Sulfonamides heterocyclic

Snieckus reported a combination directed ortho-metalation (DoM)-RCM strategy for the synthesis of benzazepine, benzazocine, and benzannulated sulfonamide heterocycles <00SL1294> (Scheme 60). For example, the Boc-protected aniline (75) was sequentially allylated to give 76 which underwent RCM in excellent yield to give benzazepine 77. Use of similar methodology led to 78 and 79 starting from Y-methylbenzamide and p-tolylsulfonamide, respectively. 

Metosulam sulfonamide, heterocyclic nitrogen, triazole, pyrimidine Metoxuron urea... 

In the synthesis of commercial sulfur-heterocycles two interesting reactions are used (i) diphenylamines may be connected by a sulfur bridge in the orfho-positions (ii) the amino grouping of sulfonamides undergoes condensation reactions with neighboring imino- and amide groups. 

For the sulfonamides, the best activity is found where R is heterocycHc, but it can also be isocycHc or acyl. For the sulfones, R can be phenylene or a heterocycle the parent dapsone, where R is phenyl, is the most active. 

Aryl bromides were also perfluoroethylated under these conditions [205] The key to improved yields was the azeotropic removal of water from the sodium perfluoroalkylcarboxylate [205] Partial success was achieved with sodium hepta-fluorobutyrate [204] Related work with halonaphthalene and anthracenes has been reported [206 207] The main limitation of this sodium perfluoroalkylcarboxylate methodology is the need for 2 to 4 equivalents of the salt to achieve reasonable yields A trifluoromethylcopper solution can be prepared by the reaction of bis(tri-fluoromethyl)mercury with copper powder in /V-methylpyrrolidone (NMP) at 140 °C [208] (equation 138) or by the reaction of N-trifluoromethyl-A-nitro-sotnfluoromethane sulfonamide with activated copper in dipolar aprotic solvents [209] This trifluoromethylcopper solution can be used to trifluoromethylate aro matic [209], benzylic [209], and heterocyclic halides [209]... 

The sulfonamide group has been used successfully to confer diuretic activity to both aromatic and simple heterocyclic compounds. 

The ZwKKER reaction involving Co salts is frequently used for the detection of barbituric acid derivatives [31-35], but some purine, pyridine and piperidine derivatives and heterocyclic sulfonamides also yield colored derivatives. The Zwkker reaction is particularly sensitive when it is possible to form a tetrahedral complex [Co(Barb)2 Xj] (X = donor ligand, e.g. amine) [4]. 

The addic compounds used can be compounds with N-H bonds (aromatic primary amines [1], azole heterocycles [2-5], sulfonamides [6]), or enoHzable compounds with activated C-H bonds [7,8]. 

The same pattern of activity is maintained in a closely related analogue. Condensation of amino-sulfonamide 201 with aldehyde 202 affords the saturated heterocyclic system (203) oxidation with silver nitrate leads to the antihypertensive agent pazoxide (204). 49... 

Aromatic heterocycles can also be mercurated. For example, iV-acetylpyrrole and Ar- p h e n y 1 s u 1 fo n y I p y no 1 e react with HgCl2/NaOAc to form the monomercurated products 79 and 80, respectively (Equations (30) and (31)). The amide or sulfonamide group provides an oxygen donor atom that coordinates with the incoming mercuric ion, ultimately directing mercuration at the 2-position.100... 

Tanaka and Ohno developed the palladium(0)-catalyzed cyclization of bromoallene 222 bearing a sulfonamide for the synthesis of medium-sized heterocycle 223 (Scheme 37).48b In this reaction, bromoallene acts as an allyl dication equivalent 224, and two different nucleophiles can be introduced regioselectively. The intramolecular nucleophilic... 

The ruthenium carbene catalysts 1 developed by Grubbs are distinguished by an exceptional tolerance towards polar functional groups [3]. Although generalizations are difficult and further experimental data are necessary in order to obtain a fully comprehensive picture, some trends may be deduced from the literature reports. Thus, many examples indicate that ethers, silyl ethers, acetals, esters, amides, carbamates, sulfonamides, silanes and various heterocyclic entities do not disturb. Moreover, ketones and even aldehyde functions are compatible, in contrast to reactions catalyzed by the molybdenum alkylidene complex 24 which is known to react with these groups under certain conditions [26]. Even unprotected alcohols and free carboxylic acids seem to be tolerated by 1. It should also be emphasized that the sensitivity of 1 toward the substitution pattern of alkenes outlined above usually leaves pre-existing di-, tri- and tetrasubstituted double bonds in the substrates unaffected. A nice example that illustrates many of these features is the clean dimerization of FK-506 45 to compound 46 reported by Schreiber et al. (Scheme 12) [27]. 

Besides the applications of the electrophilicity index mentioned in the review article [40], following recent applications and developments have been observed, including relationship between basicity and nucleophilicity [64], 3D-quantitative structure activity analysis [65], Quantitative Structure-Toxicity Relationship (QSTR) [66], redox potential [67,68], Woodward-Hoffmann rules [69], Michael-type reactions [70], Sn2 reactions [71], multiphilic descriptions [72], etc. Molecular systems include silylenes [73], heterocyclohexanones [74], pyrido-di-indoles [65], bipyridine [75], aromatic and heterocyclic sulfonamides [76], substituted nitrenes and phosphi-nidenes [77], first-row transition metal ions [67], triruthenium ring core structures [78], benzhydryl derivatives [79], multivalent superatoms [80], nitrobenzodifuroxan [70], dialkylpyridinium ions [81], dioxins [82], arsenosugars and thioarsenicals [83], dynamic properties of clusters and nanostructures [84], porphyrin compounds [85-87], and so on. 

An a-allenic sulfonamide undergoes Pd-catalyzed carbonylative cyclization with iodobenzene, affording a mixture of isomeric heterocycles (Scheme 16.12) [17]. The coupling reaction of an allene with a PhCOPdl species takes place at the allenyl central catrbon to form a 2-acyl-Jt-allylpalladium complex, which is attacked by an internal sulfonamide group in an endo mode, affording a mixture of isomeric heterocycles (Scheme 16.13). 

The oxidation of allenylsulfonamides 75 is also possible by using DMDO [23], Unlike the corresponding reaction of allenyl acids, oxidation of allenyl sulfonamides usually cannot be stopped after the formation of the allene oxide 76 but proceeds further to the spirodiepoxide intermediate 77, finally giving hydroxypyrrolidinone 78 and hydroxypiperidone 79, respectively (Scheme 17.23). Similarly to y-allenyl alcohols, aldehydes and acids, five-membered heterocycles, e.g. 80, are also formed from y-allenylsulfonamides. In the latter case the reaction can be terminated after the first epoxidation by addition of p-toluenesulfonic acid. 

In contrast to humans, bacteria have the biochemical ability to synthesize folic acid from simpler molecules. Here we have a clear biochemical difference between human beings and infectious organisms that we can exploit to our benefit. The reaction catalyzed by an enzyme known as dihydropteroate synthetase, in which a complex heterocycle is linked to p-aminobenzoic acid, is key. Now recognize the structural similarity between sulfanilamide, or other sulfonamides, and p-aminobenzoic acid ... 

This procedure is satisfactory for the synthesis of a variety of aryl sulfonamides. The heterocyclic intermediate used in the synthesis of chlorsulfuron is prepared according to K. R. Hoffmann and F. C. Schaeffer (Ref. 5) as shown in Figure 5. 

Scheme51. Heterocyclizations of 2-[r-(o-Ar-phenylsulfonylamino)arylthiocyclopropyl]-2-chloroacetates 164 and domino heterocyclizations of the chlorocyclopropylideneacetates 1-Me, 1-tBu with various sulfonamides 161 f-i [22b, 73]...

Oxidative amination of carbamates, sulfamates, and sulfonamides has broad utility for the preparation of value-added heterocyclic structures. Both dimeric rhodium complexes and ruthenium porphyrins are effective catalysts for saturated C-H bond functionalization, affording products in high yields and with excellent chemo-, regio-, and diastereocontrol. Initial efforts to develop these methods into practical asymmetric processes give promise that such achievements will someday be realized. Alkene aziridina-tion using sulfamates and sulfonamides has witnessed dramatic improvement with the advent of protocols that obviate use of capricious iminoiodinanes. Complexes of rhodium, ruthenium, and copper all enjoy application in this context and will continue to evolve as both achiral and chiral catalysts for aziridine synthesis. The invention of new methods for the selective and efficient intermolecular amination of saturated C-H bonds still stands, however, as one of the great challenges. 

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