

An interesting allylic substitution reaction of ( )-cinnamyl methyl carbonate 143 has been examined by Pfaltz s group. The use of a molybdenum complex of ligand 144 resulted in 145 in 88% yield with an ee of 99% [for the (R) isomer] (Fig. 9.45). 

The carbonylation of allylic compounds by transition metal complexes is a versatile method for synthesizing unsaturated carboxylic acid derivatives (Eq. 11.22) [64]. Usually, palladium complexes are used for the carbonylation of allylic compounds [65], whereas ruthenium complexes show characteristic catalytic activity in allylic carbonylation reactions. Cinnamyl methyl carbonate reacts with CO in the presence of a Ru3(CO)i2/l,10-phenanthroline catalyst in dimethylformamide (DMF) to give methyl 4-phenyl-3-butenoate in excellent yield (Eq. 11.23) [66]. The regioselectivity is the same as in the palladium complex-catalyzed reaction. However, when ( )-2-butenyl methyl carbonate is used as a substrate, methyl ( )-2-methyl-2-butenoate is the major product, with the more sterically hindered carbon atom of the allylic group being carbo-nylated (Eq. 11.24). This regioselectivity is characteristic of the ruthenium catalyst [66]. 

Certain P-chiral phosphorodiamidite ligands (e.g., 30A, 30B) complex with iridium(I) to form catalysts for promoting reaction of cinnamyl methyl carbonate with ArOH to form chiral aryl a-vinylbenzyl ethers. ... 

Leitner and co-workers described Pd-catalyzed nucleophilic substitutions ofallylic substrates with different nucleophiles [27]. They used Pd2(dba)3 as the palladium source and phosphane 20 as perfluoro-tagged ligand [Eq. (5)]. Reaction between cinnamyl methyl carbonate (21) and various nucleophiles (Nu-H) were performed in a THF/C7FJ4 biphasic mixture. A decrease in conversion was observed only after the ninth run (with 5 mol% Pd complex). By reducing the amoimt of Pd complex to 1 mol%, five quantitative recyclings were possible. The standard protocol was also applied to the condensation of dimethyl malonate with allyl methyl carbonate, (2-vinyl)butyl carbonate, and cyclohex-2-enyl carbonate. In each case two recyclings were performed without any decrease in conversion. 

The scope of allylic electrophiles that react with amines was shown to encompass electron-neutral and electron-rich ciimamyl methyl carbonates, as well as furan-2-yl and alkyl-substituted allylic methyl carbonates. An ort/io-substituted cinnamyl carbonate was found to react with lower enantioselectivity, a trend that has been observed in later studies of reactions with other nucleophiles. The electron-poor p-nitrocinnamyl carbonate also reacted, but with reduced enantioselectivity. Allylic amination of dienyl carbonates also occur in some cases with high selectivity for formation of the product with the amino group at the y-position over the s-position of the pentadienyl unit [66]. Arylamines did not react with allylic carbonates under these conditions. However, they have been shown to react in the presence of the metalacyclic iridium-phosphoramidite catalysts that are discussed in Sect. 4. 

Pd(0)-catalyzed allylations of 4(5)-nitroimidazole, 2-methyl-4(5)-nitroimidazole, 4(5)-bromoimidazole and 4(5)-methoxyimidazole resulted in complicated mixtures, which did not necessarily reflect the tautomeric ratios of the starting material [7], For example, poor regioselectivity for the products (70 and 71) was observed in the Tsuji-Trost reaction of 4(5)-bromoimidazole with cinnamyl carbonate. However, the same reaction with 4(5)-nitroimidazole and 2-methyl-4(5)-nitroimidazole led predominantly to the l-allylation products. In addition, removal of the 77-imidazole allyl groups can be selectively effected under mild conditions by Pd-catalyzed ic-allyl chemistry [55],... 

In addition to isolating complex 5, Markovic and Hartwig performed kinetic studies on the amination of methyl cinnamyl carbonate with aniline. The proposed mechanism involves reversible dissociation of product, reversible, endothermic oxidative addition of the allylic carbonate to form a 7i-allyliridium species, and irreversible nucleophilic attack on the 7i-allyliridium intermediate, as depicted in... 

Scheme 22 Catalytic cycle for the reaction of aniline with methyl cinnamyl carbonate catalyzed by a metalacyclic iridium-phosphoramidite complex...

In an exploratory study, Cu-alkoxides were found to be superior to Zn-alkoxides, and tert-butyl cinnamyl carbonate superior to methyl cinnamyl carbonate, which underwent transesterificahon. Both, arylallyl and alkylallyl carbonates were successful as substrates. 

Naftifine Naftifine, (E)-N-methyl-N-(3-phenyl-2-propenyl)-1 -naphthalinmethanamine (35.3.1), is synthesized by alkylating N-methyl-(l-naphthylmethyl)-amine with cinnamyl chloride in the presence of sodium carbonate [38 3]. 

Extensive stmcture activity relationship (SAR) studies in this series revealed that unsymmetrical substitution on the heterocyclic ring and hence the introduction of chirality on the central carbon atom led to increased potency. Such asymmetrical dihydro-pyridines can be prepared by stepwise variation of the Hantzsch synthesis, based on the hypothetical alternate route to nifedipine. Thus, aldol condensation of methyl acetoacetate with 2,3-dichlorobenzaldehyde (13-1) gives the cinnamyl ketone (13-2). Reaction of that with the enamine (13-3) from ethyl acetoacetate gives the calcium channel blocker felodipine (13-4) [14]. 

Addition of cinnamyl(mesityl)zinc to the C2 symmetrical cyclopropenone ketal 133 led to excellent diastereoselectivities with respect to the newly formed carbon—carbon bond (de = 97%) and induction from the chiral ketal (de = 91%). Deuteriolysis afforded the cyclopropanone ketal 134 in which three stereocenters have been generated99,10°. A product-like transition state model was proposed, in which the cyclopropene underwent considerable rehybridization and the zinc became preferentially attached to the less hindered equatorial olefinic carbon from the face opposite to the axial ketal methyl group (equation 65). 

Reaction of cinnamyl alcohol (36) catalyzed by Rh-BINAPHOS gives the product as lactol 37 (1 1 mixture of diastereomers at the anomeric carbon) with high enantioselectivity (88% ee) [94] (Scheme 7.7). The enantiopurity of lactol 37 is determined by oxidizing the lactol to the corresponding lactone 38. In the same manner, homoallyl alcohol (39) is converted to the corresponding a-methyl-y-butyrolactone (42) with 73% ee via lactol 40 [94] (Scheme 7.7). However, the regioselectivity of the reaction is not favorable to the formation of 40, forming achiral 6-lactol 41 as the major product. 

Methyl-(l-naphthylmethyl)amine hydrochloride Sodium carbonate Dimethylformamide Cinnamyl chloride... 

Much of the cocaine used in this country is prepared from the crude alkaloid which is manufactured in the countries where the plant grows. The alkaloids are extracted from the leaves by kerosene or some other cheap immiscible solvent in the presence of an alkali, the alkaloids being separated from the solvent with dilute sulphuric acid from which cocaine is precipitated by sodium carbonate. This crude substance represents about 90 per cent, of cocaine. A good deal of cocaine is manufactured in Germany from the Java coca leaves which contain chiefly cinnamyl cocaine. This alkaloid is hydrolized by boiling with diluted hydrochloric acid and the ecgonine so obtained treated with benzoic anhydride and methyl iodide. The other coca bases may also be converted into cocaine by a similar process as suggested by Liebermann (B. Chem. G., 1888, xxi, 3196). 

Reduced osmium on carbon is an excellent catalyst for selective hydrogenation of aj3-unsaturated aldehydes to unsaturated alcohols.1 Cinnamaldehyde — cinnamyl alcohol (95% yield). Reduced rates are observed with alumina as the support. This selective reduction is not applicable to a,/3-unsaturated ketones thus hydrogenation of mesityl oxide afforded methyl isobutyl ketone. 

A mixture of 14.3 parts of di-(p-fluorophenyl)-chloromethane, 10.1 parts of 1-cinnamyl-piperazine, 12.7 parts of sodium carbonate, a few crystals of potassium iodide in 200 parts of 4-methyl-2-pentanone is stirred and refluxed for 21 hours. The reaction mixture is cooled... 

Several recent studies have revealed the dichotomous relationship between the regioselectivity of reactions of unsymmetrical allyl complexes of palladium and that of reactions of unsjmmetrical allyl complexes of other metals. An isolated molybdenum-allyl complex containing an allyl group derived from methyl cinnamyl carbonate (PhCH=CHCH2C)COjMe) reacts with the sodium salt of dimethyl malonate in the presence of a source of CO to generate the branched substitution product (Equation 11.41). The addition of nucleophile to this allyl complex has been shown to occur by retention of configuration, perhaps by initial attack at the metal, rather than the more common external attack at Are allyl group. ... 

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