Condensin I subunit Cap-G is essential for proper gene expression during the maturation of post-mitotic neurons

Abstract

AbstractThe condensin complex is essential for mitotic chromosome assembly and segregation during cell divisions, however, little is known about its function in post-mitotic, differentiated cells. Here we report a novel role for the condensin I subunit Cap-G inDrosophilaneurons. We show that, despite not requiring condensin for mitotic chromosome compaction, post-mitotic neurons express Cap-G and that knockdown of Cap-G specifically in neurons (from their birth onwards) results in developmental arrest, behavioural defects, and dramatic gene expression changes. These include reduced expression of a subset of neuronal genes and aberrant expression of genes that are not normally expressed in the developing brain. Knockdown of Cap-G in more mature neurons also results in similar phenotypes but to a lesser degree. Furthermore, we see dynamic binding of Cap-G to chromatin at distinct loci in neural stem cells and differentiated neurons. Therefore, Cap-G is essential for proper gene expression in neurons and plays an important role during the early stages of neuronal development.