Improving Antigenicity of the Recombinant Hepatitis C Virus Core Protein via Random Mutagenesis

Abstract

In order to enhance the sensitivity of diagnosis, a recombinant clone containing domain I of HCV core (amino acid residues 1 to 123) was subjected to random mutagenesis. Five mutants with higher sensitivity were obtained by colony screening of 616 mutants using reverse ELISA. Sequence analysis of these mutants revealed alterations focusing on W(84), P(95), P(110), or V(129). The inclusion bodies of these recombinant proteins overexpressed in E. coli BL21(DE3) were subsequently dissolved using 6 M urea and then refolded by stepwise dialysis. Compared to the unfolded wild-type antigen, the refolded M3b antigen (W(84)S, P(110)S and V(129)L) exhibited an increase of 66% antigenicity with binding capacity of 0.96 and affinity of 113 mu M(-1). Moreover, the 33% decrease of the production demand suggests that M3b is a potential substitute for anti-HCV antibody detection.