The Comparative Full-Length Genome Characterization of African Swine Fever Virus Detected in Thailand
Author:
Salman Muhammad1ORCID, Venkateswaran Dhithya1, Prakash Anwesha1, Nguyen Quynh Anh1, Suntisukwattana Roypim1, Atthaapa Waranya1, Tantituvanont Angkana2, Songkasupa Tapanut3, Deemagarn Taweewat3ORCID, Bhakha Kultyarat3ORCID, Pengpetch Nuttun3, Saenboonrueng Janya4, Thaweerattanasinp Theeradej4ORCID, Jongkaewwattana Anan4ORCID, Nilubol Dachrit1
Affiliation:
1. Swine Viral Evolution and Vaccine Development Research Unit, Department of Veterinary Microbiology, Faculty of Veterinary Science, Chulalongkorn University, Bangkok 10330, Thailand 2. Department of Pharmaceutic and Industrial Pharmacies, Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok 10330, Thailand 3. Department of Livestock Development, National Institute of Animal Health, 50/2 Kasetklang, Phahonyothin 45-15, Chatuchak, Bangkok 10900, Thailand 4. National Center for Genetic Engineering and Biotechnology, Pathum Thani 12120, Thailand
Abstract
African swine fever virus (ASFV) has been responsible for the globally devastating epidemics in wild and domesticated pigs. Of the 24 identified ASFV genotypes, genotype II is the primary cause for the pandemic occurring in Europe and Asia since its emergence in Georgia in 2007. The current study aimed to characterize the full-length genomic pattern of the ASFV strain from Thailand, TH1_22/CR (Accession No. PP915735), which was then compared with genomic diversity across other Asian isolates using Georgia 2007/1 (Accession No. FR682468) as the reference. Viral DNA was isolated from the pig spleen sample following library preparation and paired-end sequencing using the MiSeq Illumina platform. The sequenced TH1_22/CR isolate spanned 189,395 nucleotides encoding 193 open reading frames (ORFs), exhibiting maximum nucleotide similarity (99.99%) with Georgian (Georgia 2007/1) and Chinese (Wuhan 2019-1 and China HLJ) isolates. Based on phylogenetic analysis, the TH1_22/CR isolate (Accession No. PP915735) was characterized as genotype II, serogroup 8, and IGR-II due to the presence of three tandem repeat sequences (TRSs). Genetic variations including SNPs and single and polynucleotide indels were identified in TH1_22/CR in agreement with other Asian isolates. For comprehensive analysis, the genome was divided into four regions (I–IV) based on gene location. Overall, the TH1_22/CR isolate demonstrated eight SNPs and indels in its genome. Two unique SNPs were reported in the coding regions of the TH1_22/CR isolate, out of which, a C-591-T substitution was seen in MGF 360-4L and a C-297-T was found in A238L, and four unique SNPs were reported in non-coding regions (NCRs). Furthermore, a 29 bp deletion was observed in the IGR between MGF 110-13La and MGF 110-13Lb, as well as 52 bp deletion in the ASFV G ACD 00350 gene. This comparative analysis establishes the foundational information for future studies on the diversity and phylogeography of this regionally significant genetic sub-group of ASFV.
Funder
Thailand Science Research and Innovation Fund Chulalongkorn University, Agricultural Research Development Agency the Second Century Fund Chulalongkorn University
Reference48 articles.
1. African swine fever–A review of current knowledge;Blome;Virus Res.,2020 2. Replication and virulence in pigs of the first African swine fever virus isolated in China;Zhao;Emerg. Microbes Infect.,2019 3. Genotyping field strains of African swine fever virus by partial p72 gene characterisation;Bastos;Arch. Virol.,2003 4. Njau, E.P., Machuka, E.M., Cleaveland, S., Shirima, G.M., Kusiluka, L.J., Okoth, E.A., and Pelle, R. (2021). African swine fever virus (ASFV): Biology, genomics and genotypes circulating in sub-Saharan Africa. Viruses, 13. 5. Sauter-Louis, C., Conraths, F.J., Probst, C., Blohm, U., Schulz, K., Sehl, J., Fischer, M., Forth, J.H., Zani, L., and Depner, K. (2021). African swine fever in wild boar in Europe—A review. Viruses, 13.
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