Focus on the Spatial Organization of Signalling

Abstract

Since the early days of light microscopy it has been apparent that cells are highly organized and compartmentalized. However, only in recent decades has the molecular basis of this spatial organization and its functional role in cellular signalling events emerged. Furthermore, modern molecular and imaging techniques, together with the intricate combination of cellular and developmental biological approaches, are extending our understanding of how individual cells respond to their environment and are organized within a tissue. Years of molecular and genetic analysis, coupled with recent advances in large‐scale approaches, may have identified many of the core components of signalling pathways, although new layers of regulation, such as small RNAs and alternative splicing, continue to add complexity. Although the parts list may soon be completed, our understanding at the level of signal integration and cross‐talk remains limited. The key to understanding cellular regulation is to complement biochemical assays in vitro with analysis on how spatial organization contributes to the properties of intra‐ and intercellular communication. This requires a real‐time quantitative analysis of endogenous components in the cellular context, which has only recently became possible with advanced microscopy techniques and biosensors. These developments open a new era in the analysis of spatial organization on different biological scales from molecules to cells to tissues and organs. The EMBO Journal covers a broad spectrum of subject areas and approaches, ranging from biochemical to cell biological, as well as those at the organism level. However, the journal has a longstanding tradition of hosting important papers on signalling, which …