mBio (Dec 2023)

Salactin, a dynamically unstable actin homolog in Haloarchaea

  • Jenny Zheng,
  • John Mallon,
  • Alex Lammers,
  • Theopi Rados,
  • Thomas Litschel,
  • Edmund R. R. Moody,
  • Diego A. Ramirez-Diaz,
  • Amy Schmid,
  • Tom A. Williams,
  • Alexandre W. Bisson-Filho,
  • Ethan Garner

DOI
https://doi.org/10.1128/mbio.02272-23
Journal volume & issue
Vol. 14, no. 6

Abstract

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ABSTRACTAcross the domains of life, actin homologs are integral components of many essential processes, such as DNA segregation, cell division, and cell shape determination. Archaeal genomes, like those of bacteria and eukaryotes, also encode actin homologs, but much less is known about these proteins’ in vivo dynamics and cellular functions. We identified and characterized the function and dynamics of Salactin, an actin homolog in the hypersaline archaeon Halobacterium salinarum. Live-cell time-lapse imaging revealed that Salactin forms dynamically unstable filaments that grow and shrink out of the cell poles. Like other dynamically unstable polymers, Salactin monomers are added at the growing filament end, and its ATP-bound critical concentration is substantially lower than the ADP-bound form. When H. salinarum’s chromosomal copy number becomes limiting under low-phosphate growth conditions, cells lacking Salactin show perturbed DNA distributions. Taken together, we propose that Salactin is part of a previously unknown chromosomal segregation apparatus required during low-ploidy conditions.IMPORTANCEProtein filaments play important roles in many biological processes. We discovered an actin homolog in halophilic archaea, which we call Salactin. Just like the filaments that segregate DNA in eukaryotes, Salactin grows out of the cell poles towards the middle, and then quickly depolymerizes, a behavior known as dynamic instability. Furthermore, we see that Salactin affects the distribution of DNA in daughter cells when cells are grown in low-phosphate media, suggesting Salactin filaments might be involved in segregating DNA when the cell has only a few copies of the chromosome.

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