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Microelectrophoresis using small volumes of buffer
CIINICA
MICROELECTROPHORESIS
CHIMICA ACTA
USING
537
SMALL
VOLUMES
OF BUFFER
J. FISCHL Department,
Biochemical
“Assaf
Harofe”
Govevnment Hospital, Zerifivl (Isvael)
(Received January 8th, 1962)
In “micro” taken
electrophoresis,
little
for the run, for “macro”
features
of “micro”
electrophoresis
the low cost and simplicity cedures
for routine
PORT et al.1 in methods type
with
is gained
methods
by a reduction
also employ
are the reduction
of construction,
electrophoresis.
of apparatus,
acetate
Such an apparatus
in which
widely
as the supporting
the advantages
samples. simple
used.
KOHN’S~ would
by
pro-
RAPPA-
electrophoresis
however,
of this material
apparatus,
and reliable
was constructed
medium,
of serum
The important
in the size of the
and the rapid,
1957 and has since become
cellulose
of the amount
minute
suggested be fully
a new
realized.
CONSTRUCTION OF APPARATUS For height
the buffer
vessels,
2.0 cm are used.
two
small
Empty
plastic
boxes
Fig. I. Joining the cover-glass The
boxes
vessels two
thick
nylon
and about the
are glued
threads
are then
the perspex
with
are fixed
base
areas
cover
into
4 perspex
glued
to it (Fig. walls.
of 2.5 cm2 and
glasses
can be used.
boxes for the base of the apparatus.
I). To
the rim;
at the inner
with
x zz-mm
the lid of one of the boxes
of 2.5 cm (Fig.
4 mm below
assembly
through
together
by a distance
boxes
for zz
keep
the cellulose
each box plates
4 mm
from
strip
platinum
are bent
electrodes
in such a way
the two in place,
the outer
3.5 cm high and exactly
2). Two They
about
separating
acetate
edge
surrounding are inserted that
their
tip
J. I:lSCHI.
53s
Fig. 2. The apparatus
two
lntroduw 0 ml ol \-cxronal buffer vwscls. Cut :I 2.0 X rr.o-cm strip
l~and), moisten kvith the same buffer and insert the ends into the nylon
ready
for USC.
ionic strctngth 0.05) into each of that of cellulose xwtatt paper (do not touch by
(pH S.6;
for about 5 min, blot bet\vccn filter paper strips threads in the two compartments. An arch is
formed and, owing to the rigidity of the cellulose ncctate paper, tlic bridge supports itself in the air, with only the ends touching the walls of the: vcsscl. Apply about 5-S ,~ugof serum (or Hb hcmolysatej at the apex of the arch (i.e. in thtt middlo of the strip) by means of a capillary pipette or any othrr suitabk de\-kc. Cover the apparatus \vith n glass plate, and apply the currcnt. (;ood resolution can bo obtained in 30 min at 100 I,‘, in z h at ho V, and in g 11 at rq 1’ (Fig. 3). * Staining can be carried out by any convenient method, preferably with ligllt grwn or Ponceau 5 stains, and the evaluation mctry or by visual observa lion.
‘Ilie
chkf
xlvantagc~s
of the
micro
can bv performed
elcctrophorctsis
by clution,
apparatus
are
denliito-
tlit:
rapid
resolution of the c:lectrophcrogr;lm at 100 \- so that rtwlts can lx: obtained in 30 min, and the, lon \-oltage resolution, e.g. at 14 \-, which allows the use of dry bxtteric~ instcacl of ;I central paver supply. An clcctrophorc~is cxn thus hc performed in rcrnotc plnces I\:hcrc no clcctricity is n~~ailabl~~. Rot11 of thew ntlvantages are dlw to thcx !+mall size: of the: clcctrodc vcsscls and to ihc minimal amounts of buffer employed. ‘1’11euse of the apparatus is also very economical. Although ordinary filter paper- (suitalA: ior clcctrophoresk) can be used \\.itll t11c: becomes c~scwsive, considcrillg the> small nmount of sainplv, apparatus, “tailing”
MICROELECTROPHORESIS
539
and cellulose acetate is much better fitted for the purpose. The products from “0x0” and Schleicher and Schiill are suitable. Agar gel electrophoresis, with microscope slides as support, can also be performed, the time of resolution again being reduced. Thus,
agar immuno-electrophoresis is possible. Starch gel or block electrophoresis has not yet been tried.
Fig. 3. Electropherograms:
(I) IO min at 4oo V, (2) 30 min at 160 V, (3) 100 min at 80 V, (4) 120 min at 60 V, (5) 7 h at 14 V. In each case a normal (upper) and a myeloma serum (lower) was run on the same strip. (Note the faster moving M’ component.) Distance of migration of No. I = 160 mm and of No. 4 = 440 mm. ACKNOWLEDGEMENT
I express my thanks to Dr. H. STEGEMANN and his staff of the Max Planck Institute (Gbttingen) for their help in the experimental stage of this work, at the Symposium on Protein Analysis at Gottingen (1961). SUMMARY
The construction and use of a simple, economical micro electrophoresis apparatus is described in detail. With cellulose acetate paper as the supporting medium, electrophoresis requires 30 min. Dry batteries may be used as the power supply; at 14 V resolution is obtained in 5-7 h. REFERENCES 1 F. RAPPAPORT, F. EINHORN ’ J. KOHN, CZim. Chim. Acta,
AND J. FISCHL, Clin. Chim. 2 (1957)
Acta,
2 (1957) 390.
297. Clin. Chim.
Acta,
, (1962)
53,-x39
MICROELECTROPHORESIS
CHIMICA ACTA
USING
537
SMALL
VOLUMES
OF BUFFER
J. FISCHL Department,
Biochemical
“Assaf
Harofe”
Govevnment Hospital, Zerifivl (Isvael)
(Received January 8th, 1962)
In “micro” taken
electrophoresis,
little
for the run, for “macro”
features
of “micro”
electrophoresis
the low cost and simplicity cedures
for routine
PORT et al.1 in methods type
with
is gained
methods
by a reduction
also employ
are the reduction
of construction,
electrophoresis.
of apparatus,
acetate
Such an apparatus
in which
widely
as the supporting
the advantages
samples. simple
used.
KOHN’S~ would
by
pro-
RAPPA-
electrophoresis
however,
of this material
apparatus,
and reliable
was constructed
medium,
of serum
The important
in the size of the
and the rapid,
1957 and has since become
cellulose
of the amount
minute
suggested be fully
a new
realized.
CONSTRUCTION OF APPARATUS For height
the buffer
vessels,
2.0 cm are used.
two
small
Empty
plastic
boxes
Fig. I. Joining the cover-glass The
boxes
vessels two
thick
nylon
and about the
are glued
threads
are then
the perspex
with
are fixed
base
areas
cover
into
4 perspex
glued
to it (Fig. walls.
of 2.5 cm2 and
glasses
can be used.
boxes for the base of the apparatus.
I). To
the rim;
at the inner
with
x zz-mm
the lid of one of the boxes
of 2.5 cm (Fig.
4 mm below
assembly
through
together
by a distance
boxes
for zz
keep
the cellulose
each box plates
4 mm
from
strip
platinum
are bent
electrodes
in such a way
the two in place,
the outer
3.5 cm high and exactly
2). Two They
about
separating
acetate
edge
surrounding are inserted that
their
tip
J. I:lSCHI.
53s
Fig. 2. The apparatus
two
lntroduw 0 ml ol \-cxronal buffer vwscls. Cut :I 2.0 X rr.o-cm strip
l~and), moisten kvith the same buffer and insert the ends into the nylon
ready
for USC.
ionic strctngth 0.05) into each of that of cellulose xwtatt paper (do not touch by
(pH S.6;
for about 5 min, blot bet\vccn filter paper strips threads in the two compartments. An arch is
formed and, owing to the rigidity of the cellulose ncctate paper, tlic bridge supports itself in the air, with only the ends touching the walls of the: vcsscl. Apply about 5-S ,~ugof serum (or Hb hcmolysatej at the apex of the arch (i.e. in thtt middlo of the strip) by means of a capillary pipette or any othrr suitabk de\-kc. Cover the apparatus \vith n glass plate, and apply the currcnt. (;ood resolution can bo obtained in 30 min at 100 I,‘, in z h at ho V, and in g 11 at rq 1’ (Fig. 3). * Staining can be carried out by any convenient method, preferably with ligllt grwn or Ponceau 5 stains, and the evaluation mctry or by visual observa lion.
‘Ilie
chkf
xlvantagc~s
of the
micro
can bv performed
elcctrophorctsis
by clution,
apparatus
are
denliito-
tlit:
rapid
resolution of the c:lectrophcrogr;lm at 100 \- so that rtwlts can lx: obtained in 30 min, and the, lon \-oltage resolution, e.g. at 14 \-, which allows the use of dry bxtteric~ instcacl of ;I central paver supply. An clcctrophorc~is cxn thus hc performed in rcrnotc plnces I\:hcrc no clcctricity is n~~ailabl~~. Rot11 of thew ntlvantages are dlw to thcx !+mall size: of the: clcctrodc vcsscls and to ihc minimal amounts of buffer employed. ‘1’11euse of the apparatus is also very economical. Although ordinary filter paper- (suitalA: ior clcctrophoresk) can be used \\.itll t11c: becomes c~scwsive, considcrillg the> small nmount of sainplv, apparatus, “tailing”
MICROELECTROPHORESIS
539
and cellulose acetate is much better fitted for the purpose. The products from “0x0” and Schleicher and Schiill are suitable. Agar gel electrophoresis, with microscope slides as support, can also be performed, the time of resolution again being reduced. Thus,
agar immuno-electrophoresis is possible. Starch gel or block electrophoresis has not yet been tried.
Fig. 3. Electropherograms:
(I) IO min at 4oo V, (2) 30 min at 160 V, (3) 100 min at 80 V, (4) 120 min at 60 V, (5) 7 h at 14 V. In each case a normal (upper) and a myeloma serum (lower) was run on the same strip. (Note the faster moving M’ component.) Distance of migration of No. I = 160 mm and of No. 4 = 440 mm. ACKNOWLEDGEMENT
I express my thanks to Dr. H. STEGEMANN and his staff of the Max Planck Institute (Gbttingen) for their help in the experimental stage of this work, at the Symposium on Protein Analysis at Gottingen (1961). SUMMARY
The construction and use of a simple, economical micro electrophoresis apparatus is described in detail. With cellulose acetate paper as the supporting medium, electrophoresis requires 30 min. Dry batteries may be used as the power supply; at 14 V resolution is obtained in 5-7 h. REFERENCES 1 F. RAPPAPORT, F. EINHORN ’ J. KOHN, CZim. Chim. Acta,
AND J. FISCHL, Clin. Chim. 2 (1957)
Acta,
2 (1957) 390.
297. Clin. Chim.
Acta,
, (1962)
53,-x39