Molecular cloning and sequence analysis of the human parainfluenza 3 virus gene encoding the matrix protein

The sequence of the matrix (M) protein gene and contiguous intergenic regions of the human parainfluenza 3 virus (PF3) was determined by molecular cloning. The encoded M protein contains 354 amino acids and has a predicted mol wt of 39,506. The M protein amino acid sequence was compared to the homologous proteins from other members of the Paramyxoviridae family. The PF3 protein shared 61 % homology with the Sendai virus protein and approximately 35% homology with measles and canine distemper virus proteins. Little homology was observed with respiratory syncytial virus. The M protein appears to be the most highly conserved among the Paramyxoviridae proteins.     

Molecular cloning and sequence analysis of the human parainfluenza 3 virus mRNA encoding the P and C proteins

The sequence of the mRNA encoding the phosphoprotein (P protein) of the human parainfluenza virus 3 (PF3) was determined by molecular cloning. In other Parmyxoviridae the P protein mRNA is functionally bicistronic and encodes an additional smaller nonstructural protein termed C. In this report three open reading frames (ORF) are described. These consist of a single long ORF encoding the P protein, and two shorter ORFs encoding the structural Vp18 protein (analogous to the Sendai C protein) and a putative polypeptide termed D protein. The encoded phosphoprotein consists of 603 amino acids and has a predicted molecular weight of 67,683. The C protein consists of 199 amino acids and has a predicted molecular weight of 23,288. The D protein consists of 140 amino acids and has a predicted molecular weight of 16,270. Although the D protein has not yet been demonstrated in vivo its synthesis could be demonstrated in vitro using a rabbit reticulocyte lysate system. Thus it appears that unlike the other paramyxoviruses, the PF3 P protein mRNA may be functionally tricistronic.     

Molecular cloning and sequence analysis of bovine respiratory syncytial virus mRNA encoding the major nucleocapsid protein

The nucleotide sequence of the gene encoding the major nucleocapsid (N) protein of bovine respiratory syncytial virus (BRSV) has been determined. The N mRNA is 1196 nucleotides long with a single, large open reading frame. The derived polypeptide has 391 amino acids corresponding to a calculated molecular weight of 42,600 Da. This is in agreement with the molecular weight of 43,000 Da determined for the BRSV N protein by SDS-polyacrylamide gel electrophoresis (PAGE). Comparison of the nucleotide sequence of BRSV N gene with the sequence of the N gene of human respiratory syncytial virus (HRSV) revealed a homology of 80.7%. There is a 93.3% homology at the amino acid level between the N proteins of BRSV and HRSV. The 5'- and 3'-terminal untranslated sequences that are conserved among HRSV mRNAs were also identified in the N mRNA of BRSV. The results indicate that the N genes are highly conserved in the bovine and human strains of respiratory syncytial virus.     

Molecular cloning and sequence analysis of the rinderpest virus mRNA encoding the hemagglutinin protein

We cloned the full-length cDNAs corresponding to the mRNA for the hemagglutinin (H) protein of rinderpest virus (RV) and determined the nucleotide sequence of RV-H. The gene of RV-H was composed of 1952 nucleotides and contained a single large open reading frame, which was capable of encoding a protein of 609 amino acids with a molecular weight of 68,330 Da. The nucleotide sequence and predicted amino acid sequence were compared with those of the measles virus (MV)-H. The 5' end of the message (nucleotides 1 to 485) was largely conserved, with a homology of 75.1% of the nucleotides and 78.0% of the predicted amino acids. In the middle portion (nucleotides 486-1310), where the potential glycosylation sites exist, 56.6% of the nucleotides and 49.5% of the amino acids were identical. In the 3' end of the message (nucleotides 1311-1850), 63.3% of the nucleotides and 58.1% of the amino acids were identical. Four potential glycosylation sites were found in RV-H protein and three of them were the same as those of MV-H protein. The positions of 13 cysteine residues of RV-H were absolutely identical to those of MV-H. The hydropathy profile of RV-H protein resembled that of MV-H. One major hydrophobic region long enough to be an anchor in the membrane was located near the N-terminus.     

Molecular cloning and sequence analysis of the fusion glycoprotein gene of human parainfluenza virus type 2

A cDNA clone containing a 2.0-kb insert was identified as the human parainfluenza virus type 2 (PI2) fusion glycoprotein gene by hybridizing with a viral RNA probe and a synthetic oligonucleotide derived from a conserved sequence found in other paramyxovirus fusion protein genes. The complete nucleotide sequence of the glycoprotein gene was determined by the dideoxynucleotide sequencing procedure and found to contain a single, large open reading frame encoding a protein of 551 amino acids with a calculated molecular weight of 59,664. Comparison of the P12 fusion protein with those of other paramyxoviruses indicated similarities in overall length, N-terminal signal peptide sequence (amino acids 7 to 25), C-terminal membrane-spanning region (amino acids 486 to 513), and a highly conserved fusion sequence region at the N-terminus of the F1 subunit (amino acids 107 to 132).     

Molecular cloning and sequence analysis of the mumps virus gene encoding the L protein and the trailer sequence.

We have cloned and determined the nucleotide sequences of the seventh gene of the Miyahara strain of mumps virus (MuV) encoding the L protein. The L gene is 6925 nucleotides in length and contains a single long open reading frame which is capable of coding for a protein of 2261 amino acids with a calculated molecular weight of 256,571 Da. The deduced amino acid sequence of the L protein of MuV showed significant homology with those of six other paramyxoviruses, human parainfluenza type 2 virus, Newcastle disease virus, Sendai virus, measles virus, human parainfluenza type 3 virus, and human respiratory syncytial virus. The predicted MuV L protein contained distinct elements thought to be essential for RNA polymerase activity. A noncoding sequence of 24 nucleotides downstream of the presumed polyadenylation site of the L gene showed significant complementarity with the leader sequence composed of 55 nucleotide at the 3' end of the genomic RNA.     

The gene encoding the nucleocapsid protein: sequence analysis in murine hepatitis virus type 3 and evolution inCoronaviridae

Summary The nucleoprotein-encoding gene (N) of murine hepatitis virus type 3 (MHV 3), from the Mill Hill strain, was cloned and sequenced. It was compared to gene N from other murine coronaviruses and was found to share more similarities with N sequences from MHV 1 and MHV JHM strains than with the published MHV 3 N sequence which is almost identical to MHV A59. We suggest that the evolution of some MHV N sequences resulted from a double recombination phenomenon between two ancestors. Furthermore, comparison of protein N from avian and mammalian coronaviruses leads to the hypothesis that horizontal transfer events of the virus from one host species to another have occurred.     

Nucleotide sequence of cDNA to the rinderpest virus mRNA encoding the nucleocapsid protein

The full-length cDNA corresponding to the mRNA encoding the nucleocapsid protein (NP) of rinderpest virus (RV) was cloned and its complete nucleotide sequence was determined. The gene of RV-NP was composed of 1683 nucleotides and contained a single large open reading frame, which is capable of encoding a protein of 525 amino acids with a molecular weight of 58,241 Da. The nucleotide sequence and predicted amino acid sequence were compared with those of measles virus (MV) and canine distemper virus (CDV). The nucleotide sequence of the coding region of RV-NP (53–1630) revealed a homology of 68.1% and 63.0% with MV and CDV-NP, respectively. Relatively moderate homologies of 68.7% (MV) and 64.3% (CDV) were found at nucleotides 53–592. The highest homology of 75.3–74.3% was equally present between RV and both MV and CDV in the middle region at nucleotides 593–1312. The homologies of the predicted amino acids in this region were 88.3% (MV) and 86.3% (CDV). Relatively low (MV) or little (CDV) homology was detected in the last 318 nucleotides toward the 3 terminus (1313–1630). The predicted secondary structures of amino acids at the C terminus differed between the three viruses.     

Messenger RNA encoding the phosphoprotein (P) gene of human parainfluenza virus 3 is bicistronic

The complete nucleotide sequence of the phosphoprotein (P) mRNA of human parainfluenza virus 3 (PIV-3) was derived from two cDNA clones spanning almost the entire P gene. The mRNA, excluding the poly(A) tail, is 2014 nucleotides long and is bicistronic. The first open reading frame (ORF) codes for the phosphoprotein (P) of mol wt 68,860. Seven nucleotides downstream from the first AUG codon, in a +1 reading frame, there is an additional ORF which can code for a polypeptide of mol wt 23,266. The latter protein appears to be similar to the C proteins found in cells infected with several paramyxoviruses. Comparison of the predicted amino acid sequence of the P and C proteins of PIV-3 with the corresponding Sendai virus proteins reveals considerable homology at the C-terminal half. In contrast, the P and C proteins of PIV-3 share very little homology with the measles virus P and C proteins, respectively.     

Conserved structures among the nucleocapsid proteins of the paramyxoviridae: complete nucleotide sequence of human parainfluenza virus type 3 NP mRNA

The nucleotide sequence of the mRNA coding for the nucleocapsid protein (NP) of the paramyxovirus, human parainfluenza virus type 3 (PIV-3), has been determined. The NP mRNA was found to contain 1642 bases, excluding poly(A), and encode a protein of 515 amino acids, with a molecular weight of 57,823. Amino acid residues 1 through 420 of PIV-3 NP protein showed extensive sequence homology with the corresponding amino acids of Sendai virus nucleocapsid protein. There was virtually no homology between the last 95 amino acids. Comparison of the NP proteins of PIV-3, Sendai virus, measles virus, and canine distemper virus revealed, from amino acid residues 160 through 390, some conserved areas between the corresponding proteins of these paramyxoviruses. The 5' terminal sequence of PIV-3 NP mRNA (5'-AGGATTAAAG-3') was similar to the conserved sequence (formula; see text) found at the 5' termini of Sendai virus mRNAs. Both PIV-3 NP and Sendai virus mRNAs had a common 3' terminal tetranucleotide (5'-TAAG-3') preceding the poly (A) tail.     

Synthesis of recombinant human parainfluenza virus 1 and 3 nucleocapsid proteins in yeast Saccharomyces cerevisiae

Human parainfluenza virus types 1 and 3 (HPIV1 and HPIV3, respectively), members of the virus family Paramyxoviridae, are common causes of lower respiratory tract infections in infants, young children, the immunocompromised, the chronically ill, and the elderly. In order to synthesize recombinant HPIV1 and HPIV3 nucleocapsid proteins, the coding sequences were cloned into the yeast Saccharomyces cerevisiae expression vector pFGG3 under control of GAL7 promoter. A high level of recombinant virus nucleocapsid proteins expression (20-24 mg l(-1) of yeast culture) was obtained. Electron microscopy demonstrated the assembly of typical herring-bone structures of purified recombinant nucleocapsid proteins, characteristic for other paramyxoviruses. These structures contained host RNA, which was resistant to RNase treatment. The nucleocapsid proteins were stable in yeast and were easily purified by caesium chloride gradient ultracentrifugation. Therefore, this system proved to be simple, efficient and cost-effective, suitable for high-level production of parainfluenza virus nucleocapsids as nucleocapsid-like particles. When used as coating antigens in an indirect ELISA, the recombinant N proteins reacted with sera of patients infected with HPIV1 or 3. Serological assays to detect HPIV-specific antibodies could be designed on this basis.     

Molecular cloning and complete nucleotide sequence of galinsoga mosaic virus genomic RNA

Summary.  The complete genomic sequence of galinsoga mosaic virus (GaMV) was determined. The genome consists of 3 803 nucleotides and has five open reading frames (ORFs). The 5′ ORF (ORF 1) encodes a protein with predicted molecular mass of 23 kDa and readthrough of its amber stop codon probably yields a 82 kDa protein (ORF 2). ORFs 3 and 4 encode two polypeptides with molecular masses of 8 and 7 kDa, respectively. ORF 5 encodes the 36 kDa capsid protein. Amino acid sequence comparisons revealed that the nonstructural proteins encoded by ORFs 1, 3, and 4 were more similar to the corresponding gene products of tobacco necrosis virus, strain A, than to those of carmoviruses. Conversely, the coat protein was more similar to that of tombusviruses. The readthrough region of the viral replicase (ORF 2) had high sequence homology with that of carmo-, tombus-, and necroviruses. Computer analysis of the protein encoded by ORF 1 as well as of the corresponding product of turnip crinkle (TCV) and melon necrotic spot (MNSV) carmoviruses revealed the presence of a sequence with local hydrophobicity and hydrophobic moment characteristic of mitochondrial targeting sequence which may explain the origin of the carmovirus-induced multivesicular bodies from mitochondria. Accepted August 25, 1997 Received June 18, 1997     

Molecular characterization and phylogenetic analysis of human parainfluenza virus type 3 isolated from Saudi Arabia

Human parainfluenza virus 3 (HPIV-3) is a leading cause of respiratory disease in children worldwide. Previous sequence analyses of the entire virus genome, among different HPIV-3 strains, demonstrated that HN is the most variable gene. There is a dearth of data on HPIV-3 strains circulating in Saudi Arabia. In this report, HPIV-3 was screened in nasopharyngeal aspirates collected from hospitalized children with acute respiratory disease during two successive seasons (2007/08 and 2008/09) using nested RT-PCR. Out of 73 samples collected during 2007/08, seven (9.59%) were positive; while 3 out of 107 samples collected during 2008/09 (2.8%) were positive. Virus isolation in cell culture was successful using HEp2, but not Vero cells. The identity of the isolated viruses was confirmed using immunofluorescence and neutralization assays. To elucidate the genetic characteristics and phylogeny of Saudi HPIV-3 strains, the complete HN gene sequence of two selected Saudi strains was analyzed in comparison to 20 strains isolated by others from different countries worldwide. Both strains showed the highest degree of sequence homology with Indian strains, followed by Chinese and most Japanese strains. Phylogenetic analysis confirmed that these strains fell into a distinct Asian lineage. This study is the first in Saudi Arabia to recover HPIV-3 isolates of confirmed identity, and to generate sequence data that may help in understanding virus diversity and evolution.