Bio-Rad Bio-Gel P Polyacrylamide Gel User Manual

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Table 2. Properties of Bio-Gel P-Gels

Typical

Fractionation

Particle Size

Hydrated Bed

Range/Nominal

Range, Hydrated

Volume, ml/g

Typical Flow

Exclusion Limit

Gel

Beads (µM)

of Dry Gel

Rates (cm/hr)*

(Daltons)**, †

Bio-Gel P-2 Gel, Fine

45-90

5.0-10

100-1,800

Bio-Gel P-2 Gel, Extra Fine

< 45

<10

100-1,800

Bio-Gel P-4 Gel, Medium

90-180

15-20

800-4,000

Bio-Gel P-4 Gel, Fine

45-90

10.0-15

800-4,000

Bio-Gel P-4 Gel, Extra Fine

< 45

<10

800-4,000

Bio-Gel P-6 Gel, Medium

90-180

6.5

15-20

1,000-6,000

Bio-Gel P-6 Gel, Fine

45-90

10.0-15

1,000-6,000

Bio-Gel P-6 Gel, Extra Fine

< 45

<10

1,000-6,000

Bio-Gel P-6DG Gel

90-180

6.5

15-20

1,000-6,000

Bio-Gel P-10 Gel, Medium

90-180

7.5

15-20

1,500-20,000

Bio-Gel P-10 Gel, Fine

45-90

10.0-15

1,500-20,000

Bio-Gel P-30 Gel, Medium

90-180

7.0-13

2,500-40,000

Bio-Gel P-30 Gel, Fine

45-90

6.0-11

2,500-40,000

Bio-Gel P-60 Gel, Medium

90-180

4.0-6

3,000-60,000

Bio-Gel P-60 Gel, Fine

45-90

3.0-5

3,000-60,000

Bio-Gel P-100 Gel, Medium

90-180

4.0-6

5,000-100,000

Bio-Gel P-100 Gel, Fine

45-90

3.0-5

5,000-100,000

* Flow rates determined in a 1.5 x 70 cm

column, using a hydrostatic pressure
head:bed of 1:1.

** Fractionation ranges above 40,000 dal-

tons are for globular molecules.

† For quality control purposes, the exclu-

sion limits are determined by calculating
the Kd, or distribution coefficient. The
distribution coefficient is a measure of
the residence time of a molecule in the
pores of the gel, and is expressed as:

- V

)/(V

- V

), where V

is the elution

volume of the individual proteins, V

the void volume and V

is the total avail-

able volume measured by a small
molecule such as vitamin B

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