Eric J. Hayden scite author profile

The origins of life on Earth required the establishment of self-replicating chemical systems capable of maintaining and evolving biological information. In an RNA world, single self-replicating RNAs would have faced the extreme challenge of possessing a mutation rate low enough both to sustain their own information and to compete successfully against molecular parasites with limited evolvability. Thus theoretical analyses suggest that networks of interacting molecules were more likely to develop and sustain life-like behaviour. Here we show that mixtures of RNA fragments that self-assemble into self-replicating ribozymes spontaneously form cooperative catalytic cycles and networks. We find that a specific three-membered network has highly cooperative growth dynamics. When such cooperative networks are competed directly against selfish autocatalytic cycles, the former grow faster, indicating an intrinsic ability of RNA populations to evolve greater complexity through cooperation. We can observe the evolvability of networks through in vitro selection. Our experiments highlight the advantages of cooperative behaviour even at the molecular stages of nascent life.

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Cryptic genetic variation promotes rapid evolutionary adaptation in an RNA enzyme

Hayden

Ferrada

Wagner

2011

Nature

217

240

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Cryptic variation is caused by the robustness of phenotypes to mutations. Cryptic variation has no effect on phenotypes in a given genetic or environmental background, but it can have effects after mutations or environmental change. Because evolutionary adaptation by natural selection requires phenotypic variation, phenotypically revealed cryptic genetic variation may facilitate evolutionary adaptation. This is possible if the cryptic variation happens to be pre-adapted, or "exapted", to a new environment, and is thus advantageous once revealed. However, this facilitating role for cryptic variation has not been proven, partly because most pertinent work focuses on complex phenotypes of whole organisms whose genetic basis is incompletely understood. Here we show that populations of RNA enzymes with accumulated cryptic variation adapt more rapidly to a new substrate than a population without cryptic variation. A detailed analysis of our evolving RNA populations in genotype space shows that cryptic variation allows a population to explore new genotypes that become adaptive only in a new environment. Our observations show that cryptic variation contains new genotypes pre-adapted to a changed environment. Our results highlight the positive role that robustness and epistasis can have in adaptive evolution.

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Self-Assembly of a Group I Intron from Inactive Oligonucleotide Fragments

Hayden

Lehman

2006

Chemistry & Biology

103

133

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The Azoarcus group I ribozyme was broken into four fragments, 39-63 nucleotides long, that can self-assemble into covalently contiguous ribozymes via RNA-directed recombination events. The fragments have no activity individually yet can cooperate through base pairing and tertiary interactions to produce stable trans complexes at 48 degrees C. These complexes can then catalyze a sequence of energy-neutral recombination reactions utilizing other oligomers as substrates, assembling covalent versions of the ribozyme. Up to 17% of the original fragments are converted into approximately 200 nucleotide products in 8 hr. Assembly occurs primarily by only one of many possible pathways, and the reaction is driven in the correct and forward direction by the burial of key base-pairing regions in stems after recombination. Autocatalysis, and hence self-replication, is inferred by a reaction rate increase upon doping the reaction with full-length RNA.

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Systems Chemistry on Ribozyme Self‐Construction: Evidence for Anabolic Autocatalysis in a Recombination Network

2008

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Eric J. Hayden

Spontaneous network formation among cooperative RNA replicators

Cryptic genetic variation promotes rapid evolutionary adaptation in an RNA enzyme

Self-Assembly of a Group I Intron from Inactive Oligonucleotide Fragments

Systems Chemistry on Ribozyme Self‐Construction: Evidence for Anabolic Autocatalysis in a Recombination Network

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