Whole genome analysis of selection associated with resistance to heat stress in chickens.
📄 Abstract
Following their domestication, chickens were translocated around the world to novel environments. Through a combination of natural and artificial selection, chickens adapted to these local conditions, creating significant genetic diversity across populations worldwide. Studying this diversity in the context of local environmental conditions may offer insights into mechanisms of adaptation to environmental stressors. In this study, we analyzed genomic data from the Chicken Genomic Diversity Consortium, applying multiple statistical approaches, including fixation index (F The online version contains supplementary material available at 10.1038/s41598-026-41813-8.
Confidence:
0.1
· 3 полей извлечено
Идентификация (6 полей)
Механизм действия (21 полей)
Mechanism
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Mutations (obesity/lean)
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Activity (obesity)
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Activity temporal
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Energy balance
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Appetite
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Fat metabolism
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Lipolysis
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Thermogenesis
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Muscle metabolism
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Inflammation
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Glucose metabolism
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AA metabolism
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Hormonal pathways
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Cell death
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Adipocyte fibrosis
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Upstream (biochem)
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Upstream (physiol)
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Downstream (biochem)
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Downstream (physiol)
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PTMs
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Экспрессия (8 полей)
Tissue expression
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In vitro
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In vivo
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In silico
Whole genome analysis of selection associated with resistance to heat stress in chickens
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Genetic association
Whole genome analysis of selection associated with resistance to heat stress in chickens
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Ex vivo
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Animal model
chickens
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Diet/model
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