I keep on wondering, in what way the basic components of the genetic code may have evolved in the absence of any translational machinery. In other words, is it possible that precursors to today's tRNAs simply bound to amino acids thus enabling them to accumulate in higher concentrations than would have been possible in the absence of such interactions? tRNA-like molecules that bound to hydrophobic amino acids may have been able to interact with lipids at the liquid/air or at the liquid/solid interphase. With an accumulation of those tRNA-like molecules other tRNA-like molecules that bound to hydrophilic amino acids may have in turn formed aggregates with the hydrophobic amino acid-binding tRNAs via the codon-equivalent regions, leading to the basic dichotomy between N-U-N and N'-A-N' codons and to a microenvironment with favourable conditions for interactions between different species of nucleic and amino acids. The hydrophilic amino acids would have to balance the charge inequalities leading to basic and acidic amino acids landing close by one another. The next step would be that RNA molecules with catalytic activity bound these adaptor RNAs at strategic positions and the attached amino acids started to be a part of the catalytic process. Finally, the translational machinery would have evolved and the code would have continued to change with it. Some RNA-amino acid pairings would have been thrown out of the race and new ones joined the process at this stage. A drive to reduce codon ambiguity and to minimize errors in translation are likely to be two important factors in the evolution of the code, but some initial rules laid down by the pre-translation system were already in place before the era of large-scale protein synthesis.