Acetate enolates

In 1959 Carboni and Lindsay first reported the cycloaddition reaction between 1,2,4,5-tetrazines and alkynes or alkenes (59JA4342) and this reaction type has become a useful synthetic approach to pyridazines. In general, the reaction proceeds between 1,2,4,5-tetrazines with strongly electrophilic substituents at positions 3 and 6 (alkoxycarbonyl, carboxamido, trifluoromethyl, aryl, heteroaryl, etc.) and a variety of alkenes and alkynes, enol ethers, ketene acetals, enol esters, enamines (78HC(33)1073) or even with aldehydes and ketones (79JOC629). With alkenes 1,4-dihydropyridazines (172) are first formed, which in most cases are not isolated but are oxidized further to pyridazines (173). These are obtained directly from alkynes which are, however, less reactive in these cycloaddition reactions. In general, the overall reaction which is presented in Scheme 96 is strongly... 

Hydrolysis of Acetals, Enol Ethers, and Similar Compounds ... 

SO2CI2) or with I2 and silver acetate. Enol acetates have been regioselec-tively iodinated with I2 and either thallium(I) acetateor copper(II) acetate. ot,P-... 

Covalently bonded chiral auxiliaries readily induce high stereoselectivity for propionate enolates, while the case of acetate enolates has proved to be difficult. Alkylation of carbonyl compound with a novel cyclopentadienyl titanium carbohydrate complex has been found to give high stereoselectivity,44 and a variety of ft-hydroxyl carboxylic acids are accessible with 90-95% optical yields. This compound was also tested in enantioselective aldol reactions. Transmetalation of the relatively stable lithium enolate of t-butyl acetate with chloro(cyclopentadienyl)-bis(l,2 5,6-di-<9-isopropylidene-a-D-glucofuranose-3-0-yl)titanate provided the titanium enolate 66. Reaction of 66 with aldehydes gave -hydroxy esters in high ee (Scheme 3-23). 

Another major problem in oxidative carbonylation is the presence in the reaction medium of water, which, as we have seen, is even formed as a co-product when oxygen is used as reoxidant for Cu(I) or for M(X-2). In fact, in the presence of water, competitive M-promoted oxidation processes, such as oxidation of CO to C02, may take place, which reduce the activity of the catalyst towards the desired carbonylation reaction. The oxidation of CO to C02 may be promoted by Ir(IV), Pt(IV, II), Rh(III), and especially by Pd(II), and can be stoichiometric (Eq. 8) or catalytic (working in the presence of an oxidant such as 02, Cu(II) or quinone, Eq. 9). In the case of particularly water-sensible oxidative carbonylation processes, a dehydrating agent has proven necessary to achieve acceptable catalytic efficiencies and/or product yields. Several systems have been envisaged to eliminate water, such as acetals, enol ethers,... 

The importance of the (Z)-enolate substitution has been noted elsewhere in this chapter (see Table 32). A practical solution to the generation of a useful chiral acetate enolate synthon has been to employ a substituted enolate where the ligand Rj may be removed after the aldol condensation. Enolate 149b (Rj = SMe) serves this purpose adequately (eq. [102]). The resultant alddl adducts 151b... 

It should also be noted that there is a strong conformational bias for only one of the product chelate conformers. For example, erythro chelate D should be strongly disfavored by both 1,3-diaxial Rj L and CH3 Xq steric control elements. Consequently, it is assumed that the transition states leading to either adduct will reflect this conformational bias. Further support for these projections stems from the observations that the chiral acetate enolates derived from 149a exhibit only poor diastereoface selection. In these cases the developing Rj CH3 interaction leading to diastereomer A is absent. Similar transition state allylic strain considerations also appear to be important with the zirconium enolates, which are discussed below. 

An excellent chital acetate enolate synthon has recently been reported by Solladie (eq. [109]) (122). The (/2)-a-sulfinylacetate enolate 165 was found to undergo aldol condensation (-78°C, THF)... 

Further support for this explanation is the fact that the chiral acetate enolates derived from A -acetyl-2-oxazolidone (46). in which the developing Rj <-> CH3 interaction leading to diastereomer A is absent, exhibit only poor diastereofacial selection. 

Although some specific functional groups in these molecules are incompatible with the current method, the fact that 3-formylrifamycin is bound and cleaved in excellent yield demonstrates that several sensitive functionalities (acetal, enol ether, ketone, dienoate) are well tolerated. Various positions of the antibiotic could be acylated selectively. 

An additional indication of the mildness of the cyclization is provided by the synthesis of the chiral tetrahydroisoquinoline-3-carboxylic acid (294) (72HCA15) in the presence of hydrogen and palladium-on-charcoal the jV-methyl derivative was obtained. Acetaldehyde gave a mixture of diastereoisomers in which the cis isomer (295) predominated (95 5). Unstable aldehydes can sometimes be generated in situ, as when the phenylglycidate (296) replaces the much less stable phenylacetaldehyde (66T(S8)129) acetals, enol ethers and chloromethyl methyl ethers have also been used. The mild conditions also allow the isolation of 4-hydroxytetrahydroisoquinolines (297) (75H(3)311). A review is available listing syntheses of 4-oxytetrahydroisoquinolines (73AHC(15)99). 

Coupling of two electron-rich components like alkenes, enol acetates, enol ethers, carbanions, or carboxylates ... 

Using a chiral 4-dimethylaminopyridine-ferrocenyl catalyst, acyclic silyl ketene acetals react with anhydrides to furnish 1,3-dicarbonyl compounds containing allcarbon quaternary stereocentres in good yield and ee.144 Evidence for dual activation (anhydride -> acylpyridinium, and acetal -> enolate) is presented. 

Monodentate phosphoramidites, in particular (9) and its octahydro analogue, are found to be excellent ligands for the rhodium-catalysed asymmetric hydrogenation of aromatic enol acetates, enol carbamates, and 2-dienol carbamates with up to 98%... 

ACETAL ENOL ETHER AND KETONE (ALDEHYDE)-ENOL ETHER EQUILIBRIUM CONSTANTS... 

Ethyl diazoacetate can also serve as an acetate enolate synthon under acidic conditions, engaging in [2+1] annulation with A -alkyl aldimines (e.g., 595) to provide the corresponding aziridine (597) with very high air-selectivity. The conditions are mild enough that acid-catalyzed ring opening of the products is not observed (Scheme 144) <2004JA1612>. 

Since the report by Carboni and Lindsey in 1959 on the cycloaddition reaction of tetrazines to multiple bonded molecules as a route to pyridazines, such reactions have been extensively studied. In addition to acetylenes and ethylenes, enol ethers, ketene acetals, enol esters and enamines, and even aldehydes and ketones have been used as starting materials for pyridazines. A detailed investigation of various 1,2,4, 5-tetrazines in these syntheses revealed the following facts. In [4 + 2] cycloaddition reactions of 3,6-bis(methylthio)-l,2,4,5-tetrazine with dienophiles, which lead to pyridazines, the following order of reactivity was observed (in parenthesis the reaction temperature is given) ynamines (25°C) > enamines (25-60°C) > ketene acetals (45-100°C) > enamides (80-100°C) > trimethylsilyl or alkyl enol ethers (100-140°C) > enol... 

The reagent (2) is probably the most versatile chirally modified acetate enolate. Good results have also been obtained with the Mg enolate of 2-acetoxy-l,l,2-triphenylethanol and with boron enolates derived from 2,4-dialkylborolanes Chiral Fe-acetyl complexes, which can be considered as acetate equivalents, give impressive stereocontrol upon enolization and aldol reaction. ... 

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