After the emergence of the first re

After the emergence of the first replicators capable of connecting amino acids
by peptide bonds, the synthesis of first, random polypeptide sequences at nucleotide
and/or ZnS templates could begin. Without considering the elusive chemical
details, it seems fitting, as in the previous section, to focus on selective factors that
could drive the emergence of the first polypeptides. They may have been recruited
to perform functions that did not require a particular amino acid sequence but
only the ability of a polypeptide to bind to a replicator, e.g. via the protein backbone
groups [209]. Such a binding, for example, could protect the backbone of
replicators from hydrolysis or cleavage. In addition, the bound polypeptides couldabsorb heat into which the energy of UV quanta was converted, therefore protecting
the replicators from thermal damage. It is noteworthy that, if a protecting
polypeptide could eventually discard excess energy by funnelling it into a chemical
reaction, then the probability of denaturation would have become lower. Those
replicators that could synthesize proteins capable of supporting catalysis by (ribo)
zymes [67] or catalyzing useful chemical reactions themselves may have got an
advantage. Eventually such a selection could establish a correspondence between
the nucleotide and amino acid sequences, see [46,47,53,58,67,73,217,218] for
tentative scenarios on the evolution of genetic code and protein synthesis.