Trichloroacetic acid-induced protein precipitation involves the reversible association of a stable partially structured intermediate

by Rajalingam, D.; Loftis, C.; Xu, J. J.; Kumar, T. K. S.

Sample preparation for proteomic analysis involves precipitation of protein using 2,2,2-trichloroacetic acid (TCA). In this study, we examine the mechanism of the TCA-induced protein precipitation reaction. TCA-induced protein precipitation curves are U-shaped and the shape of the curve is observed to be independent of the physicochemical properties of proteins. TCA is significantly less effective in precipitating unfolded states of proteins. Results of the 1-anilino-8-napthalene sulfonate (ANS) and size-exclusion chromatography, obtained using acidic fibroblast growth factor (aFGF), show that a stable "molten globule-like'' partially structured intermediate accumulates maximally in 5% (w/v) of trichloroacetate. Urea-induced unfolding and limited proteolytic digestion data reveal that the partially structured intermediate is significantly less stable than the native conformation. H-1-N-15 chemical shift perturbation data obtained using NMR spectroscopy indicate that interactions stabilizing the beta-strands at the N- and C-terminal ends (of aFGF) are disrupted in the trichloroacetate-induced "MG-like'' state. The results of the study clearly demonstrate that TCA-induced protein precipitation occurs due to the reversible association of the "MG-like'' partially structured intermediate state(s). In our opinion, the findings of this study provide useful clues toward development of efficient protocols for the isolation and analysis of the entire proteome.

Journal
Protein Science
Volume
18
Issue
5
Year
2009
Start Page
980-993
URL
https://dx.doi.org/10.1002/pro.108
ISBN/ISSN
1469-896X; 0961-8368
DOI
10.1002/pro.108