Split decision: a thaumarchaeon encoding both FtsZ and Cdv cell division proteins chooses Cdv for cytokinesis

Cytoskeletal proteins play a pivotal role in cytokinesis in prokaryotes and eukaryotes. Most bacteria and a major branch of the archaea called the Euryarchaeota harbour a tubulin homologue, FtsZ, which assembles into a dynamic polymeric ring structure required for cytokinesis. However, Crenarchaeota, another branch of the archaea, lack FtsZ and instead use Cdv proteins, which are homologues of the ESCRT-III-like system involved in vesicular sorting and cytokinesis in eukaryotes, for cell division. Recently, a group of Crenarchaeota that grow in non-extreme environments was found to be sufficiently divergent to warrant its own branch of the archaea called the Thaumarchaeota. Notably, Thaumarchaeota have both Cdv and FtsZ homologues, which begs the question of which system is used for cell division. In this issue of Molecular Microbiology, Pelve et al. (2011) tackle this question. They found that cells of the thaumarchaeon Nitrosopumilus maritimus likely divide using the Cdv system and not FtsZ, based on localization of Cdv proteins but not FtsZ to division sites. The authors also provide evidence that the cell cycle during growth of N. maritimus differs significantly from those of other archaea.