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  • Title: Protein conformational effects in hydrophobic interaction chromatography. Retention characterization and the role of mobile phase additives and stationary phase hydrophobicity.
    Author: Wu SL, Figueroa A, Karger BL.
    Journal: J Chromatogr; 1986 Dec 26; 371():3-27. PubMed ID: 3558552.
    Abstract:
    We have studied the conformational behavior of alpha-lactalbumin (alpha-LACT) in hydrophobic interaction chromatography (HIC). Retention characterization in terms of Z (slope of plot of ln k' vs. ln phi B, where k' is the capacity factor and phi B is the volume fraction of mobile phase B) has been explored, and the relationship of Z to other slopes, such as S (slope of the plot of ln k' vs. phi B) has been derived. The reasons for the sensitivity of Z to conformational change are discussed. The enhanced broadening of alpha-LACT in a temperature transition region of conformational change has been studied by spectral analysis using on-line photodiode array detection. The influence of Ca2+ and Mg2+ addition to the mobile phase is further explored. Since alpha-LACT is a calcium binding protein, addition of this metal leads to stabilization, i.e. higher column temperatures are required for conformational change. On the other hand, addition of Mg2+ appears to destabilize the protein. We have explored the use of a more hydrophobic support, C2-(ethyl) ether phase, for the elution of alpha-LACT. In this case, two widely separated peaks are observed. By spectral analysis the first peak is shown to be native and the later eluted, broad second peak to be an unfolded mixture of species. As previously observed in reversed-phase liquid chromatography, the second peak grows at the expense of the first, as the column temperature is raised. The second peak also grows as the contact time of the protein with the surface increases. This behavior can be ascribed to the conformational change of alpha-LACT in the column, the late eluted species under the second peak binding significantly more strongly to the phase than the native peak. Reinjection of the late eluted fraction reveals that reformation of the native species takes place in solution within 30 min. As before, addition of Ca2+ reduces the extent of unfolding under any specific condition. These results add further to our understanding and ability to control conformational changes in high-performance liquid chromatography.
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