Thioamides acyl chlorides

Keywords acyl chloride, 77-alkyl piperazine, Lawesson s reagent, microwave irradiation, thioamide... 

The diamine 2 was added to an etherial solution of an acyl chloride 1 in a Teflon-capped vial. Salt precipitaion was instant. The solvent was removed by filtration, where the Teflon cap served as the filter. Lawesson s reagent (1.0-1.5 equiv.) was added to the salt 3 and the resulting mixture of solids was mixed thoroughly and thereafter irradiated for 8 min in a domestic microwave oven (900 W, Whirlpool M401). Solid-phase extraction afforded the thioamides 4 in adequate purities and yields. 

Thiol carboxylic esters of an unusual type are formed if thioamides react with acyl chlorides. 2-Acylthiopyridine A-oxides, which are yellow crystalline compounds, are the primary reaction products... 

Next the product is acylated with bromoacetyl chloride and the glycine equivalent is constructed in place by a Gabriel amine synthesis (phthalamide anion followed by hydrazine) subsequent to which cyclization to benzodiazepine occurs. The synthesis of the tranquilizer quazepam (88) is finished by thioamide conversion with phosphorus pentasulfide. ... 

Acyl hydrazides are useful precursors for the synthesis of 1,2,4-triazoles. Reaction of acyl hydrazides 149 with imidoylbenzotriazoles 148 in the presence of catalytic amounts of acetic acid under microwave irradiation afforded 3,4,5-trisubstituted triazoles 150 <06JOC9051>. Treatment of A-substituted acetamides with oxalyl chloride generated imidoyl chlorides, which reacted readily with aryl hydrazides to give 3-aryl-5-methyl-4-substituted[ 1,2,4]triazoles <06SC2217>. 5-Methyl triazoles could be further functionalized through a-lithiation and subsequent reaction with electrophiles. ( )-A -(Ethoxymethylene)hydrazinecarboxylic acid methyl ester 152 was applied to the one-pot synthesis of 4-substituted-2,4-dihydro-3//-1,2,4-triazolin-3-ones 153 from readily available primary alkyl and aryl amines 151 <06TL6743>. An efficient synthesis of substituted 1,2,4-triazoles involved condensation of benzoylhydrazides with thioamides under microwave irradiation <06JCR293>. 

C, and then three molecular equivalents of acetyl chloride and triethy-lamine were added. Three types of acetylated materials, 11, 12, and 13, were isolated accompanied by a small amount of thioketone 7 and thioamide 9 (Scheme 8 and Table 6). All of the acetylated materials showed optical activity. For the reaction of 6a, 84% ee of 2-(acetylthio)aziridine 11a, 50% ee of 4-(acetyl-thio)oxazoline 12a, and 20% ee of 4-(acetylthio)oxazolidin-2-one 13a were obtained in 39,10, and 16% yields, respectively. In the reaction of 6b,c, the corresponding optically active materials 11-13 were obtained as shown in Table 9. The formation of oxazoline 12 involves the rearrangement ofAT-acyl aziridines, which occurs by intramolecular attack of the carbonyl oxygen at the ring carbon to cause rupture of the system. 

Although introduced over 40 years ago, Hurd and Mori s synthesis of 1,2,3-thiadiazoles remains the most widely used for the synthesis of 1,2,3-thiadiazoles. The simplicity of the method has contributed to its popularity. A variety of ketones and aldehydes have been converted into their corresponding hydrazones (tosyl and acyl), and thioamides have been converted into thio-carbazonate esters. The carbonyl derivatives are then treated with thionyl chloride to yield 1,2,3-thiadiazoles in high yields. When one is faced with the task of synthesizing new 1,2,3-thiadiazoles, Hurd and Mori s method should always receive attention. 

An alternate step-wise cyclization strategy to form 3-carboline 22 is shown in Scheme 7. Acylation of D-tryptophan (21) with piperonyloyl chloride afforded amide 25, which was converted to thioamide 26 with Lawesson s reagent. Thioamide 26 was treated with methyl iodide in refluxing CH2CI2 to give a a-thiomethylimmonium ion, which was trapped by the intramolecular addition of indole. The thiomethyl group was... 

Acylation reactions can be carried out by the action of acid anhydrides [66, 67], chloroanhydrides [47, 61], isocyanates [68], isothiocyanates [68, 69] and thioamides [70]. It was shown that the reaction of aziridinyl ketone 49 with chloroacetyl chloride 50 in the presence of Et3N [61] leads to the formation of A-acyl derivative 51, whereas the alkylation product was not isolated. 

In the next section the formation of acyl anion equivalents by nucleophilic addition to thiocarbonyl compounds is discussed. A direct and non-classical route to thiocarbonyl anions has been achieved [141]. Treatment of a thiocarbamoyl chloride by lithium powder, in the presence of both naphthalene and the carbonyl compound to which the intermediate will be added, led to a-hydroxy thioamides. 

Ireland utilized a sulfide ring contraction process for the ring-forming step of his synthesis of 47 (see Scheme 1.16) The diethyl acetal of 5-hydroxyhexanal (73) was converted to the trichloroethyl carbonate and the acetal hydrolized to produce aldehyde 74 in 86% yield. Addition of the zinc enolate of N,N-dimethylethanethioamide (75) to 74 then afforded an intennediate hydroxy thioamide which was subjected to acylation and reductive carbonate cleavage to yield 76 (53%). Acylation with chloroacetyl chloride was followed by ring closure to give the macrocycle 77 (24%). 

Chakraborty et al. (26) synthesized 1 by cyclization of the < -acyl-aminobenzamide 13 with diphosphorus pentoxide. Kametani et al. have developed a one-step synthesis of quinazolinone derivatives by condensation of sul-phinamide anhydrides generated from anthranilic acids and thionyl chloride with amides (27,28), imines (29,30), or thioamides (31). This reaction was applied to the synthesis of 1 (28,31,32), glycosminine (6) (28,31), glomerin (2) (27,31), homoglomerin (27), glycerine (3) (27), chrysogine (7) (27), and other quinazoline alkaloids (Scheme 1). 

Thiazolidines incorporating a hydroxyamine function (258) are formed directly by the condensation of iV-hydroxythioureas (257) and chloroacetyl chloride. They are isomerized to the 3-aryl-2-hydroxyiminothiazolidin-4-ones (259) by methanolic sodium methoxide. 2,3-Disubstituted thiazolidin-4-ones of type (261) are accessible by the condensation of the appropriate thioamides (260) with bromoacetic ester. l-Acyl-1,3,3-trichloroprop-2-enes (263), showing the usual reactivity of a-chloroketones, react with thiourea to yield 4-substituted 2-amino-5-(2, 2 -dichlorovinyl)-4-hydroxythiazolidines (262). The pyrimidine derivative (264), bearing three thiazolidine nuclei, is formed from trithiobarbituric acid by an application of this synthesis. ... 

The A-acylation of thioamides with aryl isocyanates has been shown to proceed smoothly in the presence of cuprous oxide to give W-thioacylureas. The reaction of a-cyanothioacetamide with acetyl chloride gives the product of C-acylation MeC(0)CH(CN)C(S)NH2. The same type of reaction occurs between a-arylsulphonylthioacetamide and an aryl isocyanate in the presence of base to yield AriNHC(0)CH(Ar S02)C(S)NH2. ... 

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