Possible Ancestral Functions of the Genetic and RNA Operational Precodes and the Origin of the Genetic System

The origin of genetic systems is the central problem in the study of the origin of life for which various explanatory hypotheses have been presented. One model suggests that both ancestral transfer ribonucleic acid (tRNA) molecules and primitive ribosomes were originally involved in RNA replication...

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Bibliographic Details
Published in:Origins of life and evolution of biospheres 2021-06, Vol.51 (2), p.167-183
Main Authors: Martínez-Giménez, Juan A., Tabares-Seisdedos, Rafael
Format: Article
Language:English
Subjects:
Amino acids
Astronomy
Astrophysics and Astroparticles
Biochemistry
Biomedical and Life Sciences
Earth Sciences
Evolution
Hypotheses
Life Sciences
Observations and Techniques
Origin of life
Polymers
Replication
Ribonucleic acid
Ribosomes
RNA
Space life sciences
Theoretical Paper
Transfer RNA
Translation
tRNA
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Summary:The origin of genetic systems is the central problem in the study of the origin of life for which various explanatory hypotheses have been presented. One model suggests that both ancestral transfer ribonucleic acid (tRNA) molecules and primitive ribosomes were originally involved in RNA replication (Campbell 1991 ). According to this model the early tRNA molecules catalyzed their own self-loading with a trinucleotide complementary to their anticodon triplet, while the primordial ribosome (protoribosome) catalyzed the transfer of these terminal trinucleotides from one tRNA to another tRNA harboring the growing RNA polymer at the 3´-end. Here we present the notion that the anticodon-codon-like pairs presumably located in the acceptor stem of primordial tRNAs (Rodin et al. 1996 ) (thus being and remaining, after the code and translation origins, the major contributor to the RNA operational code (Schimmel et al. 1993 )) might have originally been used for RNA replication rather than translation; these anticodon and acceptor stem triplets would have been involved in accurately loading the 3’-end of tRNAs with a trinucleotide complementary to their anticodon triplet, thus allowing the accurate repair of tRNAs for their use by the protoribosome during RNA replication. We propose that tRNAs could have catalyzed their own trinucleotide self-loading by forming catalytic tRNA dimers which would have had polymerase activity. Therefore, the loading mechanism and its evolution may have been a basic step in the emergence of new genetic mechanisms such as genetic translation. The evolutionary implications of this proposed loading mechanism are also discussed.
ISSN:0169-6149
1573-0875
DOI:10.1007/s11084-021-09610-7