4.7 Review

Adaptation Mechanisms of Yak (Bos grunniens) to High-Altitude Environmental Stress

Journal

ANIMALS
Volume 11, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/ani11082344

Keywords

adaptation; high altitude; hypoxia; yak

Funding

  1. Agricultural Science and Technology Innovation Program [25-LZIHPS-01]
  2. Foundation for Innovation, Groups of Basic Research in Gansu Province [20JR5RA580]
  3. Key Research and Development Programs of Science and Technology, Project of Gansu Province [20YF8WA031]
  4. Special Fund of the Chinese Central Government for Basic Scientific Research Operations in Commonwealth Research Institutes

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The yak is a multipurpose domesticated animal that serves as a protein source for local herders and a sacred carrier of culture and religion. The yak has special morphological, physiological, biochemical, and genetic adaptations for tolerance to high-altitude stress, allowing it to survive in harsh environmental conditions. Through long-term natural selection, the yak has developed stable and unique genetic characteristics that enable adaptations to high altitudes.
Simple Summary The yak is a multipurpose domesticated animal that serves as a protein source for local herders and a sacred carrier of culture and religion. Besides their economic significance, yaks harbor special morphological, physiological, biochemical, and genetic adaptations for tolerance to high-altitude stress. Morphologically, yaks have large hearts and lungs, compact bodies, thick outer hair covering, and nonfunctional sweat glands, which help to withstand hypoxia and cold stress. A reduced heat production, decreased respiration and sweating, reduced metabolism, and efficient nitrogen utilization are the major physiological and biochemical mechanisms for yak survival at high altitudes. Furthermore, the yak has undergone long-term natural selection and developed a unique genetic architecture that favors survival in hostile environments. The yak expresses the HIF-1 alpha pathway-related genes (ADAM17, ARG2, and MMP3) putatively involved in hypoxia response and nutrition pathways genes (CAMK2B, GENT3, HSD17B12, WHSC1, and GLUL) for nutritional assimilation at high altitudes. Living at a high altitude involves many environmental challenges. The combined effects of hypoxia and cold stress impose severe physiological challenges on endothermic animals. The yak is integral to the livelihood of the people occupying the vast, inhospitable Qinghai-Tibetan plateau and the surrounding mountainous region. Due to long-term selection, the yak exhibits stable and unique genetic characteristics which enable physiological, biochemical, and morphological adaptations to a high altitude. Thus, the yak is a representative model for mammalian plateau-adaptability studies. Understanding coping mechanisms provides unique insights into adaptive evolution, thus informing the breeding of domestic yaks. This review provides an overview of genetic adaptations in Bos grunniens to high-altitude environmental stress. Combined genomics and theoretical advances have informed the genetic basis of high-altitude adaptations.

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