Organic Syntheses, CV 3, 523
Submitted by C. S. Marvel
1
Checked by Homer Adkins and Robert Gander.
1. Procedure
A.
α-Bromoisocaproic acid. Five hundred grams (4.3 moles) of commercial isocaproic acid is mixed with
250 ml. of benzene in a
2-l. round-bottomed flask, and the water and
benzene are removed by distillation through a
short column until the temperature of the vapors reaches 100°. The temperature rises rapidly as soon as the last of the
benzene is removed. The residual acid is cooled to room temperature,
743 g. (4.65 moles, 243 ml.) of dry bromine (Note
1) is added, and the flask is fitted with a
long condenser and placed in an
oil bath. The top of the condenser is connected to an empty
500-ml. Erlenmeyer flask which acts as a safety flask, and this in turn leads to a
gas-absorption trap (Note
2).
Ten milliliters of phosphorus trichloride is added to the mixture through the top of the condenser, and the flask is heated to 80–85°. The bromination proceeds smoothly at this temperature and is allowed to continue for 8–15 hours until the dark red color of
bromine disappears from the condenser. When it has, the temperature is raised to 100–105° and kept there 2 hours. The contents of the flask are transferred to a
1-l. modified Claisen flask or a flask attached to a
Widmer column and distilled. The fraction boiling at
125–131°/12 mm. is collected. The yield amounts to
530–550 g. (
63–66%). The low-boiling fraction is mainly
isocaproic acid (Note
3).
B.
dl-Leucine. To
1.5 l. of technical ammonium hydroxide (sp. gr. 0.90) in a
3-l. round-bottomed flask is added
300 g. (1.56 moles) of α-bromoisocaproic acid. A
rubber stopper is wired in, and the flask is allowed to stand for a week at room temperature. The crude
leucine from four such flasks is collected on a filter and washed with
400 ml. of ethanol. This crop amounts to about
300 g. The
ammonia is removed from the filtrate by heating the solution in a
12-l. flask on a steam cone overnight. The solution is concentrated under reduced pressure until vigorous bumping occurs (about 2.5 l.). The mixture is then cooled to about 15° and filtered. The precipitate is washed with 250 ml. of cold water and
250 ml. of 95% ethanol. The total yield of crude
leucine in the two fractions is
440–460 g.
The amino acid is recrystallized by dissolving all the crude material in 12.5 l. of water heated to 95° on a steam cone. The hot solution is treated with
20 g. of Norit for 30 minutes and filtered hot. An equal volume of
95% ethanol is added immediately, and the flask is placed in the
ice chest overnight. The crystalline material is collected on a filter and washed with
200 ml. of 95% ethanol. The yield of pure
leucine in this fraction is
290–300 g. An additional crop is obtained by evaporating the mother liquors under reduced pressure until considerable solid separates (liquid volume about 1 l.), adding an equal volume of
ethanol, and cooling. This crop is washed with 100 ml. of cold water and then with
200 ml. of ethanol; it amounts to
60–65 g. The total yield of pure
leucine is
350–365 g. (
43–45%). It decomposes at
290–292° (uncor.) in a sealed capillary (Note
4).
2. Notes
3. The low-boiling fractions (
105–115 g.) may be combined with the next portion of acid to be brominated, or several such fractions may be collected and brominated together. If this last is done only two-thirds as much
bromine is used as in the original run.
4. The amino nitrogen content of
leucine prepared in this way checks with the theoretical value.
3. Discussion
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