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Genomic analysis finds no evidence of canonical eukaryotic DNA processing complexes in a free-living protist

Dayana E. Salas‐Leiva, Eelco C. Tromer, Bruce A. Curtis, Jon Jerlström-Hultqvist, Martin Kolísko, Zhenzhen Yi, Joan S. Salas‐Leiva, Lucie Gallot-Lavallée, Shelby K. Williams, Geert J.P.L. Kops, John M. Archibald, Alastair G. B. Simpson, Andrew J. Roger

2021Nature Communications61 citationsDOIOpen Access PDF

Abstract

Cells replicate and segregate their DNA with precision. Previous studies showed that these regulated cell-cycle processes were present in the last eukaryotic common ancestor and that their core molecular parts are conserved across eukaryotes. However, some metamonad parasites have secondarily lost components of the DNA processing and segregation apparatuses. To clarify the evolutionary history of these systems in these unusual eukaryotes, we generated a genome assembly for the free-living metamonad Carpediemonas membranifera and carried out a comparative genomics analysis. Here, we show that parasitic and free-living metamonads harbor an incomplete set of proteins for processing and segregating DNA. Unexpectedly, Carpediemonas species are further streamlined, lacking the origin recognition complex, Cdc6 and most structural kinetochore subunits. Carpediemonas species are thus the first known eukaryotes that appear to lack this suite of conserved complexes, suggesting that they likely rely on yet-to-be-discovered or alternative mechanisms to carry out these fundamental processes.

Topics & Concepts

BiologyGenomeEvolutionary biologyProtistComputational biologyGeneticsDNAComparative genomicsGenomicsGeneProtist diversity and phylogenyParasitic Infections and DiagnosticsGenomics and Phylogenetic Studies