Cyanoacetic ester

Alkylation of the sodio derivative affords the C-substituted cyanoacetic ester, which when heated with dilute acid gives the mono-substitut acetic acid. 

AEyl chloride reacts with sodamide in Hquid ammonia to produce benzene when sodamide is in excess, hexadiene dimer is the principal product, with some trimer and tetramer (C24, six double bonds). AEylation at carbon atoms alpha to polar groups is used in the preparation of a-aEyl-substituted ketones and nittiles. Preparation of P-diketone derivatives, methionic acid derivatives, and malonic ester, cyanoacetic ester, and P-keto-ester derivatives, etc, involving substitution on an alpha carbon between two polar carbonyl groups, is particularly facEe. 

The most convenient synthesis of 6-hydroxy-2-pyridones is by the condensation of a P-ketoester, eg, ethyl acetoacetate, with an active methylene compound, eg, malonic ester, cyanoacetic ester, and an amine. The amine can be omitted if an acetamide is used and in some cases this modification results in a higher yield. 

A major type of reaction in this class is the cyclization of 4-amino- or 4-halo-pyrimidines carrying 5-cyanoethyl or 5-ethoxycarbonylethyl groups, which cyclize to 7-amino or 7-oxo derivatives of 5,6-dihydropyrido[2,3- f]pyrimidine, e.g. (131)->(63). The intermediates may sometimes be prepared by reaction of 4(6)-aminopyrimidines with acrylonitrile, or even via a pyrimidine ring synthesis from an amidine and a cyanoacetic ester or malononitrile derivative, e.g. (132) -> (133) (7lJOC2 85, 72BCJ1127). 

Sulfur has also been added to the condensation product of enamines with cyanoacetic ester (575) and directly to enamines (576). A 2H-l,3-dithiol-2-thione was obtained from morpholinocyclohexene and tetramethylthiuram disulfide (577). 

The Gewald aminothiophene synthesis involves the condensation of aldehydes, ketones, or 1,3-dicarbonyl compounds 1 with activated nitriles such as malononitrile or cyanoacetic esters 2 and elemental sulfur in the presence of an amine to afford the corresponding 2-aminothiophene 3. ... 

The Guareschi-Thorpe pyridine synthesis is closely related to the Hantzsch protocol. The primary point of difference lies in the use of cyanoacetic esters. This modification assembles pyridine 23 by the condensation of acetoacetic esters 21 with cyanoacetic esters 22 in the presence of ammonia. A second variation of this method involves reaction of cyanoacetic ester 22 with P-diketone 24 in the presence of ammonia to generate the 2-hydroxypyridine 25. 

Mechanistically, one could envision a process initiated by ester/amide exchange brought about by the cyanoacetic ester with ammonia (22 27). Amide 27 could then... 

Guareschi imides are useful synthetic intermediates. They are formed from a ketone reacting with two equivalents of the cyanoacetic esters and ammonia. This transformation is illustrated in the formation of 4,4-dimethylcyclopentenone 30.The synthesis was initiated with the Guareschi reaction of 3-pentanone 27 with 28 to generate imide 29. This product was hydrolyzed to the diacid and esterified. Cyclization of the diester via acyloin condensation followed by hydrolysis and dehydration afforded the desired target 30. 

In order to expand the utility of the reaction, modification of the route to anilidomethylene malonic ester equivalents was developed. Simple condensation of triethyl orthoformate with cyanoacetic ester, acetoacetic ester, or malonic ester in the... 

In addition to /3-diketones, /3-ketoacids and /3-ketoesters, cyanoacetic ester and related compounds are suitable starting materials. The arylhydrazones 4 thus obtained are of great importance as starting materials for the Fischer indole synthesis, as well as for the preparation of other iV-heterocycles. ... 

As enolate precursors can be used CH-acidic carbonyl compounds such as malonic esters, cyanoacetic esters, acetoacetic esters and other /3-ketoesters, as well as aldehydes and ketones. Even CH-acidic hydrocarbons such as indene and fluorene can be converted into suitable carbon nucleophiles. 

AT1 cm ). and therefore, these dyes are excitable not only with red (635 or 670-nm) but also with blue (380, 405, and 470 nm) diode lasers or LEDs (Fig. 1). Carbonyl containing substituents such as 1,3-indanedione, cyanoacetic ester, barbituric, and thiobarbituric acid form intramolecular H-bond with the polymethine hydrogens of the squaraine bridge. As a result, the molar absorptivities and quantum yields of these dyes are substantially decreased. 

The Knoevenagel-type condensation of salicylaldehydes with malonic acid [14, 27], malonic ester [28], cyanoacetic ester [29], or Meldrum s acid [30], is... 

The stereoselective total synthesis of both ( )-corynantheidine (61) (170,171) (alio stereoisomer) and ( )-dihydrocorynantheine (172) (normal stereoisomer) has been elaborated by Szdntay and co-workers. The key intermediate leading to both alkaloids was the alio cyanoacetic ester derivative 315, which was obtained from the previously prepared ketone 312 (173) by the Knoevenagel condensation accompanied by complete epimerization at C-20 and by subsequent stereoselective sodium borohydride reduction. ( )-Corynantheidine was prepared by modification of the cyanoacetate side chain esterification furnished diester 316, which underwent selective lithium aluminum hydride reduction. The resulting sodium enolate of the a-formyl ester was finally methylated to racemic corynantheidine (171). 

Dihydrocorynantheine was obtained via similar steps from normal cyanoacetic ester 319 (172). Stereoselective transformation of the alio cyanoacetic ester 315 to the normal stereoisomer 319 was achieved by utilizing a unique epimerization reaction of the corresponding quinolizidine-enamine system (174). Oxidation of alio cyanoacetic ester 315 with lead tetraacetate in acetic acid medium, followed by treatment with base, yielded the cis-disubstituted enamine 317, which slowly isomerized to the trans isomer 318. It has been proved that this reversible eipmerization process occurs at C-15. The ratio of trans/cis enamines (318/317) is about 9 1. The sodium borohydride reduction of 318 furnished the desired cyanoacetic ester derivative 319 with normal stereo arrangement. The details of the C-15 epimerization mechanism are discussed by B rczai-Beke etal. (174). 

Smalley et al. reported the synthesis of the cyano-containing keto ester 98 by reaction of o-azidobenzoyl chloride 97 with cyanoacetic ester in the presence of triethylamine. This keto ester was then heated in acetonitrile for 30 min and gave the ring closed product 99 which was isolated in the fully aromatic tautomeric form 100 <1997S773>. A similar approach to tetrazolo[l,5- ]quinolines has been applied by a Korean research group in this case a reflux of the cyano-azido compound 101 for a longer period was needed in order to accomplish the cyclization to 4-acetoxymethyl-tetrazolo[l,5- ]quinoline 102 <2003JHC1103>. 

Unlike the corresponding reaction of p-keto esters with a,p-unsaturated aldehydes, which produce Michael adducts, a-cyanoacetic esters undergo the aldol reaction forming a-cyanodienoic esters [17]. 

P-keto esters with a,p-unsaturated aldehydes liquidrliquid two-phase conditions [20] but, in contrast, under analogous conditions a-cyanoacetic esters produce aldol adducts with a,p-unsaturated aldehydes [20], Ethyl acetoacetate undergoes a catalysed Michael reaction addition with trans but-2-en-l,4-diones the products are generally insufficiently stable for isolation, but can be converted into furans [21 ]. 

Pyridone formation from the condensation of cyanoacetic ester with diketone in the presence of ammonia. 

Valproic acid, 2-propylvaleric acid (9.4.3), is synthesized by the alkylation of cyanoacetic ester with two moles of propylbromide, to give dipropylcyanoacetic ester (9.4.1). Hydrolysis and decarboxylation of the carbethyoxy group gives dipropylacetonitrile (9.4.2), which is hydrolyzed into valproic acid (9.4.3) [12-15]. 

CCC3123, 90CCC718) with MN 27a or cyanoacetic esters 27b leads to pyrans 73 (Scheme 18). 

For the synthesis of aminotriacetylpyrans 84 a reaction of 3-bromoace-tylacetone 85 with cyanoacetic ester in ethanolic NaOH was employed. Possibly, it proceeds via the formation of acetylacetone dimer 86... 

Malononitrile and cyanoacetamide only give aminopyrans. However, in reaction with cyanoacetic ester 27b aminopyran 233 has been isolated from the mother liquor and also side product 234 from the cooled mixture. Mechanistic considerations have been proved by the isolation of a deace-tylated intermediate (95M615). Similar transformations occur in the synthesis of spiropyrans 235 from benzothiazole 236 (97G605) (Scheme 90). 

Cyanoacetamide also forms 2-amino-3-carbamoylpyran, and cyanoacetic ester gives a mixture of 2-amino- and 2-hydroxypyran, with the prevalence of the latter. 

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