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Relative turnover rates of subunits of rat liver fatty acid synthetase
Vol. 48, No. 6, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
RELATIVETURNOVER RATESOF SUBUNITS OF RAT LIVER FATTY ACID SYNTMETASE John Tweto*, Peter Dehlinger, and Allan R. Larrabeet Department of Chemistry University of Oregon Eugene, Oregon 97403 Received
June 15,1972;
Revised
August
1,1972
Summary--The subunits of the multienzyme complex rat liver fatty acid synthetase are degraded with half lives which are related to their molecular weight in a manner similar to that found in the laboratory of Schimke for soluble, membraneand ribosomal proteins from rat liver. The rates of turnover of all the subunits of fatty acid synthetase appear to be slower than the rate of exchange of the enzyme prosthetic group, 4'-phosphopantetheine. Rat liver
fatty
tains all the activities fatty
acids.
acid synthetase (FAS) is a multienzyme complex which connecessary for the --de novo synthesis of long chain
Although the enzyme complex readily
mately equal sized subunits, attempts to isolate complex have been unsuccessful. guanidino-labeled half life
dissociates into two approxithe individual
enzymes of the
Previous turnover studies on FAS employing
arginine and tritiated
pantothenate showed that the average
of the subunits of FAS is 3 to 4 days and that the prosthetic
of FAS is exchanged at a rate which is more than 10 times the protein rate (1). FAS tryptic
In the present study we have examined the relative peptides and FAS subunits solubilized
dodecyl sulfate
group turnover
turnover rates of
by the ionic detergent sodium
(SDS). Materials
and Methods
The care of the rats and the preparation of the enzyme were as previously described (1).
For the 3H/14C studies FAS was further
gradient centrifugation Isolation
purified
by sucrose
(2).
of FAS Peptides - Trypsin digests were prepared essentially
as de-
scribed by Hayes and Larrabee (3) with the exception that the amount of trypsin was lowered to 3% of the weight of sample. At the end of the trypsin * Present Address: Department of Anatomy and Cell Biology, University burgh Medical School, Pittsburgh, Pa. 15213 + Present Address: Department of Chemistry, Memphis State University, Tennessee 38111, and to whomcorrespondence should be addressed.
Copyright @ I9 72 by Academic Press, Inc. AN rights of reproduction in any form reserved.
1371
treat-
of PittsMemphis,
Vol. 48, No. 6, 1972
BIOCHEMICAL
ment an undigested precipitate digested with crystalline fractionated
(15% of original
pepsin.
on Aminex A-5
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
material)
was subsequently
The peptides from these digests were
resin&
a
modification
(3) of the procedure de-
scribed by Jones (4). Hydrolysis
of Peptides and Quantitation
graphy of the trypsin
HCl (about 3 ml).
and the peptides hydrolyzed
The tubes were sealed in a vacuum
for 40 hours at llO°C, followed by evaporation of
The sample from each tube was applied to a sheet of Whatman3 MM
chromatography paper and electrophoresis with 0.1 M potassium carbonate buffer, 150 ma for 2 hours.
was performed on a water cooled plate pH 10.2, at 200 volts
per inch, 100 to
Arginine was located by comparison with a standard.
isolated arginine was eluted from the paper with water, acidified, quot taken for counting and for arginine quantitation reaction
from chromato-
and pepsin digests were dried in glass tubes and dis-
solved in constant boiling
the Xl.
of Arginine - Fractions
(5).
When a sample of arginine from intact
of protein was hydrolyzed
and the hydrolysate
The
and an ali-
by meansof the Sakaguchi FAS was required,
a sample
treated as described for peptide
hydrolysis. Sodium Dodecyl Sulfate
(SDS) Disc Gel Electrophoresis
concentrated by ammoniumsulfate
precipitation
- Samplesof FAS were
and dialyzed
overnight
at 30°C
against 0.2% mercaptoethanol and 0.2% SDS in 0.05 M sodium phosphate, pH 7. Acrylamide gels (5%) were made according to the procedure of Weber and Osborn (6) with SDS incorporated
into the gels.
Five mg of protein were applied
large gel column (19 x 60 mm)and electrophoresis the tracking
dye reached the bottom of the gel.
to
a
was performed at 30 ma until The buffer
in the reservoirs
was 0.1 M sodium phosphate, pH 7, with 0.2% SDS. At the end of the run the gel was frozen on a block of dry ice and stored at -2O'C. was performed by extruding blade fixed at right
the frozen gel from a tube into the path of a razor
angles to the gel axis.
advancing a calibrated placed in a scintillation
Sectioning of the gel
One mmsections were obtained by
screw against the bottom of the gel. vial
and dissolved by addition
1372
Each slice was
of 0.5 ml of 30%H202
Vol.
48,
No.
6, 1972
BIOCHEMICAL
two days at
AND
and incubation
for
were
dissolved
in 10 ml of Aquasol
mine
(Packard
Inst.
Co.).
days to eliminate
long
It
temperature.
room
and clarified
was necessary
lived
turnover
pantetheine,
reported
of a rapidly
turning
terial
acyl
labeled
to test
activity
Each isolated
1 show that
all
peptides
usually
differing
reflect
experimental
units
of the complex.
cpm/pg which sample
compares
have
or slightly
radioactivity
demonstrated
that
the pantothenate
tography
of peptide
specific
radioactivity
did
the rapid
turnover
of prosthetic
compounds
in
Tl with
the cytosol,
and not
to a rapid
exchange
a with
approximately represents Rechroma-
two peptides
These
turnover
for
to ACP.
showed
due to its
was 53
injected
and thus
analogous
could
the sub-
observed
contained
differ. is
for
rats
Tl
gradient
significantly group
utilizing
protein
a more shallow not
rates
of the digest
containing
radioactivity,
of the peptides
peptide
T2 20% of the pantothenate
in Table
discrepancy
of 55 cpm/pg
experiment
FAS radio-
reported
This
turnover
the value
An earlier
from
results with
of a protein
whose
imply
that
pantothenate subunit
con-
4'-phosphopantetheine. To further
nents,
with
U-14C-arginine
specific
at most.
different
acids.
and the specific
arginine
be
of the purified
The results
similar
of two or three
amino
with
digests
to bac-
it would
exists,
injected
was hydrolyzed,
the existence
analogous
complex
of radioactive
and pepsin
analyzed
FAS.
several
4'-phospho-
by assuming
FAS
were
was measured.
peptides
taining
trypsin
favorably
pantothenate
80% and peptide
rats
The mean specific
of undigested
radioactive
by a pulse
arginine
error
for
group,
If such a protein
(7).
peptide
by a factor
prosthetic
in the
possibility, from
of the isolated
slices
of 0.1 ml of Hya-
the samples
be explained
species
activity
resulting
isolated.
gel
by addition
bound
could
(ACP)
this
The solubilized
to store
covalently
protein
specific for
COMMUNICATIONS
and Discussion
(1).
protein
carrier
and the peptides were
earlier
to a higher
In order
of the
over
RESEARCH
phosphorescence. Results
The rapid
BIOPHYSICAL
investigate
we performed
a double
the relative label
turnover
experiment
1373
similar
rates
of FAS protein to
that
described
compoby
Vol. 48, No. 6, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table 1. Specific Radioactivity of Arginine from Trypfic and Peptic Peptides: Five 200 g rats were each injected with 100 pci of [UCl-L-arginine (273 mci/mmole). Ten hours later the animals were killed and the arginine from the resulting peptides was isolated and analyzed. T and P refer to tryptic and peptic peptides, respectively. Peak No.
cpm/pg
Tl T2 T3 T4 T5 T6 T7 T8 T9
Arias
peritoneal
(8).
Rats
injection
and their
approximates decay
the
subjected count
livers
removed
initial
isotope
sented
experiment
geneous
turnover result
larger
rates
relationship
of protein between
gure
for 3 shows
a wide similar
variety data were
hours
figure
This
rate
of soluble for
indicates
The purified
ratios
obtained
proteins
--et al.
higher
are preobtained
gels
due to
by the which
is pre-
in a manner
by Weber and Osborn in which
both
and the animal of fluctuation
3H/14C
a systematic
FAS subunits,
simultaneously the extent
is
as indicated
experiment,
The
of FAS have hetero-
there
in SDS acylamide
the
of SDS.
in 14C radioactivity
of the
were
FAS was
of 3H/14C ratios
by Arias
rates
1374
animals
14C level,
the presence
the subunits
the control
administered
days.
In addition
weight
to migration
and the
The range
turnover
snd the molecular
level,
count
losses
the
in-
Thus 3H radioactivity
tritium-carbon
greater
an intra-
by a second
injection
in
that
given
days later
electrophoresis
degradation.
3H and l4C-leucine later.
of three
as discussed
the relative
were
FAS purification.
suggests
from relatively
sumed to be related scribed
and the
since,
three
incorporation
gel
strongly rates,
ratios,
for
state
the second
1 and 2 respectively.
in this
ratios
after
a period
disc
of the gel
in Figures
3H/14C
after
to acrylamide
profile
followed
Two hours
arginine
79 62 34 43 27 44 41 18
in the steady
of l4 C-leucine
in radioactivity
cpm/ug
TlO Tll T12 T13 Pl P2 P3 P4
maintained
of 3H-leucine.
killed
Peak No.
52 34 57 62 44 58 52 45 55
--et al.
jection
arginine
(6).
deFi-
isotopic killed
two
in 3H/14C
ratios
BIOCHEMICAL
Vol. 48, No. 6, 1972
SOOk
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
I
I
I
I
8
I
I6
I
24
32
40
48
56
GEL SLICE NUMBER Figure
1
200 g rats were maintained on Purina lab chow in an artificial light At zero time each was cycle alternating twelve hours on twelve hours off. administered 100 uci [U-14C]-L-leucine (312 mci/mmole)(New England Nuclear) via intraperitoneal injection. Three days later each rat was injected with 750 uci 4,5-[3H]-L-leucine (50 ci/mmole)(Schwartz-Mann) and two hours later The purified FAS was dissociated in the rats were killed and FAS prepared. SDS, subjected to acrylamide gel electrophoresis and the gel sliced and counted.
Two
inherent
in
served
in the
of isotope followed
These
control
three that
results
the
membrane with
half
lives
and ribosomal
prompted which
from
proteins
presented
here
consistent
in equilibrium
with
by the observed
has been
found
for
that
are
a pool protein
soluble
not
rat
with
occurs.
rate
correlation
1375
where
weight in which
from
rat
This
it
degraded
FAS subunits,
degradation
gel.
plasma
are all
a model
first
of the
molecular
ob-
case it
proteins,
liver
is
the order
In this
of Schimke,
membrane
subunit
proteins
shown,
the length
laboratory
from
ratios
was administered
of dissociated
size-degradation the
over
microsomal
to their
form
%I-leucine
the
are related
in the dissociated
experiment,
steadily
proteins,
in the 3H/14C
of 14 C-leucine.
which
The data of FAS are
rose
to those
the soluble
proteins,
is,
by administration
3H/14C ratio
are similar
was shown that
that
was reversed;
days later
variation
In another
experiment.
injection
was found
No systematic
the technique.
model
(9,10,11). the subunits and it
is
is
of FAS subunits liver.
This
model
is
Vol. 48, No. 6, 1972
BIOCHEMICAL
1 0
I 8
1 16
AND BIOPHYSKAL
1
I 32
24
GEL
I 40
RESEARCH COMMUNICATIONS
I
I
48
58
SLICE NUMBER
Figure 2 The ratio DPM3H/DPM14C of the data shown in Figure 1 is plotted as a function of slice number. Slicing began at the top of the gel. The dotted lines represent the standard deviation of the ratio which was calculated by a computer taking into account statistical error in counts, pipetting error in preparing standards, and error incurred in interpolating the automatic external standards. A straight line fitted to the graph utilizing a least squares fit, weighted by the standard deviations shown, had a slope of 0.262 per gel slice and an intercept of 21.7.
similar
to that proposed for the turnover of rat liver
membranesand ribosomes
(9,lO). Acknowledgement This investigation was supported by Grant GB-18998 from the National Science Foundation. John '&et0 is the recipient of a training grant (5-TOl-GMO0444) from the Public Health Service, Department of Health, Education and Welfare. We also wish to thank Dr. Joel Ivey for the computer program. REFERENCES 1.
meto, J., (1971).
Liberati,
M. and Larrabee, A. R., 2. -Biol.
1376
Chem.246, 2468
Vol. 48, No. 6, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
v t 25
1
I 8
I I6
I 24
I 40
I 32
I 40
I 56
GEL SLICE NUMBER Figure
3
A control experiment was performed in a similar fashion to the experiment described in Figures 1 and 2, except a mixture of 50 uci [14C]-L-leucine and 750 pci [311]-L-leucine was injected into each of two 240 g rats. Two hours after injection the rats were killed. A straight line fitted to the graph utilizing a least squares fit, weighted by the standard deviations shown, had a slope of 0.008 and an intercept of 11.6.
2. 3. 4. 5. 6. 7. 8. 9. 10. 11.
Tweto, J., and Larrabee, A. R., J. Biol. Chem. in press, (1972). Hayes, L., and Larrabee, A. R., Biochem. Biophys. --Res. Commun. 45, 955 (1971). Quant. Biol. 29, 297 (1964). Jones, R. T., Cold Spring Harbor m. Satake, K., and Luck, J. M., Bull. Sot. --Chim. Biol. 40, 1743 (1958). Weber, K., and Osborn, M., J.Kl.Chem. 244, 4406 (1969). -Vagelos, P. R., Majerus, P. W., Alberts, A., Larrabee, A. R., and Ailhaud, G. P., Fed. Proc. 2, 1485 (1966). Arias, I.M., Doyle, D.,tnd Schimke, R. T., -J. --Biol. Chem. 244, 3303 (1969). Dehlinger, P. J., and Schimke, R. T., J. Biol. Chem. 246, 2574 (1971). Dice, J. F., and Schimke, R. T., J. BioL Chem. 24J, 98 (1972). Dehlinger, P. J., and Schimke, R.-T.,ochem. Biophys. &. Commun. UJ, 1473 (1970).
1377
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
RELATIVETURNOVER RATESOF SUBUNITS OF RAT LIVER FATTY ACID SYNTMETASE John Tweto*, Peter Dehlinger, and Allan R. Larrabeet Department of Chemistry University of Oregon Eugene, Oregon 97403 Received
June 15,1972;
Revised
August
1,1972
Summary--The subunits of the multienzyme complex rat liver fatty acid synthetase are degraded with half lives which are related to their molecular weight in a manner similar to that found in the laboratory of Schimke for soluble, membraneand ribosomal proteins from rat liver. The rates of turnover of all the subunits of fatty acid synthetase appear to be slower than the rate of exchange of the enzyme prosthetic group, 4'-phosphopantetheine. Rat liver
fatty
tains all the activities fatty
acids.
acid synthetase (FAS) is a multienzyme complex which connecessary for the --de novo synthesis of long chain
Although the enzyme complex readily
mately equal sized subunits, attempts to isolate complex have been unsuccessful. guanidino-labeled half life
dissociates into two approxithe individual
enzymes of the
Previous turnover studies on FAS employing
arginine and tritiated
pantothenate showed that the average
of the subunits of FAS is 3 to 4 days and that the prosthetic
of FAS is exchanged at a rate which is more than 10 times the protein rate (1). FAS tryptic
In the present study we have examined the relative peptides and FAS subunits solubilized
dodecyl sulfate
group turnover
turnover rates of
by the ionic detergent sodium
(SDS). Materials
and Methods
The care of the rats and the preparation of the enzyme were as previously described (1).
For the 3H/14C studies FAS was further
gradient centrifugation Isolation
purified
by sucrose
(2).
of FAS Peptides - Trypsin digests were prepared essentially
as de-
scribed by Hayes and Larrabee (3) with the exception that the amount of trypsin was lowered to 3% of the weight of sample. At the end of the trypsin * Present Address: Department of Anatomy and Cell Biology, University burgh Medical School, Pittsburgh, Pa. 15213 + Present Address: Department of Chemistry, Memphis State University, Tennessee 38111, and to whomcorrespondence should be addressed.
Copyright @ I9 72 by Academic Press, Inc. AN rights of reproduction in any form reserved.
1371
treat-
of PittsMemphis,
Vol. 48, No. 6, 1972
BIOCHEMICAL
ment an undigested precipitate digested with crystalline fractionated
(15% of original
pepsin.
on Aminex A-5
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
material)
was subsequently
The peptides from these digests were
resin&
a
modification
(3) of the procedure de-
scribed by Jones (4). Hydrolysis
of Peptides and Quantitation
graphy of the trypsin
HCl (about 3 ml).
and the peptides hydrolyzed
The tubes were sealed in a vacuum
for 40 hours at llO°C, followed by evaporation of
The sample from each tube was applied to a sheet of Whatman3 MM
chromatography paper and electrophoresis with 0.1 M potassium carbonate buffer, 150 ma for 2 hours.
was performed on a water cooled plate pH 10.2, at 200 volts
per inch, 100 to
Arginine was located by comparison with a standard.
isolated arginine was eluted from the paper with water, acidified, quot taken for counting and for arginine quantitation reaction
from chromato-
and pepsin digests were dried in glass tubes and dis-
solved in constant boiling
the Xl.
of Arginine - Fractions
(5).
When a sample of arginine from intact
of protein was hydrolyzed
and the hydrolysate
The
and an ali-
by meansof the Sakaguchi FAS was required,
a sample
treated as described for peptide
hydrolysis. Sodium Dodecyl Sulfate
(SDS) Disc Gel Electrophoresis
concentrated by ammoniumsulfate
precipitation
- Samplesof FAS were
and dialyzed
overnight
at 30°C
against 0.2% mercaptoethanol and 0.2% SDS in 0.05 M sodium phosphate, pH 7. Acrylamide gels (5%) were made according to the procedure of Weber and Osborn (6) with SDS incorporated
into the gels.
Five mg of protein were applied
large gel column (19 x 60 mm)and electrophoresis the tracking
dye reached the bottom of the gel.
to
a
was performed at 30 ma until The buffer
in the reservoirs
was 0.1 M sodium phosphate, pH 7, with 0.2% SDS. At the end of the run the gel was frozen on a block of dry ice and stored at -2O'C. was performed by extruding blade fixed at right
the frozen gel from a tube into the path of a razor
angles to the gel axis.
advancing a calibrated placed in a scintillation
Sectioning of the gel
One mmsections were obtained by
screw against the bottom of the gel. vial
and dissolved by addition
1372
Each slice was
of 0.5 ml of 30%H202
Vol.
48,
No.
6, 1972
BIOCHEMICAL
two days at
AND
and incubation
for
were
dissolved
in 10 ml of Aquasol
mine
(Packard
Inst.
Co.).
days to eliminate
long
It
temperature.
room
and clarified
was necessary
lived
turnover
pantetheine,
reported
of a rapidly
turning
terial
acyl
labeled
to test
activity
Each isolated
1 show that
all
peptides
usually
differing
reflect
experimental
units
of the complex.
cpm/pg which sample
compares
have
or slightly
radioactivity
demonstrated
that
the pantothenate
tography
of peptide
specific
radioactivity
did
the rapid
turnover
of prosthetic
compounds
in
Tl with
the cytosol,
and not
to a rapid
exchange
a with
approximately represents Rechroma-
two peptides
These
turnover
for
to ACP.
showed
due to its
was 53
injected
and thus
analogous
could
the sub-
observed
contained
differ. is
for
rats
Tl
gradient
significantly group
utilizing
protein
a more shallow not
rates
of the digest
containing
radioactivity,
of the peptides
peptide
T2 20% of the pantothenate
in Table
discrepancy
of 55 cpm/pg
experiment
FAS radio-
reported
This
turnover
the value
An earlier
from
results with
of a protein
whose
imply
that
pantothenate subunit
con-
4'-phosphopantetheine. To further
nents,
with
U-14C-arginine
specific
at most.
different
acids.
and the specific
arginine
be
of the purified
The results
similar
of two or three
amino
with
digests
to bac-
it would
exists,
injected
was hydrolyzed,
the existence
analogous
complex
of radioactive
and pepsin
analyzed
FAS.
several
4'-phospho-
by assuming
FAS
were
was measured.
peptides
taining
trypsin
favorably
pantothenate
80% and peptide
rats
The mean specific
of undigested
radioactive
by a pulse
arginine
error
for
group,
If such a protein
(7).
peptide
by a factor
prosthetic
in the
possibility, from
of the isolated
slices
of 0.1 ml of Hya-
the samples
be explained
species
activity
resulting
isolated.
gel
by addition
bound
could
(ACP)
this
The solubilized
to store
covalently
protein
specific for
COMMUNICATIONS
and Discussion
(1).
protein
carrier
and the peptides were
earlier
to a higher
In order
of the
over
RESEARCH
phosphorescence. Results
The rapid
BIOPHYSICAL
investigate
we performed
a double
the relative label
turnover
experiment
1373
similar
rates
of FAS protein to
that
described
compoby
Vol. 48, No. 6, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Table 1. Specific Radioactivity of Arginine from Trypfic and Peptic Peptides: Five 200 g rats were each injected with 100 pci of [UCl-L-arginine (273 mci/mmole). Ten hours later the animals were killed and the arginine from the resulting peptides was isolated and analyzed. T and P refer to tryptic and peptic peptides, respectively. Peak No.
cpm/pg
Tl T2 T3 T4 T5 T6 T7 T8 T9
Arias
peritoneal
(8).
Rats
injection
and their
approximates decay
the
subjected count
livers
removed
initial
isotope
sented
experiment
geneous
turnover result
larger
rates
relationship
of protein between
gure
for 3 shows
a wide similar
variety data were
hours
figure
This
rate
of soluble for
indicates
The purified
ratios
obtained
proteins
--et al.
higher
are preobtained
gels
due to
by the which
is pre-
in a manner
by Weber and Osborn in which
both
and the animal of fluctuation
3H/14C
a systematic
FAS subunits,
simultaneously the extent
is
as indicated
experiment,
The
of FAS have hetero-
there
in SDS acylamide
the
of SDS.
in 14C radioactivity
of the
were
FAS was
of 3H/14C ratios
by Arias
rates
1374
animals
14C level,
the presence
the subunits
the control
administered
days.
In addition
weight
to migration
and the
The range
turnover
snd the molecular
level,
count
losses
the
in-
Thus 3H radioactivity
tritium-carbon
greater
an intra-
by a second
injection
in
that
given
days later
electrophoresis
degradation.
3H and l4C-leucine later.
of three
as discussed
the relative
were
FAS purification.
suggests
from relatively
sumed to be related scribed
and the
since,
three
incorporation
gel
strongly rates,
ratios,
for
state
the second
1 and 2 respectively.
in this
ratios
after
a period
disc
of the gel
in Figures
3H/14C
after
to acrylamide
profile
followed
Two hours
arginine
79 62 34 43 27 44 41 18
in the steady
of l4 C-leucine
in radioactivity
cpm/ug
TlO Tll T12 T13 Pl P2 P3 P4
maintained
of 3H-leucine.
killed
Peak No.
52 34 57 62 44 58 52 45 55
--et al.
jection
arginine
(6).
deFi-
isotopic killed
two
in 3H/14C
ratios
BIOCHEMICAL
Vol. 48, No. 6, 1972
SOOk
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
I
I
I
I
8
I
I6
I
24
32
40
48
56
GEL SLICE NUMBER Figure
1
200 g rats were maintained on Purina lab chow in an artificial light At zero time each was cycle alternating twelve hours on twelve hours off. administered 100 uci [U-14C]-L-leucine (312 mci/mmole)(New England Nuclear) via intraperitoneal injection. Three days later each rat was injected with 750 uci 4,5-[3H]-L-leucine (50 ci/mmole)(Schwartz-Mann) and two hours later The purified FAS was dissociated in the rats were killed and FAS prepared. SDS, subjected to acrylamide gel electrophoresis and the gel sliced and counted.
Two
inherent
in
served
in the
of isotope followed
These
control
three that
results
the
membrane with
half
lives
and ribosomal
prompted which
from
proteins
presented
here
consistent
in equilibrium
with
by the observed
has been
found
for
that
are
a pool protein
soluble
not
rat
with
occurs.
rate
correlation
1375
where
weight in which
from
rat
This
it
degraded
FAS subunits,
degradation
gel.
plasma
are all
a model
first
of the
molecular
ob-
case it
proteins,
liver
is
the order
In this
of Schimke,
membrane
subunit
proteins
shown,
the length
laboratory
from
ratios
was administered
of dissociated
size-degradation the
over
microsomal
to their
form
%I-leucine
the
are related
in the dissociated
experiment,
steadily
proteins,
in the 3H/14C
of 14 C-leucine.
which
The data of FAS are
rose
to those
the soluble
proteins,
is,
by administration
3H/14C ratio
are similar
was shown that
that
was reversed;
days later
variation
In another
experiment.
injection
was found
No systematic
the technique.
model
(9,10,11). the subunits and it
is
is
of FAS subunits liver.
This
model
is
Vol. 48, No. 6, 1972
BIOCHEMICAL
1 0
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1 16
AND BIOPHYSKAL
1
I 32
24
GEL
I 40
RESEARCH COMMUNICATIONS
I
I
48
58
SLICE NUMBER
Figure 2 The ratio DPM3H/DPM14C of the data shown in Figure 1 is plotted as a function of slice number. Slicing began at the top of the gel. The dotted lines represent the standard deviation of the ratio which was calculated by a computer taking into account statistical error in counts, pipetting error in preparing standards, and error incurred in interpolating the automatic external standards. A straight line fitted to the graph utilizing a least squares fit, weighted by the standard deviations shown, had a slope of 0.262 per gel slice and an intercept of 21.7.
similar
to that proposed for the turnover of rat liver
membranesand ribosomes
(9,lO). Acknowledgement This investigation was supported by Grant GB-18998 from the National Science Foundation. John '&et0 is the recipient of a training grant (5-TOl-GMO0444) from the Public Health Service, Department of Health, Education and Welfare. We also wish to thank Dr. Joel Ivey for the computer program. REFERENCES 1.
meto, J., (1971).
Liberati,
M. and Larrabee, A. R., 2. -Biol.
1376
Chem.246, 2468
Vol. 48, No. 6, 1972
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
v t 25
1
I 8
I I6
I 24
I 40
I 32
I 40
I 56
GEL SLICE NUMBER Figure
3
A control experiment was performed in a similar fashion to the experiment described in Figures 1 and 2, except a mixture of 50 uci [14C]-L-leucine and 750 pci [311]-L-leucine was injected into each of two 240 g rats. Two hours after injection the rats were killed. A straight line fitted to the graph utilizing a least squares fit, weighted by the standard deviations shown, had a slope of 0.008 and an intercept of 11.6.
2. 3. 4. 5. 6. 7. 8. 9. 10. 11.
Tweto, J., and Larrabee, A. R., J. Biol. Chem. in press, (1972). Hayes, L., and Larrabee, A. R., Biochem. Biophys. --Res. Commun. 45, 955 (1971). Quant. Biol. 29, 297 (1964). Jones, R. T., Cold Spring Harbor m. Satake, K., and Luck, J. M., Bull. Sot. --Chim. Biol. 40, 1743 (1958). Weber, K., and Osborn, M., J.Kl.Chem. 244, 4406 (1969). -Vagelos, P. R., Majerus, P. W., Alberts, A., Larrabee, A. R., and Ailhaud, G. P., Fed. Proc. 2, 1485 (1966). Arias, I.M., Doyle, D.,tnd Schimke, R. T., -J. --Biol. Chem. 244, 3303 (1969). Dehlinger, P. J., and Schimke, R. T., J. Biol. Chem. 246, 2574 (1971). Dice, J. F., and Schimke, R. T., J. BioL Chem. 24J, 98 (1972). Dehlinger, P. J., and Schimke, R.-T.,ochem. Biophys. &. Commun. UJ, 1473 (1970).
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