Reactions of Amines. VII. The Reactions of α-Amino Ketones with

Publication Date: January 1961. ACS Legacy Archive. Cite this:J. Am. Chem. Soc. 1961, 83, 2, 399-404. Note: In lieu of an abstract, this is the articl...
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a-AMINOKETONESWITH NITROUSACID

Jan. 20, 1961

cinenic acid rearrangement; to Dr. Herbert Weissbach for samples of DBC and BC; t o Dr. Arnold Pratt for advice concerning gas manipula-

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tion; and to Dr. Roscoe Brady for making available before publication the method for preparation of methylmalonyl CoA.

[CONTRIBUTION FROM AVERYLABORATORY, UNIVERSITY OF NEBRASKA, LINCOLN 8, NEBR. ]

Reactions of Amines. VII. The Reactions of &-Amino Ketones with Nitrous Acid1,2 BY HENRYE. BAUMGARTEN AXD CHARLES H. RECEIVED JUNE 21, 1960

ANDERSON3

The reactions of several a-amino ketones, RCOCH(NHz)R’, with nitrous acid yielded, in addition to a-hydroxy ketones and a-diazo ketones, acidic products, RCOzH and RR’CHCOzH. When R ’ = H only cleavage product RCOzH was formed but when R ’ # H both the cleavage acid and the rearrangement product RR’CHCOzH were formed. The remaining cleavage fragments appear to be the alcohols or oldins to be expected from the acid-catalyzed decomposition of the diazo hydrocarbon intermediate, R’CHN2. Mechanisms to explain these observations are given.

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V) and of the rearrangement reaction (I VI) ; therefore, we have little to contribute a t this time relative to the formation of products like I1 and I11 other than that their presence was noted in almost every experiment (by infrared techniques) and that yields of I1 seem t o be better when R’ # XHz H. Reactions leading to these products will be I HONO RCOCHR’ RCOCX2R’ RCHOHCOR’ ignored in the following discussion and comparisons I 11 I11 will be made between only the cleavage and rearrangement reactions. RCOaH R”Y R>CHCO~H a-Amino ketones (I) for which R = aryl and R ’ R‘ = H appear to give only cleavage products (IV -IIV V VI V) . Rigorous examination of this generalization Series a, R = CeH5, R’ = H has been made only for phenacylamine (Ia), but in b, R = R’ = CfHs C, R = CaHs, R = CH3CHzCHz the examination of a number of substituted phend, R R’ = -CHzCHzCHzCHzacylamines no evidence has been obtained for the The reaction of I with nitrous acid to give a diazoke- presence of other acidic products (Table I). I n tone (11) was fist described by Schiff and Maissen4 the case of phenacylamine, the expected acidic prodand later was used with modest success by AngelL5 ucts would be benzoic (IVa) and phenylacetic The formation of benzoin from desylamine is an acids (VIa). I n model experiments mixtures of example of the formation of a product of type III.6 these acids could be converted to the methyl esters Apparently the only report of the formation of an and the latter separated by gas chromatography in acid of type IV is that of Angeli,5cwho reported the such a manner as to permit the facile determination formation of benzoic acid (IVa) when phenacyl- of less than 1% of phenylacetic acid in the presence amine (Ia) was treated with nitrous acid. Angeli of benzoic acid. When the crude acid obtained from suggested two possible sources of the benzoic acid, the reaction of phenacylamine with nitrous acid oxidation of the diazoketone IIa to the acid plus an was converted into the methyl ester and the ester unspecified fragment V and hydrolytic cleavage of examined by gas chromatography, no peak correthe diazoketone to the acid plus diazomethane (V, sponding to methyl phenylacetate was present. R” = CH2, Y = Nz). Very recently Edwards This result indicates that either the rearrangement and Lesage’ reported the first example of the forma- reaction does not occur with phenacylamine under tion of a product of type VI, cyclopentanecarbox- the conditions used or that i t occurs to the extent of ylic acid (VId), from the reaction of a-arninocyclo- well below 1% of the total acid product. Examinahexanone with nitrous acid. The latter communica- tion of a number of crude acid fractions with intion prompts us t o report the results of an examina- frared techniques tended to confirm this observation. A relatively large number of experiments were tion of the reaction of a number of a-amino ketones with nitrous acid, which has been and is being car- carried out with phenacylamine to determine the ried out in this Laboratory. optimum conditions for the cleavage reaction. Our completed studies have been restricted These appeared to involve the slow addition of acid largely to investigations of the cleavage reaction (I (sulfuric, hydrochloric or acetic acid) to an aqueous solution of phenacylamine hydrochloride and three (1) Paper VI, THISJ O U R N A L , 82, 4422 (1960). equivalents of sodium nitrite a t room temperature.* ( 2 ) The work was supported in part by grant G-3689 of the National Science Foundation. Under these optimum conditions the yield of ben(3) Abstracted from the Ph.D. thesis of C . H. A,, June, 1959. zoic acid was as high as 68y0. A number of sub(4) R. Schiff and P . Maissen, GQZZ.chim. itd., 11, 471 (1881). stituted phenacylamines were examined under the ( 5 ) (a) A. Angeli, Be?., 26, 1715 (1893); (h) A. Angeli, GQZZ. chirn. same conditions and gave yields in the range 70ital.. 2311, 345 (1893); ( c ) A. Angeli and G . Alalagnini, ibid., 2411, 318 (1894); (d) A. Angeli, ibid., 2611, 394 (1895). 7Syo(Table I).

Based on the work of previous investigators and on theoretical considerations one would predict that a-amino ketones should react with nitrous acid to give any or all of four feasible products (or sets of products), as illustrated in the sequence I +-VI.

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+ IV

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(6) P. W. Neber and G. Huh, A m . , 616, 283 (1935). (7) 0 . E. Edwards and M. Lesage, J . Org. Chem., 24, 2071 (1959).

(8) Cf. D . W.Adamson and J. Kenner. J . Chem. Soc., 838 (1934).

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HENRY

E. BAUMGARTEW AND

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TABLE I REACTIONOF a-AnrIso KETONESWITH NITROUS ACID H KO2 P-XCeH4COCHzNH3Cl ~JXCBH~CO~H X

Yield,

%

".Pa'

.

QC

Yield b ether-sol. product, g.

68 122-122.5 1.47 72 253-255 1.69 c1 76 239-241 1.95 CHlO 73 182 5-184 1.57 so2 70 236-239 1.64 1.49 CHI 78 177.5-179 a M.p.'s reported in ref. 23: 122", 251-253", 243", 184.2", 238" and 181",respectively. Pieutral material from 0.05 mole of amino ketone. H Br

In the cleavage reaction of phenacylamine there must be a one-carbon fragment (V) formed in addition to the benzoic acid. Although AngeliScsuggested that this fragment might be diazomethane, no evidence was offered to this effect. Actually three fairly reasonable mechanisms can be written for the cleavage reaction leading to the formation of formic acid, hydrogen cyanide or diazomethane, respectively. Misled a t first by the apparent odor of cyanide, which often appears with this reaction, we carried out a rather rigorous examination for the presence of hydrogen cyanide in the products. None was found. However, after this work was completed Yates and Shapirog reported that diazoacetophenone was cleaved by sequential treatment with aqueous alkali and mineral acid into benzoic acid, hydrogen cyanide and hydroxylamine. Since there was a reasonable possibility that the cleavage reaction of a-amino ketones with nitrous acid and the base-catalyzed cleavage of diazoketones might proceed by the same or similar mechanisms, we repeated our search for evidence of cyanide. Although we were able to detect readily the presence of deliberately added sodium cyanide (corresponding to a 12% yield benzoic acid), only negative tests for cyanide were obtained in the absence of added cyanide ion. Tests for hydroxylanline were not made, for preliminary experiments showed that it reacted too rapidly with nitrous acid for detection by the usual techniques. These results appear to indicate that, when I