TosMIC reaction

Analogous to the TOSMIC reactions is the cyclocondensation of an isothiourea with the enolate of ethyl isocyanoacetate (12) to give an alkyl 5-aminoimidazole-4-carboxylate (13). This regioselective synthesis provides... 

The most recent synthetically useful modification of TOSMIC reactions involves the cycloaddition of Af-trimethylsilylimines with lithiotosylmethyl isocyanides. This allows the preparation of 4-mono- and 4,5-disubstituted imidazoles from readily accessible aldehydes and organolithium compounds in a one-pot reaction. Although yields are only moderate, there are advantages which accrue from the easy availability of the starting... 

The use of a vinylphosphonium salt as the source of the QQ fragment instead of the more commonly employed 1,2-dicarbonyl substrate is illustrated by the pyrrole synthesis in Scheme 79b (8UOC2570). A particularly interesting feature is the intramolecular Wittig reaction with an amide carbonyl group. A very useful synthesis of pyrroles depends upon the addition of the anion of p-toluenesulfonylmethyl isocyanide (TOSMIC) to a,/3-unsatur-... 

In some cases, potassium carbonate is superior to DBU and tetramethylguanidine (TMG) in the BZ reaction. Thus 7 reacts with TosMIC (19) in the presence of K2CO3 to afford pyrrole 20 in excellent yield. The yield of 20 using DBU is 62%. 

The van Leusen reaction forms 5-substituted oxazoles through the reaction of p-tolylsulfonylmethyl isocyanide (1, TosMIC) with aldehydes in protic solvents at refluxing temperatures. Thus 5-phenyloxazole (2) is prepared in 91% yield by reacting equimolar quantities of TosMIC and benzaldehyde with potassium carbonate in refluxing methanol for 2 hrs. ... 

In 1972, van Leusen, Hoogenboom and Siderius introduced the utility of TosMIC for the synthesis of azoles (pyrroles, oxazoles, imidazoles, thiazoles, etc.) by delivering a C-N-C fragment to polarized double bonds. In addition to the synthesis of 5-phenyloxazole, they also described reaction of TosMIC with /7-nitro- and /7-chloro-benzaldehyde (3) to provide analogous oxazoles 4 in 91% and 57% yield, respectively. Reaction of TosMIC with acid chlorides, anhydrides, or esters leads to oxazoles in which the tosyl group is retained. For example, reaction of acetic anhydride and TosMIC furnish oxazole 5 in 73% yield. ... 

Van Leusen and co-workers also demonstrated the utility of dilithio-tosylmethyl isocyanide (dilithio-TosMIC) to extend the scope of the application. Dilithio-TosMIC is readily formed from TosMIC and two equivalents of n-butyllithium (BuLi) in THF at -70"C. Dilithio-TosMIC converts ethyl benzoate to oxazole 14 in 70% yield whereas TosMIC monoanion does not react. In addition, unsaturated, conjugated esters (15) react with dilithio-TosMIC exclusively through the ester carbonyl to provide oxazoles (16). On the other hand, use of the softer TosMIC-monoanion provides pyrroles through reaction of the carbon-carbon double bond in the Michael acceptor. 

The development of the key intermediate, 5-(2-methoxy-4-nitrophenyl)oxazole (25), in the preparation of the hepatitis C drug candidate, VX-497, utilizes a van Leusen reaction of aldehyde 24 with TosMIC. ... 

Based on a known synthesis of spiro compounds with six-membered rings [63] we succeeded in the stepwise assembly of terminal substituted mono-[64] and dispiranes [65]. Hereby the cyclisation of the dibromide 35 with TOSMIC (Iter. 1) is the keystep of the reaction sequence as the initial ketone functional group (36) is recovered. Four subsequent reactions led to the spirodibromide 40 (Iter. 2). Final spirocyclisation afforded the dispirane 41, representing a precursor for new calamitic liquid crystals (Fig. 16) [66]. 

Isonitrile cyclization provides a useful alternative method of the Knorr type cyclization for pyrrole synthesis. In 1972, Leusen and coworkers reported pyrrole synthesis based on the reaction of tosylmethyl isocyanide (TosMIC) with electron-deficient alkenes (Eq. 10.12).15... 

The most important advantage of this procedure is that a-free pyrroles are obtained directly. Reaction of nitroalkenes with TosMIC gives 3-nitropyrroles in 55-85% yield (Eq. 10.13).16 The... 

Barton and Zard found that the base-catalyzed reaction of nitroalkenes or P-nitroacetates with alkyl isocyanoacetate or TosMIC gives pyrrole-2-carboxylates or 2-sulfonylpyrroles, respectively (see Eqs. 10.18 and 10.19).22 This reaction is very convenient for the synthesis of... 

Reaction of pyrrolopyridines 241 with tosylmethyl isocyanide (TosMIC) in the presence of a phase transfer catalyst tetra- -butylammonium iodide (TBAI) provides the tricyclic pyrimidopyrrolopyrimidine derivatives 242 (Equation 30) <20000L3253, 2004JOC4974, 2005JOC4879>. 

The reaction of the 3-(bromomethyl)pyrazole 276 with various alkyl derivatives of tosylmethyl isocyanide (TosMIC) 277 affords the products 278 (Equation 56) and requires phase-transfer conditions for success <2005JOC4879>. This reaction was also used for the synthesis of ring system 68, but in lower yield (25%). 

Catalysed alkylation of tosylmethylisocyanate (TOSMIC) [63, 64] has extended its versatility in the preparation of l, 4-dicarbonyl compounds and as a l, 3-dipolar precursor for the synthesis of heterocyclic compounds. The alkylation reactions should not be conducted in carbon disulphide, as nucleophilic attack by the methylene group on the carbon disulphide leads, after ring closure and S-alkylation, to a 4-alkylthio-1,3-thiazole system [65]. 

Substituted oxazoles through the reaction of p-tolylsulfonylmethyl isocyanide (TosMIC) with aldehydes in protic solvents at refluxing temperatures. 

Neochoritis C, Stephanidou-Stephanatou J, Tsoleridis CA (2009) Heterocyclizations via TosMIC-based multicomponent reactions a new approach to one-pot facile synthesis of substimted quinoxaline derivatives. Synlett 2009(02) 302-305... 

The first MCR involving the explicit use of a-acidic isonitriles was reported in 1998 by Sisko [131]. The reaction involves the cycloaddition of aTosMIC derivative (8) to an (in situ-generated) imine (10) followed by the elimination of p-toluenesulfinic acid (TsH) as described in 1977 by van Leusen for preformed imines (Fig. 5, scaffold P) [119]. Although several potential pitfalls for the conversion of the traditional van Leusen [3 + 2] cycloaddition to the so-called van Leusen three-component reaction (vL-3CR) of imidazoles were expected by the author, simply stirring the aldehyde and amine for 20 min followed by addition of the TosMIC derivative and base resulted in the isolation of the corresponding imidazole (9) in high yield [131]. 

Also in 2009, an elegant combination of two original van Leusen reactions was reported, leading to a MCR toward 4,5-disubstituted oxazoles (19) [136]. The MCR involves the base-induced mono-alkylation of TosMIC (8a) followed by the formal cycloaddition with an aldehyde (Fig. 9). Although dialkylation is a problem often... 

Imidates, rearrangement of, 14, 1 Imines, additions of allyl, allenyl, propargyl stannanes, 64, 1 additions of cyanide, 70, 1 as dienophiles, 65, 2 synthesis, 70, 1 Iminium ions, 39, 2 65, 2 Imino Diels-Alder reactions, 65, 2 Indoles, by Nenitzescu reaction, 20, 3 by reaction with TosMIC, 57, 3 Ionic hydrogenation, 71, 1 Isocyanides, in the Passerini reaction, 65, 1... 

Tipson-Cohen reaction, 30, 2 Tosylhydrazones, 23, 3 39, 1 Tosyhnethyl isocyanide (TosMIC), 57, 3 Transmetallation reactions, 58, 2 Tricar bonyl(r -arene)chromium complexes, 67, 2... 

Isocyanides are useful reagents for the preparation of oxazoles unsubstituted at C-2. For example, TosMIC was used to generate the oxazole ring in a synthesis of phthoxazolin A 37 <990L1137>. However in the reaction of IV-tosyl aldimines with the isocyanide 38 the oxazoles that were isolated were 2 1 adducts 39 that had been further substituted at C-2 <98T12445>. 

Reductive cyanation (5, 684 6, 600).1 The original conditions for conversion of ketones into nitriles give low yields when applied to aldehydes. Satisfactory results are obtained, however, if the initial reaction with TosMIC is conducted at 50° in DME before addition of methanol and reflux. Yields of 50-70% are then possible. 

Various approaches have been used to prepare pyrroles on insoluble supports (Figure 15.1). These include the condensation of a-halo ketones or nitroalkenes with enamines (Hantzsch pyrrole synthesis) and the decarboxylative condensation of N-acyl a-amino acids with alkynes (Table 15.3). The enamines required for the Hanztsch pyrrole synthesis are obtained by treating support-bound acetoacetamides with primary aliphatic amines. Unfortunately, 3-keto amides other than acetoacetamides are not readily accessible this imposes some limitations on the range of substituents that may be incorporated into the products. Pyrroles have also been prepared by the treatment of polystyrene-bound vinylsulfones with isonitriles such as Tosmic [28] and by the reaction of resin-bound sulfonic esters of a-hydroxy ketones with enamines [29]. 

The utility of TOSMIC in MCR reactions has also received recent interest in the pharmaceutical arena as an approach to the preparation of imidazoles 91. Originally reported by van Leusen in 1977 [76], and involving cycloaddition of tosyl-methyl isocyanides to carbon-nitrogen double bonds, recent elegant work by Sisko et al. has heightened its profile with the description of a one-pot synthesis of imidazole 92, a potent inhibitor of p38 MAP kinase, implicated with the release of the pro-inflammatory cytokine TNF-a (Scheme 11.19) [77]. In this particular example a fluorinated analogue of TOSMIC 90, is employed. 

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