TY - JOUR T1 - The Y-chromosome clarifies the evolutionary history of <em>Sus scrofa</em> by large-scale deep genome sequencing JF - bioRxiv DO - 10.1101/126060 SP - 126060 AU - Huashui Ai AU - Jun Ren AU - Junwu Ma AU - Zhiyan Zhang AU - Wanbo Li AU - Bin Yang AU - Lusheng Huang Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/04/10/126060.abstract N2 - The genetics and evolution of sex chromosomes are largely distinct from autosomes and mitochondrial DNA (mtDNA). The Y chromosome offers unique genetic perspective on male-line inheritance. Here, we uncover novel evolutionary history of Sus scrofa based on 205 high-quality genomes from worldwide-distributed different wild boars and domestic pig breeds. We find that only two haplotypes exist in the distal and proximal blocks of at least 7.7 Mb on chromosome Y in pigs across European and Asian continents. And the times of most recent common ancestors (TMRCA) within both haplotypes, approximately 0.14 and 0.10 million years, are far smaller than their divergence time of around 1.07 million years. What’s more, the relationship between Sumatran and Eurasian continent Sus scrofa is much closer than that we knew before. And surprisingly, European pigs share the same haplotype with many Chinese pigs, which is not consistent with their deep splitting status on autosome and mtDNA. Further analyses show that the haplotype in Chinese pigs was likely introduced from European wild boars via ancient gene flow before pig domestication about 24k years ago. Low mutation rates and no recombination in the distal and proximal blocks on chromosome Y help us detect this male-driven ancient gene flow. Taken together, our results update the knowledge of pig demography and evolution, and might shed insight into the genetics and evolution studies on chromosome Y in other mammals. ER -