Projects per year
Abstract
Asgard archaea are considered to be the closest known relatives of eukaryotes. Their genomes contain hundreds of eukaryotic signature proteins (ESPs), which inspired hypotheses on the evolution of the eukaryotic cell1–3. A role of ESPs in the formation of an elaborate cytoskeleton and complex cellular structures has been postulated4–6, but never visualized. Here we describe a highly enriched culture of ‘Candidatus Lokiarchaeum ossiferum’, a member of the Asgard phylum, which thrives anaerobically at 20 °C on organic carbon sources. It divides every 7–14 days, reaches cell densities of up to 5 × 107 cells per ml and has a significantly larger genome compared with the single previously cultivated Asgard strain7. ESPs represent 5% of its protein-coding genes, including four actin homologues. We imaged the enrichment culture using cryo-electron tomography, identifying ‘Ca. L. ossiferum’ cells on the basis of characteristic expansion segments of their ribosomes. Cells exhibited coccoid cell bodies and a network of branched protrusions with frequent constrictions. The cell envelope consists of a single membrane and complex surface structures. A long-range cytoskeleton extends throughout the cell bodies, protrusions and constrictions. The twisted double-stranded architecture of the filaments is consistent with F-actin. Immunostaining indicates that the filaments comprise Lokiactin—one of the most highly conserved ESPs in Asgard archaea. We propose that a complex actin-based cytoskeleton predated the emergence of the first eukaryotes and was a crucial feature in the evolution of the Asgard phylum by scaffolding elaborate cellular structures.
Original language | English |
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Pages (from-to) | 332-339 |
Number of pages | 8 |
Journal | Nature |
Volume | 613 |
Issue number | 7943 |
DOIs | |
Publication status | Published - 12 Jan 2023 |
Austrian Fields of Science 2012
- 106022 Microbiology
Projects
- 2 Finished
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TACKLE: TACK Superphylum and Lokiarchaeota Evolution: Dissecting the Ecology and Evolution of Archaea to Elucidate the Prokaryote to Eukaryote Transition
Schleper, C., Jandl, N., Kozlowski, J., Angeler, T., Alves, R., Mertens, L. M. Y., Mardini, M. A., Wimmer, E., Manoharan, L., Taubner, R., Bagnoud, A., Pribasnig, T., Zink, I. A., De Silva, J. M. K., Melcher, M., Amano, C., Mauerhofer, L., Ponce Toledo, R. I., Rodrigues de Oliveira, T., Mousavian, M., Monserrat i Diez, M., Perier, Ü., Hodgskiss, L., Ward, M., Hager, K. & Kerou, M.
1/08/16 → 31/07/22
Project: Research funding
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Microbial nitrogen cycling – from single cells to ecosystems
Schleper, C., Jandl, N., Bulgheresi, S., Hodgskiss, L., Paredes Rojas, G. F., Melcher, M., Weber, P., Kerou, M., Reyes, C., Haillot, E., König, L. & Wienkoop, S.
1/01/16 → 28/02/21
Project: Research funding
Press/Media
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Was Menschen mit Topfpflanzen gemeinsam haben
Wolfgang Däuble & Christa Schleper
18/02/23
1 item of Media coverage
Press/Media: Public Engagement Activities
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Bindeglied der frühen Evolution kultiviert
23/12/22
1 Media contribution
Press/Media: Public Engagement Activities
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Forscher züchteten möglichen Vorläufer höherer Zellen in Wiener Labor
21/12/22
1 Media contribution
Press/Media: Public Engagement Activities