Fig. 1. Comparison between the purification of (His₆)-tagged Rev using either (A) PEI or (B) urea denaturation protocols. Aliquots from individual steps of the purification of (His₆)-tagged Rev by the PEI or the urea protocols were subjected to electrophoresis on a 4–20% acrylamide gel. Lane 1, protein markers; lanes 2 and 6, total E. coli intracellular proteins; lanes 3 and 7, total soluble proteins; lanes 4 and 8, fractions (1 μg) purified by nickel column; lane 5, fraction (1 μg) purified from cationic exchange column. The molecular weight (kDa) of the marker proteins is indicated on the left.

Fig. 2. Flowcharts of the purification protocols adopted to remove nucleic acid contaminants from (His₆)-tagged Rev protein. (A) Purification requires a multi-step protocol in order to remove contaminating nucleic acid. Following an initial purification by immobilized-metal affinity chromatography (IMAC), nucleic acids are effectively removed by PEI precipitation and ammonium sulfate fractionation. A final purification by a cationic exchange column yields pure (His₆)-tagged Rev without nucleic acid contamination. (B) Devised one-step purification of (His₆)-tagged Rev based on urea denaturation followed by successive on-column refolding. After urea denaturation, (His₆)-tagged Rev is refolded on IMAC ensuring the removal of contaminants in the final preparation.

Fig. 3. Urea-induced unfolding transition of (His₆)-tagged Rev. The change of the dichroic signal at 222 nm (expressed as molar ellipticity per residue, θ) for (His₆)-tagged Rev at 10 μM concentration was monitored at 25 °C as a function of increasing concentrations (from 0 to 8 M) of urea. Data were fitted using Eqs. (1), (2) and (3) (solid line).

Fig. 4. CD analysis of purified (His₆)-tagged Rev. CD spectra of purified Rev following nucleic acid removal by (A) PEI precipitation or (B) urea denaturation/on-column refolding. Shown is the molar ellipticity per residue (θ) corrected for the background buffer. (C and D) Multicomponent analysis of the CD spectra of (His₆)-tagged Rev purified by (C) PEI precipitation or (D) urea denaturation/on-column refolding, respectively. The CD spectra (A and B) were deconvoluted using the algorithms CONTIN/LL (black bars), SELCON 3 (light gray bars), and CDSSTR (dark gray bars). Bars labeled “unordered” include estimated percentage of unordered structures and turns.

Fig. 5. Gel-mobility shift assay of HIV-1 RRE stem II with (His₆)-tagged Rev protein. All samples contained 1 × 10⁻⁹ M radiolabeled-RNA; sample b-l contained 12.5, 25, 50, 100, 200, 400, 800, 1000, 2000, 3000, 4000 × 10⁻⁹ M (His₆)-tagged Rev purified according the (A) PEI or (B) the urea denaturation/on-column refolding protocol, respectively. Samples were resolved on 8% (w/v) polyacrylamide gel cast run at room temperature into a water-cooled electrophoresis apparatus. Observable species are designated F (free RNA) or numbered (1–2) to indicate the (His₆)-tagged Rev:RNA ratio of the corresponding complexes.

Supplementary Fig. S1. 

Supplementary Fig. S2. 

Protein yields and nucleic acid contents of HIV-1 (His₆)-tagged Rev purified by the PEI precipitation (A) or urea-denaturation/on-column refolding (B) protocols