[
Science,
2000]
A powerful, top-down, holistic approach in biological research is to identify all of the components of a particular cellular process, so that one can define the global picture first and then use it as a framework to understand how the individual components of the process fit together. On page 116 of this issue, Wahout et al. report that they have started to compile a global map of interactions between all of the proteins in the worm Caenorhabditis elegans (1). These investigators commandeered a small number of well-studied proteins to establish the technical and conceptual framework for this mammoth protein-binding project. Their ultimate goal is to illuminate all of the protein-protein interactions in this animal, and to combine this information with that from other functional genomics approaches to work out what each worm gene does.
[
Worm,
2016]
Aging is accompanied by large-scale changes in the proteome, which could have important consequences for cellular and organismal physiology. In this commentary, we review recent studies characterizing the aging proteome in C. elegans. We assess the evidence that the rates of protein synthesis, folding, and degradation change with age in C. elegans, and evaluate whether changes in these pathways limit normal lifespan. We also discuss large-scale studies measuring changes in the proteome with age that suggest that a failure to excrete reproductive proteins in post-reproductive animals plays a role in changing protein levels with age.
[
Cell Host Microbe,
2014]
During acute infection our behavior tends to change. Despite how common sickness behavior is, its molecular basis is not well understood. In a study published in Cell, Kim and colleagues (Meisel etal., 2014) implicate bacterial secondary metabolites as triggers of neural TGF-? signaling, which results in behavioral change during infection.