Abstract
The Jiangquhai (JQ) pig breed is one of the most widely recognized pig populations in China due to its unique and dominant characteristics. In this study, we examined the extent of Linkage disequilibrium (LD) and haplotype block structure of the JQ pig breed, and scanned the blocks for possible genes underlying important QTLs that could either be responsible for some adaptive features in these pigs or might have undergone some selection pressure. We compared some of our results with other Chinese and Western pig breeds. The results show that the JQ breed had the highest total block length (349.73 Mb ≈ 15% of its genome), and the coverage rate of blocks in most of its chromosomes was larger than those of other breeds except for Sus scrofa chromosome 4 (SSC4), SSC6, SSC7, SSC8, SSC10, SSC12, SSC13, SSC14, SSC17, SSC18, and SSCX. Moreover, the JQ breed had more SNPs that were clustered into haplotype blocks than the other breeds examined in this study. Our shared and unique haplotype block analysis revealed that the Hongdenglong (HD) breed had the lowest percentage of shared haplotype blocks while the Shanzhu (SZ) breed had the highest. We found that the JQ breed had an average r2 > 0.2 at SNPs distances 10–20 kb and concluded that about 120,000–240,000 SNPs would be needed for a successful GWAS in the breed. Finally, we detected a total of 88 genes harbored by selected haplotype blocks in the JQ breed, of which only 4 were significantly enriched (p-value ≤ 0.05). These genes were significantly enriched in 2 GO terms (p-value < 0.01), and 2 KEGG pathways (p-value < 0.02). Most of these enriched genes were related to health. Also, most of the overlapping QTLs detected in the haplotype blocks were related to meat and carcass quality, as well as health, with a few of them relating to reproduction and production. These results provide insights into the genetic architecture of some adaptive and meat quality traits observed in the JQ pig breed and also revealed the pattern of LD in the genome of the pig. Our result provides significant guidance for improving the statistical power of GWAS and optimizing the conservation strategy for this JQ pig breed.
Highlights
The pig population in China (435 million) accounts for 45% of the total population of pigs in the world (FAOSTAT, 2017) and the Jiangquhai (JQ) pig breed is one of the most widely recognized pig populations in the country due to its unique and dominant characters
The highest genetic differentiation (0.441) between breeds was found between MMS and D breed, while the lowest was found between MMS and PD breed (0.093) (Supplementary Table S3)
We found that the number of maximum haplotype block size per chromosome across breeds was larger in both JQ and HB except for SSC3, Sus scrofa chromosome 4 (SSC4), SSC5, SSC8, SSC9, SSC12, SSC15, SSC16, SSC18, and SSCX (Figure 4)
Summary
The pig population in China (435 million) accounts for 45% of the total population of pigs in the world (FAOSTAT, 2017) and the Jiangquhai (JQ) pig breed is one of the most widely recognized pig populations in the country due to its unique and dominant characters This pig breed is found in Jiangsu Province, in the eastern part of China where the giant Taihu lake is located. The JQ pig breed has existed since the early 19th century and has many characteristics such as strong fat deposition and excellent tasting, high-quality meat It is a well known local pig breed used in producing ham in China (China National Commission of Animal Genetic Resources, 2011), where there are three popular types of ham: Yun ham, Jinhua ham, and Rugao ham. Apart from JQ pigs, other pig populations such as Huaibei (HB), Hongdenglong (HD), Shanzhu (SZ), Dongchuan, Erhualian, Fengjing, Huai, Mi, and Shawutou are distributed throughout Jiangsu province
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