Emergence of a New Strain of Type O Foot-and-Mouth Disease Virus: Its Phylogenetic and Evolutionary Relationship with the PanAsia Pandemic Strain

In India, Foot-and-mouth disease virus (FMDV) serotype O has been associated with more than 75% of the outbreaks. Previous studies with this serotype have indicated that the viruses circulating in India belong to a single genotype. Recent (February 2001) FMD epidemics in Europe have focussed global attention on the source of the virus and have been traced to a strain, PanAsia (serotype O), which is present in India since 1990. In this study, to further characterize the isolates belonging to the PanAsian strain, we sequenced the complete VP1-encoding (1D) gene for 71 FMDV serotype O isolates from India recovered from the field outbreaks during the last 4 decades (1962–2001). All the isolates in the tree were distributed in to three major branches (designated as A, B and C); the branch C is further divided into four groups (I–IV), of which the group IV belongs to the PanAsia strain. Furthermore, we show that the PanAsia strain has been circulating endemically since 1982 (not 1990 as reported earlier) and has been the most dominant outbreak strain in the recent years and distributed at least in 17 states of the country. During the year 2001, another new group (group III) of virus with genetic divergence of 5.4–11.1% at nucleotide level from the PanAsia strain is found to co-circulate endemically, and is slowly replacing it. At amino acid level this strain differed from PanAsia strain at five amino acid positions in the VP1. Although these strains are divergent at nucleotide level, they maintained a good antigenic relationship with one of the vaccine strains (IND R2/75) widely used in the country. Given the ability of the PanAsia virus to persist, spread and to outcompete other strains, the present trend could be of serious concern as the newly emerging virus is replacing it. If this is true, then there is another equally divergent strain as PanAsia that may pose a serious threat to the global dairy and meat industries.     

Comparison and Analysis of the Complete Nucleotide Sequence of Foot-and-Mouth Disease Viruses from Animals in Korea and Other PanAsia Strains

During the last 3 years, foot-and-mouth disease virus serotype O, named PanAsia, caused two outbreaks in the Republic of Korea. To determine if there was an obvious genetic relationship between the virus isolated in 2002 (O/SKR/2002) and the O/SKR/2000, and to further analyze the epidemiological relationships between the PanAsia viruses and the viruses identified in Korea, the complete nucleotide sequence of the O/SKR/2002 and the O/SKR/2000 were determined by automatic cycling sequencing and primer walking. The nucleotides and the deduced amino acid (aa) sequences of the strains identified in Korea were compared with each other and also those enrolled in the GenBank database. In comparison and analysis of the viruses identified in Korea, any deletions or insertions in the specific fragment gene of both the O/SKR/2002 and O/SKR/2000 were not identified. However, comparison of the aa sequence of the identified virus in 2002 from pigs with those of other PanAsia strains revealed significant substitutions of 4 aa in the VPI region and 8 aa in the 3A region. In phylogenetic analysis based on the translated region, the identified virus in 2002 appeared to be the divergence of approximately 1% degree with other PanAsia viruses. Also, animal experiments indicated that O/SKR/2000 is not host-restricted and develop the clinical signs in the main susceptible livestock species (cattle and pigs). However, O/SKR/2002 did not develop the clinical signs in cattle and showed severe clinical signs only in pigs.These analytic data suggest that 2002 outbreaks in Korea is not re-occurred but re-introduced from nowhere.     

Nucleotide Sequence of the P1 Region of Foot-and-Mouth Disease Virus Strain O1 Caseros

It has been shown that variation of antigenic site I in VP1 of foot-and-mouth disease virus (FMDV) plays an important role in the antigenic diversification of this virus. However, the O1 Campos strain is able to efficiently cross-protect cattle against the O1 Caseros strain, despite having a different sequence in the site I. In this paper we report and compare the P1 coding region for the capsid proteins of FMDV O1 Caseros and O1 Campos. The deduced amino acid sequence showed a total of 31 amino acid differences. Eight of them are located in surface-exposed loops that have been implicated in antigenic sites. This study should help to identify additional sites to be considered in the development of a new generation of FMDV vaccines. This revised version was published online in July 2006 with corrections to the Cover Date.     

Complete Nucleotide Sequence of a Mumps Virus Genotype I Strain Isolated in Korea

The complete nucleotide sequence of mumps virus isolated in Korea, Dg1062/Korea/98 (Dg1062), was determined. As other mumps viruses, its genome was to be 15,384 nucleotides (nts) in length and encoded seven proteins. The both 5' and 3' ends were confirmed to be 55 and 24 nts by RACE method, respectively. The full-length nucleotide sequence of Dg1062 isolate differed from other strains by 2.9-6.8% in the nucleotide sequence level, resulting in 206 nucleotide and 54 amino acid substitutions which were observed in only Dg1062 isolate relative to the consensus sequences of other strains. Despite the variations of amino acids over the full genome including HN gene, it might be considered that this isolate have no significant variations in the antigenic sites. This result is the first report of full-length genome of genotype I strain and provides an overview on the diversity of genetic characteristics of circulating mumps virus.     

Complete Nucleotide Sequence of the Genomic RNA of Tobacco Mosaic Virus Strain Cg

Tobacco mosaic virus (TMV)-Cg is a crucifer-infecting tobamovirus that was isolated from field-grown garlic. We determined the complete nucleotide sequence of the genomic RNA of TMV-Cg. The genomic RNA of TMV-Cg consists of 6303 nucleotides and encodes four large open reading frames, organized basically in the same way as that of other tobamoviruses. The nucleotide and deduced amino acid sequences are very similar to those of the other crucifer-infecting tobamoviruses that have been sequenced so far. This revised version was published online in August 2006 with corrections to the Cover Date.     

Sequence Analysis of the RNA Polymerase Gene of Foot-and-Mouth Disease Virus Serotype Asia1

The complete nucleotide (nt.) sequence of the RNA polymerase (3D) gene and 81 nt. in the 3-untranslated region of foot-and-mouth disease virus (FMDV) serotype Asia1 (IND63/72) was determined and compared with the sequence of other FMDV serotypes. The 3D genomic region was 1410 nt. long encoding 470 amino acids with an inframe stop codon (TAA) at nt. position 1411–1413. The deduced amino acid sequence of the protein showed 8 conserved motifs as reported in other picornaviruses, 2 of which are 100% identical across the serotypes. Antigenic regions in the polymerase protein were predicted and found to be located at the N-terminus of the protein. The phylogenetic analysis showed that the FMD viruses were segregated into different clusters based on geographical origin; the Asia1 virus did not cluster tightly with any of the geographical groups.     

Nucleotide Sequence of the Structural Protein-Encoding Region of Foot-and-Mouth Disease Virus A22-India

Nucleotide sequence of the structural protein-encoding region of foot-and-mouth disease virus (FMDV) A22-India 17/77 was determined using non-radioisotopic technique. Comparison of nucleotide and deduced amino acid sequence with A22-Iraq 24/64 revealed 175 synonymous (silent) and 42 non-synonymous nucleotide changes resulting in 34 amino acid substitutions along the capsid proteins (VP1–VP4). Out of the 4 structural proteins VP4 is highly conserved. The highly variable and immunodominant protein VP1 showed 47% of the total amino acid substitutions. VP2 and VP3 contain 38.2% and 14.7% of the amino acid substitutions, respectively. The VP1-based phylogenetic analysis of 18 different type A viruses including A22-India 17/77 divided them in to two broad genetic groups (Asian and European/South American), and each group is further subdivided in to two separate genotypes. A22-India 17/77, A22-Iraq 24/64 and A22-Azerbaijan/65 formed one genotype and the 4 Chinese strains formed a separate genotype in the Asian group of viruses. In the European/ South American group, A-Argentina/87 represents one genotype and the remaining 10 strains formed the second genotype in this group.     

Complete Nucleotide Sequence of the Rice Tungro Spherical Virus Genome of the Highly Virulent Strain Vt6

The complete nucleotide sequence of rice tungro spherical virus (RTSV) strain Vt6, originally from Mindanao, the Philippines, with higher virulence to resistant rice cultivars, was determined and compared with the published sequence for the Philippine-type strain A (RTSV-A-Shen). It was reported that RTSV-A was not able to infect a rice resistant cultivar TKM 6 (10). RTSV-Vt6 and RTSV-A-Shen share 90% and 95% homology at nucleotide and amino-acid levels, respectively. The N-terminal leader sequence of RTSV-Vt6 contained a 39-amino acids-region (positions 65 to 103) which was totally different from that of RTSV-A-Shen; the difference resulted from frame shifting by nucleotide insertions and deletions. To confirm the amino-acid sequence differences of the leader polypeptide, the same region was cloned and sequenced using a newly obtained variant of RTSV-type 6, which had been collected in the field of IRRI, and seven field isolates from Mindanao, the Philippines. Since all the sequences of the target region are identical to that of the Vt6 leader polypeptide, the sequence difference in the leader region seems not to correlate with the virulence of Vt6.     

Complete Nucleotide Sequence Analysis of a Western Pacific Dengue-1 Virus Strain

We have determined the complete nucleotide sequence and the deduced amino acid polypeptide sequence of the genome of a dengue-1 (DEN-1) virus strain isolated from a patient on Nauru in the Western Pacific in 1974 (West Pac 74). The complete genome is 10,735 nucleotides in length and contains a single long open reading frame of 10,176 nucleotides encoding a polyprotein of 3392 amino acids. When compared to DEN-1 Singapore S275/90, the nucleotide and amino acid sequence homology are 94% and 97.8%, respectively. This revised version was published online in July 2006 with corrections to the Cover Date.     

The Non-structural Leader Protein Gene of Foot-and-Mouth Disease Virus is Highly Variable between Serotypes

Aphthoviruses are unique among picornaviruses in that they alone encode a functional L proteinase as the first component of the viral polyprotein. The L genes of a few Indian foot-and-mouth disease viruses were sequenced and compared with those available to study the extent of variation in this gene. Besides the two in-frame start codons present in all FMDV L genes, the Asia-I vaccine virus had an additional in-frame AUG (start) codon, at codon position 3. Amino acid sequence comparison revealed that 39.8% of positions were capable of accepting replacements, yet the residues of the catalytic dyad were totally conserved. Sequence comparison at the C-terminus of the protein indicated that K/RGAGQS is sufficient for L/P1 cleavage. Phylogenetic analysis based on the L gene sequences did not reveal any serotype-specific clustering. The probable implications of the observed high variability in this non-structural gene is briefly discussed.     

Cloning and Sequencing of Complete cDNA of Japanese Encephalitis Virus YL Strain in Taiwan

We determined the complete nucleotide sequence of the YL strain of Japanese encephalitis virus and its amino acid sequence was deduced. Our results displayed that the genome of YL strain contained a single open reading frame of 10,296 nucleotides (nts) which was flanked by untranslated region (UTR) containing 95 bases at the 5-end and 586 bases at the 3-end, respectively. Comparison of sequences showed that the overall amino acid sequence and 3 UTR of YL were similar to those of the virulent strain JaGAr01. However, some significant amino acid differences of viral envelope (E) protein were observed between YL and JaGAr01; the amino acid sequence of E protein in YL strain possessed RGG_(387–389) tripeptide instead of RGD_(387–389) in JaGAr01 and in other strains; and another amino acid is K₍₁₃₈₎ in YL, not E₍₁₃₈₎ found in others. These differences suggested that the YL strain impairs in viral attachment to the cell surface and loses neuroinvasiveness, and therefore this strain was used as a live attenuated vaccine.     

Sequence Analysis of the Complete Genome of Rice Black-Streaked Dwarf Virus Isolated from Maize with Rough Dwarf Disease

The complete nucleotide sequences of 10 genomic segments (S1–S10) from an isolate of rice black-streaked dwarf virus causing rough dwarf disease on maize (RBSDV-Hbm) in China were determined, a total of 29,142 base pairs (bp). Each segment possessed the genus-specific termini with conserved nucleotide sequences of (+) 5-AAGUUUUU......CAGCUNNNGUC-3 and a perfect or imperfect inverted repeat of seven to eleven nucleotides immediately adjacent to the terminal conserved sequence. While the coding strand of most RBSDV-Hbm segments contained one open reading frame (ORF), there were two non-overlapping ORFs in S7 and S9, and one small overlapping ORF downstream of the major ORF in S5. Homology comparisons suggest that S1 encodes a RNA-dependent RNA polymerase (RdRp), with 63.5% and 32.6% identity to the putative RdRp encoded by Fiji disease virus (FDV) and Nilaparvata lugens reovirus (NLRV), respectively. The proteins encoded by S2, S3, and S4 showed various degrees of similarity to those encoded by the corresponding segments of FDV or NLRV. In S5 and S6, low identities were found to those of FDV only, but not to NLRV. Sequence analyses showed that RBSDV-Hbm had the most similarities in the genome organizations and the coding assignments with a RBSDV isolated from rice in China, in which each pair of the corresponding segments shared sequence identities of 93.8–98.9% and 93.5–100% at nucleotide or amino acid levels, respectively. In addition, phylogenetic analyses suggested that RBSDV-Hbm had the closest evolutionary relationship to RBSDV in Fijivirus.     

Complete Nucleotide Sequence and Phylogenetic Analyses of Hepatitis B Virus Isolated from Two Pileated Gibbons

Virus-like particles (VLPs, named HmTV1-17), about 40nm in diameter were found in the violet root rot fungus Helicobasidium mompa Tanaka strain No. 17, which had been isolated from an apple tree. Purified preparations of HmTV1-17 contained two species of double-stranded RNA (dsRNA), designated 17L and 17S. cDNAs were constructed from HmTV1-17 genomic dsRNAs purified using CF-11 cellulose column chromatography. The sequences of 17L and 17S cDNA comprised 5207 and 2096bp, respectively. Although 17S has no large open reading flame (ORF) on either strand, 17L has two large overlapping ORFs. The 5 located ORF1 encodes the coat protein (CP, 788 amino acids), whereas the gene product of ORF2, which is in the –1 frame relative to ORF1, shows the typical features of a RNA dependent RNA polymerase (RDRP, 845 amino acids). Phylogenetic analysis based on RDRP showed that HmTV1-17 is closely related to Sphaeropsis sapinea SsRV1, a member of the genus Totivirus from filamentous fungus S. sapinea.     

A Ribozyme Targeted to Cleave the Polymerase Gene Sequences of Different Foot-and-Mouth Disease Virus (FMDV) Serotypes

Vaccinations against foot-and-mouth disease virus (FMDV) has dramatically reduced the number of disease outbreaks. Nevertheless, there are still many outbreaks in different regions around the world. In an effort to find new ways to control the disease, ribozymes able to cleave FMDV were designed and tested. In this work we tested the ability of FRZ4, a ribozyme targeted to the viral polymerase gene, to cleave polymerase sequences of several FMDV. Homology analysis was used to choose target sequences which consist of two conserved GUC which lie 15 bases apart and, their flanking sequences. These were the basis for the FRZ4 ribozyme gene sequence that contains two catalytic domains. We show that polymerase sequences from A, Asia 1, C and two different O1 Israeli isolates could be specifically cleaved by FRZ4. It is suggested that FRZ4 can cleave polymerase gene sequences from any FMDV serotype. This revised version was published online in July 2006 with corrections to the Cover Date.     

Nucleotide Sequence and Phylogenetic Analyses of Dengue Type 2 Virus Isolated in the Dominican Republic

Dengue virus infection has been recognized as an important public health problem in the Dominican Republic in the last decade. Complete genomic sequences of three strains of dengue type 2 (DEN-2) virus, DR23/01 and DR31/01 isolated from dengue fever (DF) patients, and DR59/01 isolated from a dengue hemorrhagic fever (DHF) patient, all with primary infection, in the Dominican Republic in 2001, have been established. This achievement constitutes the first genomic characterization of DEN-2 strains from the Dominican Republic. No amino acid differences were observed between the strains isolated from DHF and DF patients. They exhibited extensive homology with the strain from La Martinique, French West Indies. Although phylogenetic analysis was suggestive of their Southeast Asiatic origin, Dominican Republic strains and other Caribbean strains from La Martinique and Jamaica showed 26 amino acid changes that differed from both the Southeast Asia and native American genotypes.     

Complete Nucleotide Sequence of Bean Pod Mottle Virus RNA1: Sequence Comparisons and Evolutionary Relationships to Other Comoviruses

The complete nucleotide sequence of bean pod mottle comovirus (BPMV) RNA1 was determined. It is 5983 nucleotides long, excluding the poly(A) tail, and encodes a polyprotein of 1850 amino acid (aa) residues. Multiple alignments of the deduced aa sequence of BPMV polyprotein with those of cowpea mosaic virus (CPMV), red clover mottle virus (RCMV) and cowpea severe mosaic virus (CPSMV) indicated that BPMV RNA1 encodes the predicted set of five mature proteins: the equivalent of CPMV 32K protease cofactor, 58K putative helicase, VPg, 24K protease and 87K putative RNA-dependent RNA polymerase. Of the four proposed cleavage sites in BPMV RNA1 polyprotein, the one at the 32K/58K site (Q/A) is distinct for BPMV polyprotein and those at the 58K/VPg and VPg/24K junctions (Q/S and Q/M, respectively) are identical in all four comovirus polyproteins. Sequence comparison and phylogenetic analysis revealed that BPMV RNA1 is more closely related to CPSMV than to CPMV or to RCMV.