Whole-genome analyses reveal the genomic diversity and selection signatures of Hainan cattle

The equatorial climate of Hainan Island has led to the evolution of Hainan cattle that are well adapted to the local conditions. This study aims to estimate the genetic diversity and selection signatures of Hainan cattle. After analyzing the whole-genome sequencing (WGS) data of 76 cattle from four representative populations of East Asian taurine cattle, India-Pakistan indicine cattle, Chinese indicine cattle, and Hainan locally adapted cattle, a total of 20,075,403 autosomal single nucleotide polymorphisms (SNPs) were detected. The Hainan cattle exhibited the highest level of genetic diversity (Ho=0.31, He=0.3). The increased genetic diversity observed in Hainan cattle population may be attributed to the admixture with Chinese indicine cattle population. The analysis of selective sweep, which was achieved through the utilization of ZF(ST) and log(2)p, indicated the detection of 92 potential loci in Hainan cattle, which encompassed 141 genes that underwent positive selection and were associated with immune pathways, including bacterial invasion of epithelial cells, the chemokine signaling pathway, and the T cell receptor signaling pathway. Mutations analysis revealed that two missense mutations in SKINT1 (c.458C>T, p.P153L and c.580G>A, p.D194N) and two missense mutations in BCAR1 (c.1765C>G, p. A589P and c.1150C>T, p.G384S) were the homozygous genotypes in Hainan cattle. This finding enhances our understanding of the polygenic basis underlying climatic adaptation in Hainan cattle and holds significant value for the preservation and utilization of these genetic resources.