Mujibi Fidalis Denis, Okoth Edward, Cheruiyot Evans K, Onzere Cynthia, Bishop Richard P, Fèvre Eric M, Thomas Lian, Masembe Charles, Plastow Graham, Rothschild Max
Nelson Mandela Africa Institution of Science and Technology, Arusha, Tanzania.
USOMI Limited, Hardy Post, Karen, Nairobi, Kenya.
PLoS One. 2018 Jan 22;13(1):e0190080. doi: 10.1371/journal.pone.0190080. eCollection 2018.
The genetic diversity of African pigs, whether domestic or wild has not been widely studied and there is very limited published information available. Available data suggests that African domestic pigs originate from different domestication centers as opposed to international commercial breeds. We evaluated two domestic pig populations in Western Kenya, in order to characterize the genetic diversity, breed composition and admixture of the pigs in an area known to be endemic for African swine fever (ASF). One of the reasons for characterizing these specific populations is the fact that a proportion of indigenous pigs have tested ASF virus (ASFv) positive but do not present with clinical symptoms of disease indicating some form of tolerance to infection. Pigs were genotyped using either the porcine SNP60 or SNP80 chip. Village pigs were sourced from Busia and Homabay counties in Kenya. Because bush pigs (Potamochoerus larvatus) and warthogs (Phacochoerus spp.) are known to be tolerant to ASFv infection (exhibiting no clinical symptoms despite infection), they were included in the study to assess whether domestic pigs have similar genomic signatures. Additionally, samples representing European wild boar and international commercial breeds were included as references, given their potential contribution to the genetic make-up of the target domestic populations. The data indicate that village pigs in Busia are a non-homogenous admixed population with significant introgression of genes from international commercial breeds. Pigs from Homabay by contrast, represent a homogenous population with a "local indigenous' composition that is distinct from the international breeds, and clusters more closely with the European wild boar than African wild pigs. Interestingly, village pigs from Busia that tested negative by PCR for ASFv genotype IX, had significantly higher local ancestry (>54%) compared to those testing positive, which contained more commercial breed gene introgression. This may have implication for breed selection and utilization in ASF endemic areas. A genome wide scan detected several regions under preferential selection with signatures for pigs from Busia and Homabay being very distinct. Additionally, there was no similarity in specific genes under selection between the wild pigs and domestic pigs despite having some broad areas under similar selection signatures. These results provide a basis to explore possible genetic determinants underlying tolerance to infection by ASFv genotypes and suggests multiple pathways for genetically mediated ASFv tolerance given the diversity of selection signatures observed among the populations studied.
非洲猪(无论是家猪还是野猪)的遗传多样性尚未得到广泛研究,公开可用的信息非常有限。现有数据表明,非洲家猪起源于不同的驯化中心,这与国际商业品种不同。我们评估了肯尼亚西部的两个家猪群体,以描述一个已知为非洲猪瘟(ASF)流行地区猪的遗传多样性、品种组成和混合情况。对这些特定群体进行特征描述的一个原因是,一部分本地猪检测出非洲猪瘟病毒(ASFv)呈阳性,但未表现出疾病的临床症状,这表明它们对感染具有某种形式的耐受性。使用猪SNP60或SNP80芯片对猪进行基因分型。乡村猪来自肯尼亚的布西亚县和霍马贝县。由于已知丛林猪(非洲河猪)和疣猪对ASFv感染具有耐受性(尽管感染但无临床症状),因此将它们纳入研究以评估家猪是否具有相似的基因组特征。此外,鉴于欧洲野猪和国际商业品种样本可能对目标家猪群体的基因构成有贡献,将其作为参考纳入研究。数据表明,布西亚的乡村猪是一个非同质混合群体,有来自国际商业品种的大量基因渗入。相比之下,霍马贝的猪代表一个同质群体,具有与国际品种不同的“本地本土”组成,并且与欧洲野猪的聚类比与非洲野猪更紧密。有趣的是,通过PCR检测ASFv基因型IX呈阴性的布西亚乡村猪,其本地血统(>54%)显著高于检测呈阳性的猪,后者含有更多商业品种基因渗入。这可能对ASF流行地区的品种选择和利用有影响。全基因组扫描检测到几个优先选择区域,布西亚和霍马贝猪的特征非常不同。此外,尽管在一些广泛的选择特征区域相似,但野猪和家猪之间在选择的特定基因上没有相似性。这些结果为探索ASFv基因型感染耐受性潜在的遗传决定因素提供了基础,并鉴于在所研究群体中观察到的选择特征多样性,提示了遗传介导的ASFv耐受性的多种途径。
