From self-replication to replicator systems en route to de novo life

Paul Adamski¹, Marcel Eleveld¹, Ankush Sood¹, Ádám Kun^{2

3

4}, András Szilágyi^{2

3

4}, Tamás Czárán^{2

4}, Eörs Szathmáry^{5

6

7}, Sijbren Otto⁸

Affiliations

¹ Centre for Systems Chemistry, Stratingh Institute, University of Groningen, Groningen, Netherlands.
² Institute of Evolution, MTA Centre for Ecological Research, Tihany, Hungary.
³ Parmenides Center for the Conceptual Foundations of Science, Parmenides Foundation, Pullach, Germany.
⁴ MTA-ELTE Theoretical Biology and Evolutionary Ecology Research Group, Eötvös University, Budapest, Hungary.
⁵ Institute of Evolution, MTA Centre for Ecological Research, Tihany, Hungary. szathmary.eors@gmail.com.
⁶ Parmenides Center for the Conceptual Foundations of Science, Parmenides Foundation, Pullach, Germany. szathmary.eors@gmail.com.
⁷ Department of Plant Systematics, Ecology and Theoretical Biology, Eötvös University, Budapest, Hungary. szathmary.eors@gmail.com.
⁸ Centre for Systems Chemistry, Stratingh Institute, University of Groningen, Groningen, Netherlands. s.otto@rug.nl.

PMID: 37127968
DOI: 10.1038/s41570-020-0196-x

Review

From self-replication to replicator systems en route to de novo life

Paul Adamski et al. Nat Rev Chem. 2020 Aug.

. 2020 Aug;4(8):386-403.

doi: 10.1038/s41570-020-0196-x. Epub 2020 Jul 1.

Authors

Paul Adamski¹, Marcel Eleveld¹, Ankush Sood¹, Ádám Kun^{2

3

4}, András Szilágyi^{2

3

4}, Tamás Czárán^{2

4}, Eörs Szathmáry^{5

6

7}, Sijbren Otto⁸

Affiliations

¹ Centre for Systems Chemistry, Stratingh Institute, University of Groningen, Groningen, Netherlands.
² Institute of Evolution, MTA Centre for Ecological Research, Tihany, Hungary.
³ Parmenides Center for the Conceptual Foundations of Science, Parmenides Foundation, Pullach, Germany.
⁴ MTA-ELTE Theoretical Biology and Evolutionary Ecology Research Group, Eötvös University, Budapest, Hungary.
⁵ Institute of Evolution, MTA Centre for Ecological Research, Tihany, Hungary. szathmary.eors@gmail.com.
⁶ Parmenides Center for the Conceptual Foundations of Science, Parmenides Foundation, Pullach, Germany. szathmary.eors@gmail.com.
⁷ Department of Plant Systematics, Ecology and Theoretical Biology, Eötvös University, Budapest, Hungary. szathmary.eors@gmail.com.
⁸ Centre for Systems Chemistry, Stratingh Institute, University of Groningen, Groningen, Netherlands. s.otto@rug.nl.

PMID: 37127968
DOI: 10.1038/s41570-020-0196-x

Abstract

The process by which chemistry can give rise to biology remains one of the biggest mysteries in contemporary science. The de novo synthesis and origin of life both require the functional integration of three key characteristics - replication, metabolism and compartmentalization - into a system that is maintained out of equilibrium and is capable of open-ended Darwinian evolution. This Review takes systems of self-replicating molecules as starting points and describes the steps necessary to integrate additional characteristics of life. We analyse how far experimental self-replicators have come in terms of Darwinian evolution. We also cover models of replicator communities that attempt to solve Eigen's paradox, whereby accurate replication needs complex machinery yet obtaining such complex self-replicators through evolution requires accurate replication. Successful models rely on a collective metabolism and a way of (transient) compartmentalization, suggesting that the invention and integration of these two characteristics is driven by evolution. Despite our growing knowledge, there remain numerous key challenges that may be addressed by a combined theoretical and experimental approach.

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From self-replication to replicator systems en route to de novo life

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From self-replication to replicator systems en route to de novo life

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