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Data from: Extensive transcriptional response associated with seasonal plasticity of butterfly wing patterns


Daniels, Emily V.; Murad, Rabi; Mortazavi, Ali; Reed, Robert D. (2014), Data from: Extensive transcriptional response associated with seasonal plasticity of butterfly wing patterns, Dryad, Dataset,


In the eastern United States the buckeye butterfly, Junonia coenia, shows seasonal wing color plasticity where adults emerging in the spring are tan, while those emerging in the autumn are dark red. This variation can be artificially induced in laboratory colonies, thus making J. coenia a useful model system to examine the mechanistic basis of plasticity. To better understand the developmental basis of seasonal plasticity we used RNA-seq to quantify transcription profiles associated with development of alternative seasonal wing morphs. Depending on the developmental stage, between 547 and 1420 transfrags were significantly differentially expressed between morphs. These extensive differences in gene expression stand in contrast to the much smaller numbers of differentially expressed transcripts identified in previous studies of genetic wing pattern variation in other species, and suggest that environmentally induced phenotypic shifts arise from very broad systemic processes. Analyses of candidate endocrine and pigmentation transcripts revealed notable genes upregulated in the red morph, including several ecdysone-associated genes, and cinnabar, a pigmentation gene implicated in color pattern variation in other butterflies. We also found multiple melanin-related transcripts strongly upregulated in the red morph, including tan and yellow-family genes, leading us to speculate that dark red pigmentation in autumn J. coenia may involve non-ommochrome pigments. While we identified several endocrine and pigmentation genes as obvious candidates for seasonal color morph differentiation, we speculate that the majority of observed expression differences were due to thermal stress response. The buckeye transcriptome provides a basis for further developmental studies of phenotypic plasticity.

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