Genome reprogramming in early embryos is associated with nuclear reorganization and chromatin remodelling. We recently reported an improved nuclear reorganisation in clones treated with trichostatin A (TSA), which correlates with an improved efficiency of development to term (Maalouf et al., 2007). In this study, we analysed the effects of TSA on the reorganisation of centromeric and pericentric heterochromatin structure in mouse parthenogenetic embryos. In both the treated and non-treated parthenotes, most heterochromatin sequences relocated around the nucleolar precursor bodies (NPBs) as in the female pronuclei of naturally fertilised embryos. However, the clustering of heterochromatin into chromocenters during the second embryonic cycle was significantly reduced in control parthenotes as compared to naturally fertilised embryos (p= 6.4e-07). Moreover, the supplementation of TSA at 5nM during the first embryonic cycle resulted in an even lower number of chromocenters at the end of the second cycle (p= 9.5e-09). Unexpectedly, we also observed that TSA treatment resulted in extended survival of parthenogenetic foetuses after transfer into foster mothers. In conclusion, the development of parthenogenetic embryos after treatment of TSA will be discussed in terms of nuclear reprogramming.