Bio-Rad Model 785 Vacuum Blotter User Manual

6.3 Blotting Reagents

Catalog
Number

Product Description

162-0153

Zeta-Probe Membrane, sheets, 9 x 12 cm, 15

162-0154

Zeta-Probe Membrane, sheets, 10 x 15 cm, 15

162-0155

Zeta-Probe Membrane, sheets, 15 x 15 cm, 15

162-0156

Zeta-Probe Membrane, sheets, 15 x 20 cm, 15

162-0157

Zeta-Probe Membrane, sheets, 20 x 20 cm, 15

162-0158

Zeta-Probe Membrane, sheets, 20 x 25 cm, 3

162-0159

Zeta-Probe Membrane, roll 30 cm x 3.3 m, 1

162-0165

Zeta-Probe Membrane, roll 20 cm x 3.3 m, 1

162-0190

Zeta-Probe GT Membrane, 9 x 12 cm, 15

162-0191

Zeta-Probe GT Membrane, 10 x 15 cm, 15

162-0192

Zeta-Probe GT Membrane, 15 x 15 cm, 15

162-0193

Zeta-Probe GT Membrane, 20 x 15 cm, 15

162-0194

Zeta-Probe GT Membrane, 20 x 20 cm, 15

162-0195

Zeta-Probe GT Membrane, 20 x 25 cm, 3

162-0196

Zeta-Probe GT Membrane, 30 cm x 3.3 m, 1

162-0197

Zeta-Probe GT Membrane, 20 cm x 3.3 m, 1

161-0302

Sodium Dodecyl Sulfate (SDS), 1 kg

165-0962

Filter Paper Backing, 35 x 45 cm, 50 sheets

165-0921

Filter Paper Backing, 18 x 34 cm, 25 sheets

For more information on related products from Bio-Rad Laboratories see Bulletin

1900. For a complete list of molecular biology products refer to the Bio-Rad general
catalog.

Section 7
Appendix

7.1 Facts About Vacuum Transfer

Quantitative vacuum transfer mainly depends on three factors: transfer time, vacuum

pressure, and agarose concentration.

We studied the effect these three factors have on quantitive vacuum transfer. In our

study, we used four different sized target fragments: 0.8 kb, 4.1 kb, 15 kb, and 29 kb. We
electrophoresed 10 pg, 1 pg, and 0.5 pg of the target DNA fragments with a total
background DNA of 5 µg. Our experimental control was an overnight capillary
Southern. The densitometer readings of the overnight Southern on the 1 pg and 0.5 pg
lanes were our 100% transfer standard. Therefore, 100% vacuum transfer means the
vacuum transfer is equal to the overnight Southern transfer. Greater than a 100% vacuum
transfer means the vacuum transfer exceeded the Southern transfer. Efficiency of vacuum
transfer is calculated as follows:

% of Transfer = 100 x

O.D. of vacuum transfer

O.D. of overnight capillary transfer

We found the optimum vacuum transfer at 90 minutes using 5 inches of Hg with a

gel concentration of 0.7% agarose. We have summarized our work in the following
charts. The three essential factors in vacuum transfer are varied: time of transfer, vacuum
pressure, and gel concentration. The following charts illustrate the effect these factors
have on vacuum transfer.

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