Inouye et al. (2020) use the observation that Ser is coded in the genetic code by two blocks of codons that differ on more than one base to understand some aspects of the origin of the genetic code organization. I argue instead that this observation per se cannot be used to understand any aspect of the origin of the genetic code, unless it is accompanied by other assumptions concerning in the specific case: (i) the ancestrality of some amino acids, (ii) the hypothesis that the first mRNA to be translated was poly-G, which can be translated into poly-Gly, and (iii) an evolutionary mechanism for the genetic code origin based on the duplication of tRNAs. However, both the tRNA duplication mechanism and the existence of poly-G as the first mRNA to be translated are not corroborated as mechanisms through which the genetic code would have been structured. For example, the origin of the actual mRNA should have been preceded by the evolution of a proto-mRNA which evidently already coded for more than one amino acid. Therefore, when it evolved from proto-mRNA, the mRNA should already have coded for more than one amino acid. In other words, poly-G as mRNA would most likely never have existed because the first mRNAs already had to code for more than one amino acid. On the contrary, all these assumptions would have been operational if the observations of Inouye et al. (2020) had been discussed within the coevolution theory of the origin of the genetic code, which they do not.
Keywords: Ancestral amino acids; First mRNAs; Genetic code coevolution theory; Serine codons.
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