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Differential regulation of the proteome and phosphosproteome along the dorso-ventral axis of the early Drosophila embryo

Item Type:Article
Title:Differential regulation of the proteome and phosphosproteome along the dorso-ventral axis of the early Drosophila embryo
Creators Name:Gomez, J.M., Nolte, H., Vogelsang, E., Dey, B., Takeda, M., Giudice, G., Faxel, M., Haunold, T., Cepraga, A., Zinzen, R.P., Krüger, M., Petsalaki, E., Wang, Y.C. and Leptin, M.
Abstract:The initially homogeneous epithelium of the early Drosophila embryo differentiates into regional subpopulations with different behaviours and physical properties that are needed for morphogenesis. The factors at top of the genetic hierarchy that control these behaviours are known, but many of their targets are not. To understand how proteins work together to mediate differential cellular activities, we studied in an unbiased manner the proteomes and phosphoproteomes of the three main cell populations along the dorso-ventral axis during gastrulation using mutant embryos that represent the different populations. We detected 6111 protein groups and 6259 phosphosites of which 3398 and 3433 respectively, were differentially regulated. The changes in phosphosite abundance did not correlate with changes in host protein abundance, showing phosphorylation to be a regulatory step during gastrulation. Hierarchical clustering of protein groups and phosphosites identified clusters that contain known fate determinants such as Doc1, Sog, Snail and Twist. The recovery of the appropriate known marker proteins in each of the different mutants we used validated the approach, but also revealed that two mutations that both interfere with the dorsal fate pathway, Toll(10B) and serpin27a(ex) do this in very different manners. Diffused network analyses within each cluster point to microtubule components as one of the main groups of regulated proteins. Functional studies on the role of microtubules provide the proof of principle that microtubules have different functions in different domains along the DV axis of the embryo.
Keywords:Drosophila, Gastrulation, Proteome, Phosphoproteome, Microtubules, Animals
Source:eLife
ISSN:2050-084X
Publisher:eLife Sciences Publications
Volume:13
Page Range:e99263
Date:2 September 2024
Official Publication:https://doi.org/10.7554/eLife.99263
PubMed:View item in PubMed

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