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Unsaturated synthesis

Bergmann s synthesis unsaturated azlactones, 6, 226 Berkelheide rearrangement heterophanes, 7, 777 Berninamycin A, 6, 232 Berninamycinic acid appiications, 6, 709 X-ray diffraction, 6, 669 Betahistine as vasodiiator, 2, 5i9 Betaines... [Pg.568]

General Synthesis Unsaturated a-Amino-acids Chiral Amino-acids Protection and Deprotection... [Pg.395]

Compounds containing a double or triple bond, usually activated by additional unsaturation (carbonyl, cyano, nitro, phenyl, etc.) In the ap position, add to the I 4-positions of a conjugated (buta-1 3-diene) system with the formation of a ax-membered ring. The ethylenic or acetylenic compound is known as the dieTwphile and the second reactant as the diene the product is the adduct. The addition is generally termed the Diels-Alder reaction or the diene synthesis. The product in the case of an ethylenic dienophile is a cyctohexene and in that of an acetylenic dienophile is a cyctohexa-1 4-diene. The active unsaturated portion of the dienophile, or that of the diene, or those in both, may be involved in rings the adduct is then polycyclic. [Pg.941]

Reviews Synthesis 1972, 63 Tetrahedron 1984, 40,641 Organic Reactions 1972, 19, 1. - selective 1,4-addition to a,p-unsaturated carbonyls... [Pg.91]

An interesting case are the a,/i-unsaturated ketones, which form carbanions, in which the negative charge is delocalized in a 5-centre-6-electron system. Alkylation, however, only occurs at the central, most nucleophilic position. This regioselectivity has been utilized by Woodward (R.B. Woodward, 1957 B.F. Mundy, 1972) in the synthesis of 4-dialkylated steroids. This reaction has been carried out at high temperature in a protic solvent. Therefore it yields the product, which is formed from the most stable anion (thermodynamic control). In conjugated enones a proton adjacent to the carbonyl group, however, is removed much faster than a y-proton. If the same alkylation, therefore, is carried out in an aprotic solvent, which does not catalyze tautomerizations, and if the temperature is kept low, the steroid is mono- or dimethylated at C-2 in comparable yield (L. Nedelec, 1974). [Pg.25]

The 5-oxohexanal 27 is prepared by the following three-step procedure (1) 1,2-addition of allylmagnesium bromide to an a, / -unsaturated aldehyde to give the 3-hydroxy-1,5-diene 25, (2) oxy-Cope rearrangement of 25 to give 26, and (3) palladium catalyzed oxidation to afford 27. The method was applied to the synthesis of A -2-octalone (28), which is difficult to prepare by the Robinson annulation[25]. [Pg.26]

The 7, i5-unsaturated alcohol 99 is cyclized to 2-vinyl-5-phenyltetrahydro-furan (100) by exo cyclization in aqueous alcohol[124]. On the other hand, the dihydropyran 101 is formed by endo cyclization from a 7, (5-unsaturated alcohol substituted by two methyl groups at the i5-position. The direction of elimination of /3-hydrogen to give either enol ethers or allylic ethers can be controlled by using DMSO as a solvent and utilized in the synthesis of the tetronomycin precursor 102[125], The oxidation of the optically active 3-alkene-l,2-diol 103 affords the 2,5-dihydrofuran 104 in high ee. It should be noted that /3-OH is eliminated rather than /3-H at the end of the reac-tion[126]. [Pg.35]

Unsaturated nitriles are formed by the reaction of ethylene or propylene with Pd(CN)2[252]. The synthesis of unsaturated nitriles by a gas-phase reaction of alkenes. HCN, and oxygen was carried out by use of a Pd catalyst supported on active carbon. Acrylonitrile is formed from ethylene. Methacrylonitrile and crotononitrile are obtained from propylene[253]. Vinyl chloride is obtained in a high yield from ethylene and PdCl2 using highly polar solvents such as DMF. The reaction can be made catalytic by the use of chloranil[254]. [Pg.59]

The catalytic oxidative carbonylation of allene with PdCb and CuCh in MeOH affords methyl a-methoxymethacrylate (559)[499]. The intramolecular oxidative aminocarbonylation of the 6-aminoallene 560 affords the unsaturated J-amino ester 561. The reaction has been applied to the enantioselective synthesis of pumiliotoxin (562)[500]. A similar intramolecular oxycarbonyla-tion of 6-hydroxyallenes affords 2-(2-tetrahydrofuranyl)acrylates[501]. [Pg.103]

Synthesis of camptothecin (163) is another example[133]. The iboga alkaloid analog 164 has been synthesized smoothly by the intramolecular coupling of iodoindole and unsaturated ester to form an eight-membered ring. Af-Methyl protection of the indole is important for a smooth reaction[134]. An efficient construction of the multifunctionalized skeleton 165 of congeners of FR900482 has been achieved[135]. [Pg.152]

Carboxylic acids are produced in water. Selection of solvents is crucial and the carbonylation of the enol triflate 480 can be carried out in aqueous DMF, and that of the aryl triflate 481 in aqueous DMSO using dppf as a ligand[328,334]. The carbonylation of the enol triflate 482 to form the a, 0. unsaturated acid 483 using dppf as a ligand in aqueous DMF has been applied in the total synthesis of multifunctionalized glycinueclepin[335]. [Pg.194]

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],... [Pg.313]

Allylalion of the alkoxymalonitrile 231 followed by hydrolysis affords acyl cyanide, which is converted into the amide 232. Hence the reagent 231 can be used as an acyl anion equivalent[144]. Methoxy(phenylthio)acetonitrile is allylated with allylic carbonates or vinyloxiranes. After allylation. they are converted into esters or lactones. The intramolecular version using 233 has been applied to the synthesis of the macrolide 234[37]. The /i,7-unsaturated nitrile 235 is prepared by the reaction of allylic carbonate with trimethylsilyl cyanide[145]. [Pg.321]

Allylic sulfones undergo Pd-catalyzed elimination. The synthesis of an a,ft-unsaturated ketone by the elimination of the allylic sulfone group in 503 is an examplc[339]. [Pg.358]

The reaction can be applied to the synthesis of q, /3-unsaturated esters and lactones by treatment of the ketene silyl acetal 551 with an allyl carbonate in boiling MeCN[356]. The preparation of the q,, 3-unsaturated lactone 552 by this method has been used in the total synthesis of lauthisan[357]. [Pg.364]

Enone formation-aromatization has been used for the synthesis of 7-hydro-xyalkavinone (716)[456]. The isotlavone 717 was prepared by the elimina-tion[457]. The unsaturated 5-keto allyl esters 718 and 719, obtained in two steps from myreene. were subjected to enone formation. The reaction can be carried out even at room temperature using dinitriles such as adiponitrile (720) or 1,6-dicyanohexane as a solvent and a weak ligand to give the pseudo-ionone isomers 721 and 722 without giving an allylated product(458]. [Pg.389]

The 3.8-nonadienoate 91, obtained by dimerization-carbonylation, has been converted into several natural products. The synthesis of brevicomin is described in Chapter 3, Section 2.3. Another royal jelly acid [2-decenedioic acid (149)] was prepared by cobalt carbonyl-catalyzed carbonylation of the terminal double bond, followed by isomerization of the double bond to the conjugated position to afford 149[122], Hexadecane-2,15-dione (150) can be prepared by Pd-catalyzed oxidation of the terminal double bond, hydrogenation of the internal double bond, and coupling by Kolbe electrolysis. Aldol condensation mediated by an organoaluminum reagent gave the unsaturated cyclic ketone 151 in 65% yield. Finally, the reduction of 151 afforded muscone (152)[123]. n-Octanol is produced commercially as described beforc[32]. [Pg.445]

ZnCl2 is essential. The reaction was utilized in the synthesis of strophanthidin. Only the q, /3-alkene in the a, fi- and 7, (5-unsaturated ketone 51 is reduced selectively[47], Triethoxysilane is another reducing agent of the enone 52 and simple alkenes[48]. [Pg.519]

Addition of HCN to unsaturated compounds is often the easiest and most economical method of making organonitnles. An early synthesis of acrylonitrile involved the addition of HCN to acetylene. The addition of HCN to aldehydes and ketones is readily accompHshed with simple base catalysis, as is the addition of HCN to activated olefins (Michael addition). However, the addition of HCN to unactivated olefins and the regioselective addition to dienes is best accompHshed with a transition-metal catalyst, as illustrated by DuPont s adiponitrile process (6—9). [Pg.217]

CoF is used for the replacement of hydrogen with fluorine in halocarbons (5) for fluorination of xylylalkanes, used in vapor-phase soldering fluxes (6) formation of dibutyl decalins (7) fluorination of alkynes (8) synthesis of unsaturated or partially fluorinated compounds (9—11) and conversion of aromatic compounds to perfluorocycHc compounds (see Fluorine compounds, organic). CoF rarely causes polymerization of hydrocarbons. CoF is also used for the conversion of metal oxides to higher valency metal fluorides, eg, in the assay of uranium ore (12). It is also used in the manufacture of nitrogen fluoride, NF, from ammonia (13). [Pg.178]

Acidic Cation-Exchange Resins. Brmnsted acid catalytic activity is responsible for the successful use of acidic cation-exchange resins, which are also soHd acids. Cation-exchange catalysts are used in esterification, acetal synthesis, ester alcoholysis, acetal alcoholysis, alcohol dehydration, ester hydrolysis, and sucrose inversion. The soHd acid type permits simplified procedures when high boiling and viscous compounds are involved because the catalyst can be separated from the products by simple filtration. Unsaturated acids and alcohols that can polymerise in the presence of proton acids can thus be esterified directiy and without polymerisation. [Pg.564]

The methodology used in the preparation of RU 486 (84) and other ll -steroids is shown. Conjugate addition of a cuprate reagent to the a,P-unsaturated epoxide (85) provides the liP-substituted steroid (86) stereospecificaHy (131). Subsequent steps lead to the synthesis of RU 486 (84). [Pg.218]

P-Hydroxy acids lose water, especially in the presence of an acid catalyst, to give a,P-unsaturated acids, and frequendy P,y-unsaturated acids. P-Hydroxy acids do not form lactones readily because of the difficulty of four-membered ring formation. The simplest P-lactone, P-propiolactone, can be made from ketene and formaldehyde in the presence of methyl borate but not from P-hydroxypropionic acid. P-Propiolactone [57-57-8] is a usehil intermediate for organic synthesis but caution should be exercised when handling this lactone because it is a known carcinogen. [Pg.517]


See other pages where Unsaturated synthesis is mentioned: [Pg.425]    [Pg.16]    [Pg.150]    [Pg.425]    [Pg.16]    [Pg.150]    [Pg.133]    [Pg.119]    [Pg.260]    [Pg.46]    [Pg.104]    [Pg.348]    [Pg.471]    [Pg.122]    [Pg.43]    [Pg.316]    [Pg.481]    [Pg.3]   
See also in sourсe #XX -- [ Pg.4 , Pg.45 , Pg.46 , Pg.161 , Pg.181 , Pg.185 ]




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2,3-Unsaturated 1-thioglycosides synthesis

2,3-Unsaturated C-glycoside synthesis

2,3-Unsaturated glycosides, synthesis

3,4-Unsaturated 1,5-diynes synthesis

7,6-Unsaturated aldehydes, synthesis

Acetone, benzoylaldol reactions unsaturated (3-diketones, synthesis

Alcohols unsaturated, synthesis

Asymmetric Synthesis of Unsaturated Mono- and Bicyclic Prolines

Highly unsaturated fatty acids synthesis

Isothiocyanates unsaturated, synthesis

Nitrogen heterocycles, unsaturated, synthesis

Oligosaccharides unsaturated, synthesis

Phosphorus heterocycles, unsaturated, synthesis

Silicon heterocycles, unsaturated, synthesis

Sugars unsaturated, synthesis

Syntheses Producing Fully Unsaturated Quinolizinium Salts

Syntheses from Unsaturated Compounds

Syntheses of 1,2-Unsaturated Cyclic Compounds and Related Derivatives

Syntheses of 2,3-Unsaturated Cyclic Compounds

Synthesis of ()-(3,y-Unsaturated Nitriles

Synthesis of Bicyclic Unsaturated Tetrahydrofurans

Synthesis of Hexitols and Pentitols from Unsaturated Polyhydric Alcohols

Synthesis of Hexitols from Unsaturated Intermediates

Synthesis of Hydrocarbon Polymers Having Conjugated Unsaturations

Synthesis of Pentitols from Unsaturated Intermediates

Synthesis of Unsaturated Acids

Synthesis of Unsaturated Compounds

Synthesis of Unsaturated Monosaccharides

Synthesis of a,-Unsaturated Aldehydes from Trimethylsilylated Aldimines

Synthesis of a,-unsaturated aldehydes and ketones

Synthesis of a,P-Unsaturated Esters Using the Wittig Reaction

Synthesis of a-Unsaturated Phosphonium Salts

Synthesis of unsaturated fatty acids

Synthesis unsaturated acetals

Synthesis unsaturated bonds

Synthesis unsaturated fatty acids

Unsaturated 1,3-benzodiazepines, synthesis

Unsaturated 5 -oxazolones, synthesis

Unsaturated C-glycopyranoside synthesis

Unsaturated acids Synthesis

Unsaturated alcohols cyclic, synthesis

Unsaturated aldehydes cyclic, synthesis

Unsaturated carbapyranoses synthesis by Arjona

Unsaturated carbonyl compounds) 394 Synthesis

Unsaturated carbonyl derivative synthesis

Unsaturated carboxylic acids synthesis

Unsaturated carboxylic esters synthesis

Unsaturated compounds, synthesis with

Unsaturated compounds, synthesis with reagents

Unsaturated dicarboxylic acids, synthesis

Unsaturated halides, synthesis

Unsaturated heterocycles, synthesis

Unsaturated ketones cyclic, synthesis

Unsaturated ketones, synthesis

Unsaturated ketonucleosides synthesis

Unsaturated lactone synthesis

Unsaturated lactones, synthesis

Unsaturated nitriles, synthesis

Unsaturated nitriles, synthesis reaction

Unsaturated nucleosides synthesis

Unsaturated polyester oligomer synthesis

Unsaturated pyrans, synthesis

Unsaturated synthesis, Knoevenagel reaction

Unsaturated-1,2-amino alcohols, synthesis

Wittig reaction Unsaturated carboxylic acid synthesis

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