A solution of
50 g. (1 mole) of sodium cyanide (98% purity) in 100 ml. of water is placed in a
2-l. round-bottomed flask (Note
1) fitted with a
ground-glass stopper. A solution of
58.9 g. (1.1 moles) of ammonium chloride in 140 ml. of lukewarm water is added, followed by
67 ml. (1 mole) of concentrated ammonium hydroxide (sp. gr. 0.9). This mixture is stirred mechanically and is cooled by a stream of water while a solution of
86.1 g. (1 mole) of diethyl ketone in
160 ml. of methanol (Note
2) is added. The flask is then stoppered (Note
3) and half immersed for 5 hours in a
water bath, the temperature of which is kept at 55–60°. The reaction mixture is then cooled in an
ice bath and poured (with precautions, i.e., under a properly ventilated
hood) into
800 ml. of concentrated hydrochloric acid (sp. gr. 1.18) contained in a
5-l. round-bottomed flask which is surrounded up to the neck by ice and water. The reaction flask is rinsed with two 25-ml. portions of water. The mixture is now saturated at 0–5° with
hydrogen chloride gas. After standing overnight under a hood, the mixture is refluxed for 2.5 hours (Note
4).
The solution is evaporated to dryness under reduced pressure on a water bath. In order to remove as much
hydrochloric acid as possible, the temperature of the bath is raised to 100° toward the end of the distillation. The residue of
amino acid hydrochloride and inorganic salts is suspended in
500 ml. of absolute ethanol. The suspension is boiled on a
steam bath for a short time, then cooled to room temperature and filtered on a
Büchner funnel. The residue of inorganic salts is washed with
500 ml. of absolute ethanol. To the combined filtrates is added
400 ml. of ethyl ether (
U. S. P. quality) in order to precipitate inorganic material. After several hours the mixture is filtered, and the residue is washed with a 5:2 mixture of absolute
ethanol and
ether. The filtrate is transferred to a
5-l. round-bottomed flask, about 200 ml. of water is added, and the liquids are removed by distillation under reduced pressure. The nearly dry residue is dissolved in 2 l. of water, and the solution is treated with an excess of freshly prepared
lead hydroxide (Note
5). The suspension is diluted with water to a volume of about 3.5 l. and is then concentrated under reduced pressure, at as low a temperature as possible, to a volume of about 2 l. The suspension is then filtered with suction (Note
6), and the residue of lead salts is washed thoroughly with water. The cloudy filtrate, which still contains some free
ammonia, is concentrated by distillation under reduced pressure to a volume of about 300–400 ml. The mixture is filtered, the filtrate is saturated with
hydrogen sulfide gas, and the precipitate of
lead sulfide is removed by filtration with suction (Note
6). The solution is now concentrated by distillation under reduced pressure on a water bath, and
1 l. of 95% ethanol is added to the nearly dry residue of the amino acid. The suspension is boiled under a
reflux condenser until nearly all the amino acid is dissolved, and the mixture is then allowed to cool to room temperature. The amino acid, which separates in the form of fine needles, is collected on a Büchner funnel and washed with a little
95% ethanol. A second crop of crystals is obtained by evaporating the combined filtrates to dryness, dissolving the residue in the minimum amount of hot water, and treating the solution with
95% ethanol. The amino acid is dried in the air and then in a
vacuum desiccator over
phosphorus pentoxide. The total yield of product is
58.8–65 g. (
39–43%, assuming that the product contains exactly one molecule of water of crystallization) (Note
7).