A crescendo of competent coding (c3) contains the Standard Genetic Code

The Standard Genetic Code (SGC) can arise by fusion of partial codes evolved in different individuals, perhaps for differing prior tasks. Such code fragments can be unified into an SGC after later evolution of accurate third-position Crick wobble. Late wobble advent fills in the coding table, leaving only later development of translational initiation and termination to reach the SGC in separated domains of life. This code fusion mechanism is computationally implemented here. Late Crick wobble after C3 fusion (c3-lCw) is tested for its ability to evolve the SGC. Compared with previously studied isolated coding tables, or with increasing numbers of parallel, but nonfusing codes, c3-lCw reaches the SGC sooner, is successful in a smaller population, and presents accurate and complete codes more frequently. Notably, a long crescendo of SGC-like codes is exposed for selection of superior translation. c3-lCw also effectively suppresses varied disordered assignments, thus converging on a unified code. Such merged codes closely approach the SGC, making its selection plausible. For example: Under routine conditions, approximate to 1 of 22 c3-lCw environments evolves codes with >= 20 assignments and <= 3 differences from the SGC, notably including codes identical to the Standard Genetic Code.

Automated summary

The Standard Genetic Code (SGC) can be formed by merging partial codes evolved in different individuals. This process can be achieved through the evolution of accurate third-position Crick wobble. The fusion of these code fragments leads to the creation of an SGC, which can be reached sooner and more frequently compared to other coding tables or nonfusing codes.