Bélteky Johan, Agnvall Beatrix, Jensen Per
AVIAN Behavioural Physiology and Genomics Group, IFM Biology, Linköping University, Linköping, Sweden.
PLoS One. 2017 May 8;12(5):e0177004. doi: 10.1371/journal.pone.0177004. eCollection 2017.
The process of domestication in animals has led to alterations in behavior, physiology and phenotypic traits, changes that may be driven by correlations with reduced fear of humans. We used Red Junglefowl, ancestors of all domesticated chickens selected for either high or low fear of humans for five generations to study the effects of selection on gene transcription in the cerebral hemisphere, which is heavily involved in behaviour control. A total of 24 individuals from the parental generation as well as from the fifth selected generation were used. Twenty-two genes were significantly differentially expressed at p < 0.05 after false discovery rate (FDR) correction. Those genes that were upregulated in the low fearful animals were found to be involved in neural functions. Gene ontology and pathway analysis revealed enrichment for terms associated with behavioural processes. We conclude that five generations of divergent selection for high or low tameness has significantly changed gene expression patterns in the cerebral hemisphere in the Red Junglefowl population used here, which could underlie a range of changes in the domestic phenotype.
动物的驯化过程导致了行为、生理和表型特征的改变,这些变化可能是由与减少对人类的恐惧的相关性所驱动的。我们使用原鸡,即所有家鸡的祖先,对其进行了五代高或低人类恐惧选择,以研究选择对大脑半球基因转录的影响,大脑半球在行为控制中起着重要作用。总共使用了来自亲代以及第五代选择代的24只个体。在错误发现率(FDR)校正后,有22个基因在p < 0.05水平上显著差异表达。在低恐惧动物中上调的那些基因被发现与神经功能有关。基因本体论和通路分析显示与行为过程相关的术语富集。我们得出结论,在这里使用的原鸡群体中,五代高或低温顺性的差异选择显著改变了大脑半球的基因表达模式,这可能是家养表型一系列变化的基础。