Malonic bromo

Sodium hydride (9.3 g, 0.22 mol) was washed with petroleum ether and DMSO (200 ml) was added and the mixture was heated to 100°C. A solution of diethyl malonate (35.2 g, 0.22mol) in DMSO (50 ml) was then added and stirred for 10 min to give a clear solution. A solution of 4-bromo-3-nitrobenzophenone (30.6 g, 0.10 mol) in DMSO (100 ml) was added and the resulting dark solution kept at 100 C for 1 h. The solution was poured into water (3 1) and extracted (2x) with ether. The extract was washed with water, dried (NajSOj and concentrated in vacuo to give an oil which crystallized. The solid was recrystallized from isopropyl alcohol to give 35.4 g (92% yield) of the product. 

In a typical example of the malonic ester synthesis 6 heptenoic acid has been pre pared from 5 bromo 1 pentene... 

H2C=CHCH2CH2CH2Br + CH2(COOCH2CH3)2 5 Bromo 1 pentene Diethyl malonate... 

Preparation of Diethyl (1-Methyl-2-Pentynyl) Malonate To a solution of 2B.6 g of sodium in 430 ml of absolute ethanol were added 200 g of diethyl malonate. About half of the alcohol was removed by distillation in vacuo, and thereafter a solution of 200 g of 2-bromo-3-hexyne in 100 ml of anhydrous ether was added slowly to the reaction mixture. 

The heat of reaction brought about refluxing during the addition of the 2-bromo-3-hexyne, and when the addition was complete the reaction mixture was heated to refluxing for a further period of 30 minutes. A sufficient amount of water was then added to the reaction mixture to dissolve the sodium bromide which had formed, and the only organic layer was separated, washed with water and dried over anhydrous magnesium sulfate. The dried organic layer was then fractionally distilled under reduced pressure, and the diethyl (1-methyl-2-pentynyl) malonate formed in the reaction was collected at about 117° to 120°C at the pressure of 2 mm of mercury. 

Amino acids can be synthesized in racemic form by several methods, including ammonolysis of an a-bromo acid, alkylation of diethyl acetamido-malonate, and reductive amination of an cv-keto acid. Alternatively, an enantio-selective synthesis of amino acids can be carried out using a chiral hydrogenation catalyst. 

Electrochemical reduction of 5-acetyl-10-bromo-5/f-dibenz[ >,/]azepine in the presence of quinoxalinc as a moderator and diethyl malonate as a proton donor, effects rapid and quantitative hydrodebromination without loss of the acetyl group.183... 

Malonic acid, amino-, diethyl ester, HYDROCHLORIDE, 40, 24 Malonic acid, bts(hydroxymethyl)-, DIETHYL ETHER, 40, 27 Malonitrile, condensation with tetra-cyanoethylene, 41, 99 2-Mercaptopyrimidine, 43, 6S hydrochloride of, 43, 68 Mercuric oxide in preparation of bromo-cyclopropane, 43, 9 Mesityl isocyanide, 41,103 5-Methallyl-l,2,3,4,5-pentachlorocyclo-pentadiene, 43, 92 Methane, dimesityl-, 43, 57 Methanesiileinyl chloride, 40, 62 Methanesulfonic acid, solvent for making peroxybenzoic acid from benzoic acid, 43, 93... 

With the A-ring unit readily available, we directed our attention to the formation of the B-ring. At first, we duplicated the five step scheme reported in Sih s strigol synthesis involving 1) esterification of the acid 14, 2) allylic bromination with N-bromo 8 ucc i n imi d e (NBS) to 15, 3) condensation with the sodium salt of dimethyl malonate to 16, 4) alkylation with methyl bromoacetate to 17, and 5) acid catalyzed hydrolysis and decarboxylation to the acid 18. 

Malonic ester syntheses, 30, 7 Malononitrile, 37, 53 Malonyl dichloride, 33, 20 Mandelic acid, 36, 3 Mandelic acid, />-bromo, 35,11 Mannich reaction, with acetone, 37,18 Mercaptoacetaldehyde, diethyl ACETAL, 35, 51... 

Potassium 4-chloro-3,5-dinitrobenzene-sulfonate, 31, 46 Potassium cyanate, 31, 9 Potassium cyanide, 30,84 32,31,63 37,47 Potassium ethyl malonate, 37, 34 Potassium ethyl xanthate, 30, 56 Potassium fluoride, 36, 40 Potassium iodide, 30, 34 31, 31, 66 Potassium metal, 37, 29, 30 Potassium methyl sulfate, 31, 73 Potassium nitrate, 31, 46 Potassium 1-nitropropylnitronate, 37, 24 Potassium oxalate, 34, 83 Potassium permanganate, 30, 87 31, 59 Potassium sulfide, 32, 103 Potassium thiobenzoate, 32, 101 Potassium thiocyanate, 32, 39, 40 Prins reaction, 33, 72 Propane, 1, 3-dibromo-2, 2-Ws-(bromo-methyl)-, 31, 82... 

Higher-molecular-weight normal 2-alkenoic acids have been prepared in poor yields by the Doebner condensation of aldehydes with malonic acid,5-7 and by the Reformatsky reaction of aldehydes with ethyl bromoacetate followed by dehydration.8 The a-iodo acid, prepared from the bromo acid, has been dehydrohalogenated with potassium hydroxide in ethanol,9 but large quantities of the a-hydroxy acid are formed as a by-product which is difficult to separate in some instances. The present procedure is an adaptation of a published method.6... 

There are very few precedents for the reaction of cyclic a-halo ethers with carbanions. Zelinski and coworkers114 and Schudel and Rice115 reported the preparation of diethyl DL-tetrahydropyran-2-ylmalonate (137) by treatment of 2-bromo- or 2-chloro-tetrahydropyran (136) with diethyl sodiomalonate. The product was subsequently converted into the malonic and acetic acid derivatives, 138 and 139, respectively. The same sequence has also been reported by other workers.116... 

The tricyclic bromo THD 175 undergoes uneventfully nucleophilic substitution with aqueous dimethylamine or with sodium methoxide in methanol, under mild conditions, affording the corresponding 3-substituted THDs 173 and 130 in good yields (Equation 10) <2005JOC6230, 2005JMC2266>. Similarly, other nucleophiles such as N-(6-aminohexyl)-2-nitrobenzene sulfonamide and diethyl malonate, in the presence of triethylamine, also give substituted THDs 176 and 177, respectively, in moderate yields (Equation 10). 

Furthermore, the first catalytic synthesis of allenes with high enantiomeric purity [15c, 25] was applied recently to the pheromone 12 by Ogasawara and Hayashi [26] (Scheme 18.7). Their palladium-catalyzed SN2 -substitution process of the bromo-diene 16 with dimethyl malonate in the presence of cesium tert-butanolate and catalytic amounts of the chiral ligand (R)-Segphos furnished allene 17 with 77% ee. Subsequent transformation into the desired target molecule 12 via decarboxylation and selenoxide elimination proceeded without appreciable loss of stereochemical purity and again (cf. Scheme 18.5) led to the formation of the allenic pheromone in practically the same enantiomeric ratio as in the natural sample. 

Under the previous conditions, diethyl (amino)phenylmethylenemalo-nate (313) was also obtained in 35% yield in the reaction of diethyl bromo-malonate and benzonitrile (85TL2603). 

Methyl 2-bromo-2-cyclopropylideneacetate (11a) has never been tested in these reactions, but has been used as a starting material for the stepwise construction of 1,6-heptadienes with methylenecyclopropane units for intramolecular Heck reactions. Thus, bromo ester 11a, after reduction, subsequent conversion of the resulting alcohol to the bromide and coupling with enolates of substituted malonates, was transformed into dienes of the type 254 (Scheme 73) - versatile synthetic blocks for the preparation of functionally substituted spirocyclopropanated bicyclo[4.3.0]nonenes 255a-d by a domino Heck-Diels-Alder reaction [122a]. 

Olefins react with manganese(III) acetate to give 7-lactones.824 The mechanism is probably free-radical, involving addition of CH2COOH to the double bond. Lactone formation has also been accomplished by treatment of olefins with lead tetraacetate,825 with a-bromo carboxylic acids in the presence of benzoyl peroxide as catalyst,826 and with dialkyl malonates and iron(III) perchlorate Fe(C104)3-9H20.827 Olefins can also be converted to 7-lactones by indirect routes.828 OS VII, 400. 

A significant feature in the synthesis of 2,2-disubstituted tetrahydropyrans from diethyl malonate is the selective chlorination by trifluoromethanesulfonyl chloride of carbanions which can be formed using triethylamine or DBU as the base (79TL3645). Monoalkylation of the diester with l-bromo-4-tetrahydropyranyloxybutane leads to the alcohol (237 R = H)... 

H2C=CHCH2CH2CH2Br + CH2(COOCH2CH3)2 Na H,> H2C=CHCH2CH2CH2CH(COOCH2CH3)2 5-Bromo-l-pentene Diethyl malonate Diethyl 2-(4-pentenyl)malonate (85%)... 

Bromo-5,5-dimethylhexane (87 grams) was added to a solution of the sodium salt of diethyl malonate prepared from diethyl malonate (72 grams), sodium (10.4 grams), and ethyl alcohol (230 ml). 

Hydroxy benzo[6]thiophene-4-carboxaldehyde, which is prepared from 5-hydroxybenzo[6]thiophene by the Duff reaction 338 or, better, by a modified Gattermann reaction,340 reacts with diethyl bromo-malonate to give the thienobenzofuran (282), and undergoes the Perkin reaction to give the thienobenzo-a-pyrone (283).338... 

It is widely held that protic ( acidic ) solvents favour monoalkylation of diethyl malonate carbanion, whereas aprotic ( inert ) solvents favour dialkylation. Exactly opposite results have now been obtained in the reactions of die alkali metal salts of diethyl malonate with 1,2-bis-, 1,2,4,5-tetrakis-, and 1,2,3,4,5,6-hexakis-(bromo-methyl)benzenes in ethanol and in DMSO, the former solvent preferring dialkylation (cyclization) and the latter monoalkylation.106 Other interesting related observations were made. 

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