Passage 10: Compound X
It is theorized that a bioactive compound, Compound X, resides within a carnivorous
plant in the Amazon rainforest. Interested in its anticancer properties possibly due
to its unique chemical structure, researchers set out to isolate Compound X from
the plant it was hypothesized to be contained within. However, the compounds’
clear dual affinity for hydrophobic and hydrophilic environments posed a challenge.
Plant material was first collected and dried. Once dried, it was ground into a fine
powder, which was then subjected to the following extraction process to isolate the
compound of interest.
FIGURE
Step 1
Hexane was used as the solvent in which dried plant material was added to for 24
hours. Following extraction, the solvent was evaporated under low pressure, yielding
a crude extract.
Step 2
Minimal ethanol and equal volume of distilled water dissolved the crude extract.
This mixture was transferred to a separatory funnel and the aqueous layer was
removed. To further purify the ethanol-soluble fraction, a series of liquid-liquid
extractions was performed using tetrahydrofuran (THF) and an acidic aqueous
solution. The organic phase was collected and the aqueous phase was discarded;
this step was repeated several times to ensure maximum extraction of Compound X
into the THF layer.
Step 3
Rotary evaporation was utilized on the THF layer to remove the solvent. The semipurified extract that remained was then subjected to distillation. It was at this step
that the researchers decided to restart the process and adjust their method of
distillation because the constituents of the remaining extract had boiling points that
were too close to perform simple distillation. Compound X was then collected.
Step 4
Column chromatography was used to further purify the obtained Compound X.
Fractions were collected and analyzed using thin-layer chromatography (TLC) to
verify the presence of Compound X.
Step 5
The final purified fraction was analyzed with polarimetry. It was observed that no
angle of incident light had any effect on the intensity of light that passed through
the sample. A chiral resolving agent was used to form diastereomeric salts,
which were then separated using recrystallization which yielded the individual
enantiomers of Compound X.
Final Analysis
The resultant enantiomers were characterized using HPLC with a chiral column to
identify any enantiomeric excess. Nuclear magnetic resonance (NMR) spectroscopy
and mass spectrometry (MS) elucidated the structure of Compound X and
vindicated the hypothesized isolation process.
Which of the following are possible boiling points at 1 atm of Compound X and
impurities in the semi-purified extract, respectively?
A) 80°C and 100°C
B) 50°C and 90°C
C) 90°C and 100°C
D) 180°C and 185°C
Correct answer: C. The passage states that simple distillation was not
sufficient to isolate Compound X from impurities in the semi-purified extract due to
boiling points being too close to each other. This implied that fractional distillation
was necessary, which works best with compounds whose boiling points are within
25°C apart. This eliminates answer choices A and B. While answer choice D’s
boiling points are within 25°C, fractional distillation is not the preferred distillation
method at very high temperatures due to the possibility of thermal decomposition.
Therefore, choice C is the best answer.
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