[Assembly of correct kinetochore architecture in Xenopus laevis egg extract requires transition of sperm DNA through interphase]

Abstract

Xenopus egg extracts provide a powerful tool for studying formation and function of chromosomes. Two alternative protocols are generally used to obtain mitotic chromosomes. The first one employs direct assembly of chromatin from sperm nuclei in CSF-arrested meiotic extracts, while the second is based on transition of sperm DNA through a replication step, followed by re-establishing of CSF arrest. In this study we show that general kinetochore structure is disrupted in chromosomes assembled directly in CSF egg extracts: the amounts of outer kinetochore proteins such as Bub1, BubR1 and Dynactin subunit p150glued are reduced and the components of the inner centromeric region (Aurora B kinase and Survivin) show compromised recruitment to centromeres. In contrast, kinetochores on chromosomes assembled according to the second protocol closely resemble those in somatic cells. Our results argue that transition of sperm nuclei through interphase is an essential step for proper kinetochore assembly.