Comparison of Drosophila melanogaster Embryo and Adult Proteome by SWATH-MS
Reveals Differential Regulation
of Protein Synthesis, Degradation Machinery, and Metabolism Modules
posted on 2019-05-14, 00:00authored byBertrand Fabre, Dagmara Korona, Jonathan G. Lees, Ikrame Lazar, Ido Livneh, Manon Brunet, Christine A. Orengo, Steven Russell, Kathryn S. Lilley
An important area of modern biology
consists of understanding the
relationship between genotype and phenotype. However, to understand
this relationship it is essential to investigate one of the principal
links between them: the proteome. With the development of recent mass-spectrometry
approaches, it is now possible to quantify entire proteomes and thus
relate them to different phenotypes. Here, we present a comparison
of the proteome of two extreme developmental states in the well-established
model organism Drosophila melanogaster: adult and
embryo. Protein modules such as ribosome, proteasome, tricarboxylic
acid cycle, glycolysis, or oxidative phosphorylation were found differentially
expressed between the two developmental stages. Analysis of post-translation
modifications of the proteins identified in this study indicates that
they generally follow the same trend as their corresponding protein.
Comparison between changes in the proteome and the transcriptome highlighted
patterns of post-transcriptional regulation for the subunits of protein
complexes such as the ribosome and the proteasome, whereas protein
from modules such as TCA cycle, glycolysis, and oxidative phosphorylation
seem to be coregulated at the transcriptional level. Finally, the
impact of the endosymbiont Wolbachia pipientis on
the proteome of both developmental states was also investigated.