Characteristics of Glutathione Sepharose and HiTrap® Benzamidine FF (High Sub) Media and Columns
Glutathione Sepharose High Performance is recommended for high-resolution purification of GST-tagged proteins, providing sharp peaks and concentrated eluent. Glutathione Sepharose 4 Fast Flow is excellent for scaling up. Glutathione Sepharose 4B has high capacity and is recommended for packing small columns and other formats including batch purifications.
Table A5.1 summarizes key characteristics of these three Glutathione Sepharose media, and Tables A5.2 to A5.6 summarize the characteristics of these media prepacked in columns and in 96-well filter plates. Table A5.7 summarizes key characteristics of HiTrap Benzamidine Fast Flow (high sub).
| Characteristics | Glutathione Sepharose High Performance | Glutathione Sepharose 4 Fast Flow | Glutathione Sepharose 4B |
|---|---|---|---|
| Matrix | Highly cross-linked 6% agarose | Highly cross-linked 4% agarose | 4% agarose |
| Average particle size | 34 µm | 90 µm | 90 µm |
| Ligand concentration | 1.5–3.5 mg glutathione /ml medium (based on Gly) | 120–320 µmol glutathione/ml medium | 200–400 µmol glutathione/g washed and dried medium |
| Binding capacity1 | 7 mg recombinant GST/ml medium | 10 mg recombinant GST/ml medium | 25 mg horse liver GST/ml medium |
| Recommended flow velocity2 | < 150 cm/h | 50–300 cm/h | < 75 cm/h |
| Chemical stability | Stable to all commonly used aqueous buffers, e.g., 1 M acetate, pH 4.0 and 6 M Gua-HCl for 1 h at room temperature | Stable to all commonly used aqueous buffers, e.g., 1 M acetate, pH 4.0, and 6 M Gua-HCl for 1 h at room temperature | Stable to all commonly used aqueous buffers, e.g., 0.1 M NaOH, 70% ethanol, or 6 M Gua-HCl for 2 h at room temperature or exposure to 1% (w/v) SDS for 14 d. |
| pH stability | 3–12 | 3–12 | 4–13 |
| Storage temperature | 4 °C to 30 °C | 4 °C to 30 °C | 4 °C to 30 °C |
| Storage buffer | 20% ethanol | 20% ethanol | 20% ethanol |
1 The binding of GST-tagged proteins depends on size, conformation, and concentration of the protein in the sample loaded. Binding of GST to glutathione is also flow dependent, and lower flow rates often increase the binding capacity. This is important during sample loading. Protein characteristics, pH, temperature, and the media used may also affect the binding capacity.
2 When using water at room temperature.
| Chromatography media | GST MultiTrap FF: Glutathione Sepharose 4 Fast Flow GST MultiTrap 4B: Glutathione Sepharose 4B |
| Filter plate size1 | 127.8 × 85.5 × 30.6 mm |
| Filter plate material | Polypropylene and polyethylene |
| Binding capacity | GST MultiTrap FF: Up to 0.5 mg GST-tagged protein/well GST MultiTrap 4B: Up to 0.5 mg GST-tagged protein/well |
| Reproducibility between wells2 | +/- 10% |
| Volume packed medium/well | 50 µl (500 µl of 10% slurry) |
| Number of wells | 96 |
Centrifugation speed: Recommended Maximum | Depends on sample pretreatment and sample properties 100–500 × g 700 × g |
Vacuum pressure: Recommended Maximum | Depends on sample pretreatment and sample properties -0.1 to -0.3 bar -0.5 bar |
| pH stability | Glutathione Sepharose 4 Fast Flow: 3–12 Glutathione Sepharose 4B: 4–13 |
| Storage | 20% ethanol |
| Storage temperature | 4 °C to 30 °C |
1 According to American National Standards Institute (ANSI) and Society for Biomolecular Screening (SBS).
1-2004, 3-2004, and 4-2004 standards.
2 The amount of eluted target proteins/well does not differ more than +/- 10% from the average amount/well for the entire filter plate.
| Characteristics | GSTrap HP | GSTrap FF | GSTrap 4B |
|---|---|---|---|
| Chromatography media | Glutathione Sepharose High Performance | Glutathione Sepharose 4 Fast Flow | Glutathione Sepharose 4B |
| Average particle size | 34 µm | 90 µm | 90 µm |
| Dynamic binding capacity1,2 | Approx. 7 mg rGST/ml medium | Approx. 10 mg rGST/ml medium | Approx. 25 mg horse liver GST/ml medium |
| Max. back pressure3 | 0.3 MPa, 3 bar | 0.3 MPa, 3 bar | 0.3 MPa, 3 bar |
| Recommended flow rate3 | Sample loading: 0.2–1 ml/min (1 ml) and 1–5 ml (5 ml) Washing and elution: 1–2 ml/min (1 ml column) and 5–10 ml/min (5 ml column) | Sample loading: 0.2–1 ml/min (1 ml) and 1–5 ml (5 ml) Washing and elution: 1–2 ml/min (1 ml column) and 5–10 ml/min (5 ml column) | Sample loading: 0.2–1 ml/min (1 ml) and 0.5–5 ml/min (5 ml) Washing and elution: 1 ml/min (1 ml column) and 5 ml/min (5 ml column) |
| Chemical stability | Stable to all commonly used aqueous buffers, e.g. 1 M acetate, pH 4.0 and 6 M Gua-HCl for 1 h at room temperature | Stable to all commonly used aqueous buffers, e.g. 1 M acetate, pH 6.0, and 6 M Gua-HCl for 1 h at room temperature | Stable to all commonly used aqueous buffers. Exposure to 0.1 M NaOH, 70% ethanol, or 6 M Gua-HCl for 2 h at room temperature or to 1% (w/v) SDS for 14 d causes no significant loss of activity. |
| pH stability | 3–12 | 3–12 | 4–13 |
| Storage temperature | 4 °C to 30 °C | 4 °C to 30 °C | 4 °C to 30 °C |
| Storage buffer | 20% ethanol | 20% ethanol | 20% ethanol |
1 The binding of GST-tagged proteins depends on size, conformation, and concentration of the protein in the sample loaded. Binding of GST to glutathione is also flow dependent, and lower flow rates often increase the binding capacity. This is important during sample loading. Protein characteristics, pH, temperature, and the media used may also affect the binding capacity.
2 Dynamic binding capacity conditions (60% breakthrough):
Sample: 1 mg/ml pure GST-tagged protein in binding buffer
Column volume: 0.4 ml
Flow rate: 0.2 ml/min (60 cm/h)
Binding buffer: 10 mM sodium phosphate, 140 mM NaCl, 2.7 mM KCl, pH 7.4
Elution buffer: 50 mM Tris-HCl, 10 mM reduced glutathione, pH 8.0
3 When using water at room temperature.
| Chromatography medium | Glutathione Sepharose 4 Fast Flow |
| Column volume | 20 ml |
| Column dimensions | 1.6 × 10 cm |
| Dynamic binding capacity1,2 | Approx. 200 mg rGST/column |
| Recommended flow rate3 | 1–10 ml/min (30–300 cm/h) |
| Max. flow rate3 | 10 ml/min (300 cm/h) |
| Max. pressure over the packed bed during operation3 | 1.5 bar (0.15 MPa, 22 psi) |
| Column hardware pressure limit | 5 bar (0.5 MPa, 73 psi) |
| Storage | 0% ethanol |
| Storage temperature | 4 °C to 30 °C |
1 The binding of GST-tagged proteins depends on size, conformation, and concentration of the protein in the sample loaded. Binding of GST to glutathione is also flow dependent, and lower flow rates often increase the binding capacity. This is important during sample loading. Protein characteristics, pH, temperature, and the media used may also affect the binding capacity.
2 Dynamic binding capacity conditions (60% breakthrough):
Sample: 1 mg/ml pure GST-tagged protein in binding buffer
Column volume: 0.4 ml
Flow rate: 0.2 ml/min (60 cm/h)
Binding buffer: 10 mM sodium phosphate, 140 mM NaCl, 2.7 mM KCl, pH 7.4
Elution buffer: 50 mM Tris-HCl, 10 mM reduced glutathione, pH 8.0
3 When using water at room temperature.
| Column material frits | Polypropylene barrel, polyethylene |
| Column volume | 13 ml |
| Medium | Glutathione Sepharose 4B |
| Average bead size | 90 µm |
| Ligand | Glutathione and 10-carbon linker arm |
| Ligand concentration | 7–15 µmol glutathione/ml medium |
| Protein binding capacity1 | Approx. 50 mg horse liver GST/column |
| Bed volume | 2 ml |
| Compatibility during use | All commonly used aqueous buffers |
| Chemical stability | No significant loss of the capacity is detected when Glutathione Sepharose 4B is exposed to 0.1 M citrate (pH 4.0), 0.1 M NaOH, 70% ethanol, or 6 M Gua-HCl2 for 2 h at room temperature. No significant loss of binding capacity is observed after exposure to 1% SDS for 14 d. |
| Storage solution | 20% ethanol |
| pH stability | 4–13 |
| Storage temperature | 4 °C to 30 °C |
Note: It is not recommended to autoclave the columns.
1 Binding capacity is protein dependent. The binding of GST-tagged proteins depends on size, conformation, and concentration of the protein in the sample. Binding of GST to glutathione is also flow dependent, and lower flow rates often increase the binding capacity. This is important during sample loading. Protein characteristics, pH, and temperature may also affect the binding capacity.
2 Exposing the sample to 6 M Gua-HCl will denature the GST tag. It is therefore important to remove all Gua-HCl before use.
| Column material frits | Polypropylene barrel, polyethylene frits |
| Column volume | 900 µl |
| Medium | Glutathione Sepharose 4B |
| Average bead size | 90 µm |
| Ligand | Glutathione and 10-carbon linker arm |
| Ligand concentration | 7–15 µmol glutathione/ml medium |
| Protein binding capacity1 | Approx. 500 mg horse liver GST/column |
| Bed volume | 50 µl |
| Compatibility during use | All commonly used aqueous buffers |
| Chemical stability | No significant loss of the capacity is detected when Glutathione Sepharose 4B is exposed to 0.1 M citrate (pH 4.0), 0.1 M NaOH, 70% ethanol or 6 M Gua-HCl2 for 2 h at room temperature. No significant loss of binding capacity is observed after exposure to 1% SDS for 14 d. |
| Storage solution | PBS and 0.05% Kathon™ CG/ICP Biocide |
| pH stability | 4–13 |
| Storage temperature | 4 °C to 30 °C |
1 Binding capacity is protein dependent. The binding of GST-tagged proteins depends on size, conformation, and concentration of the protein in the sample loaded. Binding of GST to glutathione is also flow dependent, and lower flow rates often increase the binding capacity. This is important during sample loading. Protein characteristics, pH, and temperature may also affect the binding capacity.
2 Exposing the sample to 6 M Gua-HCl will denature the GST tag. It is therefore important to remove all Gua-HCl before use.
| Column dimensions (i.d. × h) | 0.7 × 2.5 cm (1 ml column) and 1.6 × 2.5 cm (5 ml column) |
| Column volumes | 1 ml and 5 ml |
| 1 ml and 5 ml | p-Aminobenzamidine (pABA) |
| Spacer | 14-atom |
| Ligand concentration | 12 µmol p-Aminobenzamidine/ml medium |
| Binding capacity | 35 mg trypsin/ml medium |
| Average particle size | 90 µm |
| Bead structure | Highly cross-linked agarose, 4% |
| Maximum back pressure | 0.3 MPa, 3 bar |
| Recommended flow rates | 1 ml/min (1 ml column) and 5 ml/min (5 ml column) |
| Maximum flow rates | 4 ml/min (1 ml column) and 20 ml/min (5 ml column) |
| Chemical stability | All commonly used aqueous buffers |
| pH stability short term1 | pH 1–9 |
| pH stability long term1 | pH 2–8 |
| Storage temperature | 4 °C to 8 °C |
| Storage buffer | 20% ethanol in 0.05 M acetate buffer, pH 4 |
1 The ranges given are estimates based on our knowledge and experience. Please note the following: pH stability, short term refers to the pH interval for regeneration, cleaning-in-place, and sanitization procedures. pH stability, long term refers to the pH interval where the medium is stable over a long period of time without adverse effects on its chromatographic performance.
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