Comparison of the full-length genome sequence of avian metapneumovirus subtype C with other paramyxoviruses

We determined the nucleotide (nt) sequence of the small hydrophobic (SH), attachment glycoprotein (G), and RNA polymerase (L) genes, plus the leader and trailer regions of the Colorado strain of Avian metapneumovirus subtype C (aMPV/C) in order to complete the genome sequencing. The complete genome comprised of 13,134 nucleotides, with a 40 nt leader at its 3' end and a 45 nt trailer at its 5' end. The aMPV/C L gene was the largest with 6173 nt and consisting of a single open reading frame encoding a 2005 amino acids (aa) protein. Comparison of the aMPV/C SH, G, and L nt and predicted aa sequences with those of Human metapneumoviruses (hMPV) revealed higher nt and aa sequence identities than the sequence identities between the aMPV subtypes A, B, C, and D, supporting earlier finding that aMPV/C was closer evolutionary to hMPV than the other aMPV subtypes.     

Subtype B avian metapneumovirus resembles subtype A more closely than subtype C or human metapneumovirus with respect to the phosphoprotein,and second matrix and small hydrophobic proteins

Avian metapneumovirus (aMPV) subtype B (aMPV/B) nucleotide sequences were obtained for the phosphoprotein (P), second matrix protein (M2), and small hydrophobic protein (SH) genes. By comparison with sequences from other metapneumoviruses, aMPV/B was most similar to subtype A aMPV (aMPV/A) relative to the US subtype C isolates (aMPV/C) and human metapneumovirus (hMPV). Strictly conserved residues common to all members of the Pneumovirinae were identified in the predicted amino acid sequences of the P and M2 protein-predicted amino acid sequences. The Cys(3)-His(1) motif, thought to be important for binding zinc, was also present in the aMPV M2 predicted protein sequences. For both the P and M2-1 protein-predicted amino acid sequences, aMPV/B was most similar to aMPV/A (72 and 89% identity, respectively), having only approximately 52 and 70% identity, respectively, relative to aMPV/C and hMPV. Differences were more marked in the M2-2 proteins, subtype B having 64% identity with subtype A but < or = 25% identity with subtype C and hMPV. The A and B subtypes of aMPV had predicted amino acid sequence identities for the SH protein of 47%, and less than 20% with that of hMPV. An SH gene was not detected in the aMPV/C. Phylogenetically, aMPV/B clustered with aMPV/A, while aMPV/C grouped with hMPV.     

Fusion protein predicted amino acid sequence of the first US avian pneumovirus isolate and lack of heterogeneity among other US isolates

Avian pneumovirus (APV) was first isolated from turkeys in the west-central US following emergence of turkey rhinotracheitis (TRT) during 1996. Subsequently, several APV isolates were obtained from the north-central US. Matrix (M) and fusion (F) protein genes of these isolates were examined for sequence heterogeneity and compared with European APV subtypes A and B. Among US isolates the M gene shared greater than 98% nucleotide sequence identity with only one nonsynonymous change occurring in a single US isolate. Although the F gene among US APV isolates shared 98% nucleotide sequence identity, nine conserved substitutions were detected in the predicted amino acid sequence. The predicted amino acid sequence of the US APV isolate's F protein had 72% sequence identity to the F protein of APV subtype A and 71% sequence identity to the F protein of APV subtype B. This compares with 83% sequence identity between the APV subtype A and B predicted amino acid sequences of the F protein. The US isolates were phylogenetically distinguishable from their European counterparts based on F gene nucleotide or predicted amino acid sequences. Lack of sequence heterogeneity among US APV subtypes indicates these viruses have maintained a relatively stable population since the first outbreak of TRT. Phylogenetic analysis of the F protein among APV isolates supports classification of US isolates as a new APV subtype C.     

Specific detection of avian pneumovirus (APV) US isolates by RT-PCR

Summary.  This report details the development of an RT-PCR assay for the specific detection of US isolates of avian pneumovirus (APV). Of the several primer pairs tested, two sets of primers derived from the matrix gene of APV were able to specifically detect the viral RNA of APV. The nucleotide sequence comparison of the PCR products of APV isolates from Minnesota suggested that these viruses were closely related to the Colorado strain of APV, but were distinct from subtypes A and B European isolates of turkey APV (turkey rhinotracheitis: TRT). This M gene-based PCR was found to be very specific and sensitive. APV as low as 8 × 10⁻⁵ TCID⁵⁰ (0.0323 μg/ml) could be detected using this assay. In addition, the two primers were able to differentiate isolates from turkeys in Minnesota. Received June 15, 1999 Accepted January 3, 2000     

Cloning and sequence analysis of the N gene of porcine epidemic diarrhea virus LJB/03

The nucleocapsid (N) gene of the porcine epidemic diarrhea virus (PEDV) strain LJB/03 which was previously isolated in Heilongjiang province, China, was cloned, sequenced and compared with published sequences of other avian and mammalian coronavirus. The nucleotide sequence encoding the entire N gene open reading frame (ORF) of LJB/03 was 1326 bases long and encoded a protein of 441 amino acids with predicted Mr of 49 kDa. It consisted of 405 adenines (30.5%), 294 cytosines (22.1%), 329 guanines (24.8%) and 298 thymines (22.5%) residues. Sequence comparison with other PEDV strains selected from GenBank revealed that the LJB/03 N gene has a high sequence homology to those of other PEDV isolates, 97.4% with JS2004, 95.6% with chinju99, 96.6% with Br1/87, and 96.8% with CV777. The encoded protein shared 96.4% amino acid identities compared with CV777, 96.1% with Brl/87, 98% with JS2004, 96.90% with chinju99, respectively. The amino acid sequence contained seven potential protein kinase C phosphorylation sites, nine Casein kinase II phosphorylation sites, one Tyrosine kinase phosphorylation site, two cAMP- and cGMP-dependent protein kinase phosphorylation sites.     

B5r gene based sequence analysis of Indian buffalopox virus isolates in relation to other orthopoxviruses

We determined complete nucleotide sequence of B5R gene homologue of Vaccinia virus (VACV) in five Buffalopox virus (BPXV) isolates of Indian origin. The obtained sequences were compared with themselves and with corresponding sequences of the other orthopoxviruses. Sequence analysis revealed 99.799.8% and 99.499.7% identities among the BPXV isolates for B5R gene at the nucleotide and amino acid levels, respectively. Sequence identities of B5R gene between BPXV and VACV isolates (98.199.7%) or other orthopoxviruses (95.699.2%) showed highly conserved nature of this protein and a closer relationship of BPXV isolates to VACV than to other orthopoxviruses.     

Comparison of the complete sequences of three different isolates of <Emphasis Type="Italic">Pepino mosaic virus</Emphasis>: Size variability of the TGBp3 protein between tomato and <Emphasis Type="Italic">L. peruvianum</Emphasis> isolates

Summary. The complete nucleotide sequence of the genomes of two Spanish isolates (LE-2000 and LE-2002) from tomato and one Peruvian isolate (LP-2001) from Lycopersicon peruvianum of the Pepino mosaic virus (PepMV) were determined. The tomato isolates share identities higher than 99%, while the genome of LP-2001 had mean nucleotide identities of 95.6% to 96.0% with tomato isolates. The predicted amino acid sequences showed similarities ranging between 95.2% and 100% with TGBp3 and TGBp2 and CP proteins, respectively. In LP-2001 two main differences were found with respect to the tomato isolates; (i) the 5 untranslated region (UTR) was 2nt shorter by deletion at position 12–13 and it had some polymorphims at the putative promoter sequence reported for PepMV tomato isolates and other potexviruses, which could be functionally significant for RNA replication, and (ii) the TGBp3 protein had two extra amino acids in the C-terminal region.     

Molecular epidemiology of subgroup C avian pneumoviruses isolated in the United States and comparison with subgroup a and B viruses

The avian pneumovirus (APV) outbreak in the United States is concentrated in the north-central region, particularly in Minnesota, where more outbreaks in commercial turkeys occur in the spring (April to May) and autumn (October to December). Comparison of the nucleotide and amino acid sequences of nucleoprotein (N), phosphoprotein (P), matrix (M), fusion (F), and second matrix (M2) genes of 15 U.S. APV strains isolated between 1996 and 1999 revealed between 89 and 94% nucleotide sequence identity and 81 to 95% amino acid sequence identity. In contrast, genes from U.S. viruses had 41 to 77% nucleotide sequence identity and 52 to 78% predicted amino acid sequence identity with European subgroup A or B viruses, confirming that U.S. viruses belonged to a separate subgroup. Of the five proteins analyzed in U.S. viruses, P was the most variable (81% amino acid sequence identity) and N was the most conserved (95% amino acid sequence identity). Phylogenetic comparison of subgroups A, B, and C viruses indicated that A and B viruses were more closely related to each other than either A or B viruses were to C viruses.     

2008-2009年北京分离的肠道病毒71型基因组3'末端序列分析

目的 了解2008-2009年北京分离的肠道病毒71型(EV71)基因组3'末端的基因特征(未包括多聚腺苷尾),探讨是否与病毒的致病性有关.方法 于2008-2009年手足口病流行期间采集来首都儿科研究所附属儿童医院就诊的普通手足口病患儿和合并重症神经系统并发症患儿的咽/鼻拭子或疱疹液标本.将标本接种Vero细胞进行肠道病毒分离,同时设计肠道病毒通用引物、EV71和柯萨奇病毒A组16型(CA16)特异性引物通过巢式RT-PCR对分离到的肠道病毒进行型别鉴定.对引起不同临床类型感染的10株EV71分离株的基因组3'末端进行序列测定和分析.结果 10株EV71的3'末端均包含1386 nt的3D、终止密码子TGA和81 nt的3'UTR,由3D核苷酸序列所推导的3D蛋白含462个氨基酸.10株EV71的3D和3'UTR核苷酸同源性分别为95.8%～99.6%和96.3%～100%,重症来源的4株毒株中有3株在3Dpol第140位和第263位同时出现了相同的氨基酸变异(R140K和I263V).10株EV71的3D与C4亚型代表株具有最高的核苷酸和氨基酸同源性,分别为92.7%～94.2%和96.8%～97.6%;在3'UTR与CA16/G10具有最高的核苷酸同源性(88.9%～91.4%).3D区的遗传进化分析表明10株EV71在亲缘关系上与C4亚型最密切,与CA16/G10较密切,而与EV71其他基因型和亚型较疏远.结论 基因组3'末端在EV71进化中可能有一定的作用.     

Glycoprotein gene truncation in avian metapneumovirus subtype C isolates from the United States

The length of the published glycoprotein (G) gene sequences of avian metapneumovirus subtype-C (aMPV-C) isolated from domestic turkeys and wild birds in the United States (1996-2003) remains controversial. To explore the G gene size variation in aMPV-C by the year of isolation and cell culture passage levels, we examined 21 turkey isolates of aMPV-C at different cell culture passages. The early domestic turkey isolates of aMPV-C (aMPV/CO/1996, aMPV/MN/1a-b, and 2a-b/97) had a G gene of 1,798 nucleotides (nt) that coded for a predicted protein of 585 amino acids (aa) and showed >97% nt similarity with that of aMPV-C isolated from Canada geese. This large G gene got truncated upon serial passages in Vero cell cultures by deletion of 1,015 nt near the end of the open reading frame. The recent domestic turkey isolates of aMPV-C lacked the large G gene but instead had a small G gene of 783 nt, irrespective of cell culture passage levels. In some cultures, both large and small genes were detected, indicating the existence of a mixed population of the virus. Apparently, serial passage of aMPV-C in cell cultures and natural passage in turkeys in the field led to truncation of the G gene, which may be a mechanism of virus evolution for survival in a new host or environment.     

Sequence analysis of VP4 and VP7 genes of nontypeable strains identifies a new pair of outer capsid proteins representing novel P and G genotypes in bovine rotaviruses

During a limited epidemiological study, the serotype specificities of several isolates of bovine rotavirus, exhibiting identical electropherotypes, from a single cattle farm near Bangalore, India, could not be determined using a panel of serotyping monoclonal antibodies (MAbs) specific for G serotypes 1-6 and 10. To determine the genotypes of these isolates, the nucleotide sequences of the genes encoding the outer capsid proteins VP4 and VP7 of two representative isolates, Hg18 and Hg23, were determined. The corresponding gene sequences from the two isolates were identical, indicating that these isolates represented a single strain of bovine rotavirus. Comparison of the VP4 nucleotide (nt) and the deduced amino acid (aa) sequences with those of several human and animal rotavirus strains representing all of the currently recognized 20 different VP4 (P) genotypes revealed low nt and aa sequence identities of 61.0 to 74.2% and 57.9 to 78.2% for VP4. The percentages of amino acid homology for the VP8* and VP5* regions of VP4 were 37.7 to 67.9 and 68.1 to 84.2%, respectively. The nt and aa sequences of the VP7 gene were also distinct from those of human and animal strains belonging to the previously established 14 VP7(G) serotypes (65.9 to 75.5% nt and 59.5 to 77.6% aa identities). These findings suggest the classification of the VP4 and VP7 genes of the bovine isolates represented by Hg18 as new P and G genotypes and provide further evidence for the vast genetic/antigenic diversity of group A rotaviruses.     

Genetic analysis of enterovirus 71 isolated from fatal and non-fatal cases of hand, foot and mouth disease during an epidemic in Taiwan, 1998

A large scale outbreak of hand-foot-and-mouth disease (HFMD) occurred in Taiwan in 1998, in which more than 80 children died of shock syndrome with pulmonary edema/hemorrhage. Enterovirus 71 was implicated as the cause of this outbreak. In order to understand the virological basis responsible for mortality on this scale, nucleotide sequences of VP1 that is important for serotypic specificity, and the 5'-non-coding region (5'-NCR) that is important for replication efficiency, were analyzed comparatively. Phylogenetic analysis of both VP1 and 5'-NCR of nine EV71 isolates derived from specimens of fatal patients and seven isolates derived from uncomplicated HFMD patients showed that all but one isolate fell into genotype B. The one distinct isolate from a case of uncomplicated HFMD belonged to genotype C that was clustered along with one isolate from Taiwan in 1986. Complete sequence analysis of two selected isolates, one from the spinal cord of a fatal case and one from the vesicle fluid of a patient with mild HFMD, confirmed a high degree (97-100%) of identity in nucleotide sequence throughout the entire genome, except focal regions of 3C and 3'-NCR where the nucleotide homology was 90-91%. The identity of the deduced amino acid sequence in the 3C region that encodes viral proteinase dropped further to 86%, a result of missense mutations at the first nucleotide position of many codons.     

Cloning and nucleotide analysis of the vp2 gene of a very virulent infectious bursal disease virus isolate from Iran

An Iranian field isolate (IR01) of Infectious bursal disease virus (IBDV) was characterized by sequence analysis of its VP2 gene and protein. Comparison of the obtained sequences with those of IBDV isolates from other countries revealed that IR01 was similar to very virulent IBDV (vvIBDV) strains with the identities at nucleotide and amino acid levels reaching 98.198.9% and 99.199.3%, respectively. On the other hand, it was less similar to non-vvIBDV strains; with nucleotide and amino acid identities of 95.295.7% and 96.097.3%, respectively. Out of nine unique nucleotide differences found between IR01 and some other serotype 1 strains only two resulted in amino acid substitutions (Ile296Val and Thr359Lys). In phylogenetic analysis, IR01 was closely related to Asian and European vvIBDV strains. Based on these results, IR01 obviously belongs to vvIBDV strains.     

Sequence analysis of CP and HC-Pro genes of Turnip mosaic virus isolates from China

Fourteen isolates of Turnip mosaic virus (TuMV) were obtained from the leaves of diseased cruciferous plants in China. According host tests, the isolates were classified into B-host and BR-host group. The nucleotide sequences of the coat protein (CP) and helper component proteinase (HC-Pro) genes of the isolates were determined. The CP genes consisted of 864 nucleotides encoding a polypeptide of 288 amino acids. The HC-Pro genes comprised 1374 nucleotides encoding a polypeptide of 458 amino acids. The genes CP and HC-Pro of the 14 isolates shared nucleotide sequence identities ranging from 89.2 to 99.5% and 79.1 to 99.9%, respectively. Amino acid sequence identities of CP and HC-Pro proteins ranged from 95.1 to 100% and 94.8 to 99.8%, respectively. Phylogenetic tree based on the CP gene indicated that 13 of the 14 TuMV isolates belonged to the world-B group, while the remaining isolate ZJ1 belonged to the basal-BR group. The phylogenetic tree based on the HC-Pro gene was similar to that of CP gene with the exception of the isolate JX that clustered with the Asian-BR group. Our results were consistent with the previous results demonstrating that a majority of the isolates collected from Brassica spp. belonged to the world-B group. Key words: Turnip mosaic virus; HC-Pro gene; CP gene; phylogenetic relationship.     

2008至2009年北京地区分离的肠道病毒71型全基因组序列分析

目的了解2008至2009年从北京地区手足口病（HFMD）患儿分离到的肠道病毒71型（EV71）全基因组序列特点（未包括多聚腺苷尾）,以探讨基因序列的改变是否与病毒的致病性有关。方法选取首都儿科研究所病毒研究室2008年分离到的5株EV71毒株和2009年分离到的4株EV71毒株,其中4株来源于重症HFMD患儿（伴高热、持续抽搐及意识丧失等中枢神经系统症状）,5株来源于轻症HFMD患儿。设计覆盖病毒全基因组的10对特异性引物,对9株EV71毒株进行RT-PCR扩增、全基因组序列测定和分析。结果 9株EV71毒株的全基因组长度为7406bp或7405bp,部分毒株在5′UTR存在1处1个碱基的缺失。9株EV71毒株的全基因组核苷酸和氨基酸同源性分别为96.3%～99.4%和98.2%～99.6%,在VP1区核苷酸和氨基酸同源性分别为96.9%～99.9%和98.3%～100.0%。重症HFMD来源的4株毒株中有3株在VP2蛋白第144位及3D聚合酶（3Dpol）第140和263位同时出现相同的氨基酸变异（T144S、R140K和I263V）,并且在5′UTR区第208和254位同时出现相同的碱基变异（G208A和A254G）。9株EV71毒株的全基因组与C4亚型毒株具有最高的核苷酸同源性,在VP1区为94.3%～95.5%;在3D及3′UTR区与CV-A16/G10的同源性（84.3%～85.0%和89.0%～91.5%）高于与EV71-B型、A型及C型（C1～3、C5）的同源性。VP1和3D基因的遗传进化分析显示,9株EV71毒株与C4亚型毒株属同一分支。结论 VP2蛋白第144位氨基酸突变（T→S）、3Dpol第140和263位氨基酸突变（R→K和I→V）及5′UTR区第254位碱基突变（A→G）可能与EV71感染后引起的不同临床症状有关。根据VP1核苷酸序列,2008至2009年北京地区流行的EV71属于C4亚型;非结构蛋白基因在EV71进化中可能有一定的作用。     

Sequence diversity of readthrough proteins of <Emphasis Type="Italic">Soybean dwarf virus</Emphasis> isolates from the Midwestern United States

The amino acid sequence diversity of readthrough proteins (RTPs) of 24 dwarfing isolates of Soybean dwarf virus (SbDV) from Wisconsin and Illinois was analyzed. The RTP, a minor component of viral capsids, has a significant role in specificity of aphid transmission of luteovirids. Among the isolates, nucleotide sequence identities ranged from 95 to 100%. The predicted amino acid sequences differed at 56 amino acid positions in the 54 kDa RTD compared to only five positions in the 22 kDa CP. Phylogenetic analysis of both amino acid and nucleotide sequences showed three distinct clusters of SbDV isolates. The GenBank accession numbers of the sequence reported in this paper are EU095846, EU095847, and EU419570–EU419584.