L- diester

By the radical pathway l, -diesters, -diketones, -dienes or -dihalides, chiral intermediates for synthesis, pheromones and unusual hydrocarbons or fatty acids are accessible in one to few steps. The addition of the intermediate radicals to double bonds affords additive dimers, whereby four units can be coupled in one step. By way of intramolecular addition unsaturated carboxyhc acids can be converted into five raembered hetero- or carbocyclic compounds. These radical reactions are attractive for synthesis because they can tolerate polar functional groups without protection. 

DNA ttgase forms a 3 to 5 phospho-l diester bond between the fragments. ... 

Barnett, M. Secondo, P. Collier, H. Synthesis and characterization of new l,l -diester, diketone, and dinitrile derivatives of 2,2 -biimida-zole.J. Heterocyclic Chem. 1996, 33,1363-1365. 

A, A -di(all oxycaiboayl)iiydiazino]> diazo aibcwcylate diall l diester 1741... 

The coupling of carboxylic acids has been profitably used in natural product synthesis. Kolbe electrolysis of 8 is part of a (-j-)-a-onocerin synthesis [36], the electrolysis of 9 afforded a dimer with two quaternary carbon atoms [37], and 2,6,10,15,19,23-hexamethyltetracontane has been synthesized from 10 [38]. Cyclo-propylcarboxylic acids, e.g. 11 [39] and 12 [40], could be coupled to bicyclopropyl compounds others led to allylic compounds via ring opening of an intermediate carbenium ion. The dimerization of half-esters of diacids is also of industrial interest, because in this way l, -diesters are easily accessible [41]. 

Thiolphosphoric acid 0,l diesters Metho-O, S-dimethyl thiophosphates 20 Thiophosphates, 0,S-dial-kyl- 20... 

In the diester method a deoxynucleoside-5 -monophosphate is condensed with the 3 -OH group of a deoxynucleotide to produce a 3, 5 -phosphodiester. This is illustrated by a general method for dinucleotide synthesis developed by H.G. Khorana (K.L. Agarwal, 1976). One N-... 

A key intermediate, 163, which possesses all but one chiral center of (+ )-brefeldin, has been prepared by the enantiocontrolled cycloaddition of the chiral fi,/3-unsaturated ester 162 to 154[107], Synthesis of phyllocladane skeleton 165 has been carried out by the Pd-catalyzed cycloaddition of the unsaturated diester 164 and cobalt-catalyzed cycloaddition of alkynes as key reactions[108]. Intramolecular cycloaddition to the vinylsulfone in 166 proceeds smoothly to give a mixture of the trans and cis isomers in a ratio of 2.4 1[109], Diastereocontrolled cycloaddition of the hindered vinylsulfone 167 affords a single stereoisomeric adduct, 168, which is used for the synthesis of the spirocarbocyclic ring of ginkgolide[l 10],... 

Keto esters are obtained by the carbonylation of alkadienes via insertion of the aikene into an acylpalladium intermediate. The five-membered ring keto ester 22 is formed from l,5-hexadiene[24]. Carbonylation of 1,5-COD in alcohols affords the mono- and diesters 23 and 24[25], On the other hand, bicy-clo[3.3.1]-2-nonen-9-one (25) is formed in 40% yield in THF[26], 1,5-Diphenyl-3-oxopentane (26) and 1,5-diphenylpent-l-en-3-one (27) are obtained by the carbonylation of styrene. A cationic Pd-diphosphine complex is used as the catalyst[27]. 

One effective method for synthesis of tryptophan derivatives involves alkylation of formamido- or acetamido- malonate diesters by gramine[l,2]. Conversion to tryptophans is completed by hydrolysis and decarboxylation. These reactions were discussed in Chapter 12. An enolate of an a-nitro ester is an alternative nucleophile. The products can be converted to tryptophans by rcduction[3,4],... 

Esters. The monoisobutyrate ester of 2,2,4-trimethyl-1,3-pentanediol is prepared from isobutyraldehyde ia a Tishchenko reaction (58,59). Diesters, such as trimethylpentane dipelargonate (2,2,4-trimethylpentane 1,3-dinonanoate), are prepared by the reaction of 2 mol of the monocarboxyhc acid with 1 mol of the glycol at 150—200°C (60,61). The lower aUphatic carboxyHc acid diesters of trimethylpentanediol undergo pyrolysis to the corresponding ester of 2,2,4-trimethyl-3-penten-l-ol (62). These unsaturated esters reportedly can be epoxidized by peroxyacetic acid (63). 

Diesters have been produced primarily by esterification of a C -branched-chain alcohol with adipic (C ), a2elaic (C ), or sebacic (C q) diacid. Di(2-ethylhexyl)sebacate [122-62-3] was quite generally used in military greases and MIL-L-7808 jet engine oil, but more recent demands and price competition have led to use of a variety of diesters. 

Diall l Oxalate Process. Oxahc acid is prepared by the hydrolysis of diesters of oxahc acid which are prepared by an oxidative CO coupling reaction. UBE Industries (Japan) commercialized this two-step process in 1978. This is the newest manufacturing process of oxahc acid. 

Another viable method for the synthesis of L-foUc acid (1) starts from 6-formylpterin (23). The diester of L-glutamic acid (24) is condensed with 6-formylpterin (23). Reduction of the Schiff base with sodium borohydride is followed by hydrolysis to yield L-foUc acid (37). 

Phthalic anhydride and diethyl phthalate are easily converted with hydrazine into 4-hydroxyphthalazin-l(2/f)-one. Its substituted derivatives have been prepared using substituted hydrazines, substituted phthalic anhydrides, or diesters or disodium salts of substituted phthalic acids (Scheme 81). However, condensation of phenylhydrazine with phthalic anhydride gives only a small amount of the corresponding phthalazine, the main product being 2-anilinophthalimide. This can be rearranged in the presence of base into the phthalazine derivative. For the preparation of 2,3-disubstituted derivatives, 1,2-disub-stituted hydrazines are reacted with the appropriate phthalic anhydrides or phthaloyl chlorides. Derivatives of 4-amino- or 4-hydrazino-phthalazin-l(2iT)-one have been prepared either from the corresponding monothiophthalimide and 3-aminoisoindolin-3-one (1S4) or from ethyl 2-cyanobenzoate (155) and hydrazine hydrate (Scheme 82). Similarly,... 

In the alkylation of l-phenylpyrazole-3,5-diones both carbon and oxygen compete successfully with nitrogen (B-76MI40402). Phenylbutazone (Section 4.04.4.1.1) can be prepared by reaction of l,2-diphenylpyrazole-3,5-dione with -butyl halides and alkali, even if the industrial procedure uses -butyl malonic diesters and hydrazobenzene (Section 4.04.3.1.2(h)). 

The disadvantage of this method is that the dichloridites and monochloridites are sensitive to water and thus could not be used readily in automated oligonucleotide synthesis. This problem was overcome by Beaucage and Caruthers, who developed the phosphoramidite approach. In this method, derivatives of the form R 0P(NR2)2 react with one equivalent of an alcohol (catalyzed by species such as l//-tetrazole) to form diesters, R OP(OR")NR2, which usually are stable, easily handled solids. These phosphoroamidites are easily converted to phosphite triesters by reaction with a second alcohol (catalyzed by l//-tetrazole). Here, again, oxidation of the phosphite triester with aqueous iodine affords the phosphate triester. Over the years, numerous protective groups and amines have been examined for use in this approach. Much of the work has been reviewed. ... 

N-Benzyloxycarbonyl-L-aspartic acid-a-p-nitrophenyl, /3-benzyl Diester Hydrogen... 

A solution of 88.5 parts of L-phenylalanine methyl ester hydrochloride in 100 parts of water is neutralized by the addition of dilute aqueous potassium bicarbonate, then is extracted with approximately 900 parts of ethyl acetate. The resulting organic solution is washed with water and dried over anhydrous magnesium sulfate. To that solution is then added 200 parts of N-benzyloxycarbonyl-L-aspartic acid-a-p-nitrophenyl, -benzyl diester, and that reaction mixture is kept at room temperature for about 24 hours, then at approximately 65°C for about 24 hours. The reaction mixture is cooled to room temperature, diluted with approximately 390 parts of cyclohexane, then cooled to approximately -18°C in order to complete crystallization. The resulting crystalline product is isolated by filtration and dried to afford -benzyl N-benzyloxycarbonvI-L-aspartyl-L-phenylalanine methyl ester, melting at about 118.5°-119.5°C. 

Labetalol HCI 4-Benzyloxyaniline HCI Hydroxytryptophan N-BenzyloxycarbonyI-L-aspartic acid-a-nitrophenyl,/3-benzyl diester Aspartame... 

For example. 2-ethoxyindole (1 a) with the alkyne diester in refluxing dioxane yields dimethyl 2-ethoxy-3//-l-benzazepine-3,4-dicarboxylate (2) as a minor product along with a 50 % yield of a mixture of the cis- and tran.v-indol-3-ylacrylates 3.20 However, with 2-ethoxy-l-methylindole (1 b) the l//-l-benzazepine 4 becomes the major product. An analogous reaction with l,2-bis(trifluoromethyl)acetylene to yield 2-ethoxy-l -methyl-3,4-bis(trifluoroiriethyl)-1 //-1-benzazepine has been performed however, the yield was not reported.142... 

Indole and dimethyl acetylenedicarboxylate yield 2-(indol-3-yl)-2,3-dihydro-l//-l-ben-zazepine (mp 240-242 C) by addition of indole to the initially formed l//-l-benzazepinc,21 whereas 1,3-dimethylindole (10, R = H) fails to react with the diester under a variety of conditions.145 However, in the presence of boron trifluoride-diethyl ether complex at room tem-... 

In contrast, quinoline-2-carbonitrile At-oxide fails to react with the acetylene diester at 20 C, whereas in dimethylformamide at 100 C a low yield of the l//-l-benzazepine-2-carbonitrile 54 is formed by loss of the oxalyl side chain and isomerization of the resulting 3//-1 -benzazepine to the 1//-system. 

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