Daniel Kolakofsky scite author profile

The ability of some Sendai virus stocks to strongly activate IFNbeta has long been known to be associated with defective-interfering (DI) genomes. We have compared SeV stocks containing various copyback and internal deletion DI genomes (and those containing only nondefective (ND) genomes) for their ability to activate reporter genes driven by the IFNbeta promoter. We found that this property was primarily due to the presence of copyback DI genomes and correlated with their ability to self-anneal and form dsRNA. The level of IFNbeta activation was found to be proportional to that of DI genome replication and to the ratio of DI to ND genomes during infection. Over-expression of the viral V and C proteins was as effective in blocking the copyback DI-induced activation of the IFNbeta promoter as it was in reducing poly-I/C-induced activation, providing evidence that these DI infections activate IFNbeta via dsRNA. Infection with an SeV stock that is highly contaminated with copyback DI genomes is thus a very particular way of potently activating IFNbeta, presumably by providing plentiful dsRNA under conditions of reduced expression of viral products which block the host antiviral response.

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A highly recombinogenic system for the recovery of infectious Sendai paramyxovirus from cDNA: generation of a novel copy-back nondefective interfering virus.

Garcin

et al. 1995

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We have recovered infectious Sendai virus (SeV) from full‐length cDNA (FL‐3) by transfecting this cDNA and pGEM plasmids expressing the nucleocapsid protein (NP), phosphoprotein and large proteins into cells infected with a vaccinia virus which expresses T7 RNA polymerase. These cells were then injected into chicken eggs, in which SeV grows to very high titers. FL‐3 was marked with a BglII site in the leader region and an NsiI site (ATGCAT) in the 5′ nontranslated region of the NP gene, creating a new, out‐of‐frame, 5′ proximal AUG. All the virus stocks generated eventually removed this impediment to NP expression, by either point mutation or recombination between FL‐3 and pGEM‐NP. The recovery system was found to be highly recombinogenic. Even in the absence of selective pressure, one in 20 of the recombinant SeV generated had exchanged the NP gene of FL‐3 with that of pGEM‐NP. When a fifth plasmid containing a new genomic 3′ end without the presumably deleterious BglII site was included as another target for recombination, the new genomic 3′ end was found in the recombinant SeV in 12 out of 12 recoveries. Using this approach, a novel copy‐back nondefective virus was generated which interferes with wild‐type virus replication.

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Plus and minus strand leader rnas in negative strand virus-infected cells

Leppert

Rittenhouse

Perrault

et al. 1979

Cell

209

157

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Sendai virus contains overlapping genes expressed from a single mRNA

Giorgi

Blumberg

Kolakofsky

1983

Cell

233

148

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