In a
1-l. round-bottomed flask fitted with a
tightly fitting cork stopper carrying an
air condenser are placed
100 g. (0.54 mole) of finely powdered potassium phthalimide (Org. Syn. Coll. Vol. I, 1941, 119) and
52 g. (0.5 mole) of γ-chlorobutyronitrile (Org. Syn. Coll. Vol. I, 1941, 156). The flask is heated in an
oil bath maintained at 150–180° for one and one-half hours (Note
1) and then allowed to cool. The excess
potassium phthalimide and the
potassium chloride formed are removed by extraction with several portions of boiling distilled water until the wash water gives no test for chloride ion. The flask is then cooled and the product caused to solidify, and the remaining water is decanted as completely as possible. The solid is treated with
140 cc. of concentrated sulfuric acid, and the mixture is warmed gently in an oil bath under a reflux condenser until all the
γ-phthalimidobutyronitrile is brought into solution. Through the reflux condenser 200 cc. of distilled water is added carefully and the solution is refluxed vigorously for three hours. The mixture is cooled and allowed to stand overnight, and the
phthalic acid is filtered. The filtrate is transferred to a
large evaporating dish, 1 l. of distilled water is added, and then an excess of
barium carbonate (about 550 g.) is added in small portions (Note
2). The mixture is evaporated nearly to dryness on the
steam bath, and the residue is stirred throroughly with 1 l. of distilled water and again evaporated (Note
3). Finally 1 l. of distilled water is stirred with the solid and the mixture is filtered on a
large Büchner funnel. The precipitate is washed with three 200-cc. portions of hot distilled water, and the filtrate and washings are concentrated to a volume of 200 cc. on the steam bath. After the addition of
2 g. of activated carbon the solution is filtered by suction, using a
No. 42 Whatman paper, and the charcoal is washed with several small portions of hot distilled water. The filtrate is concentrated on the steam bath to the point of crystallization (about 75 cc.), and
375–500 cc. of absolute alcohol is added to precipitate the amino acid. The mixture is stirred well so that the yellow impurities are retained in the solvent, and, after cooling, the colorless, crystalline product is collected and washed with absolute
alcohol.
The alcoholic filtrate is evaporated to 50 cc., and
50 g. of barium hydroxide and 150 cc. of distilled water are added (Note
4). The mixture is refluxed for two hours and the excess
barium hydroxide is precipitated with
carbon dioxide. The
barium carbonate is removed by filtration and washed with hot distilled water. A slight excess of
sulfuric acid is added to the filtrate to liberate the amino acid from its barium salt, and an excess of
barium carbonate is added to remove sulfate ion. The mixture is digested on the steam bath until effervescence ceases, and then it is filtered and the precipitate is washed with hot distilled water. The filtrate and washings are concentrated on the steam bath to a volume of 100 cc., decolorized with
1 g. of active carbon, filtered, and concentrated to the point of crystallization (about 25 cc.). The amino acid is precipitated by the addition of
150 cc. of absolute alcohol, and the product is collected and washed with absolute
alcohol.