Enolates Synthesis

A more complex example is seen in Kishi s tetrodotoxin synthesis.Enol ether (76) provided the precursor to a-acetoxy ketone (77), which was obtained as a single stereoisomer by acetic acid opening of the initial ethoxy epoxide. [Pg.169]

The catalyzed reaction of enol ethers with carbonyl compounds (Scheme 1) has become an important reaction in synthesis. Compared to the metal enolate reactions (Part 1, Volume 2), the catalyz enol ether reactions offer the following distinct differences. Enol ethers are often isolable, stable covalent compounds, whereas the metal enolates are usually generated and used in situ. Under Lewis acid catalyzed conditions, a number of functional equivalents such as acetals, orthoesters, thioacetals, a-halo ethers and sulfides can participate as the electrophilic components, whereas many of them are normally unreactive towards metal enolates. In synthesis, enol ether reactions now rival and complement the enolate reactions in usefulness. Enol silyl ethers are particularly useful because of their ease of preparation, their reasonable reactivity and the mildness of the desilylation process. [Pg.612]

Belleau also reported this reaction in his paper titled The Reaction of Methylmagnesium Iodide with p-(l-Hydroxy-3,4-dihydro-2-naphthyl)-butyric Acid Lactone. Published in the same volume, Belleau described the synthesis of 1,3-dimethylphenanthrene. In this synthesis, enol lactone 6 was converted to ketone 7 by reaction with methylmagnesium iodide and subsequent treatment with hydrochloric acid in 15% yield. The side product of this reaction had an empirical formula of CieHis, which when dehydrogenated gave 1,3-dimethylphenanthrene, the actual synthesis that Belleau was aiming for ... [Pg.337]

M.p. 190-192 C. The enolic form of 3-oxo-L-gulofuranolactone. It can be prepared by synthesis from glucose, or extracted from plant sources such as rose hips, blackcurrants or citrus fruits. Easily oxidized. It is essential for the formation of collagen and intercellular material, bone and teeth, and for the healing of wounds. It is used in the treatment of scurvy. Man is one of the few mammals unable to manufacture ascorbic acid in his liver. Used as a photographic developing agent in alkaline solution. [Pg.43]

Alkylation of Enolates (condensation of enolates with alkyl halides and epoxides) Comprehensive Organic Synthesis 1991, vol. 3, 1. [Pg.74]

Boron Enolates Comprehensive Organic Synthesis 1991, 2, 239. Organic Reactions 1995, 46, 1 ... [Pg.83]

Synthesis Again the enamine can be used to proyide the enolate synthon ... [Pg.56]

Only isomer A will be formed as the alternative cannot give a stable enolate anion (see frame 101). This is nearly the synthesis used by Raphael (Tetrahedron. 1962, 55 Proc. [Pg.129]

The formation of the above anions ("enolate type) depend on equilibria between the carbon compounds, the base, and the solvent. To ensure a substantial concentration of the anionic synthons in solution the pA" of both the conjugated acid of the base and of the solvent must be higher than the pAT -value of the carbon compound. Alkali hydroxides in water (p/T, 16), alkoxides in the corresponding alcohols (pAT, 20), sodium amide in liquid ammonia (pATj 35), dimsyl sodium in dimethyl sulfoxide (pAT, = 35), sodium hydride, lithium amides, or lithium alkyls in ether or hydrocarbon solvents (pAT, > 40) are common combinations used in synthesis. Sometimes the bases (e.g. methoxides, amides, lithium alkyls) react as nucleophiles, in other words they do not abstract a proton, but their anion undergoes addition and substitution reactions with the carbon compound. If such is the case, sterically hindered bases are employed. A few examples are given below (H.O. House, 1972 I. Kuwajima, 1976). [Pg.10]

Methylsulfinyl enolates are more recently developed d -reagents. They are readily prepared from carboxylic esters and dimsyl anion. Methanesulfenic acid can be eliminated thermally after the condensation has taken place. An example is found in Bartlett s Brefeldin synthesis (P.A. Bartlett. 1978). [Pg.65]

A conceptually surprising and new route to prostaglandins was found and evaluated by C.R. Johnson in 1988. It involves the simple idea to add alkenylcopper reagents stereo-selectively to a protected chiral 4,5-dihydroxy-2-cyclopenten-l-one and to complete the synthesis of the trisubstituted cyclopentanone by stereoselective allylation of the resulting enolate. [Pg.276]

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]

In the prostaglandin synthesis shown, silyl enol ether 216, after transmetaJ-lation with Pd(II), undergoes tandem intramolecular and intermolecular alkene insertions to yield 217[205], It should be noted that a different mechanism (palladation of the alkene, rather than palladium enolate formation) has been proposed for this reaction, because the corresponding alkyl enol ethers, instead of the silyl ethers, undergo a similar cyclization[20I],... [Pg.50]

The isoflavone 406 is prepared by the indirect a-phenylation of a ketone by reaction of phenylmercury(II) chloride with the enol acetate 405, prepared from 4-chromanone[371]. A simple synthesis of pterocarpin (409) has been achieved based on the oxypalladation of the oriho-mercurated phenol derivative 408 with the cyclic alkene 407[372,373]. [Pg.80]

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]

The coupling of the enol triflate 703 with the vinylstannane 704[397] has been applied to the synthesis of glycinoeclepin[576]. The introduction of a (Z)-propenyl group in the / -lactam derivative 705 proceeds by use of tri-2-furylphosphine[577]. However, later a smooth reaction to give the propenyl-iactam in 82% yield was achieved simply by treating with Pd(OAc)2 in NMP or CH2CI2 for 3-5 min without addition of LiCI and the phosphine ligand[578]. [Pg.232]

The intramolecular coupling of organostannanes is applied to macrolide synthesis. In the zearalenone synthesis, no cyclization was observed between arylstannane and alkenyl iodide. However, intramolecular coupling take.s place between the alkenylstannane and aryl iodide in 706. A similar cyclization is possible by the reaction of the alkenylstannane 707 with enol triflate[579]. The coupling was applied to the preparation of the bicyclic 1,3-diene system 708[580]. [Pg.233]

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