2 electro- blotting procedure, 3 removing the blot, 1 recommended power for slab gels – C.B.S. Scientific DCX-800 User Manual

17

www.cbsscientific.com

4. Insert blotting casettes into core making sure

that red side faces outward. See diagram 5.

5. Close doors and re-latch by pressing down on

the white latches so that assembly looks like
that shown in figure 6. If running one blot, slide
white reservoir conversion plate into the side
without the blotting cassette.

5.2

Electro- Blotting Procedure

1. Place stirring bar in bottom corral of lower res-

ervoir. If using cooling capability of DCX-800C

attach external cooler to tubing adapters and
begin circulating coolant through labyrinth.

The anode (red) and cathode (black) electrodes

are color-coded on both the core/cassette as-
sembly and lower reservoir. Ensure the red dot
on the cassette assembly is on the same side
as the red receptacle on the lower reservoir.

2. Pour 1 liter of freshly prepared, chilled (4º) buffer

into lower buffer reservoir. Buffer will percolate
into central core.

3. Attach safety cover. The unit should look as

shown in figure 7 and is ready for power.

4. Connect the leads to the power supply, match-

ing the color-coded red to red and black to
black.

See Section 6.2 for recommended

power conditions. Begin transfer by electro-
phoresis.

5.3

Removing the Blot

1. Turn the power supply off and disconnect the

leads from the power supply. Remove the
safety cover from the unit, by placing thumbs
on white posts next to red & black connectors,
then pushing down while pulling up with fingers
under lid

.

Do not remove safety cover by pulling up on
leads!

2. Blotting cassettes can be removed by leaving

the core in place and opening the top latches of
the core, opening the doors and lifting the cas-
settes out. Unlatch the blotting cassettes and
remove blot from blotting sandwich.

SECTION 6

Running Conditions

6.1

Recommended Power for Slab Gels:

Precise electrophoresis conditions will vary according to the number and type of
gels used, buffer conditions employed, power input, and the general goal of the
experiment. Refer to reference section 6.3 for in depth discussions on practical and
theoretical approaches to protein gel electrophoresis.

6.1.1 ClearPAGE Gels

Run Voltage

Starting Current

Ending Current Approx. Run TIme

180VDC

90mA/gel

40mA/gel

30-75 minutes

6.1.2 General Recommendations

If running only one gel, keep the volts the same but reduce the mA’s by half. Keep in
mind that as the thickness of gel increases, the mA’s increase proportionally.

At constant voltage, the proteins will migrate at a constant rate during electropho-
resis with adequate heating appropriate for denaturing gels. Increasing the voltage/
mA (for a single gel thickness and percentage) will speed mobility but increase the
risk of overheating.

If using cooling base the power input and the migration rate can be increased. The
joule heating generated by the higher power is offset by the cooling effect of the
buffer between the gels.

6 1 3 Tris-Glycine Gels

For SDS-PAGE Tris-Glycine (Laemmli) buffer systems with

two 1.0mm thick gels at

room temperature use the following conditions at constant voltage:

80VDC until samples have fully entered stacking gel

120VDC @ 60mA-90mA/gel (depending on gel type) thereafter until dye is

near bottom of gel