Enols and reactions with

Generation of the Enolate and Reactions with Electrophiles. The enolate of the title reagent (1) is generated with lithium amide bases and reacts with electrophiles such as benzylic bromides or tricarbonyl(fluorobenzene)chromium to give the corresponding 4,4-disubstituted derivatives of type (2), which are hydrolyzed under acidic conditions " to, for instance, the amino... 

Stereoselective trans a-hydroxylation of (5)-dihydro-5-(t-butyldiphenylsiloxymethyl)-2(3/f)-furanone can be realized in good yield by enolization and reaction with the Oxodiperox-ymolybdenum(pyridine)(hexamethylphosphoric triamide) complex (MoOPH) (eq 10). Appropriate manipulation of the resulting trans-hydroxylactone provides 1,3-polyols typified by (18), as well as tetrahydropyran (19) which is a key intermediate in mevinic acid syntheses. ... 

The indole esters (91) are not readily enolized and reaction with the lactones (92) regioselectively gives (93 equation 26). ° Similarly, the ester function of the oxazole (94) acts as the electrophile with ethyl acetate giving (95)rather than (96) as was originally thought (equation 27). 

The most useful method is reaction of ketone (and ester) hthium enolates, usually prepared by deprotonation of ketones with LDA, with either Ce H5 SeBr or Ce Hs SeCl. Enol acetates can be converted into a-phenylseleno ketones by reaction with phenylselenenyl trifluoroacetate, prepared in situ by treatment of CeHsSeCl or CeHsSeBr with silver trifluoroacetate or by conversion to the lithium enolate and reaction with CeHsSeBr. It is sometimes possible to obtain isomeric a-phenylseleno ketones by use of these two methods (equations 1 and II). 

The reaction of ketene with diethyl hydrogen phosphonate leads to diethyl ace-toxyvinylphosphonate (equation 46) This reaction was assumed to involve the initial formation of acetylphosphonate, which underwent enolization and reaction with a second molecule of ketene to the final product. Infrared spectral examination of the product mixture revealed the formation of an additonal product, presumably a jS-lactone (v = 1830 cm ) which could be formed through 2 + 2 cycloaddition of a ketene molecule to the C=0 group of the acetylphosphonate. 

Pyrolysis of sulfoxides provides a convenient method for introducing unsaturation at the position a- to carbonyl compounds. Formation of the enolate and reaction with dimethyl (or diphenyl) disulfide gives the a-methylthio (or phenylthio) derivative. Oxidation with a suitable oxidant, such as mCPBA or NaI04, gives the sulfoxide, which eliminates sulfenic acid on heating to give the a,(3-unsaturated carbonyl compound. For example, the methyl ester of a pheromone of queen honey bees was synthesized from methyl 9-oxodecanoate after initial protection of the ketone as the acetal (2.24). The -isomer usually predominates in reactions... 

A saturated amino acid can be functionalized to serve as a good synthetic precursor to an unsaturated amino acid, via a jy/t-elimination reaction. Reaction of 1.242 with lithium hexamethyldisilazide gave the ester enolate and reaction with p 1.2.5 eq. LiN(SiMe3)2 p... 

The most common representatives of alkenyliron complexes are iron-substituted enones and enals. They are prepared from Fp-anions and P-halovinyl ketones and aldehydes (Scheme 4-30), ° and they can be further functionalized via their enolates and reaction with alkyl halides or mesylates. ... 

Among the most useful carbonyl derivatives are (V-acyloxazolidinones, and as we shall see in Section 2.3.4, they provide facial selectivity in aldol addition reactions. l,3-Thiazoline-2-thiones constitute another useful type of chiral auxiliary, and they can be used in conjunction with Bu2B03SCF3,44 Sn(03SCF3)2,45 or TiCl446 for generation of enolates. The stereoselectivity of the reactions is consistent with formation of a Z-enolate and reaction through a cyclic TS. 

In summary, reactions of nitronates with acid anhydrides or acyl chlorides give the O-acylated products, and reactions with acyl imidazoles, phenyl esters, acyl nitriles, and enol-lactones gives the C-acylated products, (see Eq. 5.13).25 The C/O selectivity of nitronate acylation by RCOX is qualitatively correlated with strength (pKJ of the acid HX conjugated to the leaving group X .25... 

Erker and Trinkl synthesized the tricycles 177 as novel GABA-A/benzodiazepine receptor ligands via synthesis of enol phosphates such as 175 and reaction with isocyanides 176 (Scheme 13) <2001H1963>. 

A one-pot reaction between a tryptophan ester, benzotriazole, and 2,5-dimethoxytetrahydrofuran in acetic acid gives the diastereomeric benzotriazolyl tetracycles, 349, in good yield. Substitution of the benzotriazole by reaction with silyl enol ethers and boron trifluoride etherate gives the corresponding ketones 350 and 351, and reaction with allylsilanes gives the corresponding alkenes 352 and 353. If the boron trifluoride etherate is added to the mixture before the silane, elimination of benzotriazole from 349 is also observed (Scheme 83) <1999T3489>. 

Besides their application in asymmetric alkylation, sultams can also be used as good chiral auxiliaries for asymmetric aldol reactions, and a / -product can be obtained with good selectivity. As can be seen in Scheme 3-14, reaction of the propionates derived from chiral auxiliary R -OH with LICA in THF affords the lithium enolates. Subsequent reaction with TBSC1 furnishes the 0-silyl ketene acetals 31, 33, and 35 with good yields.31 Upon reaction with TiCU complexes of an aldehyde, product /i-hydroxy carboxylates 32, 34, and 36 are obtained with high diastereoselectivity and good yield. Products from direct aldol reaction of the lithium enolate without conversion to the corresponding silyl ethers show no stereoselectivity.32... 

Clear formation of ketene—zirconocene complexes upon treatment of acylzirconocene chlorides with a hindered amide base indicates that the carbonyl group of the acylzirconocene chloride possesses usual carbonyl polarization (Scheme 5.10). However, these zirconocene—ketene complexes are exceptionally inert due to the formation of strongly bound dimers [13a], Conversion of the dimer to zirconocene—ketene—alkylaluminum complexes by treating with alkylaluminum and reaction with excess acetylene in toluene at 25 °C has been reported to give a cyclic enolate in quantitative yield. Although the ketene—zirconocene—alkylaluminum complex reacts cleanly with acetylene, it does not react with ethylene or substituted acetylenes [13b]. Thus, the complex has met with limited success as a reagent in organic synthesis. 

Titanium enolates can be prepared from lithium enolates by reaction with trialkoxy-titanium(IV) chlorides, such as (isopropoxy)titanium chloride.24 Titanium enolates can also be prepared directly from ketones by reaction with TiCLt and a tertiary amine.25... 

Fluorination of sulfonamides 147 and 148 takes place upon deprotonation with NaH and reaction with perchloryl fluoride, FCIO3, to give products 149 and 150 (Scheme 19) <2000JOC7583, 2000CPB1954>. The resulting A-fluorosultams 149 and 150 have been used for the asymmetric fluorination of aryl ketone enolates (vide infra). 

All prepared magnesium enolates 17 are stable in refluxing diethyl ether. Deuteriation, and reactions with various electrophiles confirm their structure (see section HI). It is noteworthy that the lithiated carbanion-enolate analogue, directly obtained by deprotonation of an a-ketoester 18 with lithiated bases (LDA, for example), is not stable and immediately degrades in the medium, whatever the temperature. Comparatively, the magnesium chelate 17 shows a higher stability, which allows its preparation and synthetic applications. 

Benzofuran-3(2/f)-ones (396) exist in the keto form but undergo ready enolization. Acetylation with acetic anhydride and sodium acetate affords 3-acetoxybenzo[6]furans, but reaction under acidic conditions usually supplies these products admixed with 3-acetoxy-2-acetylbenzo[6]furans. Alkylation usually furnishes a mixture of O- and C-alkylated products. 3-Acetoxy-6-methoxy-4-methylbenzo[6]furan, on Vilsmeier reaction, supplies the 3-chlorobenzo[6]furan-2-carbaldehyde, the product expected from an enolizable ketone (72AJC545). Benzofuran-3(2//)-ones react normally with carbonyl reagents. Grignard reagents react in the expected way and dehydration of the intermediate affords a 3-substituted benzo[6]furan. The methylene group is reactive so that self condensation, condensation with aldehydes and ketones and reaction with Michael acceptors all occur readily. 

Chlorophenyl)glutarate monoethyl ester 87 was reduced to hydroxy acid and subsequently cyclized to afford lactone 88. This was further submitted to reduction with diisobutylaluminium hydride to provide lactol followed by Homer-Emmons reaction, which resulted in the formation of hydroxy ester product 89 in good yield. The alcohol was protected as silyl ether and the double bond in 89 was reduced with magnesium powder in methanol to provide methyl ester 90. The hydrolysis to the acid and condensation of the acid chloride with Evans s chiral auxiliary provided product 91, which was further converted to titanium enolate on reaction with TiCI. This was submitted to enolate-imine condensation in the presence of amine to afford 92. The silylation of the 92 with N, O-bis(trimethylsilyl) acetamide followed by treatment with tetrabutylammonium fluoride resulted in cyclization to form the azetidin-2-one ring and subsequently hydrolysis provided 93. This product was converted to bromide analog, which on treatment with LDA underwent intramolecular cyclization to afford the cholesterol absorption inhibitor spiro-(3-lactam (+)-SCH 54016 94. 

The lithium enolate 87 forms almost exclusively on the methyl side - less than 4% of the other isomer could be detected - and reaction with the aldehyde 83 followed by deprotection in aqueous acid gives gingerol. 

The stereochemical outcome of these electrophilic additions is consistent with a transition state in which the metal chelates the oxazolidinone carbonyl and the enolate oxygen. Reaction with an electrophile would, therefore, occur at the less hindered diastereotopic face of the (Z)-enolate, away from the shielding methyl groups of the auxiliary (Figure 24.6). Because both enantiomers of oxazolidinone 108 are equally available, the direction of the asymmetric induction can be controlled by proper choice of the absolute stereochemistry of the chiral auxiliary.106... 

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