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Saravanan Subramaniam,
Aniket Sanyal,
Jajati K Mohapatra,
Gaurav K Sharma,
Jitendra K Biswal,
Rajeev Ranjan,
Manoranjan Rout,
Biswajit Das,
Punam Bisht,
Basavaraj S Mathapati,
Bana B Dash, Bramhadev Pattnaik
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ABSTRACT: In India, emergence of Ind2001 lineage of foot-and-mouth disease virus (FMDV) serotype O was recorded in the year 2001. After causing sporadic incidences, the Ind2001 lineage that re-surged in 2008 out-competed PanAsia from the field -during 2009 and continued its dominance during 2010 and 2011 as well. The lineage has diversified in due course of time, leading to two sub-lineages (Ind2001a and Ind2001b). The sub-lineage Ind2001a include isolates collected during 2001-2002 and sub-lineage Ind2001b is constituted largely by isolates collected during 2008-2012. The nucleotide substitution rate of sub-lineage Ind2001b was estimated at 6.58 × 10(-3) substitutions/site/year. The most stable PanAsia lineage is restricted only to few outbreaks. During 2011, emergence of a new genetic group with > 9% nucleotide divergence from rest of the lineages circulating in the country was detected and named as lineage Ind2011. Two specific amino acid substitutions at positions VP1- 36 (F) and VP2- 133 (T) were observed in the Ind2011 lineage. The new lineage at present is restricted only to southern states of the country. It is uncertain whether the emergence was triggered by immune pressure or due to a bottleneck in transmission or selected for higher fitness value. Six sites (4, 68, 83, 135, 138 and 209) in VP1 protein were identified to undergo episodic diversifying selection in serotype O field isolates. Both emerging and re-emerging lineages had appropriate antigenic match with currently used vaccine strain, INDR2/1975. Irrespective of genetic variability, the field isolates showed remarkable conservation at antigenically critical residues that might contribute to the observed antigenic stability. With the emergence of a new genetic group after a span of 10 years, the overall epidemiological scenario in the region is expected to change in the coming years.
Infection, genetics and evolution: journal of molecular epidemiology and evolutionary genetics in infectious diseases 05/2013; · 3.22 Impact Factor
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ABSTRACT: The phylogenetic analysis of VP1 sequences of the 39 type O foot and mouth virus (FMDV) isolates collected from different regions of India during the year of 2001-12 revealed that all isolates belonged to the Middle East - South Asia (ME-SA) topotype. Based on the amount of divergence among the isolates, the viruses were further classified into three distinct lineages namely Ind 2001, PanAsia and PanAsia-2 as well as a minor, unnamed group. Ind 2001 lineage viruses accounted for most of the current type O outbreaks. At the nucleotide level these isolates showed a divergence of 2% to 14% with an average sequence variation of ∼ 9.9%. The serological spectrum of the current vaccine strain was studied by using bovine vaccinate serum (BVS) raised against O/IND/R2/75. All the current field isolates (n=24) were homologous ('r' value 0.4 to 1.0) to the vaccine strain. Examination of the amino acid sequences for selection pressure revealed the positive selection at amino acid sites 13 and 45.
Infection, genetics and evolution: journal of molecular epidemiology and evolutionary genetics in infectious diseases 10/2012; · 3.22 Impact Factor
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ABSTRACT: Foot-and-mouth disease virus serotype O accounts for around 80 % of the outbreaks in India. Although Indian serotype O isolates belongs to the ME-SA topotype, circulation of different lineages has been noted. After its emergence in the year 2001, the 'Ind2001' lineage outcompeted the PanAsia lineage in causing serotype O outbreaks in the year 2009. Three isolates had an amino acid deletion at position 139 in the VP1 coding region and grouped with the 'Ind2001' lineage. The currently used Indian vaccine strain of serotype O covers all of the field isolates antigenically.
Archives of Virology 06/2012; 157(10):1967-70. · 2.11 Impact Factor
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ABSTRACT: Differentiation of infected from vaccinated animals (DIVA) is essential for effective control of foot-and-mouth disease (FMD) by vaccination. The antibody response against FMD viral non-structural proteins (NSPs) has been used widely for this purpose. Among all the NSPs, the 3ABC polyprotein has been recognized as the most appropriate indicator for DIVA. In this study, mutated full-length 3ABC polyprotein was expressed in a prokaryotic system and monoclonal antibody against the recombinant protein was developed. A competitive ELISA (C-ELISA) for DIVA was standardized for different species of livestock animals using recombinant 3ABC and monoclonal antibodies. The diagnostic sensitivity and specificity of the assay were estimated by testing a panel of known serum samples consisting of sera from naive, vaccinated and infected animals as 86.9% with 66.4-97.2 (95%) confidence interval and 97% with 89.6-99.6 (95%) confidence interval respectively at 40% inhibition cut-off. The assay was validated further by testing sera from different livestock species collected at random from different parts of the country. The assay will provide a common method for testing sera from different species of livestock and wild animals. The C-ELISA is a sensitive and specific DIVA assay for FMD and can be used as a method for FMD control programme with vaccination.
Journal of virological methods 06/2012; 185(1):52-60. · 2.13 Impact Factor
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Ajjaiah G Rudreshappa,
Aniket Sanyal,
Jajati K Mohapatra,
Saravanan Subramaniam,
Ankan De,
Biswajit Das,
Nagendrakumar B Singanallur,
Anil K Jangam,
Madhanmohan Muthukrishnan,
Srinivasan A Villuppanoor, Bramhadev Pattnaik
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ABSTRACT: Emergence of genetically and antigenically divergent lineages/genotypes and poor intergenotypic antigenic coverage is a major concern in serotype A foot-and-mouth-disease virus (FMDV) in India. In 2009, to cover antigenic diversity emerged in serotype A virus field isolates, IND40/2000 was selected as the new vaccine strain for incorporation in the trivalent FMD vaccine formulation used in India. Although current vaccine strain (IND40/2000) covers most isolates antigenically, a few VP3(59)-deletion group isolates showed low r-value in routine vaccine matching exercise. The VP3(59)-deletion group within genotype 18 emerged first in late part of 2002 and in 2007 causing outbreaks along with non-deletion isolates of the same genotype. In case of emergence or re-emergence of more antigenically divergent isolates in future, a need for a new vaccine candidate to cover maximum isolates of both deletion and non-deletion group may arise. Four alternate candidate vaccine strains (IND281/2003, IND195/2007, IND360/2007 and IND123/2008) were selected based on set criteria and antigenic relationships with field isolates sampled between 2002 and 2009 were analyzed using a micro-neutralization test. Phylogenetic analysis based on capsid region of serotype A isolates revealed existence of two broad distinct clusters (VP3(59)-deletion and non-deletion group) within genotype 18. The VP3(59)-deletion group has diversified genetically with time giving rise to three different sub-lineages (clade18a, 18b and 18c). The present study indicates that the virus candidates IND281/2003 (VP3(59)-deletion group) and IND195/2007 (non-deletion group) can be used as an adjunct or alternative strain to currently used vaccine strain IND40/2000 in case of emergence of more antigenically divergent isolates in future.
Veterinary Microbiology 03/2012; 158(3-4):405-9. · 3.33 Impact Factor
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ABSTRACT: In India, the proportion of bovines vaccinated against foot-and-mouth disease (FMD) is increasing since the implementation of the Government supported 'FMD Control Programme', and non-structural protein (NSP)-based serological assays for discriminating between antibodies induced by infection or vaccination (DIVA) could be useful. The FMD virus NSP 3AB was expressed in a prokaryotic system and an indirect ELISA (r3AB(3) I-ELISA) was developed and validated as a screening assay for detecting virus in vaccinated bovines. The diagnostic sensitivity of the assay was estimated to be 96%, while the diagnostic specificity varied between the naïve and vaccinates as 99.1% and 96.4%, respectively. This assay could detect antibodies to 3AB (3AB-Ab) from 10 to as late as 900 days post-infection in cattle infected experimentally. The "in-house" assay demonstrated higher sensitivity than a commercial 3ABC ELISA kit particularly with samples obtained from the late stages of infection. Transient post-vaccinal 3AB-Ab response could be detected in one of the three commercial vaccines during the six-month vaccination regimen, which emphasizes the fact that for a DIVA-compatible diagnostic strategy to be a realistic option, all vaccines need to be quality checked for the NSP content.
Journal of virological methods 08/2011; 177(2):184-92. · 2.13 Impact Factor
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ABSTRACT: Comparative complete genome analysis of 17 serotype A Indian field isolates representing different genotypes and sub-lineages is presented in this report. Overall 79% of amino acids were invariant in the coding region. Chunk deletion of nucleotide was observed in S and L fragment of 5'-UTR. More variability which is comparable to that of capsid coding region was found in L and 3A region. Functional motifs and residues critical for virus biology were conserved most. Polyprotein cleavage sites accepted few changes. Many sites were detected to be under positive selection in L, P1, 2C, 3A, 3C, and 3D region and of which some are functionally important and antigenically critical. Genotype/lineage specific signature residues could be identified which implies evolution under different selection pressure. Transmembrane domain could be predicted in 2B, 2C, 3A, and 3C proteins in agreement with their membrane binding properties. Phylogenetic analysis at complete coding region placed the isolates in genotype IV, VI, and VII and two broad clusters comprising VP3(59)-deletion and non-deletion group within genotypes VII. The VP3(59)-deletion group has diversified genetically with time giving rise to three lineages. Incongruence in tree topology observed for different non structural protein coding region and UTRs-based phylogeny indicate suspected recombination.
Virus Genes 05/2011; 43(2):224-33. · 1.85 Impact Factor
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ABSTRACT: Global epidemiological analysis is vital for implementing progressive regional foot-and-mouth disease control programmes. Here, we have generated VP1 region sequences for 55 Indian type A outbreak strains and have included complete VP1 sequences from 46 other countries to obtain a comprehensive global phylogeographical impression. A total of 26 regional genotypes within three continental topotypes, based on a 15% nucleotide divergence cut-off criterion, could be identified. These genotypes correlated with distinct evolutionary lineages in the maximum-likelihood phylogeny. During the last decade, ten genotypes have been in circulation the world over and it was evident that no type A strain has transgressed the continental barriers during this period. A single genotype (genotype 18) within the Asia topotype has been circulating in India with neither any incursion nor any long distance movement of virus out of the country during the last ten years, although close genetic and epidemiological links between viruses from Bhutan and India were revealed.
Journal of General Virology 01/2011; 92(Pt 4):873-9. · 3.36 Impact Factor
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ABSTRACT: In India, there has been co-circulation, extinction and emergence of genotypes/lineages within serotype A foot-and-mouth disease (FMD) virus. At present an antigenically heterogeneous, unique lineage within genotype VII dominates the field outbreaks. This genetic cluster has amino acid deletion at position 59 of VP3 (VP3(59)-deletion group), considered to be critical antigenically. The emergence of this group warrants rapid and accurate detection to facilitate early planning and implementation of an effective control policy. A rapid multiplex PCR assay was developed for detection of the dominating VP3(59)-deletion group with 100% sensitivity and specificity, even before generating sequence data and confirmatory phylogenetic analysis. This development is important for surveillance of FMD in India.
Journal of virological methods 10/2010; 171(1):287-91. · 2.13 Impact Factor
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ABSTRACT: Foot-and-mouth-disease virus (FMDV) serotype Asia1 causes significant number of disease outbreaks in India. Indian Asia1 virus isolates were shown to be genetically heterogeneous and of the two lineages (lineage B and lineage C) described in India, lineage C caused majority of the outbreaks. Emergence of a novel divergent lineage (lineage D) within lineage C has been described in 2001. In the present report, the complete VP1 genomic region of 41 FMDV Asia1 field isolates collected between 2003 and 2008 was sequenced. Phylogenetic analysis revealed reemergence of lineage C since 2005 following exclusive dominance of lineage D in the period between 2002 and 2004. At many positions lineage specific signature residues were identified. The antigenic relationship of the field isolates with the currently used vaccine strain IND63/72 was also determined, which reflects antigenic stability of serotype Asia1 in-spite of genetic heterogeneity.
Veterinary Microbiology 07/2010; 144(1-2):198-202. · 3.33 Impact Factor
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Jean Francois Valarcher,
Nick J Knowles,
Valery Zakharov,
Alexey Scherbakov,
Zhidong Zhang,
You Jun Shang,
Zai Xin Liu,
Xiang Tao Liu,
Aniket Sanyal,
Divakar Hemadri,
Chakradhar Tosh,
Thaha J Rasool, Bramhadev Pattnaik,
Kate R Schumann,
Tammy R Beckham,
Wilai Linchongsubongkoch,
Nigel P Ferris,
Peter L Roeder,
David J Paton
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ABSTRACT: We investigated the molecular epidemiology of foot-and-mouth disease virus (FMDV) serotype Asia 1, which caused outbreaks of disease in Asia during 2003-2007. Since 2004, the region affected by outbreaks of this serotype has increased from disease-endemic countries in southern Asia (Afghanistan, India, Iran, Nepal, Pakistan) northward to encompass Kyrgyzstan, Tajikistan, Uzbekistan, several regions of the People's Republic of China, Mongolia, Eastern Russia, and North Korea. Phylogenetic analysis of complete virus capsid protein 1 (VP1) gene sequences demonstrated that the FMDV isolates responsible for these outbreaks belonged to 6 groups within the Asia 1 serotype. Some contemporary strains were genetically closely related to isolates collected historically from the region as far back as 25 years ago. Our analyses also indicated that some viruses have spread large distances between countries in Asia within a short time.
Emerging Infectious Diseases 08/2009; 15(7):1046-51. · 6.79 Impact Factor
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ABSTRACT: The 3A region of foot-and-mouth disease virus has been implicated in host range and virulence. Here we analyzed the 3A region of serotype A virus in view of the emergence of a variant group in India with an amino acid deletion at an antigenically critical position of capsid protein, VP3. The 3A region exhibited extreme variability with 38% of the amino acid positions showing substitutions and the C-terminal third (127-151) region was most flexible. Genotype inclusive grouping of type A foot-and-mouth disease virus as observed in 1D region based phylogeny was much less apparent at 3A region possibly due to independent evolution of nonstructural and structural protein coding regions. Akin to the 1D region, the VP3(59)-deletion group maintained its phylogenetic distinctness even at the 3A region and was found to be diverging with time. Twelve lineage specific signature amino acid residues, of which four were identified to be experiencing positive selection, indicates fixation of advantageous mutations in a lineage specific manner. Six positions, all located in the hypervariable C-terminal third, were identified to be under positive selection and were presumed to be imparting the virus certain advantage accounting for its adaptability to wide host spectrum and rapid dissemination. A significant change of Q(44)H was noted only in the older lineage (VIIb) of the deletion group at a position where Q(44)R mutation is associated with guinea pig adaptation. As this site has been detected to be under positive selection, such a lineage specific substitution is thought to have imparted certain temporary advantage to the virus during its possible adaptation in wild or some understudied domestic hosts and must not have seriously compromised fitness upon readaptation in bovines. A conserved hydrophobic transmembrane domain from position 59 to 76 could be predicted which possibly anchors 3A to intracellular membranes for successful interaction with RNA replication complex.
Infection, genetics and evolution: journal of molecular epidemiology and evolutionary genetics in infectious diseases 08/2009; 9(4):483-92. · 3.22 Impact Factor
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ABSTRACT: India is endemic for foot-and-mouth disease (FMD) and in recent years a unique group within serotype A, carrying a codon deletion at an antigenically critical site in capsid protein VP3 has emerged (VP3(59)-deletion group). This tempted us to analyze the noncoding region, which is an under represented area, though critically associated with virus biology and pathogenesis. Analysis of the large fragment of 5' untranslated region (LF-5' UTR) of type A FMD virus revealed discrepancy in the overall tree topology between LF-5' UTR and 1D region possibly due to independent evolution of coding and noncoding regions. The VP3(59)-deletion group maintained its phylogenetic distinctness even at the LF-5' UTR. Eighteen lineage specific signatures detected here support independent evolutionary paths for the lineages. Extensive deletions of 45 and 89 nucleotides corresponding to the pseudoknot region were noticed. Conservation pattern in the 'A(253)AACA' motif in the cre/bus stem-loop indicates the importance of first three 'A' residues in VPg uridylylation. Of the three polypyrimidine tract binding protein (PTB) binding sites mapped on the internal ribosome entry site (IRES), the pyrimidine tract (Py tract) in the loop of domain 2 was found to be maximally conserved and it might be the major PTB binding site. Strikingly, a deletion group lineage specific transversion was noticed in the Py tract at the 3' end of IRES without significantly affecting its in vitro infectious titer. Hence, we presume that for efficient cap-independent viral translation, either a minimum number of pyrimidine residues rather than a complete Py tract or a Py tract tolerating transversions only at specific locations and a core motif 'CUUU' within the Py tract is essential.
Virus Genes 06/2009; 39(1):81-9. · 1.85 Impact Factor
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ABSTRACT: Genotype inclusive grouping of Indian type A isolates as observed in 1D region based phylogeny was distorted at complete L(pro) region, where the VP3(59)-deletion group lineages of genotype VII clustered away from both genotypes VII and VI, confirming its uniqueness and independent evolution of L(pro) and 1D region. Akin to the 1D region, this deletion group is gradually diverging genetically even at L region forming more number of lineages and inter-lineage distance at L region is considerably more than that for 1D region. The deletion group is restricted to India only as none of the exotic sequences clustered within this group. Notably, L protein exhibited variability comparable to external capsid proteins as evident from its high d(N)/d(S) ratio (0.105), number of variable amino acid positions (41%), low Ts/Tv ratio (3.47) and alignment revealed N-terminal region, beta2 sheet and C-terminal extension to be extremely variable. Basic residues at P1, P3 and only leucine at P2 were predicted to provide an optimum autocatalytic cleavage site at L/P1 junction. All of the eight sites identified to be under positive selection revealed aa substitutions of varied physicochemical properties and at two positions lineage specific signatures were observed, which supports the contention that lineages are evolving under differential selection pressure to adapt to the varied ecological environment.
Virus Research 02/2009; 141(1):34-46. · 2.94 Impact Factor
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ABSTRACT: This study deals with a comparative analysis of complete genome sequences of twenty-one serotype Asia 1 foot-and-mouth disease (FMD) field viruses isolated over a period of two decades from India, two vaccine strains and seven exotic sequences. The Indian viruses could be grouped in to three distinct lineages at the entire coding region, evolving independently probably under differential selection pressure as evident from the lineage-specific signatures identified. This comparison revealed 80% of amino acids at the polyprotein region to be invariant. Twenty-one residues in L, 3A and P1 region were identified to be under positive selection of which some are antigenically critical. Analysis at functionally crucial motifs, receptor contact residues, polyprotein cleavage sites and at putative T-cell epitopes expands the knowledge beyond other serotypes. Antigenic site II in betaB-betaC loop of VP2 was highly unstable suggesting its exposure to extreme immune pressure. A single cross-over at the L proteinase region in an isolate from buffalo, also featuring an extensive deletion at the 5' untranslated region (UTR), reflects the role of intraserotypic genetic recombination in natural evolution. The likely biological relevance of deletions/insertions observed at UTRs, VP1 and 3A could not be deduced. Altogether, a substantial amount of data raised on full length genomes of type Asia 1 virus adds value to the FMD virus genomics.
Virus Research 10/2008; 136(1-2):16-29. · 2.94 Impact Factor
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ABSTRACT: The recent type A foot and mouth disease virus field isolates recovered in India are shown to be antigenically quite divergent from the in-use vaccine strain (IND 17/82), warranting the selection of a suitable vaccine strain which can cover this diversity in antigenic spectrum. In earlier studies employing neutralization test with anti-146S rabbit sera raised against eight candidate vaccine strains, IND 81/00 and IND 40/00 belonging to genotype VII were found to offer the best antigenic coverage. In order to assess the credibility of IND 81/00 and IND 40/00 as vaccine strains, 17 recent isolates received during 2005-2006 and representative isolates from older genotypes were subjected to two-dimensional micro-neutralization assay using bovine convalescent serum (against IND 81/00 and IND 40/00) and bovine vaccinate serum (against IND 40/00). From the results it is evident that both the isolates IND 81/00 (antigenic relationship 'r-value' >0.40 with 86% of isolates) and IND 40/00 ('r-value' >0.40 with 78% of isolates) show nearly equal antigenic relatedness with the recent field viruses and hence both of these are effective vaccine candidates in present context. Though very limited in its extent, these useful data obtained with antisera raised in homologous host system are logical extension of the on going quest for the appropriate vaccine strain and circumvents species disparities in the immune recognition of epitopes.
Veterinary Microbiology 03/2008; 131(1-2):65-72. · 3.33 Impact Factor
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ABSTRACT: The recent type A foot and mouth disease virus field isolates recovered in India are shown to be antigenically quite divergent from the in-use vaccine strain (IND 17/82), warranting the selection of a suitable vaccine strain which can cover this diversity in antigenic spectrum. In earlier studies employing neutralization test with anti-146S rabbit sera raised against eight candidate vaccine strains, IND 81/00 and IND 40/00 belonging to genotype VII were found to offer the best antigenic coverage. In order to assess the credibility of IND 81/00 and IND 40/00 as vaccine strains, 17 recent isolates received during 2005–2006 and representative isolates from older genotypes were subjected to two-dimensional micro-neutralization assay using bovine convalescent serum (against IND 81/00 and IND 40/00) and bovine vaccinate serum (against IND 40/00). From the results it is evident that both the isolates IND 81/00 (antigenic relationship ‘r-value’ >0.40 with 86% of isolates) and IND 40/00 (‘r-value’ >0.40 with 78% of isolates) show nearly equal antigenic relatedness with the recent field viruses and hence both of these are effective vaccine candidates in present context. Though very limited in its extent, these useful data obtained with antisera raised in homologous host system are logical extension of the on going quest for the appropriate vaccine strain and circumvents species disparities in the immune recognition of epitopes.
Veterinary Microbiology.
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ABSTRACT: Genotype inclusive grouping of Indian type A isolates as observed in 1D region based phylogeny was distorted at complete Lpro region, where the VP359-deletion group lineages of genotype VII clustered away from both genotypes VII and VI, confirming its uniqueness and independent evolution of Lpro and 1D region. Akin to the 1D region, this deletion group is gradually diverging genetically even at L region forming more number of lineages and inter-lineage distance at L region is considerably more than that for 1D region. The deletion group is restricted to India only as none of the exotic sequences clustered within this group. Notably, L protein exhibited variability comparable to external capsid proteins as evident from its high dN/dS ratio (0.105), number of variable amino acid positions (41%), low Ts/Tv ratio (3.47) and alignment revealed N-terminal region, β2 sheet and C-terminal extension to be extremely variable. Basic residues at P1, P3 and only leucine at P2 were predicted to provide an optimum autocatalytic cleavage site at L/P1 junction. All of the eight sites identified to be under positive selection revealed aa substitutions of varied physicochemical properties and at two positions lineage specific signatures were observed, which supports the contention that lineages are evolving under differential selection pressure to adapt to the varied ecological environment.
Virus Research.
