Abstract
The molecular underpinnings of metabolic adaptation to seasons are poorly understood in long- distance migrants. We measured changes in physiology and performed de novo sequencing of RNA extracted from liver samples collected at 4-h intervals over a period of 24 h from a long-distance avian migrant, the blackheaded bunting (Emberiza melanocephala), during two states: photostimulated vernal migratory (M) state and photorefractory non-migratory (nM) state. The M state was differentiated from the nM state based on body fattening and weight gain, as well as on Zugunruhe, that is, nocturnal migratory restlessness in caged birds. We found that baseline blood glucose and triglyceride levels were significantly higher in the M state than the nM state; conversely, surface body temperature was higher in the nM state than the M state. In a total of 6 liver samples that were sequenced from each state, 11,246 genes were annotated, including 4448 genes that were cyclic over 24 h. We found 569 differentially expressed genes (DEGs) between the M and the nM state, and the M state showed 131 upregulated and 438 downregulated genes. These DEGs formed core gene hubs associated with specific biological processes in both the states. In addition, weighted gene coexpression network analysis revealed two discrete modules of coexpressed genes, with a significant difference in the expression pattern of metab olism-associated genes between M and nM states. These results demonstrate, for the first time, transcriptome-wide changes in the liver between two distinct physiological states and give molecular insights into seasonal metabolic adaptations in latitudinal migrants.
Highlights
Bird migration is one of the most salient examples of seasonal ecology in nature
There was a difference in liver histology between M and nM states; liver cells were found laden with accumulated fat in the M state (Figures 1E–H)
We demonstrate concomitant seasonal changes in behavior and physiology and gene expression in a photoperiodic migrant species
Summary
Bird migration is one of the most salient examples of seasonal ecology in nature. Annual to-andfro movements between breeding and non-breeding grounds occur during different seasons and involve significant adaptations to environmental changes in physiology and behavior (Berthold et al, 2003). Avian migrants undergo changes associated with autumn migration (to wintering site) and reverse to a non-migratory state when it overwinters. Later, it reinitiates processes associated with spring migration (to breeding site) and reproduction, which are again reversed at the end of reproduction. It reinitiates processes associated with spring migration (to breeding site) and reproduction, which are again reversed at the end of reproduction These changes are programmed by internal clocks. Gonads regress as birds enter into photorefractory state during which they remain unresponsive to stimulatory effects of long photoperiod (Malik et al, 2014; Trivedi et al, 2014)
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