Thiazoles thioamides

This preparation illustrates the ready formation of the thiazole ring by the condensation of an ot-halogeno-ketone and a thioamide. Thus chloroacetone, which may conveniently be represented in the enol form (I), condenses with thiourea (II) to give 2-amino-4-methylthiazolc (III). 

The O-S exchange method in presence of a-halogenated carbonyl compound is a very good one for thiazole compounds. The thioamide is prepared in situ by the action of amide upon phosphorus pentasulphide with solvent. The a-halogenated aldehyde reacts directly. But the O-Se exchange cannot be performed with a-halogenated carbonyl compounds because of the apparition of phosphoric acid. (Scheme 3), The C-Se bond is very sensitive to add pH. 

The cyclization of -halocarbonyl compounds is carried out with a great variety of reactants including thioamides, thioureas, their mono- or disubstituted derivatives, and salts and esters of monothiocar-bamic acid, leading to variously substituted thiazoles. 

When chloroacetaldehyde is condensed with higher thioamides prepared from amides and phosphorus pentasulfide according to Schwarz s method (222), 2-substituted thiazoles are obtained (4, 10,"22, 175). 

The reaction of a thioamide with a-halocarbonyl compounds has been applied extensively, and many thiazoles (10) with alkyl, aryl, aralkyl, or heteroaryl functional groups at the three 2-, 4-, or 5-positions have been reported (Scheme 6). 

In a similar way, dl-2-(q-hydroxyalkyl)- and 2-(a-alkoxycarbonyl)-4-methyl-5-(/3-hydroxyethyl)thiazoles were synthetized from the corresponding thioamides and 4-hydroxy-3-bromo-2-pentanone (615). 

The cyclization of pentaacetyl-o-gluconic thioamide with chloroacetone and of pentaacetyl-D-galactonic acid thioamide with phenacyl bromide give the corresponding 4-substituted 2-(D-galactopentaacetoxypentyl)-thiazoles (27) (660) but in low yield (23 to 27%) (Scheme 13). The products may be deacetylated in the usual way. These compounds are interesting from a pharmacological point of view. 

Bromomethyl-l-adamantyl ketones were condensed with thioamides of carboxylic or carbonic acids to give the corresponding thiazoles (613). 

Similarly, ethyl (or methyl) a-formyl chloroacetate (69), Rj = H, and its substituted derivatives, condensed with thioformamide or higher thioamides give 5-ethyl- or 5-rnethyl-thiazole carboxylates (70) in good... 

Ethyl-4,5-thiazole dicarboxylates (77), R =H, Me, Et, Ph, or heteroaryl, were prepared from diethyl-a-chloro-/3-ketosuccinate (76) and thioamides in boiling ethanol (Scheme 35) (103, 110, 145, 298, 577, 639). 

Thiazole acetic acids and their hotnologs can also be prepared by cyclization procedures 4-thiazole alkanoic acids and their salts were prepared by treating a thioamide with a -y-chloro- or 7-bromoacetoacetic or their a-alkyl derivatives (4, 10, 16, 22, 273, 275, 281, 640, 647, 695). 

Similarly, 5-thiazole alkanoic acids and their salts are obtained from thioamides and /3-halo -y-keto acids (695). Thus thioarylamides condensed with 3-aroyl-3-bromopropionic acid (88) in isopropanolic solution in the presence of Na COs give first 4-hydroxy-2-aryl-A-2-thiazoline-5-acetic acid intermediates (89), which were dehydrated in toluene with catalytic amounts of p-toluene sulfonic acid to 2,4-diaryl-5-thiazole acetic acid (90) (Scheme 39) (657), with R = H or Me Ar = Ph, o-, m- or p-tolyl, o-, m-, or P-CIC6H4, 0-, m-, or p-MeOC(iH4, P-CF3C6H4, a-thienyl, a-naphthyl (657). 

II. Thiazoles from a-Halocarbonyl Compounds and Derivatives 211 2. Reaction with N>Substituted Thioamides (ThiazoHum Salts)... 

Thiazolium salts with alkyl (103, 722), arylalkyl (116), aryl (305), or heteroaryl (96) substituents on the nitrogen have been also prepared by this procedure. As in the thiazole series, N-substituted thioamides can be formed directly in the reaction mixture from phosphorus pentasulfide and N-substituted amides (127). These methods are important in the synthesis of thiamine 102 (vitamin Bj) (Scheme 45). 

Thiazoles were obtained from the corresponding thioamides [RiCONHCHfRjlC S) ] by refluxing them 30 min in acetic anhydride. 

The most widely used method for the preparation of carboxylic acids is ester hydrolysis. The esters are generally prepared by heterocyclization (cf. Chapter II), the most useful and versatile of which is the Hantzsch s synthesis, that is the condensation of an halogenated a- or /3 keto ester with a thioamide (1-20). For example ethyl 4-thiazole carboxylate (3) was prepared by Jones et al. from ethyl a-bromoacetoacetate (1) and thioformamide (2) (1). Hydrolysis of the ester with potassium hydroxide gave the corresponding acid (4) after acidification (Scheme 1). 

Simple isothiazole-4-carboxylic acids have been made from the corresponding nitriles, which are available in turn from the halogeno derivatives, or directly by the olefin route.5-Aminoiso-thiazole-4-esters and -nitriles are readily obtained by the thioamide route. The 4-acids behave normally and form acid chlorides, esters, amides, and hydrazides. In contrast to the 5-series... 

The chemistry of thiazoles is interesting in view of their propensity for biological activity. Eor that reason thiazoloquinolines have also been a widely studied group of compounds. A preferred route to thiazoles exploits a-halogeno ketones in a reaction with thioamides to give the fused 2-substituted thiazole derivatives. 

A solvent-free strategy for the synthesis of thiazoles involved mixing of thioamides with a-tosyloxy ketones in a clay-catalyzed reaction (Scheme 7). The typical procedure entailed mixing of thioamides and in situ produced a-tosyloxy ketones with montmorillonite K-10 clay in an open glass container. The reaction mixture was irradiated in a microwave oven for 2-5 min with intermittent irradiation and the product was extracted into ethyl acetate to afford 2-substituted thiazoles in 88-96% yields [8]. 

There is an enormous literature on thiocarbonyl compounds, due in part to the technical and industrial importance of many of them, including thioamides, thioureas, xanthates, dithiocarbamates and so forth. An excellent, and recent, general review is available.107 There are also specialized reviews germane to the present chapter Griffin, Woods, and Klayman2 discussed the use of thioureas in the synthesis of heterocycles the preparation of thiazoles from thioamides is included in a three-part volume on Thiazoles 108 the use of carbon disulfide in the synthesis of trithiones and related heterocycles has been reviewed by Mayer109 and Huisgen110 has reported numerous examples of 1,3-dipolar cycloadditions in which carbon disulfide was used. 

A recent total synthesis of tubulysin U and V makes use of a one-pot, three-component reaction to form 2-acyloxymethylthiazoles <06AG(E)7235>. Treatment of isonitrile 25, Boc-protected Z-homovaline aldehyde 26, and thioacetic acid with boron trifluoride etherate gives a 3 1 mixture of two diastereomers 30. The reaction pathway involves transacylation of the initial adduct 27 to give thioamide 28. This amide is in equilibrium with its mercaptoimine tautomer 29, which undergoes intramolecular Michael addition followed by elimination of dimethylamine to afford thiazole 30. The major diastereomer serves as an intermediate in the synthesis of tubulysin U and V. 

Thiazole and its derivatives are conventionally prepared from lachrymatory, a-halo-ketones and thioureas (or thioamides) by Hantzsch procedure [146]. In a marked improvement, Varma et al. have synthesized the title compounds by the simple reaction of in situ-generated a-tosyloxyketones, from arylmethyl ketones and [hydroxy(tosyl-oxy)iodo]benzene (HTIB), with thioamides in the presence of K 10 clay using micro-wave irradiation (Scheme 6.43) the process is solvent-free in both the steps [147]. 

The annulation reaction of thioamides with 2-alkynoates and 2,3-dienoates under the catalysis of phosphine provides 4,5-dihydro-1,3-thiazoles, particularly those with 2-aryl substituents (Scheme 14).35... 

Cyclocondensation of thioamides and alkynyl(aryl)iodonium reagents affords 1,3-thiazoles in the presence of solid K2C03.37 Reaction of... 

Reaction of dibromoacetyl derivatives with thioamides or thioureas affords the corresponding 1,3-thiazoles under reflux conditions (Scheme 17).39... 

The above transformation takes place via the catalytic effect of copper (I), which generated the corresponding carbenoid from a-diazo-p-keto esters. These Cu-carbenoides react with the thiocarbonyl group of thioamides, after cyclocondensation to afford 2-aryl-l,3-thiazole-5-carboxylates (Scheme 18).40... 

Treatment of polymer-supported a-sulfonyloxy ketones with thioamides in the presence of potassium carbonate affords 1,3-thiazoles (Scheme 19).41... 

Novel C-4 thiazole kainoid analogues have been synthesised from kainic acid 43. This was converted into the a-bromoketone 44 in three steps, which reacted with thioamides and thioureas to form thiazole and aminothiazole heterocycles 45. All the synthesised thiazole kainic acid derivatives exhibited strong binding to the kainate receptors <00BMCL309>. 

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