The recently discovered structural similarities between the archaeal Orc1/Cdc6 and bacterial DnaA initiator proteins for chromosome replication have exciting implications for cell cycle regulation. Together with current attempts to identify archaeal chromosome replication origins, the information is likely to yield fundamental insights into replication control in both archaea and eukaryotes within the near future. Several proteins that affect, or are likely to affect, chromatin structure and genome segregation in archaea have been described recently, including Sph1 and 2, ScpA and B, Sir2, Alba and Rio1p. Important insights into the properties of the MinD and FtsZ cell division proteins, and of putative cytoskeletal elements, have recently been gained in bacteria. As these proteins also are present among archaea, it is likely that the new information will also be essential for understanding archaeal genome segregation and cell division. A series of interesting cell cycle issues has been brought to light through the discovery of the novel Nanoarchaeota phylum, and these are outlined briefly. Exciting areas for extended cell cycle investigations of archaea are identified, including termination of chromosome replication, application of in situ cytological techniques for localization of cell cycle proteins and the regulatory roles of GTP-binding proteins and small RNAs.