Abstract
Reformation of a functional nucleus at the end of mitosis is crucial for normal cellular activity. Reconstitution approaches using artificial beads in frog egg extracts have clarified the molecules required for nuclear formation in vitro. However, the spatiotemporal regulation of these components, which is required for the formation of a functional nucleus in living embryos, remains unknown. Here we demonstrate that exogenous DNA introduced in the form of DNA-conjugated beads induces the assembly of an artificial nucleus in living mouse cleavage-stage embryos. Live-cell imaging and immunofluorescence studies revealed that core histones and regulator of chromosome condensation 1 (RCC1) assembled on the DNA, suggesting that nucleosomes were formed. Electron microscopy showed that double-membrane structures, partly extended from annulate lamellae, formed around the beads. Nuclear pore complex-like structures indistinguishable from those of native nuclei were also formed, suggesting that this membranous structure resembled the normal nuclear envelope (NE). However, the reconstituted NE had no nuclear import activity, probably because of the absence of Ras-related nuclear protein (Ran). Thus, DNA is necessary for NE reassembly in mouse embryos but is insufficient to form a functional nucleus. This approach provides a new tool to examine factors of interest and their spatiotemporal regulation in nuclear formation.
Highlights
In eukaryotes, genomic DNA is compacted into nucleosomes and is housed in the nucleus in the form of chromatin
We evaluated the integrity of nuclei induced artificially on DNA-beads by analysing the accumulation of core histones, nucleosome formation, nuclear membrane assembly, nuclear pore complex (NPC) formation and nuclear import activity
To understand the function of DNA in nuclear formation, DNA-beads were microinjected into fertilised mouse eggs as follows
Summary
Genomic DNA is compacted into nucleosomes and is housed in the nucleus in the form of chromatin. Other attempts to determine the key factors required for NE reformation involved in vitro experiments using Xenopus egg extracts, in which molecules of interest were conjugated to beads (about 100 μm in diameter) and incubated in extracts from unfertilised eggs to visualise formation of nuclei around the beads To date, this system has identified double-stranded DNA (dsDNA), Ras-related nuclear protein (Ran) and importin β as key factors[23,24,25,26]; in this system, the regulator of chromosome condensation 1 (RCC1) does not appear to be a factor in nuclear reformation[24]. We evaluated the integrity of nuclei induced artificially on DNA-beads by analysing the accumulation of core histones, nucleosome formation, nuclear membrane assembly, NPC formation and nuclear import activity
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