Characterization of olfactory receptor repertoires provides insights into the high-altitude adaptation of the yak based on the chromosome-level genome

Abstract

Olfaction in vertebrates plays pivotal parts in many aspects, such as localizing prey or food, mating behavior, avoiding predators, and social communication. Yak (Bos grunniens) is the only Bos species that can thrive in high-altitude areas. In view of the critical role of olfactory receptors (ORs) in the specific recognition of diverse stimuli, investigating the evolutionary dynamics of ORs in the yak means a lot. In this study, we used the chromosome-level genome of the yak to identify the ORs genes and discussed the effects of high altitude on the yak's olfaction by comparing the yak with other low-altitude living Bos species (Bos frontalis (gayal), Bos gaurus (gaur), Bos indicus (zebu) and Bos taurus (cattle)). The yak had 400 OR genes, including 264 functional genes, 16 partial genes and 120 OR pseudo genes. There were 387 OR genes mapped to yak 31 chromosomes, and chromosomes 13 and 8 had the most OR genes and functional OR genes. Among these five Bos species, yak had the least number of OR gene subfamilies, OR genes and functional OR genes, while the total number of OR genes in gayal (n = 784) was almost twice as many as that of yak, indicating that the olfaction of yak may be less developed. In addition, the phylogenetic relationships of the functional Bos OR genes were illustrated, which comprised 79 families and 466 subfamilies distributed in two classes (Class I and Class II). There were 76 OR gene subfamilies shared by these five Bos species and 17 OR gene subfamilies were unique to the yak. The potential odor specificity of 44 yak OR genes was identified through the similarity to human OR protein sequences. Remarkably, yak lacks β-ionone and Isovaleric acid(IVA)-related ORs, which may be related to the decline of high-altitude herbaceous plant diversity and underdeveloped yak sweat glands. The conserved motifs of OR genes were highly conserved in Bos species. These results provided a solid foundation for further studies on the molecular mechanisms of the yak's adaptation to the high-altitude environment in olfaction.