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Isolation of ethylene glycol from the lipids of beef lung
Vol. 13, No. 2, 1963
BIOCHEMICAL
AND BIOPHYSICAL
ISOLATION
OF ETHYLENE
FROM THE LIPIDS H. E.
Carter,
Division
P. Johnson,
Received
August
are
mammalian the
Noyes
studies
widely
and monoglycerides is
glyceride
the
only
of the During
the
beef
lung
of
and stearic were
in
three
solvent
however,
normally
sources.
(1962)
that
found
in
Recently,
reported
the which
and ethylene
of
extract
(Teets
complex
isolation on
glycol
readily
--et al.
identified
ester
band
Paper presence
had the systems.
hydrolyzed
hydroxide
yielded
chromatography of glycerol
same Rf as that
156
detailed
a
a fraction in
the
under
the
Hydrolysis
soluble
A more
from
1963)
(1946).
ether
lipids
et al.,
showed a strong
negative.
which
alcohol
isolation
as the
showed the
appears,
of di-
derivatives.
potassium acids
triglycerides
amounts
of a wax fraction
was not
Schmidt
that
It
glycerol
which
methanolic
substance
Chemistry
of glycerides
lesser
mammalian
benzoate
and which
fraction
with
yielded
conditions
tests
occurring
avium
was encountered
with
demonstrated
and Miguel
saponification
infrared
isolation
have
from
Mycobacterium
commercial
of the
polyhydroxy
fractions
by means
of
Urbana
respectively.
Damareau-Ginsburg from
and R. K. Yu
Laboratory
of Illinois,
tissue
most
glycerol
OF BEEF LUNG
23, 1963
Extensive from
GLYCOL
D. W. Teets
of Biochemistry, University
RESEARCH COMMUNICATIONS
of
mainly
this palmitic
constituents. of the plus
Sterol water-soluble
a second
of ethylene study
fraction
glycol of this
Vol. 13, No. 2, 1963
problem fresh
BIOCHEMICAL
was undertaken beef
lung
at
beef
ground
extracted
and for
four
lung
In
times
was then
re-extracted
combined
ether
of 14.5
with
extract g. of lipid
prepared
after
removal
methanol
and activation
machine acetone
with
evaporation,
the
and
tissue ether.
was loaded silicic
fines
--in
was eluted
The
vacua with
a in benzene
acid
by repeated
by heating
ice,
representing
of Mallinkrodt of
dry
by stirring
anhydrous
(213 mg. P),
The column
12 hours.
(430 g.)
suspension
(80 mm.)
benzene
at
in 140'
and 50 ml.
were collected. The first
three
of
in
The remaining
times
after
a column
mincing
24 hours. four
onto
fractions
extracts
transported
reagent-grade
for
solution
for
purpose
(30 lb.),
an electric
room temperature
total
this
RESEARCH COMMUNICATIONS
were prepared.
Fresh was finely
AND BIOPHYSICAL
1550 ml.
fractions:
appeared
A (l-12),
to consist
investigated
mainly
characterized
into Fraction
A
and was not
in
of spots
with
in benzene typical
in
B and to a lesser
the
extent
B and C were then
times
with
an excess
for
of Amberlite 157
di-
(iodine
and
tri-glyceride in
24 hours.
ether.
on
triglyceride
treated
to pH 1 with diethyl
were
chromatography
C showed in addition
were acidified
four
g.)
layer
B gave
KOH (90% MeOH) at 37'
hydrolysates
and C (3.01
5% methanol
Fraction
A series
Fractions
was stirred
C (18-31).
and by thin
and Fraction
were apparent
g.)
with
of spots).
monoglycerides.
extracted
B (13-l?),
B (0.87
G developed
properties
methanolic
were combined
of hydrocarbons
by infrared
Gel
detection
eluent
further. Fractions
Silica
of
region
C. with
1 N
The
5 N HCl and The aqueous
phase
MB-3 and allowed
Vol. 13, No. 2, 1963
to stand
BIOCHEMICAL
before
was reduced residue
filtering
Gel
ethanol
acid
periodate
resin.
The clear
at 40'
for were
RESEARCH COMMUNICATIONS
thin
(14 mm.)
layer
and the
chromatography
chromatographed
(65:25:10),
filtrate
in
and developed
on
chloroform:
by spraying
and benzidine.
Table fractions
in
the
evaporator
The plates
G.
methanol:formic with
from
on a rotary
dissolved
Silica
AND BIOPHYSICAL
I shows Rf values
B and C compared
of
with
compounds
obtained
from
standards.
TABLF: I Thin
Layer
Chromatography
on Silica
CHCLs:MeOH:HCOsH
(65:25:10)
Compounds
Ethylene
Fraction
Rf
Glycerol Glycol
B
0.59
0.59
C
0.43,
0.65
D-Glyceraldehyde
0.50
indicate
that
fraction
ethylene
glycol
while
fraction
C gave
ethylene
glycol,
with
glycerol
the
(based
on visual
by vapor
phase
according
to
of
standard
glycerol
and
both
predominant results
chromatography
of the
acetates
samples
--et al. of
(1957)
ethylene
respectively
when chromatographed and 75 ml./min.
times
were 2.2
The solid 158
component were
with
diacetate min.
the
behavior
and glycerol
and 14.3
on an 8 ft. support
confirmed
(prepared
compared
glycol
Retention
140'
only
These
Shriner
0.59
B yielded
inspection).
triacetate.
at
Rf
0.43
1,2-Propanediol
The data
Gel G in
min.
lO$ W-1
was 60/80
column
Vol. 13, No. 2, 1963
BIOCHEMICAL
Chromosorb
W which
disilazane. while in
the
had been
Fraction
Fraction
In blank through
other
than
pretreated
glycerol of 4:l.
runs
in which
entire
glycerol
hexamethyl
ethylene
glycol
and ethylene
ratio
the
RESEARCH COMMUNICATIONS
with
B showed only
C gave
approximate
carried
AND BIOPHYSICAL
glycol
glycerol
acetates
solutions
experimental
was detected
diacetate
were
procedure,
by thin
layer
no spot chromatography.
DISCUSSION The above beef
lung
of a combined
extracted
with
ethylene
from occurred
Furthermore, glycol
bacterial
lipids
ruminants
of bacteria found
is
in
extracting
the
which
escaped
rumen.
products
detection
that
due to its
in our
layers
standards.
silica
It
is 159
also
may be
(1956)
fractions other
than
contaminants. of
glycol method
gel
presence
Lovern
compound
to the
by the
of
from
it
glyceride
similarity
solutions.
glycol
hand,
class
may
aqueous
case due to the
to be non-lipid this
cannot
tissue.
and Miguel,
other
of
and ethylene the
of hydrolysis
laboratory
lung
of ethylene
Ethylene
behavior.
lipid
fractionation
fresh
of fish
is
amounts
lung
concentrating
On the
in
which
of glycerol
a special
possible
had an Rf on thin triglyceride
the
saponification
chromatographic synthesized
total
by Damareau-Ginsburg
the
glycol
partial
isolation
were assumed
entirely
since
in
existence
The relative in
losses
of the
water-soluble
glycerol It
data
constitute in
that
yielded
these
occurred
In view
of ethylene
lipid
differential
may have
the
fractions.
glycol-containing
have
that
demonstrate
form
glyceride
be estimated well
results
glycerides
in
dipalmitate of
Paquot
comparable
probable
has
that
(1947)
to various appreciable
Vol. 13, No. 2, 1963
BIOCHEMICAL
losses of ethylene procedures
glycol
AND BIOPHWCAL
would occur during
Further
or assigned
the extent
glycol
in beef lung and the nature
in the ester
to non-lipid
work is in progress
tively
of the occurrence
linkage. may be.
of esterified of the fatty
Other tissues (In single
glycol.)
The possible
quantitaethylene
acids involved
from beef and other how general
preliminary
and beef suet were found to contain ethylene
contaminants.
to determine
are being examined to determine
occurrence
concentration
and that small amounts of the compound remaining
may have been overlooked
animals
RESEARCH COMMUNlCATlONS
this
experiments
lard
very small amounts of
metabolic
significance
of such
compounds is also under investigation.
ACKNOWLEDGMENTS Part of this (E574)
Blindness,
work was supported
from the Institute TJ. S. Public
Welcome Trust
of Neurological Health
for a Travel
Service.
Scholarship
by a research
grant
Diseases and We wish to thank the
to one of us (P. J.)
REFERENCES Damareau-Ginsbur H. and Mi uel, biol., 48: 679 (1962 7
A. M., --Bull.
sot.
chim.
Jones, W. S. and Tamplin, W. S., in Glycol, Amer. Chem. .Soc. Monograph Series, Reinhold, New York (1952) PP. 30-56 Lebaron, F. N., Folch, J. and Rothleder, E., Federation -Proc., 16, 209 (1957) Lovern, J. A., Biochem. J., 63, 373 (1956) Paquot, M. C., --Bull. Schmidt, G., Benotti, J ., 2. --Biol.
sot. chim. France, 14, 926 (1947) J., Hershman, B. and Tannhauser, S. Chem., 166, 505 (1946) 160
Vol. 13, No. 2, 1963
Segur, Shriner,
Teets,
BIOCHEMICAL
J. B., in Glycerol, Series, Reinhold,
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Amer. Chem. Sot. Monograph New York (1953) p. 254
R. L., Fuson, R. C. and Curtin, D. Y., The S stematic Identification of Organic Cornends, -5i-TJo n lley and Sons, Inc.,71957) p. 212 D. W., Johnson, Federation =.,
P.,
Tipton, 22, 414
161
C. L. and Carter, (19631
H. E.,
BIOCHEMICAL
AND BIOPHYSICAL
ISOLATION
OF ETHYLENE
FROM THE LIPIDS H. E.
Carter,
Division
P. Johnson,
Received
August
are
mammalian the
Noyes
studies
widely
and monoglycerides is
glyceride
the
only
of the During
the
beef
lung
of
and stearic were
in
three
solvent
however,
normally
sources.
(1962)
that
found
in
Recently,
reported
the which
and ethylene
of
extract
(Teets
complex
isolation on
glycol
readily
--et al.
identified
ester
band
Paper presence
had the systems.
hydrolyzed
hydroxide
yielded
chromatography of glycerol
same Rf as that
156
detailed
a
a fraction in
the
under
the
Hydrolysis
soluble
A more
from
1963)
(1946).
ether
lipids
et al.,
showed a strong
negative.
which
alcohol
isolation
as the
showed the
appears,
of di-
derivatives.
potassium acids
triglycerides
amounts
of a wax fraction
was not
Schmidt
that
It
glycerol
which
methanolic
substance
Chemistry
of glycerides
lesser
mammalian
benzoate
and which
fraction
with
yielded
conditions
tests
occurring
avium
was encountered
with
demonstrated
and Miguel
saponification
infrared
isolation
have
from
Mycobacterium
commercial
of the
polyhydroxy
fractions
by means
of
Urbana
respectively.
Damareau-Ginsburg from
and R. K. Yu
Laboratory
of Illinois,
tissue
most
glycerol
OF BEEF LUNG
23, 1963
Extensive from
GLYCOL
D. W. Teets
of Biochemistry, University
RESEARCH COMMUNICATIONS
of
mainly
this palmitic
constituents. of the plus
Sterol water-soluble
a second
of ethylene study
fraction
glycol of this
Vol. 13, No. 2, 1963
problem fresh
BIOCHEMICAL
was undertaken beef
lung
at
beef
ground
extracted
and for
four
lung
In
times
was then
re-extracted
combined
ether
of 14.5
with
extract g. of lipid
prepared
after
removal
methanol
and activation
machine acetone
with
evaporation,
the
and
tissue ether.
was loaded silicic
fines
--in
was eluted
The
vacua with
a in benzene
acid
by repeated
by heating
ice,
representing
of Mallinkrodt of
dry
by stirring
anhydrous
(213 mg. P),
The column
12 hours.
(430 g.)
suspension
(80 mm.)
benzene
at
in 140'
and 50 ml.
were collected. The first
three
of
in
The remaining
times
after
a column
mincing
24 hours. four
onto
fractions
extracts
transported
reagent-grade
for
solution
for
purpose
(30 lb.),
an electric
room temperature
total
this
RESEARCH COMMUNICATIONS
were prepared.
Fresh was finely
AND BIOPHYSICAL
1550 ml.
fractions:
appeared
A (l-12),
to consist
investigated
mainly
characterized
into Fraction
A
and was not
in
of spots
with
in benzene typical
in
B and to a lesser
the
extent
B and C were then
times
with
an excess
for
of Amberlite 157
di-
(iodine
and
tri-glyceride in
24 hours.
ether.
on
triglyceride
treated
to pH 1 with diethyl
were
chromatography
C showed in addition
were acidified
four
g.)
layer
B gave
KOH (90% MeOH) at 37'
hydrolysates
and C (3.01
5% methanol
Fraction
A series
Fractions
was stirred
C (18-31).
and by thin
and Fraction
were apparent
g.)
with
of spots).
monoglycerides.
extracted
B (13-l?),
B (0.87
G developed
properties
methanolic
were combined
of hydrocarbons
by infrared
Gel
detection
eluent
further. Fractions
Silica
of
region
C. with
1 N
The
5 N HCl and The aqueous
phase
MB-3 and allowed
Vol. 13, No. 2, 1963
to stand
BIOCHEMICAL
before
was reduced residue
filtering
Gel
ethanol
acid
periodate
resin.
The clear
at 40'
for were
RESEARCH COMMUNICATIONS
thin
(14 mm.)
layer
and the
chromatography
chromatographed
(65:25:10),
filtrate
in
and developed
on
chloroform:
by spraying
and benzidine.
Table fractions
in
the
evaporator
The plates
G.
methanol:formic with
from
on a rotary
dissolved
Silica
AND BIOPHYSICAL
I shows Rf values
B and C compared
of
with
compounds
obtained
from
standards.
TABLF: I Thin
Layer
Chromatography
on Silica
CHCLs:MeOH:HCOsH
(65:25:10)
Compounds
Ethylene
Fraction
Rf
Glycerol Glycol
B
0.59
0.59
C
0.43,
0.65
D-Glyceraldehyde
0.50
indicate
that
fraction
ethylene
glycol
while
fraction
C gave
ethylene
glycol,
with
glycerol
the
(based
on visual
by vapor
phase
according
to
of
standard
glycerol
and
both
predominant results
chromatography
of the
acetates
samples
--et al. of
(1957)
ethylene
respectively
when chromatographed and 75 ml./min.
times
were 2.2
The solid 158
component were
with
diacetate min.
the
behavior
and glycerol
and 14.3
on an 8 ft. support
confirmed
(prepared
compared
glycol
Retention
140'
only
These
Shriner
0.59
B yielded
inspection).
triacetate.
at
Rf
0.43
1,2-Propanediol
The data
Gel G in
min.
lO$ W-1
was 60/80
column
Vol. 13, No. 2, 1963
BIOCHEMICAL
Chromosorb
W which
disilazane. while in
the
had been
Fraction
Fraction
In blank through
other
than
pretreated
glycerol of 4:l.
runs
in which
entire
glycerol
hexamethyl
ethylene
glycol
and ethylene
ratio
the
RESEARCH COMMUNICATIONS
with
B showed only
C gave
approximate
carried
AND BIOPHYSICAL
glycol
glycerol
acetates
solutions
experimental
was detected
diacetate
were
procedure,
by thin
layer
no spot chromatography.
DISCUSSION The above beef
lung
of a combined
extracted
with
ethylene
from occurred
Furthermore, glycol
bacterial
lipids
ruminants
of bacteria found
is
in
extracting
the
which
escaped
rumen.
products
detection
that
due to its
in our
layers
standards.
silica
It
is 159
also
may be
(1956)
fractions other
than
contaminants. of
glycol method
gel
presence
Lovern
compound
to the
by the
of
from
it
glyceride
similarity
solutions.
glycol
hand,
class
may
aqueous
case due to the
to be non-lipid this
cannot
tissue.
and Miguel,
other
of
and ethylene the
of hydrolysis
laboratory
lung
of ethylene
Ethylene
behavior.
lipid
fractionation
fresh
of fish
is
amounts
lung
concentrating
On the
in
which
of glycerol
a special
possible
had an Rf on thin triglyceride
the
saponification
chromatographic synthesized
total
by Damareau-Ginsburg
the
glycol
partial
isolation
were assumed
entirely
since
in
existence
The relative in
losses
of the
water-soluble
glycerol It
data
constitute in
that
yielded
these
occurred
In view
of ethylene
lipid
differential
may have
the
fractions.
glycol-containing
have
that
demonstrate
form
glyceride
be estimated well
results
glycerides
in
dipalmitate of
Paquot
comparable
probable
has
that
(1947)
to various appreciable
Vol. 13, No. 2, 1963
BIOCHEMICAL
losses of ethylene procedures
glycol
AND BIOPHWCAL
would occur during
Further
or assigned
the extent
glycol
in beef lung and the nature
in the ester
to non-lipid
work is in progress
tively
of the occurrence
linkage. may be.
of esterified of the fatty
Other tissues (In single
glycol.)
The possible
quantitaethylene
acids involved
from beef and other how general
preliminary
and beef suet were found to contain ethylene
contaminants.
to determine
are being examined to determine
occurrence
concentration
and that small amounts of the compound remaining
may have been overlooked
animals
RESEARCH COMMUNlCATlONS
this
experiments
lard
very small amounts of
metabolic
significance
of such
compounds is also under investigation.
ACKNOWLEDGMENTS Part of this (E574)
Blindness,
work was supported
from the Institute TJ. S. Public
Welcome Trust
of Neurological Health
for a Travel
Service.
Scholarship
by a research
grant
Diseases and We wish to thank the
to one of us (P. J.)
REFERENCES Damareau-Ginsbur H. and Mi uel, biol., 48: 679 (1962 7
A. M., --Bull.
sot.
chim.
Jones, W. S. and Tamplin, W. S., in Glycol, Amer. Chem. .Soc. Monograph Series, Reinhold, New York (1952) PP. 30-56 Lebaron, F. N., Folch, J. and Rothleder, E., Federation -Proc., 16, 209 (1957) Lovern, J. A., Biochem. J., 63, 373 (1956) Paquot, M. C., --Bull. Schmidt, G., Benotti, J ., 2. --Biol.
sot. chim. France, 14, 926 (1947) J., Hershman, B. and Tannhauser, S. Chem., 166, 505 (1946) 160
Vol. 13, No. 2, 1963
Segur, Shriner,
Teets,
BIOCHEMICAL
J. B., in Glycerol, Series, Reinhold,
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Amer. Chem. Sot. Monograph New York (1953) p. 254
R. L., Fuson, R. C. and Curtin, D. Y., The S stematic Identification of Organic Cornends, -5i-TJo n lley and Sons, Inc.,71957) p. 212 D. W., Johnson, Federation =.,
P.,
Tipton, 22, 414
161
C. L. and Carter, (19631
H. E.,