Hydrazines, condensations with

Fig. 6. Key intermediates derived from benzene. The alkylation reaction shown employs ethylene oxide. Hydrazine condenses with acetoacetic acid to form...

Hydrazines condense with diacylamines to give 1,2,4-triazoles 2 (Einhorn-Brunner synthesis), e.g. ... 

The formation of 4-cyano p3rrazole derivatives 3 can be rationalized as the acid protonated nitrogen of dimethylamino group and was replaced by hydrazine and then NH2 of the hydrazine condenses with carbonyl carbon to form pyrazole ring. When the condensation of 3-dimethylarnino-2-bezoyl-propenenitrile la and N-methyl ester of hydrazine was carried out, the ester group has been hydrolyzed and decarboxylated to give IH-pyrazole derivative 3f. 

Figure 4.22 structure of two HDAC inhibitors obtained by aldehyde-hydrazine condensation, with IC50 values against specific HDAC isoforms... 

Fructose (V) under similar conditions gives first the phenylhydrazonc (Va) by the direct condensation of the >C 0 group of carbon atom 2 with one molecule of phenylhydrazine. The second molecule of phenylhydrazine then oxidises the primary alcohol group of carbon atom 1 to the -CHO group by removal of two atoms of hydrogen, which as before serve to reduce the phenyl-hydrazine to aniline and ammonia. The compound (Vb) which is thus produced then undergoes direct condensation with the third molecule of phenylhydrazine, giving the osazone of fructose, or fructosazone (Vc). 

Phenyl hydrazine condenses readily with aldehydes and ketones to give phenylhydrazonesy which, being usually crystalline compounds of sharp... 

The most important synthesis of pyrazolones involves the condensation of a hydrazine with a P-ketoester such as ethyl acetoacetate. Commercially important pyrazolones carry an aryl substituent at the 1-position, mainly because the hydrazine precursors are prepared from readily available and comparatively inexpensive diazonium salts by reduction. In the first step of the synthesis the hydrazine is condensed with the P-ketoester to give a hydrazone heating with sodium carbonate then effects cyclization to the pyrazolone. In practice the condensation and cyclization reactions are usually done in one pot without isolating the hydrazone intermediate. 

Other methods of generating a-aminoketones in situ are common, if somewhat less general than the methods already described. 2-Nitrovinylpyrrolidine, which is readily available, yields 2,3-bis(3-aminopropyl)pyrazine on reduction and this almost certainly involves ring opening of the intermediate enamine to an a-aminoketone which then dimerizes under the reaction conditions (Scheme 59) (78TL2217). Nitroethylene derivatives have also served as a-aminoketone precursors via ammonolysis of the derived epoxides at elevated temperatures (Scheme 60) (76S53). Condensation of 1,1-disubstituted hydrazine derivatives with a-nitro-/3-ethoxyethylene derivatives has been used in the synthesis of l,4-dialkylamino-l,4-dihydropyrazines (Scheme 61) (77S136). 

Scheme 4 shows in a general manner cyclocondensations considered to involve reaction mechanisms in which nucleophilic heteroatoms condense with electrophilic carbonyl groups in a 1,3-relationship to each other. The standard method of preparation of pyrazoles involves such condensations (see Chapter 4.04). With hydrazine itself the question of regiospecificity in the condensation does not occur. However, with a monosubstituted hydrazine such as methylhydrazine and 4,4-dimethoxybutan-2-one (105) two products were obtained the 1,3-dimethylpyrazole (106) and the 1,5-dimethylpyrazole (107). Although Scheme 4 represents this type of reaction as a relatively straightforward process, it is considerably more complex and an appreciable effort has been expended on its study (77BSF1163). Details of these reactions and the possible variations of the procedure may be found in Chapter 4.04. 

In a scheme intended to produce a more highly substituted oxazolidone, epichlorohydrin is condensed with morpholine in the presence of strong base to give the aminoepoxide, 27. Ring opening of the oxirane by means of hydrazine gives the hydroxy-hydrazine (28). Ring closure with diethyl carbonate leads to the substituted oxazolidone (29). Condensation with 18 affords furaltadone (30). ... 

Azelastine (107) is an antiallergic/antiasthmatic agent prepared from 4-chlorobenzyl-2 -car-boxyphenylketCHie (105) by condensation with hydrazine to give the phthalazinone (106) followed by reaction of the sodium salt of this last with 2-(2-chloroethyl)-N-methylpyrrolidine (presumably involving nucleophilic ring expansion of the bicyclic quaternary salt putatively formed as a first product) to complete the synthesis [30]. 

The potential of such reaction sequences for the generation of molecular diversity was also demonstrated by the synthesis of a library of heterocycles. Epoxide ring-opening with hydrazine and subsequent condensation with (3-diketones or other bifunctional electrophiles gave rise to a variety of functionalized heterocyclic structures in high purity [34]. A selection based on the substrate derived from cyclohexene oxide is shown in Scheme 12.12. 

Unactivated aziridines, such as 24, are not as reactive as their N-sulfonyl analogues. Nevertheless, in aqueous conditions they react with different nucleophiles, as Scheme 12.23 illustrates. Treatment with buffered azide at 50 °C gave 25 in 90% yield. Hydrazine proved potent even at room temperature and 26 was fonned in 95 % yield, while phenyltetrazole required heating at reflux in water. The resulting amines participated in dipolar cycloadditions with alkynes and condensations with P-diketones. 

The product of condensation of a hydrazine and an aldehyde or ketone is called a hydrazone. Hydrazine itself gives hydrazones only with aryl ketones. With other aldehydes and ketones, either no useful product can be isolated, or the remaining NH2 group condenses with a second mole of carbonyl compound to give an azine. This type of product is especially important for aromatic aldehydes ... 

The methoxymethyl ether protecting groups of 33 were then cleaved using triphenylphosphine and carbon tetrabromide. The resulting hydroquinone function was oxidized by palladium on carbon under an atmosphere of air to afford the quinone 52 (70 %). A two-step procedure was implemented to install the diazo function. First, the ketone function of 52 was condensed with N,N -bis( tert-butyldimethylsilyl)hydrazine in the presence of scandium triflate, which formed the Af-tert-butyldimethylsilyl hydrazone 53. The hydrazone (53) was then oxidized using difluoroiodobenzene to afford kinamycin C (3) in 35 % yield. 

A one-pot process to form 1,3,4-substituted pyrazoles 25 by Suzuki coupling of arylboronic acids to chromone 24, followed by condensation with hydrazine has been reported <06JCO286>. The synthesis of 3 or 5-o-hydroxyphenol-4-benzylpyrazoles has been accomplished by treatment of 3-benzylchromones, 3-benzylflavones and their 4-thiochromone analogs with hydrazine hydrate in hot pyridine <06EJO2825>. 

Condensations with hydrazine also yield pyridazines. For example, Shvartsberg and coworkers treated pen -acetylenic naphthoquinones 156 with hydrazine to give the six-membered pyridazine ring 158 after cyclization <00TL771>. 

Starting from the known isothiocyanate 351 <1998JHC29>, the cyclization of the semicarbazide 352, obtained from compound 351, by condensation with hydrazine hydrate, gives thione 353, whose nitrosation and reduction... 

Derivatives of 1,2,4-trizaoles were obtained from Gly-OEt when condensed with dimethyl cyaniminodithiocarbonic acid and thereafter with hydrazine hydrate (Scheme 32) (71AG886). 

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