DE844446C - Process for the preparation of amides or substituted amides of amino acids or peptides - Google Patents

Description

Process for the preparation of amides or substituted amides of Amino acids or peptides The present invention relates to a method of preparation of amides or substituted amides of amino acids or peptides. Such connections are important not only as intermediates, but also as effective remedies.

The usual method for the synthesis of amino acid amides or peptide amides consists in the conversion of halides of the underlying acids with ammonia or amines. These halides can often not be presented in pure form, e.g. B. disintegrate the chlorides of carbobenzoxylated amino acids with elimination of benzyl chloride into internal anhydrides.

Another way of obtaining amides is via the esters, which be reacted with ammonia or amines. This procedure is especially useful for sensitive people Peptides have the disadvantage that transamidation or even disintegration occur can.

It has now been found that, starting from amino acids or peptides, the desired amides can be obtained if anhydrides of the general formula are used obtained from amino acids or peptides and any carboxylic acid, with ammonia: k. or. Amino compounds of the general formula H N by adding the calculated amount of base to acid derivatives of the general formula implements. In the above formulas, R denotes a _ #, alkyl, acyl or other radical which is suitable for protecting an amino group and which can subsequently be easily split off again, X any organic radical as it is present in amino acids or peptides, Y i hydrogen atom , i alkyl-. Aryl, aralkyl or similar group, Z and Z 'i hydrogen atom or an organic radical located on the reacting amino group.

The subject of patent 8: I0 243 is a method for production of peptides, with anhydrides of the type mentioned above with amytio acids, lower molecular peptides or their esters by adding the calculated amount of base Peptides are implemented. This procedure is not the subject of the present Invention.

When the anhydrides used according to the invention are reacted with ammonia or with any amino compounds according to the process of the present invention, the desired amides and the salt of the other carboxylic acid on which the anhydride in question is based are formed in the presence of bases according to the following reaction equation: The anhydrides used according to the invention are prepared as indicated in the earlier patent mentioned above.

When carrying out the method according to the invention, it is not necessary to isolate the anhydride in each case. One can also do that in anhydrous Medium generated anhydride directly with ammonia or the solution of an amino compound realize.

The method according to the invention has numerous advantages over this the known modes of presentation for amides, in particular the production falls of the labile amino acid chlorides. There is no for carrying out the reaction Warming necessary. The conditions are so mild that even sensitive components Can be used.

The method according to the invention is intended below with reference to a few Embodiments are explained in more detail.

Working examples 1. Production of phthalylglycine anilide. 2 g of aniline were added to ig N-phthalylglycine benzoate, and so much 2 .n hydrochloric acid was added over the course of 5 minutes that the oily aniline dissolved. A crystallized substance remained, which was filtered off with suction. After washing with dilute ammonia, it was recrystallized from aqueous alcohol. Yield: 1.39, m.p. = 231 °. Cie Ht2N203 (28o, 27) Ber .: C 68.56 H 4.32 N io, o Found .: C 68.35 H 4.52 N 9, 72 2. Manufacture of carbobenzoxycystianilide. 2.5 g of Carl above zoxycystine and 1.2 g of ethylpiperidine were gellst in 50 cc of benzene and treated with 1.4 g of betizovl chloride. Ethylpiperidine hydrochloride separated out and was filtered off. 1.5 g of aniline were added to this solution of the anhydride @ el'izol and left to stand for 10 minutes. The benzene was then evaporated in vacuo and 2N hydrochloric acid was added to the oily residue. A white substance separated out, which after recrystallization in methanol had a melting point of 212 °, whereby it began to sinter at about 200 °. Yield: 2.5 g.

C34 H3206N4 @ 2 `. 1 11 20 (676.77) Calc .: C 6o, 33 H 5, o3 N 8.28 Found: C 6o, 29 H 5.35 N 8.36 3. Preparation of Carl> above zoxycystinamide. The anhydride was as indicated in l3cislüel 2, prepared. An ätlierischen ammonia solution was then added, whereby the amide precipitated. It was boiled with a little methanol, washed with water, dried in vacuo and recrystallized from: @lethanol. _ \ us yield about 6o%. F. = 182J (dec.). C2aH24GeN4 '# 2 (S1) 434) Eggs .: N ii, ii Found: No, 8 4. Production of carbol> enzoxyglycyl-p-aminobenzoic acid. ig carbobenzoxyglycine was slurried in 5 cc of beonitrile and brought into solution with 0.6 g of ethyl piperidine. The solution of the anhydride was obtained by adding 0.7 g of benzoyl chloride and this was made to react with the alkaline solution of 0.7 g of p-aminobetizoic acid. After the benzonitrile had been etherified, the alkaline IJ:) solution was acidified with 2% hydrochloric acid. It turned out to be yellow: @s 01 which was still contaminated with benzonitrile. It was then separated from the aqueous layer and dried in vacuo. The dried substance was dissolved in tetrahydrofuran and precipitated with petroleum ether. Yield: 0.8 g, m.p. = 224 °.

The ninhydrin sample was positive after hydrolysis with concentrated hydrochloric acid. C17H16N, Us 332.3) Calc .: N 8.47 Found: N 8.85 5. Preparation of phthalylglycylglycianilide. 1.8.5 g of the silver salt of phthalylglycylglycine were slurried in nitrobenzene and shaken with 0.79 benzoyl chloride at 80 °. After the silver chloride had been centrifuged off, 1 cc of aniline was added to the filtrate. The anilide precipitated with petroleum ether and (las precipitated 01 acidified with hydrochloric acid. Finally it was recrystallized from alcohol. Mp = 262 °. C1βH, 5 @ 304 337.33) Calc .: C 64.07 H 4.48 \ 12.4 Found: C 63.83 H 4.42 N 12.1 6. Preparation of carbobenzoxyglycylglycianilide. 1.3 g of carbobenzoxyglvcylglycine were converted into the anhydride via the piperidinium salt in benzonitrile solution. Aniline was added and acidified. The anilide was precipitated from the benzonite solution with petroleum ether and recrystallized from alcohol.

M.p. = 198 °, yield: 1.5 g. C1814tsNa0i 341.35) $ e-- .: ('635o H 5.56 N 12.4 G ° f .: C (i3.28 H 5.66 N _12.7

Claims (2)

PATEN TA \ SPRü C11E: t. Process for the preparation of amides or substituted amides of amino acids or peptides, characterized in that (let matt anhydrides, which were obtained from amino acids or peptides and any carboxylic acid, of the general formula with ammonia or amino compounds of the general formula with the exception of amino acids and peptides or their esters, by adding the calculated amount of base, to amides or substituted amides of the general formula converts, in which R is an alkyl, acyl or other radical suitable for protecting an amino group, which can subsequently be easily split off again, 1 any organic radical such as is present in amino acids or peptides, 1'i hydrogen atom, t alkyl, acyl -, aralkyl or similar group, Z and Z 't denote hydrogen atom or an organic radical located on the reacting amino group. 2. Process according to claim 1, characterized in that the amino groups, the should not take part in the reaction, through an easily split off again Rest protects.