Spatial and Temporal Organisation of Multiprotein Systems of Cell Regulation and Signalling: What Can We Learn from NHEJ System of Double-Strand Break Repair?

摘要

Multiprotein assemblies play major roles in most pathways involved in cell regulation and signaling. Weak binary interactions are transformed co-operatively into very specific systems, which achieve sensitivity, specificity and temporal control. Due to the complexity and transience of these regulatory and signaling systems, a combination of in vivo, cell, biochemical, biophysical, and structural approaches is needed to investigate their structures and dynamics. Here we describe the architecture and spatial organisation of the complexes mediating Non-Homologous End Joining (NHEJ), one of the two major pathways involved in DNA double-strand break repair. Our example illustrates the experimental challenges and conceptual questions that are raised by studying such complex systems. We discuss the potential of using knowledge of the spatial and temporal organization of multiprotein systems not only to give insights into the mechanisms of pathway regulation but also to help in the design of chemical tools and ultimately new therapeutic agents.