Assembly of a pangenome for global cattle reveals missing sequences and novel structural variations, providing new insights into their diversity and evolutionary history

• Published in: Genome research Vol. 32; no. 8; pp. 1585 - 1601
• Main Authors: Zhou, Yang, Yang, Lv, Han, Xiaotao, Han, Jiazheng, Hu, Yan, Li, Fan, Xia, Han, Peng, Lingwei, Boschiero, Clarissa, Rosen, Benjamin D, Bickhart, Derek M, Zhang, Shujun, Guo, Aizhen, Van Tassell, Curtis P, Smith, Timothy P L, Yang, Liguo, Liu, George E
• Format: Journal Article
• Language: English
• Published: United States Cold Spring Harbor Laboratory Press 01.08.2022
• Subjects: Animals; Breeding; Cattle; Cattle - genetics; Cell proliferation; Domestic animals; Domestication; Evolution, Molecular; Evolutionary genetics; Genetic Variation; Genome; Genomes; Genomic Structural Variation; Genomics - methods; Geographical distribution; Glucose metabolism; Hybridization; Immune response; Nucleotide sequence; Polymorphism, Single Nucleotide; Resource; Single-nucleotide polymorphism
• ISSN: 1088-9051; 1549-5469; 1549-5469
• DOI: 10.1101/gr.276550.122

A cattle pangenome representation was created based on the genome sequences of 898 cattle representing 57 breeds. The pangenome identified 83 Mb of sequence not found in the cattle reference genome, representing 3.1% novel sequence compared with the 2.71-Gb reference. A catalog of structural variants developed from this cattle population identified 3.3 million deletions, 0.12 million inversions, and 0.18 million duplications. Estimates of breed ancestry and hybridization between cattle breeds using insertion/deletions as markers were similar to those produced by single nucleotide polymorphism-based analysis. Hundreds of deletions were observed to have stratification based on subspecies and breed. For example, an insertion of a Bov-tA1 repeat element was identified in the first intron of the gene and correlated with cattle breed geographic distribution. This insertion falls within a segment overlapping predicted enhancer and promoter regions of the gene, and could affect important traits such as immune response, olfactory functions, cell proliferation, and glucose metabolism in muscle. The results indicate that pangenomes are a valuable resource for studying diversity and evolutionary history, and help to delineate how domestication, trait-based breeding, and adaptive introgression have shaped the cattle genome.