Methyl malononitrile

The TT-allylpalladiLim complexes formed as intermediates in the reaction of 1,3-dienes are trapped by soft carbon nucleophiles such as malonate, cyanoacctate, and malononitrile[ 177-179). The reaction of (o-iodophenyl-methyl) malonate (261) with 1,4-cyclohexadiene is terminated by the capture of malonate via Pd migration to form 262. The intramolecular reaction of 263 generates Tr-allylpalladium, which is trapped by malononitrile to give 264. o-[odophenylmalonate (265) adds to 1,4-cyciohexadiene to form a Tr-allylpalladium intermediate via elimination of H—Pd—X and its readdition, which is trapped intramolecularly with malonate to form 266)176]. 

Other pyrimidine starting materials include 5-amino-6-methyl derivatives, which with oxalates give 6,7-dihydroxypyrido[3,2-acid derivatives, which with malononitrile are converted into 5,6-dihydro-7-aminopyrido[2,3-[Pg.227]

Cycloaddition of 2-styryl-4/7-3,l-benzoxazines and malononitrile gave 1 -amino-3-aryl-2-cyano-1 //,6//-pyrido[l, 2-n][3, l]benzoxazin-4-ones (99ZN(B)923). These tricyclic derivatives were also prepared in the reaction of 2-methyl-4//-3,l-benzoxazin-4-one and arylidenemalononitrile in AcOH in the presence of NaOAc. 

Malononitrile, 66 Methylamine hydrochloride, 112 Methyl -amyl ketone, 60 Methyl benzoate, 51 Methyl chloride, 32, 36... 

Knoevenagel adduct 239 of oxohomophthalimide 240 with malononitrile 27a in reactions with CH-acids behaves ambiguously (82CPB1215). Reactions of 239 with acetylacetone, ethyl esters of acetoacetic and ben-zoylacetic acids, as well as methyl pyruvate led to the formation of the desired spiropyrans 241. However, benzoylacetone, dibenzoylmethane, cyanacetamide, and oxindole always gave the same 242. Authors explain this feature in terms of a retro-cleavage of adducts of Michael product 239... 

Scheme 6.69 Products obtained from the 12-catalyzed asymmetric Michael addition of malononitrile, nitromethane, and methyl a-cyanoacetate to N-cinnamoylbenzamide derivatives (acylic imides) and 12-catalyzed derivatization of the Michael adduct.

The addition of nitromethane (56% yield/168h 87% ee) or methyl a-cyanoacetate (94% yield/52h 82% ee) as alternative CH-acidic methylene compounds required increased reaction temperatures (60 to 80 °C) to furnish the adducts 7 and 8. As exemplarily depicted in Scheme 6.69 for benzylic alcohol thiourea 12 catalyzes the transformation of the obtained malononitrile Michael products to the respective carboxyhc acid derivatives (89% yield/88h). This method of derivatization also described for methanol (87% yield/24h rt), benzyl amine (77% yield/3h rt), and N,0-dimethylhydroxyamine (75% yield/20h 60°C) as nucleophiles was reported to be feasible as a one-pot strategy without isolation of the initially formed Michael adduct [222]. 

Carrie and co-workers studied the cycloaddition of oxime esters derived from methyl cyanoacetate and malonate esters 82 (Scheme 8.20) with diazomethane and some monosubstituted derivatives. Thermally labile 1,2,3-triazolines 83 were obtained when tosyloxy- and benzoyloxyimines were used (141), while methyl acetoxyimino-cyanoacetate (82, X = CN, Y = C02Me, = Ac) gave products derived from both a 1,2,3- and a 1,2,4-triazoline, depending on the stmcture of the diazo compound (142). Not unexpectedly, diazomethane reacted with the corresponding imino-malononitrile (82, X = Y = CN) system at the nitrile function rather than at the C=N bond (143). 

The constrained bis(oxazolines) 9a and 9b can be constructed beginning with malononitrile 32 as shown by Ghosh and co-workers. Thus, treatment of 32 with anhydrous hydrochloric acid in dioxane, as shown by Lehn and co-workers, yielded imidate salt 33 (Fig. 9.9). Condensation of the imidate salt with commercially available (15,2/ )-l-aminoindan-2-ol afforded the conformationally constrained bis(oxazoline) inda-box 9a. Alkylation at the bridging methylene of 9a was carried out by Davies and co-workers.Treatment of 9a with lithium diisopropylamide followed by alkylation with methyl iodide afforded 9b. Alternatively, alkylation with diiodoalkanes incorporated ring systems at the bridging position (structures 34a-d). 

The reactions of methyl 2-formyl-677 or 6-substituted furo[2,3-. ]pyrrole-5-carboxylates 31d-f or 154 <1997MOL69, 1999CCC1135> with malononitrile, methyl cyanoacetate, and 2-furylacetonitrile, respectively, afforded the corresponding methyl 2-(2,2-dicyanovinyl)-677- or 6-substituted furo[2,3-. ]pyrrole-5-carboxylates 294a-d, methyl 2-[2-cyano-2-(methoxycarbonyl)vinyl]-677- or 6-substituted furo[2,3-. ]pyrrole 5-carboxylates 295a-d, and methyl... 

Synthesis of tetrahydropyrido[2,3-,y pyrimidin-7-ones 537 in a microwave-assisted one-pot cyclocondensation of a,/3-unsaturated esters with active methylene compounds (malononitrile or methyl cyanoacetate) and amidine salts (guanidine or benzamidine) in NaOMe/MeOH for 10min has been reported <2003TL5385>. 

Transformation of both the ester and nitrile derivatives 726 or 727 into pyrano[2,3-t7 pyridazines 728 or 729, respectively, by treatment with dilute HCl at room temperature involved nucleophilic displacement of the morpholine group by the hydroxyl group with an acidic hydrolysis followed by intramolecular iminolactonization and then hydrolysis of the formed imino group to a carbonyl group. Compounds 726 and 727 were prepared by Vilsmeier-Haack formylation of 2-methyl-5-morpholino-3(2/7)-pyridazinone 724 followed by condensation of the resulting product 725 with either ethyl a-cyanoacetate or malononitrile in EtOH (Scheme 34) <1994H(37)171>. 

Alternatively, substituting malononitrile with methyl cyanoacetate in the thiophene forming reaction gave 25 with a carbo methoxy group at the 3 position of the thiophene (Scheme 6). Compound 25 was reacted with 2-fluoronitrobenzene as in Scheme 5 to form 26 and hydrogenation of the nitro group provided 27. The crude... 

Reaction of anthranilonitrile or methyl anthranilate with 3-hydroxy-2-butanone followed by malononitrile gave the pyrrolo [1,2-a] quinazoline 16 (79AP552). Both of the diazine and azole rings of pyrroloquinazolines were also simultaneously formed by cyclization of the anilide 17 derived from 3-chloropropionic acid and 2-aminobenzophenone with potassium cyanide to afford the pyrrolo [1,2-a] quinazoline 18 (68JHC185 71USP3595861). 

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