Artikel
Evidence for protease activity of the SARS Unique Domain (SUD)
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Veröffentlicht: | 26. Mai 2004 |
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The analysis of the genome of the SARS coronavirus revealed a unique sequence element, the so-called SARS unique domain (SUD, Snijder [Ref. 1] ). Despite extensive database searches, no significant similarities, or conserved sequence motives were detectable. To elucidate the function of this part of the polyprotein, we constructed clones for the expression of residues 1166 to 1544 (full length version) and 1207 to 1544 (∆1-43 version), fused to N- or C- terminal histidine tags in E. coli. The recombinant proteins were purified by metal affinity- and ion exchange- chromatography.
Size exclusion chromatography revealed the presence of two oligomeric states of the full-length SUD protein: A form with a native molecular mass of 120 kD, representing a dimer or a trimer, and a form with a mass of 250 kD, potentially being a pentamer or hexamer.
Both forms of SUD are fairly unstable and subject to rapid proteolysis. The full-length form reproducibly formed detectable intermediates, hinting at a function as a processing protease. This putative autoproteolytic activity was influenced by several components as demonstrated in Figure 1 [Fig. 1] and showed a weak sensitivity to serine protease inhibitors such as Pefablock. Both forms of the recombinant SUD proteins showed anomalies in the UV / Vis spectrum suggesting the presence of a cofactor. In the case of the ∆1-43 protein, the apo- and holo-forms could be separated, enabling us to calculate the absorbance spectrum of the co-factor (figure 2 [Fig. 2]).
In summary, there is substantial evidence for a function of the SUD protein as a third, novel protease of the SARS coronavirus.