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Geometric principles underlying the proliferation of a model cell system.

Ling Juan WuSeoungjun LeeSungshic ParkLucy E ElandAnil WipatSéamus HoldenJeff Errington
Published in: Nature communications (2020)
Many bacteria can form wall-deficient variants, or L-forms, that divide by a simple mechanism that does not require the FtsZ-based cell division machinery. Here, we use microfluidic systems to probe the growth, chromosome cycle and division mechanism of Bacillus subtilis L-forms. We find that forcing cells into a narrow linear configuration greatly improves the efficiency of cell growth and chromosome segregation. This reinforces the view that L-form division is driven by an excess accumulation of surface area over volume. Cell geometry also plays a dominant role in controlling the relative positions and movement of segregating chromosomes. Furthermore, the presence of the nucleoid appears to influence division both via a cell volume effect and by nucleoid occlusion, even in the absence of FtsZ. Our results emphasise the importance of geometric effects for a range of crucial cell functions, and are of relevance for efforts to develop artificial or minimal cell systems.
Keyphrases
  • single cell
  • cell therapy
  • signaling pathway
  • mesenchymal stem cells
  • bacillus subtilis
  • bone marrow
  • dna methylation
  • genome wide
  • single molecule
  • label free