- Email: [email protected]
High molecular weight DNA-like RNA in rat thyroid
BIOCHEMICAL
Vol. 25, No. 6, 1966
HIGH
MOLECULAR
J. Hare1
(l),
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
WEIGHT B. Nataf
DNA-LIKE L.
(l),,
RNA
Hare1
IN RAT
(2) and J. Imbenotte
(1) Institut Gustave Roussy (2) Centre de Recherches sur la Cellule Canc6reuse - Villejuif - Val-de-Marne
Received
October
RNA
in animal (dRNA)
in organ
AND were
messenger cells.
on which
RNA
from
material
to study
and the biosynthesis here
fetal
Each
a piece lobes
culture
of dacron
(Nataf,
as described
that
very
rat thyroid
before
to 10 dishes,
to one other dish. 131 I measurements 0.14
on an aliquot ted with
M,
the
of specific
“heavy”
DNA-like
glands
maintained
components prepared
Tris
was floated
(Nataf,
Malaise
in 3 experiments
0.05
M.
Total
from
The
rest
the dried
chromatograms.
and counted
in a scintillation
2-4
dishes
experiment
1966)
32P
to the radioautogral%ic counter.
573
incufor
(100 ye/ml) was ’ added
of the homogenate
1963).
109
isolated were
and Tubiana
to separate
and Chaikoff
corresponding
The
in 0.3
was digeslabelled
Radioautograms
bands
ml
measured
the various
Sections
rat
and
NCTC
to support
1311 (50 PC/ml)
Raghupathy
matograms
(Elias
washed and homogenized 131 I incorporation was
and chromatographed,
(Tong,
method
1965).
the end of each
were
21 day CF Wistar
1 ml of medium
and Chaikoff
: Explants
from glass
contained
of the homogenate.
pronase
glands watch
organdy
elsewhere
was
of NaCl
dish
Rivera
24 hours
added
: Thyroid
by a modified
48 hours,
were
an adequate
It is shown
METHODS
cultured
1965).
bated
Normale et - France
culture.
fetuses,
thyroid
provide
can be isolated
MATERIAL
Rivera
glands
between
proteins
(1)
25, 1966
Thyroid rel.atPnship
THYROID
of the chrowere
cut out
Vol. 25, No. 6, 1966
RNA
preparation
2-C
in
2 ml
: Explants
RNA
with
PO4
0.2
M,
0.01 to
as
M
bentonite
(20
of pronase.
48 hours.
RNA
carrier
was
rRNA
in
comment
U.V.
to
freed
MgCl’ Fig.
flow
dients
(Huppert estimated
tated
with
et al’.
described
labelling
24
RNA
et
for
half 8 hours
of the in
non
Nr
Per cent uptake
1311
Per
1311
distribution
origin I MIT DIT T4 T3
on chromatograms
I Front
1 :
al.
131
by
measuring
were
the
medium
a low
plus
I. 33
2.0
2..9
35.0 17.4
43.6 28.0 1.8 0.2 22.9
I:: 47.0
0.6
0.6
(2 d&terminations
574
back gra-
of which precipi-
experiment,
frozen,
as
after
others PO4
pre-
were (up
to
3
0; 57
1.34
0.45
2.5
2.6
2.0
49.0 26.4 1.6
41; 1 15,5 1,2 0,3 38.5 0.8
38.6 23.5 1.4 0.2 33.9 0.4
0.2 19.7 0.6
in
for
in
glycerol
In
2.2
measurements
indicated
S values
a “chase”
M
as
in the
with
with
determined
35.1 17.2 I,6 O’.l 42.2 1.0
carrier
2
o-47
and
0.002
composition
radioactive
refered
dialyzed
in
1960),
were
of PO4
or
aliquots
performed
Spiegelman
explants
M)
or
on
1963).
$% NaCl
be
MgCl’
1964),
counted
base
washed
coprecipitation
fractions,
and
was
phenol
and
estimated
were
extracted
will
0.1
with
was
2 ml
and
M,
by
1
0.‘51
to
were
Labelled
in
at
M
20
which
0.002
(Hare1
et al.
lC
dissolved
either
their
37
1 % SDS
PO4
was
and
at
RNA
DNA
Hall
ethanol,
were
amounts
1966).
(Hare1
hours,
Experiment
Table
RNA
(Nomura,
viously
cent
M
%
(up
Centrifugations
carrier
reincubated
from
Radioactivity counter.
were
against
0.2 3.
absorbancy.
ground
2*C,
80
citrate
Precipitates at
interphase
with
Sodium
0.002
“Phenol-RNA”
2 hours
extracted
and
cells.
&ml)
in
homogenized
MgCl’
initial
with
and
M,
as
The
for
ethanol
mouse
to
overnight
was
with
from
refered
4 mg
- 76-C
0.002
incubated
“Interphase-RNA”
RNA
be
suspended
0.2
at
(P04)
treatments.
and
NaCl
precipitated
the
M,
collected M,
will
phenol
0.002
frozen
buffer
which
4 successive
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
were
of phosphate
bentonite. by
BIOCHEMICAL
each
experiment).
0.01
I$.
Vol. 25, No. 6, 1966
RESULTS tic
BIOCHEMICAL
: Table
medium
are
synthezised the
in
results (Nataf
RNA
yields
500
and : In
of
the
for
63 %
for
very
gradient small
quite
synthe-
amounts
low
as
containjng
of
T 4
compared
insulin
to
and,
or
both
thyroid
RNA
phenol-RNA, for
the
specific
estimated
cpm/pg
Phenol-RNA,
total
and
be
400
for
radioactivity
20
for
Interphase-RNA
RNA. of
pg-lo,
Interphase-RNA, cpm/pg
radioactive
extracted
radio-
(a : 60
11 pg-12,000
experiments
% of in
amount
could
10 pg-II,
4 other
- 23
the
The
8 hours
% for
Phenol-RNA
rRNA
and
chase and
Interphase-RNA.
Phenol-RNA by
the
a purely
1965).
free
a decrease
in
However
medium
2 experiments
14 %
I.
RESEARCH COMMUNICATIONS
cultured
were
another
Chaikoff
In
glands 131
conditions
cpm/pg
represented
fetal
metabolize
present
Interphase-RNA).
in
that
with
pg-11,700
resulted
to
carrier
cpm/pg
b : 49
able
obtained
TSH
activity
I shows
AND BIOPHYSKAL
represented
uniformly
centrifugation proportion
(Fig. sedimented
labelled 1) and above
cpmxlOJ
base
composition
Fig. 1 (left) :4Labelled gradient, PO 0.01 of Spinco ultracentrifuge. Fig. 2 (right) rol gradient, dotted lines
M
: Lgbelled PO 0.01 : A 260 of
Phenol-RNA at 39,000
(Table
as
shown 2).
A
60 S.
cpmx103
00 1 o,-1.0
Fractions
sRNA
3.0,
.
number
rpm
centrifuged for 210
in 5-20 % glycerol minutes in the SW 39
Interphase -RNA centrifuged M for 150 minutes. Solid lines carrier RNA, P : cpm in pellets.
575
in
5-30 ‘$ glyce: radioactivity,
Vol. 25, No. 6, 1966
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
v
I! RNA Fraction
Moles C
per
cent
A
G
A+U C+G
U
4 5
25 -30s sd
28.2 0.3
19.0 0.3
34.6 0;4
18.2 0.3
0.59 0.010
ii
15-20s
26.1
22.9.
29.1
21.9
0.81
f PC
sRNA sd sd
28.0 0.4 0.6
19.3 0.3 0.5
31.3 0.25 0.3
21.3 0’; 2 0.2
1 2 3 4
23.6 23.4 22.0 22.3
24.0 24.0 26.1 22.3
24.7 22.6 25.0 25.0
27.8 30.0 26.9 30.5
1.07 1.17 1.13 1.12
I 2 3
23.7 21,2 22.1
24.6 26.0 27.2
24.6 25.3 23.6
27.1 27.5 27.1
1.07 1.15 1.19
“3
22.4 25.0
21.7 24.1
29.7 26.4
26.2 24.1
0.92 0.95
4
25.7 22.5 23.9 23.5
20.3 20.5 22.9 21.1
27.9 29.8 29.1 27.9
26.1 27.2 24.1 27.5
0.87 0.91 0.89 0.95
1 3 4
21.8 25.4 23.5
25.3 22.5 22.8
29.1 28.1 26.8
23.8 24.0 27.0
0.96 0.87 0.99
90s
60-80s
3 d3
45-60s
3 E &
30-45s
1 5
20-30s
Table
2 : Base
riments, (1,2,3,4
sd : standard : experiment
Interphase-RNA (Fig,
composition
deviation) number).
: A major
2, 3) and had a G-C
Heavier
fractions
and were
distinctly
reported
in Fig.
associated
with
760
P Ph~~oPl-RR~p~;;;;;~ and
proportion content
sedimented lower
S, represented
more 3, high DNA
of 32
DNA
like.
S values
or proteins,
1
than that 15-25
From
or to RNA
576
4 expe-
between
20-45
S
of rRNA
(table
2).
% of total
experiments
did not seem
0.68 0.016 0.012
Interphase-RNA such
to correspond aggregates.
as that to RNA
Vol. 25, No. 6, 1966
BIOCHEMICAL
cpmxl 0
cpmxlO! I.5
A I
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
A
Fig. 3 : A Interphase-RNA and pronase (100 pg/ml, fuged as in Fig. 2. Pooled ethanol, dialysed ovenight B : fraction 1, C : fraction 0.01
M
for
DISCUSSION
: From
sists
of
mostly
nuclear
RNA
indicate
to
of
Darnell
1963)
proportion that dRNA. only
al.
It
noteworthy
(30
been
extracted
contribute
S)
Pulse
from
labelled
sheep
a better
12 %
heavy
knowledge
study
(Cartouzou, of RNA of polycistronic
577
synthesis
of
and
I metabolism,
from
Warner
1965).
acids
dRNA.
poly-
isolated
1965.
et al.
Mantk and
of
been
Kawade
131
estimation
presumably
has
of amino
relative
consisted
the
dRNA,
(Scherrer
the
RNA
allow
and The
permit
dRNA and
correspond
dRNA.
of total
nuclear
Base
Latham
fractions
Fukada
thyroid
S may
represent
incorporation
comparative
30-45
which
erythroblasts
stimulated
Mantieva,
(Scherrer,
heavy
(Yoshikawa, duck
1962).
conditions
of thyroxin,
con-
and
mostly
8 -
Phenol-RNA represents
various
and
that
Interphase-RNA
precursors
of the
in
appears
fractions
ones
that
from
to
and
later,
rRNA
RNA
it
Georgiev
the
heavier
cells
which
Further
and
found.
culture
RNA
in
content
amount
and
RNA,
of nuclear
was
X966),
1965).
G-C
%
cistronic,
study
with
that
- 60 is
present
that
and
a small
growing
the
dRNA
and
50
minutes.
agreement
composition a mixture
225
number
treated with DNAse (2 w/ml, 30 minutes) 60 minutes), reextracted with phenol, centrifractions w4ere precipitated with citrate and against PO 0.01 M, EDTA 0.01 M. 2, centrifuged in 5 - 30 $ glycerol,
cytoplasmic
(in
h
t
Fractions
EDTA
cpmd0 C
O3
“in
et
Nuclear vitro”
has
Lissitsky might
Vol. 25, No. 6, 1966
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
REFERENCES Cartouzou,
G.,
Mant6,
S.,
and
Res. Corn. 20, 212, (1965) Elias, J. J. and Rivera, E.M., Georgiev, G. P. and Mantieva,
153,
Lissitsky, Cancer V. L.,
S., Res. Biochim.
Biochem. 19,
Biophys.
505, Biophys.
(1959) Acta
61,
(1962)
Harel,
J.,
J. Mol. Harel, Biochim. Huppert,
Biol. 1, 645, (1963) L., Harel, J., BoBr, A., Biophys. Acta, 87, 212, J., Lacour, F., Harel,
26,
Harel,
L.,
Lacour,
F.,
BoBr, Imbenotte, (1964) J. and
A.
and J.
Imbenotte, and
Harel,
L.,
J.
Carpeni,
N.
Cancer
Res.
156 (1966)
Nataf,
B.M.
and
Chaikoff,
I.L.,
Biochim.
Biophys.
Acta
m,
422
(1965) Nataf, 263D, Nataf,
35,
B. M., Malaise, 63 (1966) Rivera, B.M.,
E., E.
and M.
and
Tubiana,
M.,
Chaikoff,
IL.,
Comptes-Rendus, Endocrinology
76,
(1965)
Nomura,
306,
M.,
Hall,
B.P.
and
Spiegelman,
S.S.,
J.
Mol.
Biol.
2,
(1960)
Scherrer,
K.,
Gros, F., Scherrer, Sci. U.S.
Proc. Coil. Sot. K., Latham, H. 2, 240, (1963) Raghupathy, E.
Tong,
W.,
931,
(1963)
Marcaud,
Warner, J., Soeiro, R., J’, Mol. Biol. In the press. Fukada, Yoshikawa, M., Acta, 103, 383, (1965).
L.,
Zajdela, Chim. Biol., and Darnell, and
Chaikoff,
F.,
Breckenridge, Marseille J.E., Proc. I. L.,
B.
(1965).In Natl.
the Acad.
Endocrinology
Birnboin, C., Girard, M. and Personnal Communication. T. and Kawade, Y., Biochim.
578
and press.
72, Darnell, Biophys.
J.
Vol. 25, No. 6, 1966
HIGH
MOLECULAR
J. Hare1
(l),
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
WEIGHT B. Nataf
DNA-LIKE L.
(l),,
RNA
Hare1
IN RAT
(2) and J. Imbenotte
(1) Institut Gustave Roussy (2) Centre de Recherches sur la Cellule Canc6reuse - Villejuif - Val-de-Marne
Received
October
RNA
in animal (dRNA)
in organ
AND were
messenger cells.
on which
RNA
from
material
to study
and the biosynthesis here
fetal
Each
a piece lobes
culture
of dacron
(Nataf,
as described
that
very
rat thyroid
before
to 10 dishes,
to one other dish. 131 I measurements 0.14
on an aliquot ted with
M,
the
of specific
“heavy”
DNA-like
glands
maintained
components prepared
Tris
was floated
(Nataf,
Malaise
in 3 experiments
0.05
M.
Total
from
The
rest
the dried
chromatograms.
and counted
in a scintillation
2-4
dishes
experiment
1966)
32P
to the radioautogral%ic counter.
573
incufor
(100 ye/ml) was ’ added
of the homogenate
1963).
109
isolated were
and Tubiana
to separate
and Chaikoff
corresponding
The
in 0.3
was digeslabelled
Radioautograms
bands
ml
measured
the various
Sections
rat
and
NCTC
to support
1311 (50 PC/ml)
Raghupathy
matograms
(Elias
washed and homogenized 131 I incorporation was
and chromatographed,
(Tong,
method
1965).
the end of each
were
21 day CF Wistar
1 ml of medium
and Chaikoff
: Explants
from glass
contained
of the homogenate.
pronase
glands watch
organdy
elsewhere
was
of NaCl
dish
Rivera
24 hours
added
: Thyroid
by a modified
48 hours,
were
an adequate
It is shown
METHODS
cultured
1965).
bated
Normale et - France
culture.
fetuses,
thyroid
provide
can be isolated
MATERIAL
Rivera
glands
between
proteins
(1)
25, 1966
Thyroid rel.atPnship
THYROID
of the chrowere
cut out
Vol. 25, No. 6, 1966
RNA
preparation
2-C
in
2 ml
: Explants
RNA
with
PO4
0.2
M,
0.01 to
as
M
bentonite
(20
of pronase.
48 hours.
RNA
carrier
was
rRNA
in
comment
U.V.
to
freed
MgCl’ Fig.
flow
dients
(Huppert estimated
tated
with
et al’.
described
labelling
24
RNA
et
for
half 8 hours
of the in
non
Nr
Per cent uptake
1311
Per
1311
distribution
origin I MIT DIT T4 T3
on chromatograms
I Front
1 :
al.
131
by
measuring
were
the
medium
a low
plus
I. 33
2.0
2..9
35.0 17.4
43.6 28.0 1.8 0.2 22.9
I:: 47.0
0.6
0.6
(2 d&terminations
574
back gra-
of which precipi-
experiment,
frozen,
as
after
others PO4
pre-
were (up
to
3
0; 57
1.34
0.45
2.5
2.6
2.0
49.0 26.4 1.6
41; 1 15,5 1,2 0,3 38.5 0.8
38.6 23.5 1.4 0.2 33.9 0.4
0.2 19.7 0.6
in
for
in
glycerol
In
2.2
measurements
indicated
S values
a “chase”
M
as
in the
with
with
determined
35.1 17.2 I,6 O’.l 42.2 1.0
carrier
2
o-47
and
0.002
composition
radioactive
refered
dialyzed
in
1960),
were
of PO4
or
aliquots
performed
Spiegelman
explants
M)
or
on
1963).
$% NaCl
be
MgCl’
1964),
counted
base
washed
coprecipitation
fractions,
and
was
phenol
and
estimated
were
extracted
will
0.1
with
was
2 ml
and
M,
by
1
0.‘51
to
were
Labelled
in
at
M
20
which
0.002
(Hare1
et al.
lC
dissolved
either
their
37
1 % SDS
PO4
was
and
at
RNA
DNA
Hall
ethanol,
were
amounts
1966).
(Hare1
hours,
Experiment
Table
RNA
(Nomura,
viously
cent
M
%
(up
Centrifugations
carrier
reincubated
from
Radioactivity counter.
were
against
0.2 3.
absorbancy.
ground
2*C,
80
citrate
Precipitates at
interphase
with
Sodium
0.002
“Phenol-RNA”
2 hours
extracted
and
cells.
&ml)
in
homogenized
MgCl’
initial
with
and
M,
as
The
for
ethanol
mouse
to
overnight
was
with
from
refered
4 mg
- 76-C
0.002
incubated
“Interphase-RNA”
RNA
be
suspended
0.2
at
(P04)
treatments.
and
NaCl
precipitated
the
M,
collected M,
will
phenol
0.002
frozen
buffer
which
4 successive
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
were
of phosphate
bentonite. by
BIOCHEMICAL
each
experiment).
0.01
I$.
Vol. 25, No. 6, 1966
RESULTS tic
BIOCHEMICAL
: Table
medium
are
synthezised the
in
results (Nataf
RNA
yields
500
and : In
of
the
for
63 %
for
very
gradient small
quite
synthe-
amounts
low
as
containjng
of
T 4
compared
insulin
to
and,
or
both
thyroid
RNA
phenol-RNA, for
the
specific
estimated
cpm/pg
Phenol-RNA,
total
and
be
400
for
radioactivity
20
for
Interphase-RNA
RNA. of
pg-lo,
Interphase-RNA, cpm/pg
radioactive
extracted
radio-
(a : 60
11 pg-12,000
experiments
% of in
amount
could
10 pg-II,
4 other
- 23
the
The
8 hours
% for
Phenol-RNA
rRNA
and
chase and
Interphase-RNA.
Phenol-RNA by
the
a purely
1965).
free
a decrease
in
However
medium
2 experiments
14 %
I.
RESEARCH COMMUNICATIONS
cultured
were
another
Chaikoff
In
glands 131
conditions
cpm/pg
represented
fetal
metabolize
present
Interphase-RNA).
in
that
with
pg-11,700
resulted
to
carrier
cpm/pg
b : 49
able
obtained
TSH
activity
I shows
AND BIOPHYSKAL
represented
uniformly
centrifugation proportion
(Fig. sedimented
labelled 1) and above
cpmxlOJ
base
composition
Fig. 1 (left) :4Labelled gradient, PO 0.01 of Spinco ultracentrifuge. Fig. 2 (right) rol gradient, dotted lines
M
: Lgbelled PO 0.01 : A 260 of
Phenol-RNA at 39,000
(Table
as
shown 2).
A
60 S.
cpmx103
00 1 o,-1.0
Fractions
sRNA
3.0,
.
number
rpm
centrifuged for 210
in 5-20 % glycerol minutes in the SW 39
Interphase -RNA centrifuged M for 150 minutes. Solid lines carrier RNA, P : cpm in pellets.
575
in
5-30 ‘$ glyce: radioactivity,
Vol. 25, No. 6, 1966
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
v
I! RNA Fraction
Moles C
per
cent
A
G
A+U C+G
U
4 5
25 -30s sd
28.2 0.3
19.0 0.3
34.6 0;4
18.2 0.3
0.59 0.010
ii
15-20s
26.1
22.9.
29.1
21.9
0.81
f PC
sRNA sd sd
28.0 0.4 0.6
19.3 0.3 0.5
31.3 0.25 0.3
21.3 0’; 2 0.2
1 2 3 4
23.6 23.4 22.0 22.3
24.0 24.0 26.1 22.3
24.7 22.6 25.0 25.0
27.8 30.0 26.9 30.5
1.07 1.17 1.13 1.12
I 2 3
23.7 21,2 22.1
24.6 26.0 27.2
24.6 25.3 23.6
27.1 27.5 27.1
1.07 1.15 1.19
“3
22.4 25.0
21.7 24.1
29.7 26.4
26.2 24.1
0.92 0.95
4
25.7 22.5 23.9 23.5
20.3 20.5 22.9 21.1
27.9 29.8 29.1 27.9
26.1 27.2 24.1 27.5
0.87 0.91 0.89 0.95
1 3 4
21.8 25.4 23.5
25.3 22.5 22.8
29.1 28.1 26.8
23.8 24.0 27.0
0.96 0.87 0.99
90s
60-80s
3 d3
45-60s
3 E &
30-45s
1 5
20-30s
Table
2 : Base
riments, (1,2,3,4
sd : standard : experiment
Interphase-RNA (Fig,
composition
deviation) number).
: A major
2, 3) and had a G-C
Heavier
fractions
and were
distinctly
reported
in Fig.
associated
with
760
P Ph~~oPl-RR~p~;;;;;~ and
proportion content
sedimented lower
S, represented
more 3, high DNA
of 32
DNA
like.
S values
or proteins,
1
than that 15-25
From
or to RNA
576
4 expe-
between
20-45
S
of rRNA
(table
2).
% of total
experiments
did not seem
0.68 0.016 0.012
Interphase-RNA such
to correspond aggregates.
as that to RNA
Vol. 25, No. 6, 1966
BIOCHEMICAL
cpmxl 0
cpmxlO! I.5
A I
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
A
Fig. 3 : A Interphase-RNA and pronase (100 pg/ml, fuged as in Fig. 2. Pooled ethanol, dialysed ovenight B : fraction 1, C : fraction 0.01
M
for
DISCUSSION
: From
sists
of
mostly
nuclear
RNA
indicate
to
of
Darnell
1963)
proportion that dRNA. only
al.
It
noteworthy
(30
been
extracted
contribute
S)
Pulse
from
labelled
sheep
a better
12 %
heavy
knowledge
study
(Cartouzou, of RNA of polycistronic
577
synthesis
of
and
I metabolism,
from
Warner
1965).
acids
dRNA.
poly-
isolated
1965.
et al.
Mantk and
of
been
Kawade
131
estimation
presumably
has
of amino
relative
consisted
the
dRNA,
(Scherrer
the
RNA
allow
and The
permit
dRNA and
correspond
dRNA.
of total
nuclear
Base
Latham
fractions
Fukada
thyroid
S may
represent
incorporation
comparative
30-45
which
erythroblasts
stimulated
Mantieva,
(Scherrer,
heavy
(Yoshikawa, duck
1962).
conditions
of thyroxin,
con-
and
mostly
8 -
Phenol-RNA represents
various
and
that
Interphase-RNA
precursors
of the
in
appears
fractions
ones
that
from
to
and
later,
rRNA
RNA
it
Georgiev
the
heavier
cells
which
Further
and
found.
culture
RNA
in
content
amount
and
RNA,
of nuclear
was
X966),
1965).
G-C
%
cistronic,
study
with
that
- 60 is
present
that
and
a small
growing
the
dRNA
and
50
minutes.
agreement
composition a mixture
225
number
treated with DNAse (2 w/ml, 30 minutes) 60 minutes), reextracted with phenol, centrifractions w4ere precipitated with citrate and against PO 0.01 M, EDTA 0.01 M. 2, centrifuged in 5 - 30 $ glycerol,
cytoplasmic
(in
h
t
Fractions
EDTA
cpmd0 C
O3
“in
et
Nuclear vitro”
has
Lissitsky might
Vol. 25, No. 6, 1966
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
REFERENCES Cartouzou,
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