Sulfonamide-, amide- and

Table 1. Sulfonamides, Amides and Carbamates by Addition to Alkenes Mediated by Mercury(n) Salts22...

Solid-phase scavenger methods are employed with increasing frequency as a prehminary reaction cleanup step in combinatorial chemistry, and have recently become commercially available (Argonaut, Calbiochem-Novabiochem, Varian, Alltech). lilly researchers first reported on this approach, employing sohd supported electrophiles and nucleophiles for reaction purification in acylation and alkylation reactions. Yield and purity values reported were 90-95% and 50-99%, respectively, for a library generated by reductive amination. Parke-Davis researchers achieved the removal of known reaction product impurities by the application of custom synthesized polymer supported reagents, specifically polystyrene-divinylbenzene supported derivatives of methylisocyanate and tm(2-aminomethyl)amine for cleanup of by-products resulting from urea, thiourea,sulfonamide,amide, and pyrazole libraries. 

The preparation of diazo hydrocarbons is generally carried out by the alkaline decomposition of Af-nitroso-./V-alkyl derivatives such as the iV-nitroso derivatives of sulfonamides, amides, and phthal-amides, urethanes, ureas, nitroguanidines and /7-alkylaminoisobutyl ketones. Of these, the decompositions of 7V -alkyl- -nitroso-p-toluenesulfonamide and of bis (iV-methyl-A nitroso)terephthalamide... 

A variety of waxy hydrophobic hydrocarbon-based soHd phases are used including fatty acid amides and sulfonamides, hydrocarbon waxes such as montan wax [8002-53-7], and soHd fatty acids and esters. The amides are particularly important commercially. One example is the use of ethylenediamine distearamide [110-30-5] as a component of latex paint and paper pulp blackHquor defoamer (11). Hydrocarbon-based polymers are also used as the soHd components of antifoaming compositions (5) examples include polyethylene [9002-88-4], poly(vinyl chloride) [9002-86-2], and polymeric ion-exchange resins. 

Finally, attachment of a rather complex side chain to the para position of the benzene ring on the sulfonamide leads to the very potent, long-acting oral antidiabetic agent, glyburide (215). Preparation of this compound starts with the chlorosul-fonation of the acetamide of 3-phenethylamine (209). The resulting sulfonyl chloride (210) is then converted to the sulfonamide (211) and deacylated (212). Reaction with the salicylic acid derivative, 213, in the presence of carbodiimide affords the amide, 214. Condensation of that with cyclohexylisocyanate affords glyburide (215). ... 

Amides are very weak nucleophiles, far too weak to attack alkyl halides, so they must first be converted to their conjugate bases. By this method, unsubstituted amides can be converted to N-substituted, or N-substituted to N,N-disubstituted, amides. Esters of sulfuric or sulfonic acids can also be substrates. Tertiary substrates give elimination. O-Alkylation is at times a side reaction. Both amides and sulfonamides have been alkylated under phase-transfer conditions. Lactams can be alkylated using similar procedures. Ethyl pyroglutamate (5-carboethoxy 2-pyrrolidinone) and related lactams were converted to N-alkyl derivatives via treatment with NaH (short contact time) followed by addition of the halide. 2-Pyrrolidinone derivatives can be alkylated using a similar procedure. Lactams can be reductively alkylated using aldehydes under catalytic hydrogenation... 

Treatment with sodium hypochlorite or hypobromite converts primary amines into N-halo- or N,N-dihaloamines. Secondary amines can be converted to N-halo secondary amines. Similar reactions can be carried out on unsubstituted and N-substituted amides and on sulfonamides. With unsubstituted amides the N-halo-gen product is seldom isolated but usually rearranges (see 18-13) however, N-halo-N-alkyl amides and N-halo imides are quite stable. The important reagent NBS is made in this manner. N-Halogenation has also been accomplished with other reagents, (e.g., sodium bromite NaBr02) benzyltrimethylammonium tribromide (PhCH2NMe3 Br3"), and NCS. The mechanisms of these reactions involve attack by a positive halogen and are probably similar to those of 12-47 and 12-49.N-Fluorination can be accomplished by direct treatment of amines °° or... 

Chloro- and sulfonamide-substituted aromatic amides showed decreased binding affinity and in vivo potency compared to the simple aliphatic amides. Side chains with an additional (CH2)i-2 linker between the amide and the phenylsulfonamide group resulted in partial or absent in vivo effects [113]. The (CH2)-linked compound, (153), showed around 80-fold selectivity for CB2 over CBi binding [107]. 

Amides and sulfonamides undergo intramolecular chemistry to form aryl amides and aryl sulfonamides (Equations (17)—(19)) in the presence of palladium catalysts ligated by arylphos-phines.35,89 Initially, complexes of P(furyl)3 and P(o-tol)3 were most effective catalysts, but complexes of Hayashi s MOP and van Leeuwen s DPEphos and xantphos have lately been shown to be more active.90 In the presence of catalysts containing one of these ligand systems, five-, six-, and seven-membered rings were formed from halogenated benzamides or from substrates containing an acetamide, an A-carbobenzyloxy, or a t-butylcarbamate substituent tethered to the aryl halide (Equations (18) and (19)) ... 

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]. 

N-Tosyl amides and lactams.2 DCC in combination with 4-pyrrolidinopyri-dine (4-PPy) effects condensation of carboxylic acids with secondary sulfonamides to provide N-tosyl amides in 75-90% yield. The intramolecular version of this reaction provides 4-, 5-, and 6-membered N-tosyl lactams in 60-90% yield. 

Scheme 2.58 The automated preparation of urea, amide and sulfonamide libraries.

The instability of primary nitramines in acidic solution means that the nitration of the parent amine with nitric acid or its mixtures is not a feasible route to these compounds. The hydrolysis of secondary nitramides is probably the single most important route to primary nitramines. Accordingly, primary nitramines are often prepared by an indirect four step route (1) acylation of a primary amine to an amide, (2) A-nitration to a secondary nitramide, (3) hydrolysis or ammonolysis with aqueous base and (4) subsequent acidification to release the free nitramine (Equation 5.17). Substrates used in these reactions include sulfonamides, carbamates (urethanes), ureas and carboxylic acid amides like acetamides and formamides etc. The nitration of amides and related compounds has been discussed in Section 5.5. 

When optically active allylic alcohol 6a and propargylic alcohol 6p were reacted with amides 2c and 2f, only racemic products 7ac, 7af, and 7pf were obtained (Scheme 2). The results suggested a mechanism through the formation of a carbe-nium intermediate. The observed racemization can also be ascribed to the reversibility of the present reaction. The result shown in Scheme 3 indicated that the reaction is reversible under the reaction conditions. When 7af was treated with 5 mol% of Bi(OTf)3 and KPF6 and 1 equiv of carbamate 2c, a mixture of 7af (28%) and 7ac (68%) was recovered after 1 h. The result suggested that Bi(OTf)3/KPF6 cleaved the C-N bond in 7af derived from sulfonamide 2f, and that 7ac is thermodynamically more stable than 7af. We assume that the desiccant (Drierite) had a beneficial effect on the reactions of substrates shown in Tables 10-12 because of the observed reversibility of the present reaction. In this reaction, the possibility... 

VAPOL-derived phosphoric acid 11 was shown to catalyze the amidation of Boc-protected N-aryl imines with sulfonamide, phthaUmide, and maleimide nucleophiles to furnish the corresponding chiral aminals in excellent yields and ee s (Scheme 5.29) [52, 53]. This represents the first general catalytic and asymmetric... 

A -Aminopyrimidinones and quinazolinones can be acylated and sulfonylated to give amide and sulfonamide derivatives, and also reacted with isocyanates to give ureas, and with aldehydes and ketones to give imines. They can also participate in cyclization reactions to form fused pyrimidine heterocycles. 

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