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The Circadian Physiology: Implications in Livestock Health

Hao Li, Kaiqi Li, Kexin Zhang, Yanwei Li, Haotian Gu, Hao‐Yu Liu, Zhangping Yang, Demin Cai

2021International Journal of Molecular Sciences35 citationsDOIOpen Access PDF

Abstract

Circadian rhythms exist in almost all types of cells in mammals. Thousands of genes exhibit approximately 24 h oscillations in their expression levels, making the circadian clock a crucial regulator of their normal functioning. In this regard, environmental factors to which internal physiological processes are synchronized (e.g., nutrition, feeding/eating patterns, timing and light exposure), become critical to optimize animal physiology, both by managing energy use and by realigning the incompatible processes. Once the circadian clock is disrupted, animals will face the increased risks of diseases, especially metabolic phenotypes. However, little is known about the molecular components of these clocks in domestic species and by which they respond to external stimuli. Here we review evidence for rhythmic control of livestock production and summarize the associated physiological functions, and the molecular mechanisms of the circadian regulation in pig, sheep and cattle. Identification of environmental and physiological inputs that affect circadian gene expressions will help development of novel targets and the corresponding approaches to optimize production efficiency in farm animals.

Topics & Concepts

Circadian rhythmBiologyCircadian clockPhenotypeRegulatorPhysiologyNeuroscienceLivestockBacterial circadian rhythmsChronobiologyCell biologyGeneGeneticsEcologyCircadian rhythm and melatoninLight effects on plantsGenetics, Aging, and Longevity in Model Organisms
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