2021
DOI: 10.20944/preprints202105.0520.v1
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Genome Evolution from Random Ligation of RNAs of Autocatalytic Sets

Abstract: The evolutionary origin of the genome remains elusive. Here, I hypothesize that its first iteration, the protogenome, was a multi-ribozyme RNA. It evolved, likely within liposomes (the protocells) forming in dry-wet cycling environments, through the random fusion of ribozymes by a ligase and was amplified by a polymerase. The protogenome thereby linked, in one molecule, the information required to seed the protometabolism (a combination of RNA-based autocatalytic sets) in newly forming protocells. If this comb… Show more

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Cited by 2 publications
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“…In contrast to scenarios postulating that evolution began with the sudden appearance of a self‐replicase, we propose more gradual routes for the emergence of evolution [140–142], starting from collective autocatalysis, then its coupling with template‐based ligation, and finally the advent of template‐based replication. We first describe possible gradual paths and then discuss the functional and molecular continuities and discontinuities that are encountered along the way, highlighting the role of compartmentalisation in scaffolding intermediate regimes.…”
Section: Gradual Emergence Of Evolution Before the Self‐replicasementioning
confidence: 76%
“…In contrast to scenarios postulating that evolution began with the sudden appearance of a self‐replicase, we propose more gradual routes for the emergence of evolution [140–142], starting from collective autocatalysis, then its coupling with template‐based ligation, and finally the advent of template‐based replication. We first describe possible gradual paths and then discuss the functional and molecular continuities and discontinuities that are encountered along the way, highlighting the role of compartmentalisation in scaffolding intermediate regimes.…”
Section: Gradual Emergence Of Evolution Before the Self‐replicasementioning
confidence: 76%