Abstract
Phenotypic plasticity describes the ability of a given genotype to produce distinct phenotypes in different environments. We use the temperature sensitivity of abdominal pigmentation in Drosophila melanogaster females as a model to analyse the effect of the environment on development. We reported previously that thermal plasticity of abdominal pigmentation in females involves the pigmentation gene tan (t). However, the expression of the pigmentation gene yellow (y) was also modulated by temperature in the abdominal epidermis of pharate females. We investigate here the contribution of y to female abdominal pigmentation plasticity. First, we show that y is required for the production of black Dopamine-melanin. Then, using in situ hybridization, we show that the expression of y is strongly modulated by temperature in the abdominal epidermis of pharate females but not in bristles. Interestingly, these two expression patterns are known to be controlled by distinct enhancers. However, the activity of the y-wing-body epidermal enhancer only partially mediates the effect of temperature suggesting that additional regulatory sequences are involved. In addition, we show that y and t co-expression is needed to induce strong black pigmentation indicating that y contributes to female abdominal pigmentation plasticity.
Highlights
Phenotypic plasticity describes the ability of a given genotype to produce distinct phenotypes in different environments
Abdominal pigmentation differs between males and females in several Drosophila species and has been used as a model to dissect the genetic bases of sexual dimorphism[19,20]
We reported recently that the thermal plasticity of female abdominal pigmentation in Drosophila melanogaster involves transcriptional modulation of the pigmentation gene tan (t)[34]
Summary
Phenotypic plasticity describes the ability of a given genotype to produce distinct phenotypes in different environments. The expression of the pigmentation gene yellow (y) was modulated by temperature in the abdominal epidermis of pharate females. We reported recently that the thermal plasticity of female abdominal pigmentation in Drosophila melanogaster involves transcriptional modulation of the pigmentation gene tan (t)[34] This gene encodes a hydrolase implicated in the production of melanin[35] (Fig. 2). By contrast, when both y and t were over-expressed in the dorsal region of the abdomen, the anterior region of the tergites was as black as the posterior border of the tergites These data show that y and t combined over-expression at 29 °C is necessary and sufficient to reproduce the pigmentation phenotype observed at low temperature
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