C G Nitash scite author profile

While all organisms on Earth descend from a common ancestor, there is no consensus on whether the origin of this ancestral self-replicator was a one-off event or whether it was only the final survivor of multiple origins. Here we use the digital evolution system Avida to study the origin of self-replicating computer programs. By using a computational system, we avoid many of the uncertainties inherent in any biochemical system of self-replicators (while running the risk of ignoring a fundamental aspect of biochemistry). We generated the exhaustive set of minimal-genome selfreplicators and analyzed the network structure of this fitness landscape. We further examined the evolvability of these self-replicators and found that the evolvability of a self-replicator is dependent on its genomic architecture. We studied the differential ability of replicators to take over the population when competed against each other (akin to a primordial-soup model of biogenesis) and found that the probability of a selfreplicator out-competing the others is not uniform. Instead, progenitor (most-recent common ancestor) genotypes are clustered in a small region of the replicator space. Our results demonstrate how computational systems can be used as test systems for hypotheses concerning the origin of life.

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Information-theoretic characterization of the complete genotype-phenotype map of a complex pre-biotic world

Nitash

Adami

2021

Physics of Life Reviews

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The effect of periodic changes in the fitness landscape on brain structure and function

Nitash

Lundrigan²,

Smale³

et al. 2018

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MABE (Modular Agent Based Evolver): A framework for digital evolution research

Bohm

Nitash²,

Hintze

2017

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C G Nitash

An artificial bee colony algorithm for minimum weight dominating set

Origin of life in a digital microcosm

Information-theoretic characterization of the complete genotype-phenotype map of a complex pre-biotic world

The effect of periodic changes in the fitness landscape on brain structure and function

MABE (Modular Agent Based Evolver): A framework for digital evolution research

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