Aldehydes reactions, thioamide

H-1,3,5-Oxathiazines. These new heterocycles have been prepared by the reaction of aliphatic aldehydes with thioamides in acetic acid containing 100% sulfuric acid. In one case boron trifluoride etherate in chloroform was used. ... 

This reaction was first reported by Hantzsch and Weber in 1887. It is the formation of thiazole derivatives by means of condensation of a-haloketones (or aldehydes) and thioamides. Therefore, it is generally known as the Hantzsch thiazole synthesis. In addition, other names, including the Hantzsch synthesis, Hantzsch reaction, and Hantzsch thiazole reaction are also used from time to time. Besides thioamides, other thio-ketone derivatives such as thiourea, dithiocarbamates, and ketone thiosemicarbazone can also condense with a-halo ketones (or aldehydes) to form thiazoles. This reaction occurs because of the strong nucleophilicity of the sulfur atom in thioamides or thioureas, and normally gives excellent yields for simple thiazoles but low yields for some substituted thiazoles, as of dehalogenation. This reaction has been proven to be a multistep reaction, and the intermediates have been isolated at low temperatures, in which the dehydration of cyclic intermediates seems to be the slow step. It is found that a variety of reaction conditions might result in the racemized thiazoles that contain an enolizable proton at their chiral center, and it is the intermediate not the final product that is involved in the racemization. Therefore, some modifications have been made to reduce or even eliminate the epimeriza-tion upon thiazole formation. In addition, this reaction has been modified using a-tosyloxy ketones to replace a-haloketones. ... 

Iwata et al. also established the direct catalytic asymmetric aldol reaction of thioamides (Scheme 8.39)." Treatment of an aldehyde and thioamide 259 in the presence of the catalyst containing [Cu(MeCN)4]BF4, (7 ,/ )-Ph-BPE, and lithium phenoxide 260 gave (3-hydroxythioamide 261 in good yield with high stereoselectivity. Thioamide features the direct transformation into aldehyde by using a Schwarz reagent (Scheme 8.40)." They converted aldol adduct 261 into (3-siloxyal-dehyde 262, which was further submitted to the direct stereoselective aldol reaction. Both diastereomers 263 and 264 were obtained in good yield. This protocol is effective to synthesize sequential 1,3-polyols. 

Simple 1,3-Thiazines.— The stereospecific and regiospecific synthesis of 5,6-di-hydro-4 -l,3-thiazines by polar cycloaddition of thioamido-alkyl ions, generated in situ from aldehydes and thioamides, to olefins was reported in the previous Volume (see p. 712). A similar reaction with arylacetylenes PhC CRi has now been found to give mixtures of isomeric 4/f-l,3-thiazines (4) and (5) in a ratio that depends upon the nature of substituents. 

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. 

Another frequently used multicomponent reaction is the Kindler thioamide synthesis (the condensation of an aldehyde, an amine, and sulfur). The Kappe group has described a microwave-assisted protocol utilizing a diverse selection of 13 aldehyde and 12 amine precursors in the construction of a representative 34-member library of substituted thioamides (Scheme 6.114) [226]. The three-component con-... 

Electrophilic substitution of the ring hydrogen atom in 1,3,4-oxadiazoles is uncommon. In contrast, several reactions of electrophiles with C-linked substituents of 1,3,4-oxadiazole have been reported. 2,5-Diaryl-l,3,4-oxadiazoles are bromi-nated and nitrated on aryl substituents. Oxidation of 2,5-ditolyl-l,3,4-oxadiazole afforded the corresponding dialdehydes or dicarboxylic acids. 2-Methyl-5-phenyl-l,3,4-oxadiazole treated with butyllithium and then with isoamyl nitrite yielded the oxime of 5-phenyl-l,3,4-oxadiazol-2-carbaldehyde. 2-Chloromethyl-5-phenyl-l,3,4-oxadiazole under the action of sulfur and methyl iodide followed by amines affords the respective thioamides. 2-Chloromethyl-5-methyl-l,3,4-oxadia-zole and triethyl phosphite gave a product, which underwent a Wittig reation with aromatic aldehydes to form alkenes. Alkyl l,3,4-oxadiazole-2-carboxylates undergo typical reactions with ammonia, amines, and hydrazines to afford amides or hydrazides. It has been shown that 5-amino-l,3,4-oxadiazole-2-carboxylic acids and their esters decarboxylate. 

A -Silylmethyl-amidines and -thioamides (42) (X=NR or S) undergo alkylation at X with, for example methyl triflate, and then fluorodesilylation to give the azomethine ylides 43 (identical with 38 for the thioamides) (25,26). Cycloaddition followed by elimination of an amine or thiol, respectively, again leads to formal nitrile ylide adducts. These species again showed the opposite regioselectivity in reaction with aldehydes to that of true nitrile ylides. The thioamides were generally thought to be better for use in synthesis than the amidines and this route leads to better yields and less substituent dependence than the water-induced desilylation discussed above. 

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

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. 

Other routes to 1,3-oxazines employ condensation reactions between /3-chloroketones and nitriles or between chloroalkyl amides and alkynes <69LA(723)ill) (Scheme 62). Thiazines are available through similar condensations between thioamides, aldehydes and acetylenes (74G849), and AH- 1,3-benzoxazines may be prepared from 2-hydroxybenzyl alcohols and nitriles in the presence of either perchloric or sulfuric acids (Schemes 63 and 64) (68MIP22700). 

Peptide aldehydes can be synthesized via hydrolysis of thiazolidine precursors with mercury or copper salts (Scheme 10). 56 The Phe-thiazolidine derivative 27 was prepared from reduction of dihydrothiazole ring in 26, which was formed from a (5-hydroxy thioamide cyclization of 25 using the Mitsunobu reaction. N-Terminal Boc and Z groups on thiazolidine pseudopeptides such as Boc-Ala-Phe-thiazolidine and Z-Phe-Tyr-thiazolidine are stable to hydrolysis that affords Boc-Ala-Phe-H and Z-Phe-Tyr-H. 56 ... 

In 1996 we performed a classical U-4CR of primary amines, aldehydes and isocyanides, but instead of using carboxylic acids we employed thiocarboxylic acids [17]. The reaction leads highly chemoselectively to a-aminoacyl thioamides and no trace of a-aminothioacyl amides is found. This finding is not noteworthy per se and... 

The reaction between acetyl- and benzoyl- thioacetamides and oijl-unsaturatcd aldehydes in refluxing pyridine yields a dienic thioamide through a Claisen-like condensation. Spontaneous electrocyclization affords the ZH-thiopyran (Scheme 111). Substituted piperidine-2-thione derivatives result when the reaction is carried out in ethanol using triethylamine as the base <2003T4183>. 

New routes have been designed by Katritzky and co-workers using ben-zotriazole derivatives. Alkylation of primary thioamides has been achieved on the nitrogen atom using an aldehyde as a source of the alkyl group [42]. A variety of thioamides is accessible by a one pot reaction of a Grignard reagent with carbon disulfide (in THF), followed by treatment with benzo-triazole triflate and aminolysis of the activated thiocarbonyl intermediate [43, 44]. 

Of all the methods described for the synthesis of thiazole compounds, the most efficient involves the condensation of equimolar quantities of thiourea and a-halo ketones or aldehydes to yield the corresponding 2-aminothiazoles (Scheme 167) (l888LA(249)3l). The reaction occurs more readily than that of thioamides and can be carried out in aqueous or alcoholic solution, even in a distinctly acid medium, an advantage not shared by thioamides which are often unstable in acids. The yields are usually excellent. A derived method condenses the thiourea (2 mol) with the non-halogenated methylene ketone (1 mol) in the presence of iodine (1 mol) or another oxidizing agent (chlorine, bromine, sulfuryl chloride, chlorosulfonic acid or sulfur monochloride) (Scheme 168) (45JA2242). 

A few 6- and 8-cyanopurines have been prepared and undergo characteristic nitrile addition reactions rather readily. Thus, alkaline hydrolysis produces carboxamides, then carboxylic acids, alcoholysis leads to imidates, ammonolysis to amidines, hydrazinolysis to amidhydrazines, hydroxylamine to amidoximes, and hydrogen sulfide to thioamides. Acid hydrolysis tends to give the decarboxylated acid derivative. Reduction either by sodium-ethanol or, preferably, by catalytic hydrogenation affords aminoalkylpurines and addition of Grignard reagents produces, in the first place, acylpurines. As with aldehydes, most of the compounds examined have been relatively non-polar derivatives. Table 28 lists some reactions and relevant literature. 

Recent work by Voss and coworkers has shown that tertiary thioamides, thioesters and dithio-esters can all be reduced electrochemically to the aldehyde level in the presence of alkylating agents. The process is summarized in equation (9). The cleanest and most efficient of the reactions appears to be that of the thioamides (68 X = NR 2), using anhydrous acetonitrile as solvent and simple alkyl bromides (e.g. EtBr, Bu Br) as alkylating agents. Although the method was only demonstrated for (68 R = Ph and (9-CIC6H4), the yield of a-amino sulfides was 95% in both cases. 

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