Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia t... more Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia topotype is the major cause of recent FMD incidences in India. A sub-lineage of Ind2001 caused severe outbreaks in the southern region of the country during 2013 and also reported for the first time from Libya. In this study, we conducted a detailed evolutionary analysis of Ind2001 lineage. Phylogenetic analysis of Ind2001 lineage based on maximum likelihood method revealed two major splits and three sub-lineages. The mean nucleotide substitution rate for this lineage was calculated to be 6.338×10(-3)substitutions/site/year (s/s/y), which is similar to those of PanAsian sub-lineages. Evolutionary time scale analysis indicated that the Ind2001 lineage might have originated in 1989. The sub-lineage Ind2001d that caused 2013 outbreaks seems to be relatively more divergent genetically from other Ind2001 sub-lineages. Seven codons in the VP1 region of Ind2001 were found to be under positive selection. Four out of 24 recent Ind2001 strains tested in 2D-MNT had antigenic relationship value of <0.3 with the serotype O vaccine strain indicating intra-epidemic antigenic diversity. Amino acid substitutions found in these minor variants with reference to antigenic diversity have been discussed. The dominance of antigenically homologous strains indicates absence of vaccine immunity in the majority of the affected hosts. Taken together, the evolution of Ind2001 lineage deviates from the strict molecular clock and a typical lineage evolutionary dynamics characterized by periodic emergence and re-emergence of Ind2001 and PanAsia lineage have been observed in respect of serotype O.
We report the full polyprotein-coding sequences and partial untrans-lated regions (UTRs) of 18 fo... more We report the full polyprotein-coding sequences and partial untrans-lated regions (UTRs) of 18 foot-and-mouth disease (FMD) viruses from 4 outbreaks in India in 2013 and 2014. All strains grouped within the O/ME-SA/Ind2001d sublin-eage. These genomes update knowledge of FMD virus (FMDV) diversity in South Asia and may contribute to molecular epidemiology studies and vaccine selections.
The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype... more The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype O was determined. The lineage designated as Ind2011 first appeared during 2011 in the Southern region of India. Excluding the poly C tract and poly A tail, the genome of Ind2011 ranged from 8,169 to 8,172 nucleotides. Variation in the genome length was due to insertions/deletions in LF-UTR. The lineage had a higher sequence identity with lineage PanAsia-1 at P1 and P2 regions, and with lineage PanAsia-2 at P3 and L regions. Phylogenetically, the isolates were placed closely to both PanAsia-1 and 2 lineages, and appear to be a novel variant of the PanAsian lineage.
The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype... more The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype O was determined. The lineage designated as Ind2011 first appeared during 2011 in the Southern region of India. Excluding the poly C tract and poly A tail, the genome of Ind2011 ranged from 8,169 to 8,172 nucleotides. Variation in the genome length was due to insertions/deletions in LF-UTR. The lineage had a higher sequence identity with lineage PanAsia-1 at P1 and P2 regions, and with lineage PanAsia-2 at P3 and L regions. Phylogenetically, the isolates were placed closely to both PanAsia-1 and 2 lineages, and appear to be a novel variant of the PanAsian lineage.
Foot-and-mouth disease (FMD) is a highly contagious and economically devastating disease of lives... more Foot-and-mouth disease (FMD) is a highly contagious and economically devastating disease of livestock, primarily affecting cattle, buffalo and pigs. FMD virus serotypes O, A and Asia1 are prevalent in India and systematic efforts are on to control and eventually eradicate the disease from the country. FMD epidemiology is complex due to factors like co-circulation, extinction, emergence and re-emergence of genotypes/lineages within the three serotypes, animal movement, diverse farm practices and large number of susceptible livestock in the country. Systematic vaccination, prompt diagnosis, strict biosecurity measures, and regular monitoring of vaccinal immunity and surveillance of virus circulation are indispensible features for the effective implementation of the control measures. Availability of suitable companion diagnostic tests is very important in this endeavour. In this review, the diagnostic assays developed and validated in India and their contribution in FMD control program...
Foot and mouth disease (FMD) is considered to be the most economically devastating and highly con... more Foot and mouth disease (FMD) is considered to be the most economically devastating and highly contagious vesicular disease of cloven-hoofed animals including more than 70 species of wild animals. The clinical picture of the disease in sheep and goats is described as less florid and subdued. Therefore it mostly remains unnoticed in these animals. Sheep and goats may also become virus carriers after exposure. Nevertheless, due to their ability to become carriers, poses major risk of entry of FMD to disease-free countries through trade of these animals. FMD also causes a serious problem in semi-domesticated species like mithun and yak. The symptoms of the disease in wildlife resemble to those seen in domesticated livestock. Above all, small ruminants and wildlife species need the major focus for the real control of FMD in the country.
Vaccination based control programme is in operation India which involve regular six monthly vacci... more Vaccination based control programme is in operation India which involve regular six monthly vaccinations and monitoring of protective antibody level in the population. Identification of infected animals among the vaccinated animals is important for appropriate implementation of the control programme. NSP based ELISAs are now been considered to be most sensitive method to detect infected in a vaccinated population. Indirect ELISA kits using 3AB3, 2C, 3D and 3ABC, and a competitive ELISA using 3ABC recombinant proteins is used in the country for this purpose.
Foot-and-mouth disease (FMD) is a highly contagious, economically important disease of transbound... more Foot-and-mouth disease (FMD) is a highly contagious, economically important disease of transboundary importance. Regular vaccination with chemically inactivated FMD vaccine is the major means of controlling the disease in endemic countries like India. However, the selection of appropriate candidate vaccine strain and its adaptation in cell culture to yield high titer of virus is a cumbersome process. An attractive approach to circumvent this tedious process is to replace the capsid coding sequence of an infectious full-genome length cDNA clone of a good vaccine strain with those of appropriate field strain, to produce custom-made chimeric FMD virus (FMDV). Nevertheless, the construction of chimeric virus can be difficult if the necessary endonuclease restriction sites are unavailable or unsuitable for swapping of the capsid sequence. Here we described an efficient method based on megaprimer-mediated capsid swapping for the construction of chimeric FMDV cDNA clones. Using FMDV vaccine strain A IND 40/2000 infectious clone (pA(40/2000)) as a donor plasmid, we exchanged the capsid sequence of pA(40/2000) with that of the viruses belonging to serotypes O (n = 5), A (n = 2), and Asia 1 (n = 2), and subsequently generated infectious FMDV from their respective chimeric cDNA clones. The chimeric viruses exhibited comparable infection kinetics, plaque phenotypes, antigenic profiles, and virion stability to the parental viruses. The results from this study suggest that megaprimer-based reverse genetics technology is useful for engineering chimeric vaccine strains for use in the control and prevention of FMD in endemic countries.
Biologicals : journal of the International Association of Biological Standardization, Jan 26, 2015
Immobilized metal affinity chromatography (IMAC) allows for the efficient protein purification vi... more Immobilized metal affinity chromatography (IMAC) allows for the efficient protein purification via metal affinity tag such as hexa-histidine (His6) sequence. To develop a new chromatography strategy for the purification and concentration of foot-and-mouth disease virus (FMDV) particles, we inserted the His6-tag at the earlier reported site in the VP1 G-H loop of the FMD virus serotype O vaccine strain IND R2/1975. Display of the His6-tag on the capsid surface, endowed the virus with an increased affinity for immobilized nickel ions. We demonstrated that the His6-tagged FMDV could be produced to high titre and purified from the infected BHK-21 cell lysates by IMAC efficiently. Further, a 1150-fold reduction in protein contaminant level and an 8400-fold reduction in DNA contaminant level were achieved in the IMAC purification of His6-tagged FMDV. Through various functional assays it has been found that the tagged virus retains its functionality and infectivity similar to the non-tagge...
Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia t... more Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia topotype is the major cause of recent FMD incidences in India. A sub-lineage of Ind2001 caused severe outbreaks in the southern region of the country during 2013 and also reported for the first time from Libya. In this study, we conducted a detailed evolutionary analysis of Ind2001 lineage. Phylogenetic analysis of Ind2001 lineage based on maximum likelihood method revealed two major splits and three sub-lineages. The mean nucleotide substitution rate for this lineage was calculated to be 6.338×10(-3)substitutions/site/year (s/s/y), which is similar to those of PanAsian sub-lineages. Evolutionary time scale analysis indicated that the Ind2001 lineage might have originated in 1989. The sub-lineage Ind2001d that caused 2013 outbreaks seems to be relatively more divergent genetically from other Ind2001 sub-lineages. Seven codons in the VP1 region of Ind2001 were found to be under positive selection. Four out of 24 recent Ind2001 strains tested in 2D-MNT had antigenic relationship value of <0.3 with the serotype O vaccine strain indicating intra-epidemic antigenic diversity. Amino acid substitutions found in these minor variants with reference to antigenic diversity have been discussed. The dominance of antigenically homologous strains indicates absence of vaccine immunity in the majority of the affected hosts. Taken together, the evolution of Ind2001 lineage deviates from the strict molecular clock and a typical lineage evolutionary dynamics characterized by periodic emergence and re-emergence of Ind2001 and PanAsia lineage have been observed in respect of serotype O.
Foot-and-mouth disease virus (FMDV) exists as multiple serotypes and strains that infect a range ... more Foot-and-mouth disease virus (FMDV) exists as multiple serotypes and strains that infect a range of cloven-hoofed animals with variable severity. Clinical diagnosis reinforced by diagnostic tests support timely intervention, whilst virus characterisation helps trace routes of spread and select appropriate vaccine strains. To speed up and simplify diagnosis, penside tests have recently been developed. Serology is used to identify undisclosed infection and substantiate freedom from infection and specific tests are needed to detect infected animals in vaccinated populations. Serology is also used to estimate post-vaccinal population immunity. Contingency plans are required to enable countries to scale up diagnosis at short notice. Improvements are needed in preclinical and penside diagnosis and in our ability to model vaccine effectiveness.
Previous work in cattle and pigs demonstrated that protection against foot-and-mouth disease (FMD... more Previous work in cattle and pigs demonstrated that protection against foot-and-mouth disease (FMD) could be achieved following vaccination with chimeric foot-and-mouth disease virus (FMDV) vaccines, in which the VP1 G-H loop had been substituted with that from another serotype. This indicated that the VP1 G-H loop may not be essential for the protection of natural hosts against FMDV. If this could be substantiated there would be potential to develop FMD marker vaccines, characterised by the absence of this region. Here, we investigate the serological responses to vaccination with a virus with a partial VP1 G-H loop deletion in order to determine the likelihood of achieving protection and the potential of this virus as a marker vaccine. Inactivated, oil adjuvanted, vaccines, consisting of chemically inactivated virus with or without a partially deleted VP1 G-H loop, were used to immunise cattle. Serum was collected on days 0, 7, 14 and 21 and antibody titres calculated using the viru...
Foot-and-mouth disease (FMD) is endemic in India and causes severe economic loss. Status of FMD i... more Foot-and-mouth disease (FMD) is endemic in India and causes severe economic loss. Status of FMD in the country for five fiscal years is presented. Outbreaks were more in number in 2007-2008 than 2010-2011. Three serotypes of FMD virus (O, A and Asia1) are prevalent. Serotype O was responsible for 80% of the confirmed outbreaks/cases, whereas Asia1 and A caused 12% and 8%, respectively. Geographical region-wise assessment indicated varying prevalence rate in different regions viz; 43% in Eastern region, 31.5% in Southern region, 11.6% in North-eastern region, 5% Central region, 4.4% Western region and 4% in Northern region. Highest number of outbreaks/cases was recorded in the month of September and lowest in June. Emergence and re-emergence of different genotypes/lineages within the serotypes were evident in real-time investigation carried out from time to time. Continues antigenic divergence in serotype A resulted in change in the vaccine strain in 2009. As on date, all genetic diversity within the serotypes is well tolerated by the vaccine strains. Unrestricted animal movements in the country play a major role in the spread of FMD.
Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia t... more Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia topotype is the major cause of recent FMD incidences in India. A sub-lineage of Ind2001 caused severe outbreaks in the southern region of the country during 2013 and also reported for the first time from Libya. In this study, we conducted a detailed evolutionary analysis of Ind2001 lineage. Phylogenetic analysis of Ind2001 lineage based on maximum likelihood method revealed two major splits and three sub-lineages. The mean nucleotide substitution rate for this lineage was calculated to be 6.338×10(-3)substitutions/site/year (s/s/y), which is similar to those of PanAsian sub-lineages. Evolutionary time scale analysis indicated that the Ind2001 lineage might have originated in 1989. The sub-lineage Ind2001d that caused 2013 outbreaks seems to be relatively more divergent genetically from other Ind2001 sub-lineages. Seven codons in the VP1 region of Ind2001 were found to be under positive selection. Four out of 24 recent Ind2001 strains tested in 2D-MNT had antigenic relationship value of <0.3 with the serotype O vaccine strain indicating intra-epidemic antigenic diversity. Amino acid substitutions found in these minor variants with reference to antigenic diversity have been discussed. The dominance of antigenically homologous strains indicates absence of vaccine immunity in the majority of the affected hosts. Taken together, the evolution of Ind2001 lineage deviates from the strict molecular clock and a typical lineage evolutionary dynamics characterized by periodic emergence and re-emergence of Ind2001 and PanAsia lineage have been observed in respect of serotype O.
We report the full polyprotein-coding sequences and partial untrans-lated regions (UTRs) of 18 fo... more We report the full polyprotein-coding sequences and partial untrans-lated regions (UTRs) of 18 foot-and-mouth disease (FMD) viruses from 4 outbreaks in India in 2013 and 2014. All strains grouped within the O/ME-SA/Ind2001d sublin-eage. These genomes update knowledge of FMD virus (FMDV) diversity in South Asia and may contribute to molecular epidemiology studies and vaccine selections.
The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype... more The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype O was determined. The lineage designated as Ind2011 first appeared during 2011 in the Southern region of India. Excluding the poly C tract and poly A tail, the genome of Ind2011 ranged from 8,169 to 8,172 nucleotides. Variation in the genome length was due to insertions/deletions in LF-UTR. The lineage had a higher sequence identity with lineage PanAsia-1 at P1 and P2 regions, and with lineage PanAsia-2 at P3 and L regions. Phylogenetically, the isolates were placed closely to both PanAsia-1 and 2 lineages, and appear to be a novel variant of the PanAsian lineage.
The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype... more The complete nucleotide sequence of a new lineage of foot and mouth disease virus (FMDV) serotype O was determined. The lineage designated as Ind2011 first appeared during 2011 in the Southern region of India. Excluding the poly C tract and poly A tail, the genome of Ind2011 ranged from 8,169 to 8,172 nucleotides. Variation in the genome length was due to insertions/deletions in LF-UTR. The lineage had a higher sequence identity with lineage PanAsia-1 at P1 and P2 regions, and with lineage PanAsia-2 at P3 and L regions. Phylogenetically, the isolates were placed closely to both PanAsia-1 and 2 lineages, and appear to be a novel variant of the PanAsian lineage.
Foot-and-mouth disease (FMD) is a highly contagious and economically devastating disease of lives... more Foot-and-mouth disease (FMD) is a highly contagious and economically devastating disease of livestock, primarily affecting cattle, buffalo and pigs. FMD virus serotypes O, A and Asia1 are prevalent in India and systematic efforts are on to control and eventually eradicate the disease from the country. FMD epidemiology is complex due to factors like co-circulation, extinction, emergence and re-emergence of genotypes/lineages within the three serotypes, animal movement, diverse farm practices and large number of susceptible livestock in the country. Systematic vaccination, prompt diagnosis, strict biosecurity measures, and regular monitoring of vaccinal immunity and surveillance of virus circulation are indispensible features for the effective implementation of the control measures. Availability of suitable companion diagnostic tests is very important in this endeavour. In this review, the diagnostic assays developed and validated in India and their contribution in FMD control program...
Foot and mouth disease (FMD) is considered to be the most economically devastating and highly con... more Foot and mouth disease (FMD) is considered to be the most economically devastating and highly contagious vesicular disease of cloven-hoofed animals including more than 70 species of wild animals. The clinical picture of the disease in sheep and goats is described as less florid and subdued. Therefore it mostly remains unnoticed in these animals. Sheep and goats may also become virus carriers after exposure. Nevertheless, due to their ability to become carriers, poses major risk of entry of FMD to disease-free countries through trade of these animals. FMD also causes a serious problem in semi-domesticated species like mithun and yak. The symptoms of the disease in wildlife resemble to those seen in domesticated livestock. Above all, small ruminants and wildlife species need the major focus for the real control of FMD in the country.
Vaccination based control programme is in operation India which involve regular six monthly vacci... more Vaccination based control programme is in operation India which involve regular six monthly vaccinations and monitoring of protective antibody level in the population. Identification of infected animals among the vaccinated animals is important for appropriate implementation of the control programme. NSP based ELISAs are now been considered to be most sensitive method to detect infected in a vaccinated population. Indirect ELISA kits using 3AB3, 2C, 3D and 3ABC, and a competitive ELISA using 3ABC recombinant proteins is used in the country for this purpose.
Foot-and-mouth disease (FMD) is a highly contagious, economically important disease of transbound... more Foot-and-mouth disease (FMD) is a highly contagious, economically important disease of transboundary importance. Regular vaccination with chemically inactivated FMD vaccine is the major means of controlling the disease in endemic countries like India. However, the selection of appropriate candidate vaccine strain and its adaptation in cell culture to yield high titer of virus is a cumbersome process. An attractive approach to circumvent this tedious process is to replace the capsid coding sequence of an infectious full-genome length cDNA clone of a good vaccine strain with those of appropriate field strain, to produce custom-made chimeric FMD virus (FMDV). Nevertheless, the construction of chimeric virus can be difficult if the necessary endonuclease restriction sites are unavailable or unsuitable for swapping of the capsid sequence. Here we described an efficient method based on megaprimer-mediated capsid swapping for the construction of chimeric FMDV cDNA clones. Using FMDV vaccine strain A IND 40/2000 infectious clone (pA(40/2000)) as a donor plasmid, we exchanged the capsid sequence of pA(40/2000) with that of the viruses belonging to serotypes O (n = 5), A (n = 2), and Asia 1 (n = 2), and subsequently generated infectious FMDV from their respective chimeric cDNA clones. The chimeric viruses exhibited comparable infection kinetics, plaque phenotypes, antigenic profiles, and virion stability to the parental viruses. The results from this study suggest that megaprimer-based reverse genetics technology is useful for engineering chimeric vaccine strains for use in the control and prevention of FMD in endemic countries.
Biologicals : journal of the International Association of Biological Standardization, Jan 26, 2015
Immobilized metal affinity chromatography (IMAC) allows for the efficient protein purification vi... more Immobilized metal affinity chromatography (IMAC) allows for the efficient protein purification via metal affinity tag such as hexa-histidine (His6) sequence. To develop a new chromatography strategy for the purification and concentration of foot-and-mouth disease virus (FMDV) particles, we inserted the His6-tag at the earlier reported site in the VP1 G-H loop of the FMD virus serotype O vaccine strain IND R2/1975. Display of the His6-tag on the capsid surface, endowed the virus with an increased affinity for immobilized nickel ions. We demonstrated that the His6-tagged FMDV could be produced to high titre and purified from the infected BHK-21 cell lysates by IMAC efficiently. Further, a 1150-fold reduction in protein contaminant level and an 8400-fold reduction in DNA contaminant level were achieved in the IMAC purification of His6-tagged FMDV. Through various functional assays it has been found that the tagged virus retains its functionality and infectivity similar to the non-tagge...
Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia t... more Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia topotype is the major cause of recent FMD incidences in India. A sub-lineage of Ind2001 caused severe outbreaks in the southern region of the country during 2013 and also reported for the first time from Libya. In this study, we conducted a detailed evolutionary analysis of Ind2001 lineage. Phylogenetic analysis of Ind2001 lineage based on maximum likelihood method revealed two major splits and three sub-lineages. The mean nucleotide substitution rate for this lineage was calculated to be 6.338×10(-3)substitutions/site/year (s/s/y), which is similar to those of PanAsian sub-lineages. Evolutionary time scale analysis indicated that the Ind2001 lineage might have originated in 1989. The sub-lineage Ind2001d that caused 2013 outbreaks seems to be relatively more divergent genetically from other Ind2001 sub-lineages. Seven codons in the VP1 region of Ind2001 were found to be under positive selection. Four out of 24 recent Ind2001 strains tested in 2D-MNT had antigenic relationship value of <0.3 with the serotype O vaccine strain indicating intra-epidemic antigenic diversity. Amino acid substitutions found in these minor variants with reference to antigenic diversity have been discussed. The dominance of antigenically homologous strains indicates absence of vaccine immunity in the majority of the affected hosts. Taken together, the evolution of Ind2001 lineage deviates from the strict molecular clock and a typical lineage evolutionary dynamics characterized by periodic emergence and re-emergence of Ind2001 and PanAsia lineage have been observed in respect of serotype O.
Foot-and-mouth disease virus (FMDV) exists as multiple serotypes and strains that infect a range ... more Foot-and-mouth disease virus (FMDV) exists as multiple serotypes and strains that infect a range of cloven-hoofed animals with variable severity. Clinical diagnosis reinforced by diagnostic tests support timely intervention, whilst virus characterisation helps trace routes of spread and select appropriate vaccine strains. To speed up and simplify diagnosis, penside tests have recently been developed. Serology is used to identify undisclosed infection and substantiate freedom from infection and specific tests are needed to detect infected animals in vaccinated populations. Serology is also used to estimate post-vaccinal population immunity. Contingency plans are required to enable countries to scale up diagnosis at short notice. Improvements are needed in preclinical and penside diagnosis and in our ability to model vaccine effectiveness.
Previous work in cattle and pigs demonstrated that protection against foot-and-mouth disease (FMD... more Previous work in cattle and pigs demonstrated that protection against foot-and-mouth disease (FMD) could be achieved following vaccination with chimeric foot-and-mouth disease virus (FMDV) vaccines, in which the VP1 G-H loop had been substituted with that from another serotype. This indicated that the VP1 G-H loop may not be essential for the protection of natural hosts against FMDV. If this could be substantiated there would be potential to develop FMD marker vaccines, characterised by the absence of this region. Here, we investigate the serological responses to vaccination with a virus with a partial VP1 G-H loop deletion in order to determine the likelihood of achieving protection and the potential of this virus as a marker vaccine. Inactivated, oil adjuvanted, vaccines, consisting of chemically inactivated virus with or without a partially deleted VP1 G-H loop, were used to immunise cattle. Serum was collected on days 0, 7, 14 and 21 and antibody titres calculated using the viru...
Foot-and-mouth disease (FMD) is endemic in India and causes severe economic loss. Status of FMD i... more Foot-and-mouth disease (FMD) is endemic in India and causes severe economic loss. Status of FMD in the country for five fiscal years is presented. Outbreaks were more in number in 2007-2008 than 2010-2011. Three serotypes of FMD virus (O, A and Asia1) are prevalent. Serotype O was responsible for 80% of the confirmed outbreaks/cases, whereas Asia1 and A caused 12% and 8%, respectively. Geographical region-wise assessment indicated varying prevalence rate in different regions viz; 43% in Eastern region, 31.5% in Southern region, 11.6% in North-eastern region, 5% Central region, 4.4% Western region and 4% in Northern region. Highest number of outbreaks/cases was recorded in the month of September and lowest in June. Emergence and re-emergence of different genotypes/lineages within the serotypes were evident in real-time investigation carried out from time to time. Continues antigenic divergence in serotype A resulted in change in the vaccine strain in 2009. As on date, all genetic diversity within the serotypes is well tolerated by the vaccine strains. Unrestricted animal movements in the country play a major role in the spread of FMD.
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Papers by Saravanan Subramaniam