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Near-ideal selection for the Standard Genetic Code

Published 10 Oct 2024 in q-bio.PE | (2410.07814v1)

Abstract: Evolutionary theorizing resembles building an aircraft while also piloting it; new results change the scaffold for older ideas, requiring revised strategy to remain airborne. A calculated kinetic pathway exists that, under explicit quantitative assumptions, delivers the SGC (Standard Genetic Code). The pathway and evidence for it is summarized below, striving for a clearer, more complete account than was possible during its construction. Beginning with experimental amino acid-RNA interactions, code assignments are fused, codes divide and an early coding crescendo is tested for homogeneous assignments, which are then selected for independent survival in a near-empty biotic world. During escape from the site of origin and diaspora, a near-complete SGC becomes dominant by supporting proficient division. Crescendo, escape and diaspora together comprise a near-ideal least selection for a Standard Genetic Code that specifically served LUCA, likely a free-living anaerobic thermophilic microbe. Selection during diaspora conceivably made persistence across gigayears feasible.

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