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Non-essentiality of canonical cell division genes in the planctomycete Planctopirus limnophila

Elena Rivas‐Marín, Stijn H. Peeters, Laura Claret Fernández, Christian Jogler, Laura van Niftrik, Sandra Wiegand, Damien P. Devos

2020Scientific Reports42 citationsDOIOpen Access PDF

Abstract

Most bacteria divide by binary fission using an FtsZ-based mechanism that relies on a multi-protein complex, the divisome. In the majority of non-spherical bacteria another multi-protein complex, the elongasome, is also required for the maintenance of cell shape. Components of these multi-protein assemblies are conserved and essential in most bacteria. Here, we provide evidence that at least three proteins of these two complexes are not essential in the FtsZ-less ovoid planctomycete bacterium Planctopirus limnophila which divides by budding. We attempted to construct P. limnophila knock-out mutants of the genes coding for the divisome proteins FtsI, FtsK, FtsW and the elongasome protein MreB. Surprisingly, ftsI, ftsW and mreB could be deleted without affecting the growth rate. On the other hand, the conserved ftsK appeared to be essential in this bacterium. In conclusion, the canonical bacterial cell division machinery is not essential in P. limnophila and this bacterium divides via budding using an unknown mechanism.

Topics & Concepts

GeneDivision (mathematics)Cell divisionComputational biologyNon canonicalGeneticsBiologyCellComputer scienceEvolutionary biologyCell biologyMathematicsArithmeticProtist diversity and phylogenyMicrobial Community Ecology and PhysiologyDiatoms and Algae Research
Non-essentiality of canonical cell division genes in the planctomycete Planctopirus limnophila | Litcius