Molecular detection and phylogenetic analysis of lumpy skin disease virus from outbreaks in Uganda 2017–2018

Ochwo, Sylvester; VanderWaal, Kimberly; Ndekezi, Christian; Nkamwesiga, Joseph; Munsey, Anna; Witto, Sarah Gift; Nantima, Noelina; Mayanja, Franklin; Okurut, Anna Rose Ademun; Atuhaire, David Kalenzi; Mwiine, Frank Norbert

doi:10.1186/s12917-020-02288-5

Cited by 29 publications

(28 citation statements)

References 27 publications

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“…The genetic and phylogenetic analyses of four complete genes (GPCR, RPO30, P32 and EEV) revealed that LSDVs from 2019 outbreaks in niotaki et al, 2017;Gelaye et al, 2015;Le Goff et al, 2009;Ochwo et al, 2020;Sevik & Dogan, 2017;Tuppurainen et al, 2014 O-240 vaccine strain and the attenuated KS-1 and Kenyavac strains are all LSDV (Biswas et al, 2020;Lamien et al, 2011b, Tuppurainen et al, 2014Tulman et al, 2002). In fact, the full genome sequence analysis has recently revealed that NI-2490, Kenya and KSGP O-240 (Kenyavac) strains are very closely related with only one significant difference between these three LSDV genomes (Biswas et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Genetic and phylogenetic analysis of lumpy skin disease viruses (LSDV) isolated from the first and subsequent field outbreaks in India during 2019 reveals close proximity with unique signatures of historical Kenyan NI‐2490/Kenya/KSGP‐like field strains

Sudhakar

Mishra

Kalaiyarasu

et al. 2021

Transbounding Emerging Dis

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Lumpy skin disease (LSD), an economically important viral disease of cattle caused by lumpy skin disease virus (LSDV) has recently spread into South and East Asia. LSD emerged in India in August 2019, first in Odisha State and spread to other areas, but there is scanty data on source and molecular epidemiology of LSDV involved in the initial outbreaks. Here we report genetic relationships and molecular features of LSDV, causing outbreaks in cattle spanning seven districts in Odisha and West Bengal States during August–December, 2019. Twelve LSDV isolates obtained using lamb testis cells were sequenced and analysed in four complete genes, GPCR, RPO30, P32 and EEV. The phylogenetic analysis revealed that all the Indian LSDV isolates from 2019 outbreaks are very closely related (99.7%–100%) to the historical Kenyan NI‐2490/Kenya/KSGP‐like field strains. Importantly, our results demonstrated that LSDV strains involved in 2019 outbreaks in India and Bangladesh are very similar in GPCR (99.7%), RPO30 (100%) and partial EEV (100%) sequences, indicating a common exotic source of LSDV introduction. Additionally, a 12‐nucleotide insertion was found in GPCR gene of LSDV strains from 2019 outbreaks in India and Bangladesh. The findings of this study highlight the importance of continuous monitoring and molecular characterization of LSDV strains. These data should be useful while developing diagnostic and control strategies against LSD in India.

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Section: Discussionmentioning

confidence: 99%

Genetic and phylogenetic analysis of lumpy skin disease viruses (LSDV) isolated from the first and subsequent field outbreaks in India during 2019 reveals close proximity with unique signatures of historical Kenyan NI‐2490/Kenya/KSGP‐like field strains

Sudhakar

Mishra

Kalaiyarasu

et al. 2021

Transbounding Emerging Dis

View full text Add to dashboard Cite

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“…Although STP and Poisson models have been used in previous studies ( 23 , 40 ), the use of the Bernoulli model for analyzing LSD outbreak data is very limited. In fact, the application of Bernoulli model to LSD outbreak data provides some advantages ( 41 , 42 ).…”

Section: Discussionmentioning

confidence: 99%

Spatio-temporal patterns of lumpy skin disease outbreaks in dairy farms in northeastern Thailand

et al. 2022

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In 2021–2022, there were numerous outbreaks of lumpy skin disease (LSD) affecting cattle farms across Thailand. This circumstance was the country's first encounter with an LSD outbreak. Thus, a better understanding of LSD epidemiology is necessary. The aim of this study was to determine the spatio-temporal patterns of the LSD outbreaks in dairy farming areas. Data from LSD outbreak investigations collected from dairy farms in Khon Kean province, northeastern Thailand, were analyzed using spatio-temporal models including space-time permutation, Poisson, and Bernoulli models. LSD outbreaks were found in 133 out of 152 dairy farms from May to July, 2021. The majority of dairy farms (n = 102) were affected by the LSD outbreaks in June. The overall herd attack, morbidity and mortality rates were 87, 31, and 0.9%, respectively. According to the results of all models, the most likely clusters were found in the northern part of the study area. The space-time permutation and Poisson model identified 15 and 6 spatio-temporal outbreak clusters, respectively, while the Bernoulli model detected only one cluster. The most likely clusters from those models cover radii of 1.59, 4.51, and 4.44 km, respectively. All farms included in the cluster identified by the space-time permutation model were also included in the cluster identified by the Poisson model, implying that both models detected the same outbreak area. Furthermore, the study results suggested that farmers who own farms within a one km radius of the LSD outbreak farm should be advised to implement more stringent insect vector control measures to prevent disease spread. This study provides better insights into the spatio-temporal pattern of clusters of LSD in the outbreak area. The findings of this study can support authorities in formulating strategies to prevent and control future outbreaks as well as prioritizing resource allocation to high-risk areas.

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“…In fact, serological identification followed by differentiation with intra-specific typing is not possible due to dramatic cross-reactions between LSDV, SPPV and GTPV as the strains of CapPVs were found to be antigenically indistinguishable [21]. Since both SPPV and LSDV are phylogenetically distinct and could be differentiated using molecular tools available [1][2][3][4]35], the individual DNA from clinical specimens of Case1 and Case2 animals were carefully investigated. For this purpose, the coding region of the CapPV GPCR gene was determined according to the recommendation of Le Goff et al [4], which has been used worldwide for successful CapPVs intra-specific differentiation.…”

Section: Discussionmentioning

confidence: 99%

“…In fact, a phylogenetic analysis based on the nucleic acid sequences of CapPVs isolates using the Neighbor-Joining algorithm showed three separate genetic clusters consisting of LSDV, GTPV and SPPV lineages [4]. Moreover, a certain intra-group diversity in the LSDV cluster was revealed [4,22,24,31,[33][34][35][36][37][38][39][40].…”

Section: Introductionmentioning

confidence: 99%

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Genetic Evidence of Multiple Introductions of Lumpy Skin Disease Virus into Saratov Region, Russia

et al. 2021

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Lumpy skin disease virus (LSDV) is the causative agent of lumpy skin disease (LSD) that has been recently reported in the South-East and North Asian parts of the Russian Federation. During 2017–2019, there were more than 30 LSD outbreaks in Saratov Region despite active inoculation of cattle with heterologous vaccine. Importantly, the first case of the novel recombinant LSDV strain was reported here in 2017. This study aimed to determine the main clonal lineage(s) of LSDV strains circulated within Saratov Region and other regions of Russia since the first introduction of LSDV. The molecular typing and subtyping based on the coding regions of the G-protein-coupled chemokine receptor (GPCR) gene resulted in a discrimination of all outbreak-related LSDV strains into two main types, such as Type I and Type II, and subtypes Ia-d and IIa-g. Phylogenetically, eleven LSDV lineages were revealed in Russia including the five ones in Saratov Region. They were the following: (i) the Neethling wild Type Ia/2017; (ii) the recombinant Saratov IIc/2017/2019; (iii) the specific Dergachevskyi IId/2017; (iv) the Khvalynsky IIg/2018, and (v) the Haden-Type IIa lineage for the six LSDV strains detected in cattle immunized with heterologous vaccine during the last LSD outbreak in the Saratov Region, Nesterovo Village, in 2019 (Nesterovo-2019 strains). A single LSDV strain detected in Saratov Region in 2017 had the same Type Ia that was identified in 2016 in the bordered Republic of Kazakhstan. Phylogeographic analysis demonstrated three nominal clusters of LSDV types in the following Russian Federation territories: (I) the Central European part; (II) the South-East of the European part; (III) the North Asian part. Cluster I was represented by mainly Type I strains, while both Clusters 2 and 3 contained predominantly Type II strains. The Clusters I and II partially overlapped, while Cluster 3 was separate. Multiple introductions of LSDV into Saratov Region in 2017–2019 using GPCR-based molecular typing and subtyping were revealed. This scheme is a promising tool for molecular discrimination of LSDV strains derived from both vaccinated and unvaccinated against LSD cattle as well as for molecular epidemiology.

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Molecular detection and phylogenetic analysis of lumpy skin disease virus from outbreaks in Uganda 2017–2018

Cited by 29 publications

References 27 publications

Genetic and phylogenetic analysis of lumpy skin disease viruses (LSDV) isolated from the first and subsequent field outbreaks in India during 2019 reveals close proximity with unique signatures of historical Kenyan NI‐2490/Kenya/KSGP‐like field strains

Genetic and phylogenetic analysis of lumpy skin disease viruses (LSDV) isolated from the first and subsequent field outbreaks in India during 2019 reveals close proximity with unique signatures of historical Kenyan NI‐2490/Kenya/KSGP‐like field strains

Spatio-temporal patterns of lumpy skin disease outbreaks in dairy farms in northeastern Thailand

Genetic Evidence of Multiple Introductions of Lumpy Skin Disease Virus into Saratov Region, Russia

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