Bio-Rad Model 491 Prep Cell and Mini Prep Cell User Manual

27

a. High salt concentration in the

sample.

a. Sample overloaded.
b. Incorrect %T.
c. Incorrect gel length or gel tube

size.

d. Inadequate cooling.

a. Proteins too dilute and UV

detect ion not sufficient.

b. Insufficient protein load.

c. %T too high and proteins remain

in gel or diffuse to un detectable
level.

d. %T too low, protein mi grates

with ion front.

a. O-ring or dialysis membrane in

elu- tion chamber missing or
damaged.

a. Mechanical stress.

b. It is normal for a gel to pull
slightly away from the wall.


c. Polymerization too fast.

d. Heat of polymerization not
dissi pated.

a. Buffer concentration or pH are

in correct.

a. Remove salts by dialysis,

desalting column, etc.

a. Decrease sample load.
b. Refer to section 4.
c. Check Table 2.

d. Cooling flow rate should be 100

ml/min.

a. Use silver stained SDS-PAGE gels

to analyze indi vidual prep cell
frac tions.

b. Increase total protein loaded.

c. Decrease %T. See detailed

optimization procedure, section
4.2.

d. Increase %T. See detailed

optimization procedure in

Section 4.

a. Check to see if O-ring and dialysis

membrane are in place and not
dam aged.

a. Reduce handling of the gel during

polymerization.

b. Refractive phenomena often
accen tuate the appear ance of
these regions. They will not affect
protein resolu tion.

c. Check catalyst concentra tion.

d. Cool gel during polymer ization.

a. Make fresh buffer.

1. Sample requires a long

time to en ter the gel.

2. Poor resolution.

3. No detectable proteins

in collected fractions.

4. Elution buffer floods

down into lower buffer
chamber.

5. Air pockets between gel

and gel tube.

6. Running conditions

outside recom mended
range.

Problem Cause

Solution

Section 6

Troubleshooting Guide

27