Table II. Comparison between co-elution separation strategies: SEC, IEX, HIC, BN-PAGE.
| Separation technique | Stationary phase | Separation principle | Mobile phasea | Benefits/Drawbacks | Applications |
|---|---|---|---|---|---|
| SEC | Material with different pore sizes (silica, polymeric or cross-linked agarose) | Hydrodynamic size | Millimolar salt buffers at neutral pH | Less buffer requirements, isocratic/Modest resolution | Soluble complexes |
| IEX | Material with ionic groups (silica-based or polymeric) with SAX, WAX, WCX or mixed-bed (WAX & WCX) properties | Salt gradient | Increasing molar salt gradient (NaCl) at neutral pH | Higher resolution, more chemistries available/Higher salt concentrations required | Soluble complexes |
| HIC | Hydrophobic | Salt gradient | Decreasing molar salt gradient (e.g. (NH4)2SO4) at neutral pH | Higher salt concentrations required | Multiple orthogonal separations |
| BN-PAGE | Polyacrylamide gel | Electrophoretic mobility | Coomassie blue G, salt buffers | Not limited to soluble complexes/Less reproducible | Membrane protein complexes |
aSalts commonly used for buffers: NaCl, HEPES, KCl, MgCl2, Tris, PBS, NaCH3COO, NaN3, (NH4)2SO4. May contain additives like proteases inhibitors, dithiothreitol or glycerol.