Summary
The origin recognition complex (ORC) proteins, ORC1-6, are the first proteins that bind DNA replication origins to mark the competency for the initiation of DNA synthesis. These proteins have complex mechanisms of assembly into the ORC complex, and unexpected localizations in the mitotic chromosomes, cytoplasm, and nuclear structures. The mammalian zygote is a potentially important model that may contribute to our understanding of the mechanisms and features influencing origin establishment, and in identifying other functions of the ORC proteins. Along with expected localizations to the chromatin during G1, we found unexpected distribution in the cytoplasm that appeared to accumulate ORC proteins, which suggest potential roles for ORC subunits in mitosis and chromatin segregation. ORC1, 2, 3 and 5 all localize to the area between the separating maternal chromosomes shortly after fertilization. ORC4 forms a cage around the set of chromosomes that will be extruded during polar body formation before it binds to the chromatin shortly before zygotic DNA replication. These data suggest that the ORC proteins may also play roles in preparing the cell for DNA replication in addition to their direct role in establishing functional replication origins.