Thioamide enolates, reactions with

F. Reactions of Magnesium Thioesters and Thioamide Enolates with Electrophiles... 

If thioamide enolates are prepared by conjugate addition of Grignard reagents to a,/3-unsaturated thioamides of secondary amines, the reaction of these enolates with aldehydes affords anti aldols. These results are rationalized by the formation of a boat-like, chelate transition state" Representative examples are provided in equation 112 and Table 16. 

Conversion of an amide a thioamide enhances the reactivity of that function since it favors the enol form and provides a better leaving group for addition-elimination reactions (mercaptide vs. hydroxide). Thioamides obtained by treatment of diazepi-none such as (15-1) or (16-1) with phosphorus pentasulhde provide starting materials for further modihcation of the benzodiazepine nucleus. (More recently developed reagents such as Lawesson s Reagent or hw(tricyclohexyltin) sulhde provide more convenient methods for that transformation.) Thus, reaction of the thioamide (15-2) with (9-allylhydroxylamine leads directly to the amidine, probably via an addition-elimination sequence of the thioenol tautomer of (15-2). There is thus obtained the antianxiety agent uldazapam (15-3) [17]. 

The Eschenmoser reaction is extremely useful for the conversion of amides into enaminoesters via the thioamide reaction with a-haloesters, and triphenylphosphine mediated sulfide contraction, and we are fortunate that Shiosaki has published a thorough review on this topic [180]. The accompanying scheme shows a typical example for which an organometallic route with a lithium or a zinc enolate was not successful [181]. 

A nice example of the foregoing stratagem is seen in equation (17) enone (6) undergoes copper(I)-catalyzed reaction with vinylmagnesium bromide from its less-hindered face to give an enolate that reacts with formaldehyde from the opposite face to provide decalone (7), an intermediate in the synthesis of insect antifeedants. Yoshida and coworkers have used this method for the stereospecific generation of tetrasubstituted thioamide enolates, which undergo remarkably stereoselective aldol reactions (equation 18). ° The stereochemistry of this process is discussed in Section 1.6.3.6. 

Thioamide enolates may be prepared by conjugate addition of organometallics to a, -unsaturated thioamides. Reaction of these enolates with aldehydes affords anti aldols, often in excellent dia-stereomeric excess (equation 103 Table 15). It is believed that the conjugate addition reactions provide (Z)-enolates, via a cyclic, six-centered transition state. The anti stereochemistry observed in the aldol reactions of these (Z)-enolates would result from a boat-like, chelated transition state. The transition state has boat-like character to avoid a serious gauche interaction between R and the bulky secondary alkyl group in the thioamide enolate. Several of the intermediate enolates in this study e.g. Table 15,... 

A thioamide of isonicotinic acid has also shown tuberculostatic activity in the clinic. The additional substitution on the pyridine ring precludes its preparation from simple starting materials. Reaction of ethyl methyl ketone with ethyl oxalate leads to the ester-diketone, 12 (shown as its enol). Condensation of this with cyanoacetamide gives the substituted pyridone, 13, which contains both the ethyl and carboxyl groups in the desired position. The nitrile group is then excised by means of decarboxylative hydrolysis. Treatment of the pyridone (14) with phosphorus oxychloride converts that compound (after exposure to ethanol to take the acid chloride to the ester) to the chloro-pyridine, 15. The halogen is then removed by catalytic reduction (16). The ester at the 4 position is converted to the desired functionality by successive conversion to the amide (17), dehydration to the nitrile (18), and finally addition of hydrogen sulfide. There is thus obtained ethionamide (19)... 

Thioamides of secondary amines are deprotonated with isopropyhnagnesium to give (Z)-enolates. Thioamides of primary amines react with two equivalents of /-PrMgBr to afford dianions that have been shown to have the (Z)-configuration. These magnesium species are versatile intermediates in stereoselective aldol reaction (equation 50, Table 5 ... 

TABLE 5. Stereochemistry of aldol reaction of magnesium enolates derived from thioamides with aldehydes... 

One of the two classic schemes for constructing the thiazole ring involves the condensation of a thioamide or its equivalent with an a-haloketone. The reaction can be visualized as involving, as the first step, the displacement of halogen by sulfur from the enol form of the amide imine formation will then close the ring. Thus, reaction of bromoketone (99-2) obtained from the bromination of the corresponding keto-acid with thioamide (99-1) affords thiazole (99-3) in a single step. There is thus obtained the NSAID fentiazac [109]. 

The predominant formation of five-membered carbocydes or heterocycles 122 (Scheme 50) via a sequential conjugate addition-carbene insertion pathway is generally observed in the reactions of the appropriate alkynyliodonium salts 119 (R = long alkyl chain or other group with C-H bond available at C5) with various relatively hard nucleophiles. Typical nucleophiles used to initiate these selective cyclizations are enolate, azide, sulfinate, tosylamide, thioamide and some other anions. 

A second significant difference deals with the stereochemistry of the deprotonation [41]. The reaction of thiocarbonyl compounds leads to cis enethiolates (Sli and R groups are located on the same side of the C=C bond) predominantly with dithioesters [48] or exclusively with thioamides [47, 49] and thioketones [50]. Under similar (kinetic) conditions, analogous esters or ketones lead to the trans enolates. 

Thioamides can be obtained in 40—60% yield by the reaction of Grignard reagents with triphenylphosphine thiocyanate. In a continuation of earlier work, Yoshida s group has found that a large range of enolates (e.g. those from ketones, esters, amides, acetoacetates) add in a conjugative manner to a,jS-unsaturated thioamides the derivatives thus obtained can easily be converted into esters and amides (cf. 3, 253). 

Cinchona-based primary amine catalysis in the asymmetric functionalization of carbonyl compounds has been reviewed and their modularly designed thioamide 0 derivatives have been applied successfully to direct cross-aldol reactions between aldehydes and ketones, reactions of activated carbonyl compounds (isatins) with acetylphosphonate as the enol precursor, and C( 1) functionalization of 1,3-dicarbonyl compounds by aldehydes and ketones. Cross-aldol addition to C(3) of isatins by the methyl group of 4-aryl-tra 5 -cf, -unsaturated methyl ketones has also been promoted... 

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