Abstract
AbstractAfrican Swine Fever (ASF) has affected all pig breeds in North-East India since 2020, except Doom pigs, a unique indigenous breed from Assam and the closest progenitor to Indian wild pigs, resulting in significant economic losses for pig farmers in the region. Based on the complete sequences of theB646L(p72) gene, it has been determined that the virus responsible for the outbreak is ASFV genotype II. The further characterization of three complete sequences of theB646L(p72) gene established 100% identical with other existing sequences of different parts of the world as well as confirmed that there is no co-circulation of different genotypes of ASFV in India except genotype II. Present studies also corroborate thatMYD88, LDHBandIFIT1were important genes of the immune system involved in the pathogenesis of ASFV. The differential expression patterns of these genes in ASFV-infected survived, and healthy Doom breed pigs, compared to healthy control pigs, were studied to distinguish the expression pattern at different stages. The hardiness and ability of the Doom pig to withstand common pig diseases, along with its genetic resemblance to wild pigs, make it an ideal candidate for studying tolerance to ASFV infection. So, the present study investigates the natural resistance to ASF in Doom pigs from an endemic area in North-East India to support the proposition that Doom pigs can co-exist with virulent ASFVs recently break in North-East India. The results of this study also provide important molecular insights into the regulation of the ASFV-tolerant gene.ImportanceStudying the natural resistance to African Swine Fever (ASF) in Doom pigs from North-East India holds crucial importance. ASF has inflicted significant economic losses on pig farmers in the region, necessitating the identification and comprehension of factors contributing to resistance and tolerance in specific pig breeds such as Doom pigs. Understanding the molecular mechanisms and genetic factors associated with ASFV tolerance could help in breeding programs and the selection of resilient pig breeds, ultimately aiding in disease control efforts.
Publisher
Cold Spring Harbor Laboratory