The silica-binding Si-tag functions as an affinity tag even under denaturing conditions

We recently reported a one-step affinity purification method using a silica-binding protein, designated Si-tag, as a fusion partner and silica particles as the specific adsorbents (Ikeda et al., Protein Expr. Purif. 71 [2010] 91-95) [13]. In this study, we demonstrate that the Si-tag also binds to the silica surface even under denaturing conditions, thereby facilitating affinity purification of recombinant proteins from inclusion bodies. A fusion protein of the Si-tag and a biotin acceptor peptide (AviTag), which was expressed as inclusion bodies in Escherichia coli, was used as a model protein. To simplify our purification method, we disrupted recombinant E. coli cells by sonication in the presence of 8 M urea with concomitant solubilization of the inclusion bodies. The fusion protein was recovered with a purity of 90 ± 3% and yield of 92 ± 6% from the cleared cell lysate. We also discuss the binding mechanism of the Si-tag to a silica surface in the presence of high concentrations of denaturant. We propose that the intrinsic disorder of the polycationic Si-tag polypeptide plays an important role in its binding to the silica surface under denaturing conditions.