We previously determined the 3' proximal 5,824 nucleotides of the Sendai virus genome RNA (Nucleic Acids Res. 11, 7317-7330, 1983; Nucleic Acids Res. 12, 7965-7973, 1984), and present here the sequence of the remaining 5' proximal 9,559 nucleotides. Thus, this is the first paramyxovirus to have its genome organization elucidated. The set of complementary DNA clones used was prepared by the method of Okayama and Berg from polyadenylylated viral genome RNA. We sequenced the region containing the 5' proximal half of the F gene, and the subsequent HN and L genes, and predicted the complete amino acid sequence of the products of these genes. Sequence analyses confirmed that all the genes are flanked by consensus sequences and suggest that the viral mRNAs are capable of forming stem-and-loop structures. Comparison of the F and HN glycoproteins of Sendai virus with those of simian virus 5 strongly suggests that the cysteine residues are highly important for maintenance of the molecular structures of these glycoproteins.
The sequence of 3,687 nucleotides from the 3' end of the Sendai virus genome (Z strain) was determined by a molecular cloning technique followed by rapid sequence analysis. Two large open reading frames, one consisting of 1,572 nucleotides and the other of 1,704 nucleotides, were observed in the region, that is OP-1 and OP-2 from the 3' end of the genome. The amino acid sequences of the gene products were predicted from the observed sequence. Determination of amino acid compositions of viral proteins, P, HN, Fo, NP and M, led us to conclude that NP and P are the gene products of OP-1 and OP-2, respectively. An additional open reading frame consisting of 612 nucleotides (OP-3) was discovered in the 3' most proximal region of OP-2. The predicted product of OP-3 was considered to be viral non-structural protein C. The leader sequence of 51 nucleotides at the 3' terminal of the genome and consensus sequences at 3' and 5' ends of each gene for proteins NP and P were identified.
We determined the sequence of the 2,138 nucleotides in the Sendai virus genome just following the 3' proximal 3,686 nucleotides which we had previously reported (Nucleic Acids Res. 11, 7317-7330, 1983). This covers the entire third gene of 1,173 nucleotides and the 3' proximal 1,013 nucleotides of the fourth gene. Like the NP and P+C genes, both the third and fourth genes start from consensus sequence R1 (3'-UCCCAC(or UA)UUUC) at the 3' end and the third gene terminates with consensus sequence R2 (3'-AUUCUUUUU) at the 5' end. The third gene was identified as M, and the deduced 348 amino acids indicated that the M protein is rich in basic residues and has hydrophobic domains near the C-terminal. The fourth gene, although sequencing is not complete yet, was identified as F, since a large open reading frame found in the gene contains the characteristic sequence of 20 amino acids located at the N-terminal of the F1 protein. Analyses of the amino acid sequence suggested that the structure of the F gene product is NH2-signal peptide-F2-F1-COOH.
Mouse hepatitis (MH) virus was grown in SR-CDF1-DBT, a mouse cell line, and purified by ammonium sulfate precipitation and by density gradient centrifugation. Extraction of RNA from purified virions with 1% SDS and sedimentation analysis of the RNA revealed a major 50S component and two minor components. Treatment of virions with phenol/chloroform also produced the 50S component, although its yield was lower. MH virion RNA can bind to a poly(U)-fiberglass filter, indicating that MH virion RNA contains poly(A). A poly(A)-like fragment was isolated by digestion with ribonuclease A [EC 3.1.4.22] and T1 [EC 3.1.4.8] and by DEAE-Sephadex column chromatography. Analysis of the fragment for base composition showed it to be an adenine-rich material. Its chain length was about 90 nucleotides, as determined by ion-exchange chromatography and gel electrophoresis.
We present the nucleotide sequence of bovine parainfluenza 3 virus (BPIV3) genome from its 3' end to the opening region of the F gene, through the NP, P plus C, and M genes. Comparison of the sequence with those reported for other paramyxoviruses indicated that BPIV3 was most similar to human parainfluenza 3 virus (HPIV3), and also very similar to Sendai virus in the structural make-up of its genome and the amino acid sequences of its gene products, suggesting that these three viruses constitute a paramyxovirus subgroup from which Newcastle disease and measles viruses are separable. In BPIV3 and Sendai virus, the NP and M proteins, the main structural elements, were more highly conserved than the functionally important P and C proteins. This tendency was also observed even in BPIV3 and HPIV3. Virus-specific amino acid sequences of the NP and M proteins were found at the carboxyl and amino terminal regions, respectively. BPIV3 M mRNA was found to have aberrations in its poly A attachment site.
Virus clones lacking detectable neuraminidase activity (SC-YN and M-YN) as well as those possessing it (LT-91ON and LT-YN) were isolated from bovine strains of parainfluenza 3 virus. LT-91ON and LT-YN viruses produced large turbid plaques in MDBK cells, and SC-YN virus produced small clear plaques. Incorporation of a bacterial neuraminidase in agar overlay medium made SC-YN virus form large turbid plaques, whereas it made M-YN virus form large clear plaques. However, M-YN virus formed only pinhole plaques or no plaques in the absence of neuraminidase. The exogenous neuraminidase had little effect on the plaque formation of LT-91ON and LT-YN viruses. M-YN virus induced extensive syncytial formation, and SC-YN virus produced less extensive syncytial formation. The exogenous neuraminidase enhanced replication of SC-YN and M-YN viruses and reduced syncytial formation by these viruses. The enzyme had little effect on replication and cytopathic effect of LT-91ON and LT-YN viruses. The reason for these effects of the exogenous neuraminidase is discussed.
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