The norovirus RNA replicase (NV3D(pol), 56 kDa, single chain monomeric protein) can amplify double-stranded (ds) RNA isothermally. It will play an alternative role in the in vitro evolution against traditional Qβ RNA replicase, which cannot amplify dsRNA and consists of four subunits, three of which are borrowed from host E.coli. In order to identify the optimal 3'-terminal sequence of the RNA template for NV3D(pol), an in vitro selection using the serial transfer was performed for a random library having the 3'-terminal sequence of ---UUUUUUNNNN-3'. The population landscape on the 4-dimensional sequence space of the 17(th) round of transfer gave a main peak around ---CAAC-3'. In the preceding studies on the batch amplification reaction starting from a single-stranded RNA, a template with 3'-terminal C-stretch was amplified effectively. It was confirmed that in the batch amplification the ---CCC-3' was much more effective than the ---CAAC-3', but in the serial transfer condition in which the ----CAAC-3' was sustained stably, the ---CCC-3' was washed out. Based on these results we proposed the existence of the "shuttle mode" replication of dsRNA. We also proposed the optimal terminal sequences of RNA for in vitro evolution with NV3D(pol).
Keywords: RNA-dependent RNA polymerase; breathing of dsRNA terminus; in vitro selection; initiation of RNA replication; shuttle mode replication.