Features of the mammalian orthoreovirus 3 Dearing l1 single-stranded RNA that direct packaging and serotype restriction.

A series of recombinant mammalian orthoreoviruses (mammalian orthoreovirus 3 Dearing, MRV-3De) were generated that express an MRV-3De lambda3-CAT fusion protein. Individual viruses contain L1CAT double-stranded (ds) RNAs that range in length from a minimum of 1020 bp to 4616 bp. The engineered dsRNAs were generated from in vitro-transcribed single-stranded (ss) RNAs and incorporated into infectious virus particles by using reverse genetics. In addition to defining the sequences required for these ssRNAs to be 'identified' as l1 ssRNAs, the individual nucleotides in these regions that 'mark' each ssRNA as originating from mammalian orthoreovirus 1 Lang (MRV-1La), mammalian orthoreovirus 2 D5/Jones (MRV-2Jo) or MRV-3De have been identified. A C at position 81 in the MRV-1La 5' 129 nt sequence was able to be replaced with a U, as normally present in MRV-3De; this toggled the activity of the MRV-1La ssRNA to that of an MRV-3De 5' l1. RNA secondary-structure predictions for the 5' 129 nt of both the biologically active MRV-3De l1 ssRNA and the U81-MRV-3De-restored MRV-1La 5' ssRNA predicted a common structure.

Localizing the reovirus packaging signals using an engineered m1 and s2 ssRNA.

Using in vitro engineered and transcribed reovirus m1 and s2 ssRNAs, we demonstrate that the nucleotides used to identify these ssRNAs are localized to the 5' and not the 3' termini. To demonstrate this, we used our previously reported S2-CAT reovirus and we report the creation of an engineered M1-CAT reovirus. The M1 gene of this virus retains 124 nucleotides from the wild type M1 gene preceding the CAT gene and 172 nucleotides from the wild type gene following the CAT gene. The engineered M1-CAT ssRNA is 1048 nucleotides in length, much shorter than the wild type M1 at 2304 nucleotides. We have used a set of chimeric s2.m1 ssRNAs to localize the packaging signals within these RNAs. By packaging signals we mean that the presence of these signals in engineered ssRNAs results in these ssRNAs being replicated to dsRNA and packaged into progeny virus. An engineered ssRNA with a 5' sequence identical with the wild type s2 ssRNA, supported by a 3' sequence from either the m1 or s2 ssRNA, is incorporated into a virus as an S2 dsRNA. Likewise, an ssRNA with an m1 5' end is incorporated as an M1 dsRNA.