Identification of internal sequences in the 3' leader region of human respiratory syncytial virus that enhance transcription and confer replication processivity.

Previous studies of respiratory syncytial virus have shown that the 44-nucleotide (nt) leader (Le) region is sufficient to initiate RNA replication, producing antigenome RNA, and that the Le and adjoining gene start (GS) signal of the first gene are sufficient to initiate transcription, producing mRNA. A cis-acting element necessary for both transcription and replication was mapped within the first 11 nt at the 3' end of Le. In the present study the remainder of the Le region was mapped to identify sequences important for transcription and replication. A series of minigenomes with mutant Le sequences was generated, and their ability to direct transcription and replication was determined by Northern blot analysis, which examined full-length antigenome and mRNA, and by primer extension analysis, which examined antigenome and mRNA initiation. With regard to transcription, nt 36 to 43, located immediately upstream of the GS signal, were found to be necessary for optimal levels of mRNA synthesis, although the GS signal in conjunction with the 3'-terminal region of Le was sufficient to direct accurate mRNA synthesis initiation. With regard to replication, the first 15 nt of Le were found to be sufficient to direct initiation of antigenome synthesis, but nt 16 to 34 were required in addition for efficient encapsidation and production of full-length antigenome. Analysis of transcripts produced from di- and tricistronic minigenomes indicated that a significant proportion of abortive replicases continue RNA synthesis to the end of the first gene and then continue in a transcription mode along the remainder of the genome.