The cloning and sequencing of the virion protein genes from a British isolate of porcine respiratory coronavirus: comparison with transmissible gastroenteritis virus genes.

Previous analysis of porcine respiratory coronavirus (PRCV) mRNA species showed that mRNAs 2 and 3 were smaller than the corresponding transmissible gastroenteritis virus (TGEV) mRNA species (Page et al. (1991) J. Gen. Virol. 72, 579-587). Sequence analysis showed that mRNA 3 was smaller due to the presence of a new putative RNA-leader binding site upstream of the PRCV ORF-3 gene. However, this observation did not explain the deletion observed in PRCV mRNA 2. Polymerase chain reaction (PCR) was used to generate cDNA from the 3' coding region of the putative polymerase gene to the poly (A) tail of PRCV for comparison to the equivalent region from TGEV. The PRCV S protein was found to consist of 1225 amino acids, which had 98% similarity to the TGEV S protein. However, the PRCV S gene contained a 672 nucleotide deletion, corresponding to 224 amino acids (residues 21 to 245 in TGEV S protein), 59 nucleotides downstream of the S gene initiation codon. The PRCV genome from the ORF-3 gene to the poly (A) tail was sequenced for comparison to TGEV in order to identify other potential differences between the two viruses. Four ORFs were identified that showed 98% similarity to the TGEV ORF-4, M, N and ORF-7 genes. No other deletions or any PRCV specific sequences were identified.     

Molecular cloning of the cDNA coding for properdin, a positive regulator of the alternative pathway of human complement

Northern blot analysis indicated that the mRNA for human properdin is approximately 1.5 kb long and that its level in U-937 cells is increased by pretreating the cells with phorbol 12-myristate 13-acetate (PMA). Using a human genomic probe clones coding for human properdin were isolated from a lambda gt10 cDNA library derived from PMA-treated U-937 cells. The sequence of the 1474-bp cDNA insert of the longest clone revealed an open reading fram of 1326 bp coding for the entire 442 amino acids of the mature form of human properdin and 67 bp coding for 22 amino acids of typical, but incomplete leader sequence. Polymerase chain reaction "RACE" experiments identified the start site ATG and revealed the complete, 27-amino acid-long, leader peptide sequence. Within the 81-bp 3' non-translated extension a polyadenylation signal was identified 41 bp downstream from the stop codon, TAA, and 12 bp upstream of a 19 nucleotide long poly(A) tail. The amino acid sequence of human properdin is clearly divided into three distinct regions: a 49 residue-long N-terminal region, a 32 residue-long C-terminal region and a middle region, covering residues 50 to 411, composed of six tandemly repeated thrombospondin repeat (TSR) motifs of the type first described in the adhesive glycoprotein thrombospondin and also known to be present in the C6, C7, C8 alpha, C8 beta and C9 terminal components of complement. Human and mouse properdin sequences show a high (approximately 76%) degree of identity with almost complete conservation of the relatively large number of Cys (44) and Trp (20) residues.     

Full genomic sequence analysis of swine genotype 3 hepatitis E virus isolated from Shanghai

The full genomic nucleotide sequence of a previously identified genotype 3 hepatitis E virus (HEV), strain SAAS-JDY5, was obtained using RT-PCR and rapid amplification of cDNA ends (RACE). The genome consisted of 7225 nucleotides, excluding a poly-A tail at the 3′ terminus, and contained three open reading frames (ORFs), ORF-1, ORF-2 and ORF-3, encoding 1702, 660 and 113 amino acids, respectively. Phylogenetic analysis confirmed that SAAS-JDY5 belonged to genotype 3 HEV and was most closely related to the Japanese isolate wbJYG1 (AB222184). SAAS-JDY5 shared approximately 87% nucleotide similarity to human and swine strains from the United States, compared with 74–75% similarity to Asian (genotype 4) and Mexican strains (genotype 2). Alignment of the SAAS-JDY5 genomic sequence with reference sequences of the same genotype revealed one nucleotide substitution and one deletion at positions 5145 and 7189 (3′ UTR), respectively. Moreover, SAAS-JDY5 contained two additional nucleotides (AC) at the very end of the 3′-terminus preceding the poly-A tail of the genome. Comparison of the putative amino acid sequence encoded by the SAAS-JDY5 genome with sequences of other genotype 3 isolates revealed 15 unique amino acid substitutions and one deletion in ORF-1, and three substitutions in ORF-2.     

Molecular characterization of a strain of cucumber mosaic virus based on coat protein and movement protein genes

Cucumber mosaic virus (CMV) A strain (CMV-A) isolated from Amaranthus tricolor was partially characterized at molecular level. Complete coat protein (CP) and movement protein (MP) ORFs were cloned and sequenced. The 657 bp region of CP gene and the 840 bp region of MP gene encode 218 and 276 amino acids, respectively. CP, at nucleotide level, showed 90-98% sequence identity with the CMV subgroup I and less than 80% with the CMV subgroup II, it showed at amino acid level 92-96% identity with the subgroup I and 74-87% with the subgroup II. The nucleotide and amino acid sequence identities of MP ranged in 91-94% and 92-96%, respectively with the subgroup I but in 81-83% with the subgroup II. Phylogenetic trees generated from nucleotide and amino acid sequences of both CP and MP genes identified the virus strain as a member of the subgroup IB. CMV-A CP also displayed a remarkably higher homology with Indian strains of CMV than with other CMV strains and formed a separate cluster within the subgroup IB.     

Decorin-Binding Protein of Borrelia burgdorferi Is Encoded within a Two-Gene Operon and Is Protective in the Murine Model of Lyme Borreliosis

Isolated outer membranes of Borrelia burgdorferi were used in immunoblotting experiments with sera from immune mice to identify new putative Lyme disease vaccine candidates. One immunoreactive polypeptide migrated on polyacrylamide gels just proximal to outer surface protein C and comigrated with [³H]palmitate-labeled polypeptides. A degenerate oligonucleotide primer based upon internal amino acid sequence information was used to detect the corresponding gene within a B. burgdorferi total genomic library. The relevant open reading frame (ORF) encoded a polypeptide comprised of a 24-amino-acid putative signal peptide terminated by LLISC, a probable consensus sequence for lipoprotein modification, and a mature protein of 163 amino acids. Immunoblots of a recombinant fusion protein corresponding to this ORF supported the idea that the encoded protein was a previously reported decorin-binding protein (DBP) of B. burgdorferi N40 (B. P. Guo, S. J. Norris, L. C. Rosenberg, and M. Höök, Infect. Immun. 63:3467–3472, 1995). However, further DNA sequencing revealed the presence of a second ORF, designated ORF-1, whose termination codon was 119 bp upstream of the dbp gene. ORF-1 also encoded a putative lipoprotein with a mature length of 167 amino acids. Northern blots, Southern blots, and primer extension analyses indicated that ORF-1 and dbp comprised a two-gene operon located on the 49-kb linear plasmid. Both proteins, which were 40% identical and 56% similar, partitioned into Triton X-114 detergent extracts of B. burgdorferi isolated outer membranes. Mice infected with B. burgdorferi produced high titers of antibodies against the ORF-1-encoded protein and DBP during both early and later stages of chronic infection. Both DBP and the ORF-1-encoded protein were sensitive to proteinase K treatment of intact borreliae, suggesting that they were surface exposed. In active immunization experiments, 78% of mice immunized with recombinant DBP were immune to challenge. While it is not clear whether the two lipoproteins encoded by the ORF-1-dbp operon have analogous decorin-binding functions in vivo, the combined studies implicate DBP as a new candidate for a human Lyme disease vaccine.     

Identification of a Gene Cluster within the Genome of Chilo Iridescent Virus Encoding Enzymes Involved in Viral DNA Replication and Processing

The nucleotide sequence of the genome of Chilo iridescent virus (CIV) between the genome coordinates 0.974 and 0.101 comprising 27,079 bp was determined. Computer-assisted analysis of the DNA sequence of this particular region of the CIV genome revealed the presence of 42 potential open reading frames (ORFs) with coding capacities for polypeptides ranging from 50 to 1,273 amino acid residues. The analysis of the amino acid sequences deduced from the individual ORFs resulted in the identification of 10 potential viral genes that show significant homology to functionally characterized proteins of other species. A cluster of five viral genes that encode enzymes involved in the viral DNA replication was identified including the DNA topoisomerase II (A039L, 1,132 amino acids (aa)), the DNA polymerase (ORF A031L, 1,273 aa), a helicase (ORF A027L, 530 aa), a nucleoside triphosphatase I (ORF A025L, 1,171 aa), and an exonuclease II (ORF A019L, 624 aa), all ORFs possessing the same genomic orientation. The DNA polymerase of CIV showed the highest homology (24.8% identity) to the DNA polymerase of lymphocystis disease virus lymphocystis disease virus 1 (LCDV-1), a member of the family Iridoviridae, indicating the close relatedness of the two viruses. In addition, four putative gene products were found to be significantly homologous to previously identified hypothetical proteins of CIV.     

Identification of bent DNA and ARS fragments in the genome of Choristoneura fumiferana nuclear polyhedrosis virus.

We identified four CfMNPV DNA fragments with autonomously replicating sequences (ARS) functional in Saccharomyces cerevisiae. A 0.9-kb fragment which, mapped to 54.5 to 55.3 map units within EcoRI HI of the CfMNPV genome, showed the strongest ARS activity of the four. Sequence analysis of this 0.9-kb DNA segment revealed an A+T-rich region separated from a G+C-rich region by 320 bp. Although no sequence matched exactly the ARS core-consensus sequence, 13 near-matches differing by only one or two nucleotides from the core-consensus sequence, were identified. Ten near-matches were clustered within a 105-bp A+T-rich region, and were arranged as inverted repeats. A section of bent DNA structure was predicted within this region. The bent DNA, which showed temperature-dependent retardation during polyacrylamide gel electrophoresis, was unique as its sequence was arranged as a symmetrical 'tilde' (approximately) structure. The second (1.0 kb) and third (1.6 kb) ARS-bearing fragments mapped within EcoRI-E and -B fragments which contain homologous repeat sequences. The fourth (1.5 kb) fragment had the weakest ARS activity and mapped to the EcoRI-D or -B regions of the genome.