Requirement of the 5'-end genomic sequence as an upstream cis-acting element for coronavirus subgenomic mRNA transcription.

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J Virol. 1994 August; 68(8): 4727-4737

Requirement of the 5'-end genomic sequence as an upstream cis-acting element for coronavirus subgenomic mRNA transcription.

C L Liao and M M Lai

Howard Hughes Medical Institute, University of Southern California, Los Angeles 90033-1054.

ABSTRACT

We have developed a defective interfering (DI) RNA containinga chloramphenicol acetyltransferase reporter gene, placed behindan intergenic sequence, for studying subgenomic mRNA transcriptionof mouse hepatitis virus (MHV), a prototype coronavirus. Usingthis system, we have identified the sequence requirement forMHV subgenomic mRNA transcription. We show that this sequencerequirement differs from that for RNA replication. In additionto the previously identified requirement for an intergenic (promoter)sequence, additional sequences from the 5' end of genomic RNAare required for subgenomic mRNA transcription. These upstreamsequences include the leader RNA and a spacer sequence betweenthe leader and intergenic sequence, which is derived from the5' untranslated region and part of gene 1. The spacer sequencerequirement is specific, since only the sequence derived fromthe 5' end of RNA genome, but not from other MHV genomic regionsor heterologous sequences, could initiate subgenomic transcriptionfrom the intergenic sequence. These results strongly suggestthat the wild-type viral subgenomic mRNAs (mRNA2 to mRNA7) andprobably their counterpart subgenomic negative-sense RNAs cannotbe utilized for mRNA amplification. Furthermore, we have demonstratedthat a partial leader sequence present at the 5' end of genome,which lacks the leader-mRNA fusion sequence, could still supportsubgenomic mRNA transcription. In this case, the leader sequencesof the subgenomic transcripts were derived exclusively fromthe wild-type helper virus, indicating that the MHV leader RNAinitiates in trans subgenomic mRNA transcription. Thus, theleader sequence can enhance subgenomic transcription even whenit cannot serve as a primer for mRNA synthesis. These resultstaken together suggest that the 5'-end leader sequence of MHVnot only provides a trans-acting primer for mRNA initiationbut also serves as a cis-acting element required for the transcriptionof subgenomic mRNAs. The identification of an upstream cis-actingelement for MHV subgenomic mRNA synthesis defines a novel sequencerequirement for regulating mRNA synthesis in RNA viruses.

J Virol. 1994 August; 68(8): 4727-4737

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