Sulfonamide coupling

First, 1 2 metal complexes of (mainly mono-) azo dyes, without sulfonic or carboxylic acid groups, and trivalent metals (see Section 3.11). The metals are preferably chromium and cobalt nickel, manganese, iron, or aluminum are of lesser importance. Diazo components are mainly chloro- and nitroaminophenols or amino-phenol sulfonamides coupling components are (3-naphthol, resorcinol, and 1-phe-nyl-3-methyl-5-pyrazolone. Formation of a complex from an azo dye and a metal salt generally takes place in the presence of organic solvents, such as alcohols, pyridine, or formamide. An example is C.I. Solvent Red 8, 12715 [33270-70-1] (1). 

Of these dyes, Acid Yellow 151 (37) still has the greatest market among the yellows. As reported by USITC, production had increased to 1989 tons in 1985 from 706 tons in 1975. It is produced by coupling diazotized 2-amino-l-phenol-4-sulfonamide to acetoacetanilide followed by metallizing with cobalt to obtain a 1 2 cobalt complex. Acid Orange 24 (38), which is sulfanilic acid coupled to resorcinol to which diazotized mixed xyUdines have been coupled, is an unsymmetrical primary diasazo dye with a bihinctional coupling component. 

The use of images in terms of oxidized developer to release dyes initially immobilized through a sulfonamide linkage has been described (33). In one approach color coupling leads to ting closure and concomitant release of an alkah-soluble dye (eq. 1). 

Diazotization of the primary amine [3, 17] followed by coupling with a-naphthol or N-(l-naphthyl)-ethylenediamine. Sulfonamides also react [18]. 

Particularly, some newly developed drags, which incorporate the N-acyl sulfonamide moiety [8-10], are synthesized from the parent sulfonamides, by their coupling with acid chlorides or carboxylic anhydrides in basic conditions [11-15]. Unfortunately all these methods lead to substantial waste products. Less common reports mentioning this transformation under acidic conditions (Bronsted or Lewis acids) do not systematically examine the purpose and limitations of the reaction [16]. 

Superheated water at 100°-240 °C, with its obvious benefits of low cost and low toxicity, was proposed as a solvent for reversed-phase chromatography.59 Hydrophobic compounds such as parabens, sulfonamides, and barbiturates were separated rapidly on poly(styrene-divinyl benzene) and graphitic phases. Elution of simple aromatic compounds with acetonitrile-water heated at 30°-130 °C was studied on coupled colums of zirconia coated with polybutadiene and carbon.60 The retention order on the polybutadiene phase is essentially uncorrelated to that on the carbon phase, so adjusting the temperature of one of the columns allows the resolution of critical pairs of... 

Carbamates and sulfonamides can also be used as coupling partners (not shown). 

The 1,2-benzothiazepine 1,1-dioxides 126 were prepared in fair yields (e.g. 126, R = H, Ar = p-ClC6H4, 52%) by a Heck coupling on the precursors 125, which were obtained in turn from an aza Baylis-Hillman reaction involving the appropriate sulfonamide, aldehyde, and methyl acrylate reactants <06TL8591>. 

TMS group and the Suzuki cross-coupling reaction is again repeated. This sequential process allows for the introduction of different aromatic groups at positions 3 and 4 of the pyrrole system. The synthesis of the Furstner intermediate (6) is completed by removal of the sulfonamide group. 

In the presence of tetramethyltin, 1-bromonauclefine reacts with CO in a Pd-catalyzed carbonylation to give the alkaloid naucletine [202], Dong and Busacca effected a new synthesis of tryptamines and tryptophols via a Rh-catalyzed hydroformylation of functionalized anilines that are prepared by a standard Heck reaction, as shown for the preparation of tryptamine sulfonamide 325 [423]. This reaction is applicable to ring-substituted tryptamines (Cl, Br, F. OMe, CF3). Likewise, the Rh-catalyzed carbonylation of o-alkynylanilines, which were prepared by a Pd-catalyzed Sonogashira coupling, leads to oxindoles (60-86% yields) [424],... 

Treatment of thiophene r-butyl sulfonamide (59) with 2 equivalents of n-BuLi formed a dianion in which the second anion resided at the C(5) position. Quenching the resulting dianion with triisopropylborate followed by acidic workup furnished thienylboronic acid 60, which was then coupled with p-bromobenzyl alcohol under basic conditions to afford arylthiophene 61 [49]. 

The problem of the nucleophilicity of amides in glycosylation reactions is not limited to the sulfoxide method and has been shown to result in the formation of glycosyl imidates from intermolecular reaction with activated donors. It appears that this problem may be suppressed by the prior silylation of the amide [348,349]. Accordingly, it may be sufficient to operate the sulfoxide method with an excess of triflic anhydride when amides are present so as to convert all amides into O-triflyl imidates, which are then hydrolyzed on work-up. Despite these problems, several examples have been published of successful sulfoxide glycosylation reactions with acceptors carrying remote peptide bonds [344,345] and with donors coupled to resins via amide-based linkages [346,347], with no apparent problems reported. Sulfonamides and tertiary amides appear to be well tolerated by the sulfoxide method [340,350],... 

The diastereoselective addition to imines proceeds well with aromatic enolsi-lanes (249). Propiophenone- and tetralone-derived enolsilanes provide good levels of diastereoselectivity (>95 5) and excellent enantioselectivity (>98% ee) with selective formation of the anti diastereomer. Nonaromatic enolsilanes are somewhat less selective although cyclohexanone enolsilane still provides useful levels of diastereoselectivity and enantioselectivity (92 8 anti/syn and 88% ee at -78°C). A one-pot procedure using glyoxylate, sulfonamide, and enolsilane as coupling partners was developed subsequently, leading to the product in comparable yields and selectivities (250, 251). 

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). 

Gobel A, McArdell CS, Suter MJ et al (2004) Trace determination of macrolide and sulfonamide antimicrobials, a human sulfonamide metabolite, and trimethoprim in wastewater using liquid chromatography coupled to electrospray tandem mass spectrometry. Anal Chem 76(16) 4756-4764... 

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