Hydrazine 6- pyridazin

Many other [c]-fused pyridazines have been prepared similarly. 6-Methylpyridazine-3,4-dicarbalde-hyde (415) with hydrazine gives 3-methylpyridazino[4,5-c]pyridazine (416) (73JHC1081). 5-Oxo- and 5,8-dioxo-substituted pyridazino[4,5-c]pyridazines are prepared from ethyl 3-formylpyridazine-4-carboxylates and diethyl pyridazine-3,4-dicarboxylates, respectively, with hydrazine. Pyridazine-3,4-dicarbonitrile (417) with hydrazine gives the diamino heterocycle (418) (67JHC393). 

Hydrogenolytic cleavage of the hydrazine group in hydrazine pyridazines in the presence of Raney nickel has been used particularly in connection with the synthesis of diaminopyridazines. Syntheses of... 

Hydrazine Pyridazine-3,6-diol ring from dicarboxylic acid hydrazides... 

Another exemplar of the power of multi-step library synthesis is the optimisation of a PDE2 inhibitor HTS hit (Scheme 18.36). The HTS hit itself was derived from a library that was synthesised to enrich the Pfizer screening collection. Key steps in the library synthesis involved reaction of the commercial dichloro pyrazine H with a range of alcohols, followed by reaction of the intermediate chloroalkyoxy pyrazine with hydrazine. Finally, the hydrazine pyridazine I was reacted with a number of aldehydes under oxidative conditions to form the triazolo pyrazine derivatives. This library allowed the project team to find key SAR directions for improvinbg selectivity vs. other PDEs. ... 

There are several examples of replacement of methoxy and ethoxy groups in substituted pyridazine N- oxides, with ammonia or hydrazine producing the corresponding amino and hydrazino compounds. 

Pyridazinecarbohydrazides are prepared in the normal way from an ester or acid chloride and hydrazine or a substituted hydrazine, generally in good yields. Pyridazines with two ortho alkoxycarbonyl groups give cyclic hydrazides with hydrazine, which are pyridazinopyridazines. 

AK(30)26l). 2-Acetoxyfuran-3(2i/)-ones react with hydrazine to give 3,6-disubstituted-4-ethoxycarbonylpyridazin-4(li/)-ones (184) as the main product, but with mono-substituted hydrazines in addition to these pyridazines anhydro-5-hydroxypyridazinium hydroxide (185) derivatives and some pyrazole derivatives are also formed (Scheme 102) (79JOC3053). The... 

Pyridazines are formed from pyrones or their thioxo analogs or from appropriate pyridones. Pyrones or pyridones react with diazonium salts to give the corresponding hydrazones (187) and (188) which are rearranged under the influence of acid or base into pyridazinones as shown in Scheme 107. On the other hand, kojic acid is transformed with hydrazine into a 1,4-dihydropyridazine and a pyrazole derivative. 4H-Pyran-4-thiones... 

The most useful syntheses of pyridazines and their alkyl and other derivatives begins with the reaction between maleic anhydride and hydrazine to give maleic hydrazide. This is further transformed into 3,6-dichloropyridazine which is amenable to nucleophilic substitution of one or both halogen atoms alternatively, the halogen(s) can be replaced by hydrogen as shown in Scheme 110. In this manner a great number of pyridazine derivatives are prepared. 

Hydroxyphthalazin-l(2//)-one is obtained in a smooth reaction between phthalic anhydride and hydrazine hydrate and this is again the starting compound for many 1-substituted and/or 1,4-disubstituted phthalazines. The transformations of 1,4-dichloro-phthalazine, which is prepared in the usual manner, follow a similar pattern as shown for pyridazines in Scheme 110. On the other hand, phthalonitrile is the preferential starting compound for amino- and hydrazino-phthalazines. The most satisfactory synthesis of phthalazine is the reaction between a,a,a, a -tetrachloro-o-xylene and hydrazine sulfate in sulfuric acid (67FRP1438827), alt iough catalytic dehalogenation of 1-chloro- or 1,4-dichloro-phthalazine or oxidation of 1-hydrazinophthalazine also provides the parent compound in moderate yield. 

Selective substitutions have been most studied in the pyrido[3,4-tf]pyridazine field. The 1,4-dichloro derivative (334) was more reactive than 1,4-dichlorophthalazine, and was expected from MO calculations to show a more reactive 4-chlorine group. In practice, however, almost equal amounts of monosubstitution products were observed on hydrolysis, although slight differences in the use of alkaline and acid conditions, or on hydrazination, have been reported (69CPB2266). Reaction of this 1,4-dichloro compound, or substituted... 

In forcing conditions with excess of reagents the 5,8-bis derivative was obtained in the above cases, with hydrazine and with sulfur nucleophiles. Other authors have also observed selective reactions in the pyrido[2,3-[Pg.242]

Few reactions of this type are recorded. The azidopyridazinone ester (349) on reduction with triethyl phosphite, hydrazine or borohydride furnished the pyrido[2,3-c]pyridazin-7-one (350) (79JHC1559), whilst an A-aminopyrido[2,3-c]pyridazine (352) resulted from the... 

The vast majority of syntheses of pyrido[2,3-t/]- and pyrido[3,4-t/]-pyridazines fall into this category, resulting from the cyclization of various o-substituted pyridine derivatives (2,3- or 3,4-, respectively) with hydrazine or its congeners. 

Pyrazolo[3,4-d]pyridazines (555) can be prepared readily from hydrazines and pyrazoles substituted in positions 4 and 5 with an acyl and an ester group, or with two ester groups. 4,5-Pyrazolinediones have been used as starting materials for the synthesis of the quinoxaline derivatives (548) (see above) and of pyrazolo[3,4-e][l,2,4]triazines (556)... 

Repeat your analysis for pyridazine. Do any of the resonanee eontributors provide an adequate deseription of its geometry Does pyridazine incorporate a nitrogen-nitrogen double bond (Refer to hydrazine and to diimide as examples of moleeules ineorporating NN single and double bonds, respeetively.)... 

Some substituents such as the acylamino group are readily decomposed by many nucleophiles to give a poorer leaving group (e.g., amino). Others, such as nitroamino and sulfonylamino, are less reactive when they are anionized by the nucleophile. 3-Nitroamino-pyridazine (117) and its 6-methyl derivative are readily aminated with benzylamine (130°, short time ). 4,6-Dimethyl- and 6-methyl-2-nitroaminopyrimidine undergo 2-substitution on warming a few minutes with hydroxylamine, hydrazine, primary or secondary alkylamines, or anilines. 

Factor b above is discussed in Sections II, B, 1 II, B, 4 and II, C. A hydrogen-bonded structure such as 221 can account for the facile reaction of 5-bromouracil or for the unique, so-called hydrolyzability of carboxymethylthio-azines (237). The latter may also react via the intramolecular mechanism indicated in 136. The hydrogen-bonded transition state 238 seems a reasonable explanation of the fact that 3,4,6- and 3,4,5-trichloropyridazines react with glacial acetic acid selectively to give 3-pyridazinones while other nucleophiles (alkoxides, hydrazine, ammonia, or sulfanilamide anion) react at the 4- and 5-positions. In this connection, 4-amino-3,5-dichloro-pyridazine in liquid hydrazine gives (95°, 3hr, 60%yield)the isomer-... 

Reaction of diacylfuroxans with hydrazine dihydrochloride gave furoxano-pyridazines (55JA4233, 77MI2, 99KGS1259), whereas treatment with hydrazine hydrate in acetic acid afforded furazanopyridazines (Scheme 63) (92JHC87). 

Zwitterionic 2-oxo-l,2,3,4-tetrahydropyrido[l,2-ft]pyridazine 78 was obtained from 6-(3-methoxycarbonylpropionyl)-l,l-dioxo-l,2-thiazine 76 with hydrazine hydrate via pyridinium betaine 77 (99JPR37). 

A mixture of 12.6 g of benzoyl chloride in 100 cc of ethylene chloride is added dropwise to a suspension of 25.6 g of 3ethylene chloride and 21.8 g of triethylamine within 18 minutes at room temperature while stirring. The mixture is stirred at room temperature for a further 14 hours, 200 cc of water are added, the organic phase is separated and concentrated to an oil in a vacuum. Upon adding ether/dimethoxy ethane to this oil, crude 6-ben zoy I-3absolute ethanol with the addition of a small amount of coal, the compound has a melting point of 125°C to 127°C (decomp.). Displacement of the halogen with hydrazine leads to the formation of endralazine. 

Pyridazines 160 were obtained by microwave-assisted reaction of 1,4-dicarbonyl compounds and hydrazine in AcOH and in the presence of DDQ as oxidant in order to obtain the aromatic compound in a one pot reaction [ 105]. The yields reported were relatively low although the method can be applied to the preparation of arrays of trisubstituted pyridazines with high molecular diversity (Scheme 57). 

The coupling of enals and glyoxals was realized by hydrogen-mediated reaction with the cationic Rh complex and PI13P [35]. The intermediate aldehyde enolates derived via Rh-catalyzed hydrogenation were trapped with glyoxals to form (l-hydroxy-y-kclo-aldchydes, which were treated sequentially with hydrazine to give pyridazines in a one-pot transformation to provide, for example, a 62% yield of 72 (Scheme 21). 

A pyridazine has found use as an antihypertensive agent. When levulinic acid is reacted with hydrazine, 153 results. This is aromatized to pyridazine 154 when reacted with bromine in acetic acid. One presumes a spontaneous dehydrobromination... 

The quinazoline and the pyridazine rings of 110 are formed by tandem cyclizations from [5+1, 6+0] fragments when heating the benzoxazinones 109 with hydrazine or phenylhydrazine (Equation 11) <1996CHJ437, 1996CHJ532>. 

---