2- Thioacyl

Analogously to carboxylic esters, thionocarboxylic esters can be synthesized by the azolide method. An example is the synthesis of thionobenzoic acid methyl ester via a 1 -thioacyl-4-alkyl-1,2,4-triazolium tetrafluoroborate and methanol.[175]... 

Thioacylation of Alcohols and Phenols with Thioacyl Halides... 

Thioacylation of Thiols with Thioacyl Halides, Thioacyl Anhydrides and Thioketenes... 

Secondary amines react with thiadiazinium salt 83 to furnish 1-thioacyl-substituted oligonitriles 84a and 84b (67-92%). At —78°C, the major product isolated is 84a, while at 40 °C, the product is primarily 84b (Equation 15) <1997TL5481>. 

The most suitable synthetic method for these products is the heterocyc-lization reaction of N-thioacyl derivatives of amino acids (202) with phosphorus tribromide (378, 442-450, 559, 560) or anhydrous trifluoroacetic acid (448, 449, 451, 452) (Scheme 103). Treatment of N-thioacyl amino acids with acetic anhydride leads directly to the thiazolylacetate without isolation of an intermediate thiazolinone (365. 452). 2-Alkoxy-derivatives of A-2-thiazoline-5-one, however, can be obtained without acetylation by this method (453, 454). 

Substituted 5-hydroxythiazoles (267b), Rj = alkylmercapto, acyl-amino, and sec-amino, are prepared by cydization of N-thioacyl-amino acids (266) with phosphorus tribromide or acetic anhydride (Scheme 137) (317, 350). i en the cydization of 266, R2 = H, is carried out with acetic anhydride in the presence of benzaldehyde (317, 325) or ethylformate (317), the benzylidene (268), R2=Ph, Rj = SR or CH2Ph, or 4-ethoxymethylene (268), Rj = SR and R2 = OEt, derivative is obtained directly (Scheme 138). 

Numerous variations of this reaction have been studied, principally those involving a prior inclusion of the nuclear sulfur atom in a thioacylamino compound. Thus, thiobenz-amido acetaldehyde diethyl acetal (8) underwent ring closure to 2-phenylthiazole (9) on gentle heating (57JCS1556). Similarly, iV-thioacyl a-amino acids also undergo ready ring closure to thiazoles. 

A number of examples of acid catalyzed ring expansion of acyl and thioacyl azetidines to sbc-membered rings have been reported (B-73MI50903). This type of rearrangement (Scheme 2) is similar to the more general vinylaziridine to pyrroline ring expansion. 

Azetidine, 7V-bromo-, 7, 240 Azetidine, AT-r-butyl- N NMR, 7, 11 Azetidine, AT-t-butyl-3-chloro-transannular nucleophilic attack, 7, 25 Azetidine, 3-chloro-isomerization, 7, 42 Azetidine, AT-chloro-, 7, 240 dehydrohalogenation, 7, 275 Azetidine, 7V-chloro-2-methyl-inversion, 7, 7 Azetidine, 3-halo-synthesis, 7, 246 Azetidine, AT-halo-synthesis, 7, 246 Azetidine, AT-hydroxy-synthesis, 7, 271 Azetidine, 2-imino-stability, 7, 256 Azetidine, 2-methoxy-synthesis, 7, 246 Azetidine, 2-methyl-circular dichroism, 7, 239 optical rotatory dispersion, 7, 239 Azetidine, AT-nitroso-deoxygenation, 7, 241 oxidation, 7, 240 synthesis, 7, 246 Azetidine, thioacyl-ring expansion, 7, 241 Azetidine-4-carboxylic acid, 2-oxo-oxidative decarboxylation, 7, 251 Azetidine-2-carboxylic acids absolute configuration, 7, 239 azetidin-2-ones from, 7, 263 synthesis, 7, 246... 

Pyrimidine, I-alkyl-2-methyltetrahydro-C-thioacylation, 4, 807 Pyrimidine, 4-alkylsulfinyl-nucleophilie displaeement reaetions, 3, 97 Pyrimidine, 6-alkylsulfinyl-nucleophilic displacement reactions, 3, 97 Pyrimidine, 2-alkylsulfonyl-nueleophilie displaeement reactions, 3, 97 Pyrimidine, 4-alkylsulfonyl-nucleophilic displacement reactions, 3, 97 Pyrimidine, 6-alkylsulfonyl-nucleophilie displaeement reactions, 3, 97 Pyrimidine, alkylthio-dealkylation, 3, 95 desulfurization, 3, 95 oxidation, 3, 96 synthesis, 3, 135, 136 Pyrimidine, 2-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Prineipal Synthesis, 3, 136 Pyrimidine, 4-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Pyrimidine, 6-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Pyrimidine, 4-allenyloxy-rearrangement, 3, 93 Pyrimidine, 4-allyloxy-2-phenyl-rearrangement, 3, 93 Pyrimidine, 4-allynyloxy-rearrangement, 3, 93 Pyrimidine, 4-anilino-2,5,6-trifluoro-NMR, 3, 63 Pyrimidine, 2-aryl-pyrroleaeetic aeid from, 4, 152 Pyrimidine, arylazo-synthesis, 3, 131 Pyrimidine, 4-arylazo-reduetion, 3, 88... 

Tetrazole, l-(p-substituted phenyl)-antimicrobial activity, 5, 835 Tetrazole, 5-thio-rearrangements, 5, 823 Tetrazole, 2-thioacyl-reactions, 5, 109 Tetrazole, 5-(o-tolyl)-tautomerism, 5, 804 Tetrazole, 5-(p-tolyl)-dipole moments, 5, 795 tautomerism, 5, 804 Tetrazole, 5-(trimethylsilylamino)-synthesis, 5, 832 Tefrazolecarbaldehydes reactions, 5, 820 Tetrazole-5-carbaldehydes reactions, 5, 820 Tetrazolecarbonitriles reactions, 5, 820 Tetrazole carbonyl compounds reactions, 5, 820 Tetrazolecarboxylic acid, 5-aryl-acidity, 5, 816... 

The thioacylating properties of phosphonodithioformate 1 were applied to a variety of functionalized amines as shown in Scheme 4. Phosphonothioacylated... 

Thioacylation of primary and secondary amines, including aminoacids and aminoalcohols, has been readily carried out from phosphonodithioacetate 28 (R = Et) and the resulting phosphorylated thio amides (thio carbamoyl-... 

Fluorinated dithioester 39 has also been involved in thioacylation reaction of enantiopure aminoalcohols leading to the corresponding hydroxylated thioamides. The later, treated either by SOCVpyridine, CH3SO2CI, or PhjP/DEAD, cyclise into thiazolines 42 without epimerisation and in excellent yields. An interesting application of this reaction is the synthesis of a new type of modified nucleotides such as 43 and 44 by a one pot reaction simply by mixing the dihydroxy substituted thioamide (obtained from 39 and the 2-amino-l,3-... 

Alkylation of thioacyl ligands provides a route to thiocarbene complexes. Faraone and co-workers have prepared iridium thiocarbene complexes 20 and 21 by methyl iodide addition to Ir(I) thiocarbonyl... 

Formation of the thioacyl complex 109 may be contrasted with the preparation of analogous chalcoacyl compounds by electrophilic addition to the zero-valent carbyne complex 79 (see above). 

The CJS insertion reaction was suppressed completely upon catalytic decomposition of diazoketones 361, where the sulfur substituent was alkyl, acyl or thioacyl. It is presumed that sulfonium ylides occur as intermediates which give cepham (or cephem) derivatives in all cases270,343) rather than products of a Stevens rearrangement. 

However, the switchover from an A2 to an A1 hydrolysis is a very common mechanistic pathway in strong acid media, probably more common than the pure A2 mechanism. Excess acidity analyses have shown that thioacetic acid, several thiobenzoic acids, and many thiolbenzoate and thionbenzoate esters show this sort of mechanism switch.179 Acylals and thioacylals also show this behavior,116 with thioacylals using two water molecules and acylals one. Many hydroxamic acids react this way,127,216 as do esters of various types,41,217,218 episulfoxides219 and aryloxatriazoles.220 Acylhydrazines can also show a mechanism switch of this sort, although with these substrates the situation is somewhat more complex.221... 

The [(thioacyl)hydrazino]triazines 554 were synthesized from 6-amino-5-hydrazino[l,2,4]triazines 552 by reaction with 553. Cyclization of 554 with an aqueous mineral acid gave (88S778) the triazinothiadiazine 555. 

The oxidation of thioacyl amidines and related compounds is a versatile ring-forming reaction which can furnish a range of 3- and 5-substituted 1,2,4-thiadiazoles (see Section 5.08.9.4). Other ring-forming reactions that can give specific types of derivatives are discussed in the following sections. 

C-labeled experiments were undertaken to establish the atom source of the thiophene ring (Equations 21 and 22). The methyl group and the C-3, CA, and C-5 carbon atoms of the ring come from the (thioacyl)methylene system of 27, whereas C-2 comes from the methyl group of the 5-acetyl substituent. 

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