AI Article Synopsis
- Morphogenic proteins in Drosophila create concentration gradients that activate different genes to establish embryonic body axes, particularly affecting the dorsal/ventral axis through neurogenic ectoderm enhancers (NEEs).
- NEEs have a specific arrangement of DNA-binding sites for key proteins that influence gene activation based on varying levels of the Dorsal (Dl) morphogen, with the spacing of these sites determining the activation threshold.
- The study reveals that the variant Dl binding sites in NEEs are remnants that evolved over time, indicating a history of natural selection for adjusting the threshold responses to the Dl gradient, reflecting changes in egg size in the Drosophila lineage.
Article Abstract
Concentration gradients of morphogenic proteins pattern the embryonic axes of Drosophila by activating different genes at different concentrations. The neurogenic ectoderm enhancers (NEEs) activate different genes at different threshold levels of the Dorsal (Dl) morphogen, which patterns the dorsal/ventral axis. NEEs share a unique arrangement of highly constrained DNA-binding sites for Dl, Twist (Twi), Snail (Sna) and Suppressor of Hairless (Su(H)), and encode the threshold variable in the precise length of DNA that separates one well-defined Dl element from a Twi element. However, NEEs also possess dense clusters of variant Dl sites. Here, we show that these increasingly variant sites are eclipsed relic elements, which were superseded by more recently evolved threshold encodings. Given the divergence in egg size during Drosophila lineage evolution, the observed characteristic clusters of divergent sites indicate a history of frequent selection for changes in threshold responses to the Dl morphogen gradient and confirm the NEE structure/function model.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2963808 | PMC |
| http://dx.doi.org/10.1038/ncomms1102 | DOI Listing |
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