Pyrazoles 3-amino— from

One purpose of our work is to mimic the chiral environment of the enzymes. Therefore, we thought it a reasonable goal to supply chiral models for the active sites of metalloenzymes. This was achieved before by Alsfasser et al. 113) or Vahrenkamp et al. 114) via amino acids that have been incorporated into the ligand systems. Modification of Tp ligands by chiral pyrazoles derived from the chiral pool is another way to chiral W,W,iV tripod ligands and has been achieved before by W. B. Tolman and coworkers (115). Thus, first we focused on the synthesis of a racemic mixture of a chiral NJtl,0 scorpionate... 

The stable pyrazole acid from the hydrolysis of this ester is a key intermediate in Viagra production. Nitration can occur only at the one remaining free position and then amide formation and reduction complete the synthesis of the amino pyrazole amide ready for assembly into Viagra. 

The acetoacetyl derivatives are obtained by the reaction of the amine with diketene . In the case of amino acid ester hydrochlorides the presence of one equivalent of sodium methoxide or of a tertiary base is necessary. The group is removed by applying the conditions of the Knorr synthesis of pyrazol derivatives from various /3-keto esters and their derivatives . The protecting group is removed in acetic acid by using an equimolar amount of phenylhydrazine (reaction 3). 

Chapter V. Quinaldine (V,2) 2-methyl-, 2 5-dimethyl- and 2-acetyl-thiophene (V,8-V,10) 2 5-dimethyl and 2 4-dimethyl-dicarbethoxy-p3nrole (V,12-V,13) 2-amino- and 2 4 dimethyl-thiazole (V,15-V,16) 3 5-dimethyl-pyrazole (V,17) 4-ethylp3rridine (from pyridine) (V,19) n-amyl-pyridines from picolines) (V,28) picolinic, nicotinic and isonicotinic acid (V,21-V,22) (ethyl nicotinate and p-cyanop3n idine (V,23-V,24) uramil (V,25) 4-methyl-(coumarin (V,28) 2-hyi-oxylepidine (V,29). 

The imonium salt (199), obtained from ynamines and phosgeneimonium chloVide, underwent ready reaction with monosubstituted hydrazines to give the 3,5-bis(dimethyl-amino)pyrazole (200) (68T4217, 69T3453). Similarly, the adduct (201), resulting from the addition of phosgene to ynamines, likewise reacted with sym-disubstituted hydrazines to give pyrazoles (202). With hydroxylamine derivatives the isoxazolinone (203) was obtained. 

In addition to (461), Dorn has described the imine (463) isolated from 5-amino-l-methylpyrazole and arenesulfonyl chloride (80CHE1). Upon heating, or in the presence of triethylamine, it undergoes rearrangement to the more stable 5-bis(arylsul-fonamido)pyrazoles (464). 5-Iminopyrazolines (461) react with acyl chlorides at the exocyclic nitrogen atom to afford amidopyrazolium salts (B-76MI40402). 

From amino- and alkoxybutenones and benzonitrile iV-oxide as well as from acetyl- and ethoxycarbonyl-iV-phenylnitrilamines and p-methoxyphenyl azide, the corresponding functional isoxazoles, pyrazoles, and tiiazoles were obtained (83DIS 83ZOR2281 92SC2902). 

Pyrazol-1 -ylalanine, an isomer of histidine, was isolated from Citrullus vulgaris (watermelon) seed and its structure was confirmed by comparison with synthetic material 107). It was the major free amino acid in the dormant dry seed but was present in only trace amounts in vegetative tissue. While present in seed extracts of other members of the Cucurbitaceae, it has not been identified as occurring in members of other plant families. 

The pyrazolides were in turn synthesized from N-protected amino acids, pyrazole, and thionyl chloride/triethylamine. Using TV-protected aminoacylpyrazoles, 4-amino-3-oxoalkanoic acid derivatives were thus conveniently prepared. 671... 

Similar ring systems were prepared <97JHC1693> by Coppo and Fawzi from the reaction of substituted ethyl 5-[methyl(methylsulfonyl)amino]-l 7/-pyrazole-4-carboxylates 119 with sodium hydride. This gave the 7-substitued 1,7-dihydro-l-methylpyrazolo[3,4-c][l, 2]thiazin-4(37/)-one 2,2-dioxides 120 in fair to good yield (Scheme 30). They also extended this synthesis by treating methyl 2-[methyl(methylsulfonyl)amino]-6-(trifluoromethyl)-3-pyridinecarboxylate 121 with sodium hydride in dimethylformamide to yield l-methyl-7-(trifhioromethyl)-l//-pyrido[2,3-c][l,2]thiazin-4(3//)-one 2,2-dioxide 122 in 79% yield (Scheme 31) <98JHC499>. 

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