Formyl acetic acid

This acid may be considered as a homologue of glyoxylic acid but as it is really a ketone acid in its formation and reactions it will be mentioned a little later. 

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Generally, there is no limitation in the 1,3-dicarbonyl compound used. However, several types of these substances are not stable, such as malone dialdehydes or formyl acetic acid. In such cases, l,l,l-trichloro-4-oxo-butanone 96 is an appropriate substitute, since the trichloromethylcarbonyl moiety can easily be transformed into a carboxylic acid ester after the reaction by treatment with an alcohol and a... 

Condensation of Formyl Acetic Acid with Guanidine... 

Formyl acetic acid and guanidine undergo cyclization after condensation in the presence of fuming sulphuric acid with the loss of two moles of water. The cyclized product imdeigo keto-enol tautomerism, when the enoMorm, i.e., 4-hydroxy-2-amino pyrimidine is subsequently chlorinated with either phosphorus oxychloride (POCI3) or chlorosulfonic acid (CISO2OH) and finally reduced with zinc metal and ammonium hydroxide to obtain 2-amino-pyrimidine. 

A mild procedure which does not involve strong adds, has to be used in the synthesis of pure isomers of unsymmetrically substituted porphyrins from dipyrromethanes. The best procedure having been applied, e.g. in unequivocal syntheses of uroporphyrins II, III, and IV (see p. 251f.), is the condensation of 5,5 -diformyldipyrromethanes with 5,5 -unsubstituted dipyrromethanes in a very dilute solution of hydriodic add in acetic acid (A.H. Jackson, 1973). The electron-withdrawing formyl groups disfavor protonation of the pyrrole and therefore isomerization. The porphodimethene that is formed during short reaction times isomerizes only very slowly, since the pyrrole units are part of a dipyrromethene chromophore (see below). Furthermore, it can be oxidized immediately after its synthesis to give stable porphyrins. 

The anhydride of formic acid has not been isolated, but mixed anhydrides are known, and, with acetic acid, the latter have utifity as formylating agents (22). The only known formyl haUde is the fluoride, which has a boiling poiat of —29° C. 

Tetramethoxyisoflavone (5) was the target of the cyclisation reaction of 3,4-dimethoxy-phenol (7) with formyl-(3,4-dimethoxyphenyl)acetic acid (2) in the presence of polyphosphoric acid. 

Cathylates are stable to oxidation with potassium chromate in acetic acid and with A-bromoacetamide, acetylation and formylation with 85 % formic acid at room temperature. They are cleaved by bases to give the parent alcohol, carbon dioxide and ethanol. 

Apparently the role of methanol is to intercept unstable species which otherwise tend to polymerize or rearrange. The methoxy peroxide (72) can be isolated in crystalline form if desired, but it is preferable to treat the methylene dichloride solution at 0° with zinc dust and acetic acid until the mixture shows a negative potassium iodide test. The resulting crude seco-aldehyde (73) is then cyclized to (74) by stirring with neutral alumina in benzene at room temperature for 3 hr. ° Wechter has recently reported a number of transformations of a 5yS-hydroxy-6yS-formyl-B-norpregnane prepared in 8% yield by photolysis and hydrolysis of a 5a-hydroxy-6 -azidopregnane. 

P-Formyl-B-nor-5 -cholestane-3, 5P-diol 3-Acetate (74). To an ozonized solution of 5 g of cholesterol acetate prepared as above is added 10 g of zinc dust followed by dropwise addition of 40 ml of acetic acid with stirring and... 

Into a mixture of 1.6 g of 2-amino-4-methylpyrlmidine with 10 ml of glacial acetic acid is slowly added 2.13 g of concentrated sulfuric acid. A mixture of 2.4 g of 2-formyl-1-methyl-5-nitroimidazole in 20 ml of glacial acetic acid is slowly added to the mixture of the pyrimidine under stirring. The reaction mixture is maintained at a temperature of about 55°C for 4 hours. The resultant mixture is then diluted with 200 ml of distilled water and neutralized with a saturated aqueous solution of sodium bicarbonate. A brownish-yellow precipitate (MP 232° to 235°C) is formed and recovered. The product is analyzed by infrared spectroscopy and is found to conform to 2-amino-4-[2-(1-methyl-5-nitro-2-imidazolyI)vinyl] pyrimidine. 

These reactions are most important for the preparation of acyl fluorides. " Acyl chlorides and anhydrides can be converted to acyl fluorides by treatment with polyhydrogen fluoride-pyridine solution" or with liquid HF at — 10°C. Formyl fluoride, which is a stable compound, was prepared by the latter procedure from the mixed anhydride of formic and acetic acids. Acyl fluorides can also be obtained by reaction of acyl chlorides with KF in acetic acid or with DAST. Carboxylic esters and anhydrides can be converted to acyl halides other than fluorides by the inorganic acid halides mentioned in 10-77, as well as with PhsPXa (X = Cl or but this is seldom done. Halide exchange can be carried out in a... 

Pr)4, " borohydride-exchange resin,and formic acid. When the last is used, the process is called the Wallach reaction. Conjugated aldehydes are converted to alkenyl-amines with the amine/silica gel followed by reduction with zinc borohydride.In the particular case where primary or secondary amines are reductively methylated with formaldehyde and formic acid, the method is called the Esch-weiler-Clarke procedure. It is possible to use ammonium (or amine) salts of formic acid, " or formamides, as a substitute for the Wallach conditions. This method is called the Leuckart reaction,and in this case the products obtained are often the N-formyl derivatives of the amines instead of the free amines. Primary and secondary amines can be iV-ethylated (e.g., ArNHR ArNREt) by treatment with NaBH4 in acetic acid. Aldehydes react with aniline in the presence of Mont-morillonite KIO clay and microwaves to give the amine. Formaldehyde with formic acid converts secondary amines to the N-methyl derivative with microwave irradiation. 

On the other hand, refluxing 9 in formic acid for 5 h afforded the N-formyl derivative 11 in high yield. Acetylation of 9 by refluxing in acetic acid, afforded acetic acid N -(2-(7-hydroxy-2-oxo-2H-chromen-4-yl)-acetyl)-hydrazide 12 in good yield. Compound 13 was also obtained by refluxing 9 with 3-(2-bromoacetyl)-4-hydroxy-2H-chromen-2-one in ethanol. Reaction of compound 9 with phenyl isothiocyanate in ethanol at room temperature gave 4-phenyl-1 - (7-hydroxy-2-oxo-2 H-chromen-4-acetyl- )thiosemicarbazide 14. 

Benzene and naphthalene compounds can be formylated under Vil-smeir conditions. The formyl compounds, with or without isolating, can be condensed with amino arenes to give leuco compounds. In this reaction, the benzhydrol intermediate is not isolated.21,79,84 86 The reaction is generally carried out in an alcohol solvent such as isopropanol, butanol, or pentanol and an acid catalyst such as hydrochloric acid, sulfuric acid, or methanesul-fonic acid.87 Acetic acid can also be used both as catalyst and as the solvent. Urea sometimes is added as catalyst.84,88 Terephthaldehyde reacts with W-diethyl-3-methylaniline89 and substituted azulenes to give a bis-triphenylmethane21 57 and 58, respectively. 

Reductive cyclization of 2-formyl-2 -nitrobiaryl compounds gives phenanthridine derivatives.136 The Stille coupling of nitroarylstannanes with 2-bromobenzaldehyde are used for the preparation of the requisite 2-formyl-2 -nitrobiaryls. Subsequent treatment of biphenyl derivatives with zinc dust in acetic acid gives the phenanthridine derivatives as shown in Eq. 10.80.137... 

Formylation of indole-2-carbohydrazides 644 gave the formylindole-2-carbohydrazide 645, which cyclized with phosphorus oxychloride to the corresponding 1,3,4-oxadiazolylindole 646. Treatment of the latter with hydrazine, followed by cyclization with formic or acetic acid gave [l,2,4]triazolo[3, 4 -/][l,2,4]triazino[4,5-fl]indoles 652 and 653, respectively [90IJC(B)372],... 

Other Methods of Preparation.—Ethyl 2-formyl-5-methyl-4-furoate has also been prepared by the oxidation of ethyl 2-(D-ara6ino-tetrahydroxybutyl)-5-methyl-4-furoate by means of periodic acid,8 sodium periodate,19 or minium ( red lead ) in acetic acid.66 It can also be prepared by the oxidation with sodium periodate of ethyl 2-(D-lyzo-tetrahydroxybutyl)-5-methyl-4-furoate,15 of ethyl 2-(D-fftreo-trihydroxy-propyl)-5-methyl-4-furoate,13 of ethyl 2-(o-erythro-trihydroxypropyl)-5-methyl-4-furoate,17 of ethyl 2-(L-eryfAro-trihydroxypropyl)-5-methyl-4-furoate,13 and of ethyl 2-(D-goIado-pentahydroxypentyl)-5-methyl-4-furoate.16... 

To 21.6 g phenylhydrazine dissolved in 300 ml 0.3N sulfuric acid, add 9.8 g concentrated sulfuric acid. Add dropwise with stirring and heating at 100°, 11.6 g methyl-beta-formyl-propionate in 300 ml 0.3 N sulfuric acid and continue heating six hours to get 14 g indole-3-acetic acid. Convert to the dialkyltryptamine as already described. 

Chemical/Physical. Ozonation in water at 60 °C produced 7-formyl-1-indanone, 1-indanone, 7-hydroxy-l-indanone, l-indanone-7-carboxylic acid, indane-l,7-dicarboxylic acid, and indane-1-formyl-7-carboxylic acid (Chen et al, 1979). Wet oxidation of acenaphthene at 320 °C yielded formic and acetic acids (Randall and Knopp, 1980). The measured rate constant for the gas-phase reaction of acenaphthene with OH radicals is 8.0 x 10 " cmVmolecule-sec (Reisen and Arey, 2002). 

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