The efficacy of two classes of surfactants, non-ionic and zwitterionic, in quenching the interaction of proteins with the naked silica wall in capillary electrophoresis, is evaluated. The class of non-ionic detergents is found to be rather inefficient in preventing protein binding to the fused-silica surface, since large amounts (up to 10%) are required for reducing such interactions by 90%. Conversely, zwittergents appear to be much more efficient, since, in the case of sulphobetain SB-16, 90% binding inhibition is achieved at a concentration of surfactant of only 0.3%. In this last case, it is found that the binding inhibition closely follows the values of critical micellar concentrations (CMCs) of the various surfactants, those having the lowest CMC value exhibiting the highest inhibition power. The CMC values also follow a hydrophobicity scale, suggesting that the most hydrophobic zwittergents are the ones that shield more efficiently the silica surface.
The use of isoelectric buffers in capillary zone electrophoresis is reviewed. Such buffers allow application of extremely high voltage gradients (up to 1000 V/cm in relatively high bore capillary, e.g. 75 to 100 microm internal diameter), permitting separations of the order of a few minutes and thus favoring high resolution due to minimal, diffusion-driven peak spreading. The fundamental properties of ampholytes are first discussed, such as buffering power (beta) as a function of delta pK, i.e. of the distance between the pI value and neighboring protolytic groups. The highest possible relative beta value (= 2) is obtained for amphoteres possessing a delta pK = 0.6, a condition not met by existing amphoteric species. A novel parameter for ampholyte evaluation is then proposed, namely the beta/lambda ratio, i.e. the ratio between the beta power and conductivity at the pI value. It is additionally shown that the pI is not a constant value, but depends on ampholyte concentration in solution. In addition, at constant concentration, the theoretical pI can change as a function of delta pK. Isoelectric His and, to a lesser extent, Lys have been found to offer unique separations of oligonucleotides in sieving liquid polymers. In the absense of sieving media, isoelectric Asp, in presence of 7 M urea (apparent pH 3.77), permits unique separations of oligonucleotides having the same length but different nucleotide composition. Isoelectric Asp (pI 2.77 at 50 mM concentration) provides a medium of high resolving power for generating peptide maps. In difficult cases, of coincident titration curves, the pH can be moved up to higher values (e.g. pH 3.0 for 30 mM Asp) thus eliciting separation of unresolved peptides at pH 2.77. This was illustrated by running peptide maps of tryptic digests of human beta-globin chains. Also imino diacetic acid (pI 2.33 at 50 mM concentration) allows generation of high resolution peptide maps.
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