Abstract
The coding coenzyme handle hypothesis suggests that useful coding preceded translation. Early adapters, the ancestors of present-day anticodons, were charged with amino acids acting as coenzymes of ribozymes in a metabolically complex RNA world. The ancestral aminoacyl-adapter synthetases could have been similar to present-day self-splicing tRNA introns. A codon-anticodon-discriminator base complex embedded in these synthetases could have played an important role in amino acid recognition. Extension of the genetic code proceeded through the takeover of nonsense codons by novel amino acids, related to already coded ones either through precursor-product relationship or physicochemical similarity. The hypothesis is open for experimental tests.
- acceptor_stem,
- anticodon,
- cognate_amino-acid,
- complementary-oligonucleotide_binding,
- enzymatic_aminoacylation,
- evolution,
- nucleotides,
- origin_of_life,
- protein-synthesis,
- ribozymes,
- rna_world,
- tetrahymena_ribozyme
- transfer_rna-synthetase,
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