Bio-Rad Trans-Blot® Cell User Manual

Page 12

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Table 3.2. DNA and RNA

Standard Field

Standard Field

High Intensity Field

Overnight

8 cm electrode distance

4 cm electrode distance

COOLING REQUIRED

TAE or TBE

TAE

TBE

TAE

TBE

Trans-Blot cell with

30 V, 0.2 A

60 V, 0.6 A

80 V, 0.55 A

80–100 V

100–130 V

wire electrodes

0.8–1.4 A

0.7–1.1 A

Overnight

5 hours approximately

30 minutes–4 hours

Trans-Blot cell with

TAE or TBE

TAE

TBE

TAE

TBE

plate electrodes

15 V, 0.2 A

20–35 V,

75–100 V

15–25 V

50–90 V

0.8–1.5 A

0.8–1.1 A

0.8–1.4 A

0.7–1.1 A

Overnight

1–5 hours

30 minutes–1 hour

1x TAE: 40 mM Tris-Acetate, 1.0 mM EDTA
1x TBE: 90 mM Tris-Borate, 2.0 mM EDTA

Table 3.3. Native Gels

Standard Field

Standard Field

High Intensity Field

Overnight

8 cm electrode distance

4 cm electrode distance

COOLING REQUIRED

Trans-Blot cell with

30 V, 0.1 A

60 V, 0.21 A

100–200 V

wire electrodes

0.3–0.8 A

Overnight

5 hours approximately

30 minutes–4 hours

Trans-Blot cell with

10 V

100–150 V

50–100 V

plate electrodes

0.1 A

1–1.5 A

0.7–1.5 A

Overnight

1–5 hours

30 minutes–1 hour

Buffer: 25 mM Tris, pH 8.3,192 mM glycine. No methanol.

Table 3.4. Isoelectric Focusing, Native Gels, Basic Proteins, Acid Urea Gels

Standard Field

Standard Field

High Intensity Field

Overnight

8 cm electrode distance

4 cm electrode distance

COOLING REQUIRED

Trans-Blot cell with

30 V, 0.2 A

70 V, 0.5 A

100–150 V, 0.55–0.85 A

wire electrodes

Overnight

5 hours approximately

30 minutes–4 hours

Trans-Blot cell with

15 V, 0.2 A

40–70 V, 0.6–1.0 A

30–-60 V, 0.6–1.0 A

plate electrodes

Overnight

1–5 hours

30 minutes–1 hour

Buffer: 0.7% Acetic Acid

3.2 Notes on Electrophoretic Transfer Conditions

These variables will change total resistance and thus the current readings:

Alterations in buffer make-up, i.e., addition of SDS, or changes in ion concentration
due to addition of acid or base to adjust the pH of the buffers.

Gel pH, ionic strength, and percentage of acrylamide, especially if the gel has not
been properly equilibrated.

Number of gels; current increases slightly as the number of gels increases.

Volume of buffer; current increases when volume increases.

Platinum mass; current increases when mass increases.

Transfer temperature; current increases when temperature increases.

Time in transfer at which reading was taken; current normally increases as the buffer-
ing capacity diminishes with progress of the run.

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