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Molecular weight estimation of polypeptide chains by electrophoresis in SDS-polyacrylamide gels
Vol. 28, No. 5, 1967
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
MOLECULARWEIGHT ESTIMATION OF POLYPEPTIDE CHAI S BY ELECTROPHORESISIN SDS-POLYACRYLAMIDEGELS!f Arnold
Department of Ophthalmology and Department of Biochemistry Eladio Vi%ela2, New York University School of Medicine New York, New York and Jacob V. Maizel, Jr.3, Department of Cell Biology Albert Einstein College of Medicine Bronx, New York
Received
August
L. Shapiro,
3, 1967
Introduction. Electrophoresis detergent
sodium dodecyl
separation et al., --
in polyacrylamide
and identification 1966;
to indicate estimation
Vi'iiuela that
the
in the presence
(SDS) has proven of polypeptide
et al., --
It
1967).
same technique
of the molecular
Materials
to be a useful
chains
(Maizel,
is the purpose
may be used for
weights
of proteins
of the anionic
1966;
of this
the rapid
and their
tool
for
A, lysozyme,
from the Worthington was a gift and trypsin and bovine
Biochemical
from Dr. R. Warner; from Calbiochem. serum albumin
(H and L dimer)
Shapiro
communication and simple
subunits.
carboxypeptidase Corporation. bovine
from Armour.
Ovalbumin
hemoglobin
Thyroglobulin
were produced
A, and pepsin
Half
type
were obtained
(3x crystallized)
was purchased II
molecules
from Pentex
was obtained
from Sigma
of gamma globulin
by the MPC-11 mouse plasma cell
tumor
(Scharff
1967).
1Supported by USPHS Grants NB-U6743, AI-4153, and AM-01845, International Post-Doctoral Fellowship F05-TW-84g2, NSF Grant GB-4751, and grants from the American Cancer Society. 2Present address: Instituto Mara%on, Centro De Investigaciones Biol;gicas, Veld'zquez 138, Madrid 6, Spain. 3Recipient
the
and Methods.
Ribonuclease
--et al.,
sulfate
gels
of USPHS Career
Development
815
Award.
Vol. 28, No. 5, 1967
Fifty
BIOCHEMICAL
microgram
AND BIOPHYSICAL
samples of each protein
pH 7.1 in 1% SDS and 1% 2-mercaptoethanol samples were then
dialyzed
16 hours
pH 7.1 with
(H) and light
result
study.
(L)
Iodoacetamide of disruption
The gels
molecular tion
chains
(0.05M)
pH 7.1 with for
0.l.M phosphate
and
was O.lM phosphate
gamma globulin
against
and tertiary
O.OlM phosphate
in 20% sulfosalicylic 5 hours,
0.1% SDS but without acid
for
and destained
with
correlated
16 hours,
with
studies
performed
in electrophoretic under
these
of relative
conditions
This 2-Me.
acid.
within
The mig-raeach gel. and beta
migration.
on some of these
migration
as a
the known
for each protein.
the migration
with
stained
7% acetic
of the alpha
as a standard
exposed
by the SDS.
tabulated,
In preliminary
that
sulfhydryls
point
using
heavy
but was incubated
structure with
1959) were
above to yield
blue was used as the reference
of hemoglobin
no differences
(Fahey,
as described
migration of each band was then weights 4 of the polypeptide chains
were then
suggesting
buffer
at The
at 8 volts/cm.
containing
was added to block
of secondary
were fixed
of bromphenol
The data
3 hours.
O.OlM phosphate
The second was not reduced
0.25% Coomasie Blue for
The relative
rabbit
One was treated
chains.
sample was dialyzed
with
and reduced
0.1% SDS.
in this
1% SDS.
gels
The electrophoresis
1966).
Two samples of DEAE-purified included
against
at 37' for
was performed
in 125 m.m. 5% polyacrylamide
0.1% SDS (Maizel,
were denatured (2-Me)
Electrophoresis
0.1% SDS and 0.1% 2-Me. two hours
for
RESEARCH COMMUNICATIONS
in O.l%,
of incubation
proteins,
we found
O.S%, and 1.0% SDS, and dialysis,
0.1%
SDS is sufficient.
4The molecular weights used were obtained from The Proteins, ed. H.Neurath (New York and London: Academic Press, 1963); references listed in the Worthington Biochemical Corp. catalog; Edelhoch, H., and De Crombrugghe, B., J. Biol. Chem., 241, 4357 (1966); and Fleischman, J. B., Ann. Rev. Biochem., -35, 835 (1966). -
816
BIOCHEMICAL
Vol. 28, No. 5, 1967
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Results. A typical in Fig.
experiment
performed
under
the
conditions
described
is
shown
1.
Ribonuclease I I I
A
n
Lysozyme Thyroglobulln
J +
Hemoglobin
n
m Trypsin
1
1
n H
+
L
1
Chains mm
1
1
Carboxypept
idase
A
I
I
I
Pepsin I
I I I
Bovine :;
1 Serum
Albumin
n
J
Gamma 1
I
Ovalbumin ii
Globulin
I
I
Figure 1 - Stained 5% polyacrylamide disc gels prepared and electrophoresed as described in the text to show the relative migrations of the polypeptide The anode is on the right. The bands of chains of a number of proteins. bromphenol blue are not shown in this illustration.
Both ovalbumin component.
Carboxymethylation
of the slow component by disulfide
and bovine
bonding
serum albumin of reduced
in each case, during
revealed
samples
suggesting
electrophoresis
81’7
that
a second,
resulted
in disappearance
aggregation
had occurred.
slow moving
into
dimers
Vol. 28, No. 5, 1967
BIOCHEMICAL
z
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Trypsin L Chain
20
101 ’
’
(Origin)
’
2o
’
’
’
4o
’
6o
RELATIVE
’
’
’
*O
‘OO(&,j
MIGRATION
Figure 2 - Semi-log plot of molecular weight against distance of migration A line of best fit has relative to the alpha and beta chains of hemoglobin. The insert represents a rectilinear plot been drawn through the data points. of the same data.
A composite migration
of three
is plotted
straight
line
relationship
such experiments
against
the
can be fitted between
is shown in Fig.
log of molecular
from molecular
molecular
weight
weight
weights
15,500
and migration
2.
If
relative
(ordinate),
a
to 165,000.
can thus
The
be expressed
as:
M.W. = k (lO-bx) where x is the distance The rectilinearly relationship of 15,000 weights
between to 75-90,000
studied,
A limited could
of migration plotted
rates for
however,
insert
in Fig.
of migration these the
true
way.
slope.
2 emphasizes
and molecular
5% gels.
indicated
almost
linear
in the range
range
of molecular
is hyperbolic. that
other
A 5% gel was chosen for
818
the
weights
Over the entire
function
number of experiments
be used in a similar
and b is the
gel concentrations illustration
because
Vol. 28, No. 5, 1967
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
many polypeptides
of biological
interest
within
linear
to 90,000
the almost The deviations
were repeatable,
15,000
of ribonuclease and,
as yet,
have molecular
weights
which
fall
range.
A and lysozyme
not completely
from the straight
line
explained.
Discussion. As suggested phoresis spite
by Smithies
can be a useful
the choice
that
proteins
as anions
disruption
and 2-Me results soluble
(e.g. Thus,
component
of a mixture
necessary and the during
ati
curves,
and that
formation disulfide
with
1, that
linkages
by SDS
of many relatively
the method
intechnique
parallel
the molecular simply
gel.
the intrachain
bonds disrupted
is as applicable as to a single
approximate
both
The
method of choice.
and hemoglobin)
in a second,
all SDS.
and the ease of the polyacrylamide
of unknown polypeptides
disulfide
differences
De-
points
the fitted
of complex
as the electrophoretic
to carboxymethylate interchain
charge
electro-
weight.
of isoelectric
approximated
solubilization
one can readily
of known size
of molecular
a range
hydrophobic,
thyroglobulin
or protein.
marker
the native
as the result
can be seen from Fig.
of proteins
with
points
in the quantitative
recommend it
It
all
These factors
and Humphrey (1959),
the approximation
of hydrogen,
proteins.
strongly
for
1953),
SDS minimizes
migrate
extensive
tool
and Allison
of a group of proteins
from 4 to 11 (Alberty, suggesting
(1962)
to a mixture polypeptide
weight
by running
In many cases, sulfhydryls
of each
a suitable it
may be
exposed
by 2-Me to prevent
by SDS
aggregation
electrophoresis. Finally,
the
can be increased
sensitivity, by combined
and a gel fractionator weights
of minute
gel (Shapiro,
(Maizel,
resolving
power,
use of radioactive 1966) to detect
amounts of newly
synthesized
in preparation).
819
and usefulness
of this
method
amino acids,
double
and estimate
the molecular
material,
all
within
labeling,
a single
Vol. 28, No. 5, 1967
Acknowledgements. We gratefully of Miss Janet
Reilly
acknowledge
the expert
technical
assistance
and Miss Jana Krausova.
References Alberty, R. A., (New York:
in The Proteins, Academic Press,
Allison,
and Humphrey,
A. C.,
Fahey, J. L., Maizel,
J. Biol.
J. V., Jr.,
ed. Neurath, H., and Bailey, 1953), vol. 1, part A, 511. J. H., Nature,
Chem., 234,
Science,
151,
2645,
Shapiro, Smithies,
A. L.,
183, 1590 (1959).
(1959).
988 (1966).
Scharff, M. D., Shapiro, A. L., Ginsberg, B., Symposium on Quantitative Biology, 1967, Shapiro, A. L., Proc. Nat.
Cold Spring in press.
Scharff, M. D., Maizel, J. V., Jr., Acad. Sci., -56, 216 (1966). in preparation.
O., Arch.
Vii?uela, E., Algranati, 2, 3 (1967).
Biochem. I.
K.
Biophys.,
Harbor
and Uhr, J. W.,
-98, Supp. 1, 125 (1962). D., Ochoa, S., Europ. J. Biochem.,
820
BIOCHEMICAL
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
MOLECULARWEIGHT ESTIMATION OF POLYPEPTIDE CHAI S BY ELECTROPHORESISIN SDS-POLYACRYLAMIDEGELS!f Arnold
Department of Ophthalmology and Department of Biochemistry Eladio Vi%ela2, New York University School of Medicine New York, New York and Jacob V. Maizel, Jr.3, Department of Cell Biology Albert Einstein College of Medicine Bronx, New York
Received
August
L. Shapiro,
3, 1967
Introduction. Electrophoresis detergent
sodium dodecyl
separation et al., --
in polyacrylamide
and identification 1966;
to indicate estimation
Vi'iiuela that
the
in the presence
(SDS) has proven of polypeptide
et al., --
It
1967).
same technique
of the molecular
Materials
to be a useful
chains
(Maizel,
is the purpose
may be used for
weights
of proteins
of the anionic
1966;
of this
the rapid
and their
tool
for
A, lysozyme,
from the Worthington was a gift and trypsin and bovine
Biochemical
from Dr. R. Warner; from Calbiochem. serum albumin
(H and L dimer)
Shapiro
communication and simple
subunits.
carboxypeptidase Corporation. bovine
from Armour.
Ovalbumin
hemoglobin
Thyroglobulin
were produced
A, and pepsin
Half
type
were obtained
(3x crystallized)
was purchased II
molecules
from Pentex
was obtained
from Sigma
of gamma globulin
by the MPC-11 mouse plasma cell
tumor
(Scharff
1967).
1Supported by USPHS Grants NB-U6743, AI-4153, and AM-01845, International Post-Doctoral Fellowship F05-TW-84g2, NSF Grant GB-4751, and grants from the American Cancer Society. 2Present address: Instituto Mara%on, Centro De Investigaciones Biol;gicas, Veld'zquez 138, Madrid 6, Spain. 3Recipient
the
and Methods.
Ribonuclease
--et al.,
sulfate
gels
of USPHS Career
Development
815
Award.
Vol. 28, No. 5, 1967
Fifty
BIOCHEMICAL
microgram
AND BIOPHYSICAL
samples of each protein
pH 7.1 in 1% SDS and 1% 2-mercaptoethanol samples were then
dialyzed
16 hours
pH 7.1 with
(H) and light
result
study.
(L)
Iodoacetamide of disruption
The gels
molecular tion
chains
(0.05M)
pH 7.1 with for
0.l.M phosphate
and
was O.lM phosphate
gamma globulin
against
and tertiary
O.OlM phosphate
in 20% sulfosalicylic 5 hours,
0.1% SDS but without acid
for
and destained
with
correlated
16 hours,
with
studies
performed
in electrophoretic under
these
of relative
conditions
This 2-Me.
acid.
within
The mig-raeach gel. and beta
migration.
on some of these
migration
as a
the known
for each protein.
the migration
with
stained
7% acetic
of the alpha
as a standard
exposed
by the SDS.
tabulated,
In preliminary
that
sulfhydryls
point
using
heavy
but was incubated
structure with
1959) were
above to yield
blue was used as the reference
of hemoglobin
no differences
(Fahey,
as described
migration of each band was then weights 4 of the polypeptide chains
were then
suggesting
buffer
at The
at 8 volts/cm.
containing
was added to block
of secondary
were fixed
of bromphenol
The data
3 hours.
O.OlM phosphate
The second was not reduced
0.25% Coomasie Blue for
The relative
rabbit
One was treated
chains.
sample was dialyzed
with
and reduced
0.1% SDS.
in this
1% SDS.
gels
The electrophoresis
1966).
Two samples of DEAE-purified included
against
at 37' for
was performed
in 125 m.m. 5% polyacrylamide
0.1% SDS (Maizel,
were denatured (2-Me)
Electrophoresis
0.1% SDS and 0.1% 2-Me. two hours
for
RESEARCH COMMUNICATIONS
in O.l%,
of incubation
proteins,
we found
O.S%, and 1.0% SDS, and dialysis,
0.1%
SDS is sufficient.
4The molecular weights used were obtained from The Proteins, ed. H.Neurath (New York and London: Academic Press, 1963); references listed in the Worthington Biochemical Corp. catalog; Edelhoch, H., and De Crombrugghe, B., J. Biol. Chem., 241, 4357 (1966); and Fleischman, J. B., Ann. Rev. Biochem., -35, 835 (1966). -
816
BIOCHEMICAL
Vol. 28, No. 5, 1967
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Results. A typical in Fig.
experiment
performed
under
the
conditions
described
is
shown
1.
Ribonuclease I I I
A
n
Lysozyme Thyroglobulln
J +
Hemoglobin
n
m Trypsin
1
1
n H
+
L
1
Chains mm
1
1
Carboxypept
idase
A
I
I
I
Pepsin I
I I I
Bovine :;
1 Serum
Albumin
n
J
Gamma 1
I
Ovalbumin ii
Globulin
I
I
Figure 1 - Stained 5% polyacrylamide disc gels prepared and electrophoresed as described in the text to show the relative migrations of the polypeptide The anode is on the right. The bands of chains of a number of proteins. bromphenol blue are not shown in this illustration.
Both ovalbumin component.
Carboxymethylation
of the slow component by disulfide
and bovine
bonding
serum albumin of reduced
in each case, during
revealed
samples
suggesting
electrophoresis
81’7
that
a second,
resulted
in disappearance
aggregation
had occurred.
slow moving
into
dimers
Vol. 28, No. 5, 1967
BIOCHEMICAL
z
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Trypsin L Chain
20
101 ’
’
(Origin)
’
2o
’
’
’
4o
’
6o
RELATIVE
’
’
’
*O
‘OO(&,j
MIGRATION
Figure 2 - Semi-log plot of molecular weight against distance of migration A line of best fit has relative to the alpha and beta chains of hemoglobin. The insert represents a rectilinear plot been drawn through the data points. of the same data.
A composite migration
of three
is plotted
straight
line
relationship
such experiments
against
the
can be fitted between
is shown in Fig.
log of molecular
from molecular
molecular
weight
weight
weights
15,500
and migration
2.
If
relative
(ordinate),
a
to 165,000.
can thus
The
be expressed
as:
M.W. = k (lO-bx) where x is the distance The rectilinearly relationship of 15,000 weights
between to 75-90,000
studied,
A limited could
of migration plotted
rates for
however,
insert
in Fig.
of migration these the
true
way.
slope.
2 emphasizes
and molecular
5% gels.
indicated
almost
linear
in the range
range
of molecular
is hyperbolic. that
other
A 5% gel was chosen for
818
the
weights
Over the entire
function
number of experiments
be used in a similar
and b is the
gel concentrations illustration
because
Vol. 28, No. 5, 1967
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
many polypeptides
of biological
interest
within
linear
to 90,000
the almost The deviations
were repeatable,
15,000
of ribonuclease and,
as yet,
have molecular
weights
which
fall
range.
A and lysozyme
not completely
from the straight
line
explained.
Discussion. As suggested phoresis spite
by Smithies
can be a useful
the choice
that
proteins
as anions
disruption
and 2-Me results soluble
(e.g. Thus,
component
of a mixture
necessary and the during
ati
curves,
and that
formation disulfide
with
1, that
linkages
by SDS
of many relatively
the method
intechnique
parallel
the molecular simply
gel.
the intrachain
bonds disrupted
is as applicable as to a single
approximate
both
The
method of choice.
and hemoglobin)
in a second,
all SDS.
and the ease of the polyacrylamide
of unknown polypeptides
disulfide
differences
De-
points
the fitted
of complex
as the electrophoretic
to carboxymethylate interchain
charge
electro-
weight.
of isoelectric
approximated
solubilization
one can readily
of known size
of molecular
a range
hydrophobic,
thyroglobulin
or protein.
marker
the native
as the result
can be seen from Fig.
of proteins
with
points
in the quantitative
recommend it
It
all
These factors
and Humphrey (1959),
the approximation
of hydrogen,
proteins.
strongly
for
1953),
SDS minimizes
migrate
extensive
tool
and Allison
of a group of proteins
from 4 to 11 (Alberty, suggesting
(1962)
to a mixture polypeptide
weight
by running
In many cases, sulfhydryls
of each
a suitable it
may be
exposed
by 2-Me to prevent
by SDS
aggregation
electrophoresis. Finally,
the
can be increased
sensitivity, by combined
and a gel fractionator weights
of minute
gel (Shapiro,
(Maizel,
resolving
power,
use of radioactive 1966) to detect
amounts of newly
synthesized
in preparation).
819
and usefulness
of this
method
amino acids,
double
and estimate
the molecular
material,
all
within
labeling,
a single
Vol. 28, No. 5, 1967
Acknowledgements. We gratefully of Miss Janet
Reilly
acknowledge
the expert
technical
assistance
and Miss Jana Krausova.
References Alberty, R. A., (New York:
in The Proteins, Academic Press,
Allison,
and Humphrey,
A. C.,
Fahey, J. L., Maizel,
J. Biol.
J. V., Jr.,
ed. Neurath, H., and Bailey, 1953), vol. 1, part A, 511. J. H., Nature,
Chem., 234,
Science,
151,
2645,
Shapiro, Smithies,
A. L.,
183, 1590 (1959).
(1959).
988 (1966).
Scharff, M. D., Shapiro, A. L., Ginsberg, B., Symposium on Quantitative Biology, 1967, Shapiro, A. L., Proc. Nat.
Cold Spring in press.
Scharff, M. D., Maizel, J. V., Jr., Acad. Sci., -56, 216 (1966). in preparation.
O., Arch.
Vii?uela, E., Algranati, 2, 3 (1967).
Biochem. I.
K.
Biophys.,
Harbor
and Uhr, J. W.,
-98, Supp. 1, 125 (1962). D., Ochoa, S., Europ. J. Biochem.,
820