Mosaic origin of the eukaryotic kinetochore

Publication date

2019-06-25

Authors

Tromer, Eelco C.
Van Hooff, Jolien J.E.
Kops, Geert J P LORCID 0000-0003-3555-5295ISNI 0000000394205033
Snel, Berend

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Abstract

The emergence of eukaryotes from ancient prokaryotic lineages embodied a remarkable increase in cellular complexity. While prokaryotes operate simple systems to connect DNA to the segregation machinery during cell division, eukaryotes use a highly complex protein assembly known as the kinetochore. Although conceptually similar, prokaryotic segregation systems and the eukaryotic kinetochore are not homologous. Here we investigate the origins of the kinetochore before the last eukaryotic common ancestor (LECA) using phylogenetic trees, sensitive profile-versus-profile homology detection, and structural comparisons of its protein components. We show that LECA’s kinetochore proteins share deep evolutionary histories with proteins involved in a few prokaryotic systems and a multitude of eukaryotic processes, including ubiquitination, transcription, and flagellar and vesicular transport systems. We find that gene duplications played a major role in shaping the kinetochore; more than half of LECA’s kinetochore proteins have other kinetochore proteins as closest homologs. Some of these have no detectable homology to any other eukaryotic protein, suggesting that they arose as kinetochore-specific folds before LECA. We propose that the primordial kinetochore evolved from proteins involved in various (pre)eukaryotic systems as well as evolutionarily novel folds, after which a subset duplicated to give rise to the complex kinetochore of LECA.

Keywords

Eukaryogenesis, Gene duplication, Kinetochore, LECA, Mitosis, eukaryogenesis, gene duplication, kinetochore, mitosis, General, Journal Article

Citation

Tromer, E C, van Hooff, J J E, Kops, G J P L & Snel, B 2019, 'Mosaic origin of the eukaryotic kinetochore', Proceedings of the National Academy of Sciences of the United States of America, vol. 116, no. 26, pp. 12873-12882. https://doi.org/10.1073/pnas.1821945116