Evolution of the Protein Repertoire

“…The development of protein translation may have evolved as a mechanism to bring this crucial chemistry under the control of genetically-encoded enzymes [6]. Deoxyribonucleotides were probably unavailable until the evolution of ribonucleotide reductase proteins [7], implying that the development of the DNA genome was not even possible until substantial evolution of protein enzymes had taken place.…”

“…(a) The first genetic system probably involved informational RNAs encoding ribozymes which facilitated the replication of those informational RNAs [1]. Given the narrow catalytic range of ribozymes, this system probably relied on substantial networks of prebiotic chemistry to provide activated nucleotides [6]. (b) Protein synthesis by translation most likely arose from this RNA-based system [7] and rapidly developed into a highly processive, high-fidelity system [8].…”

Oxytricha as a modern analog of ancient genome evolution

“…The development of protein translation may have evolved as a mechanism to bring this crucial chemistry under the control of genetically-encoded enzymes [6]. Deoxyribonucleotides were probably unavailable until the evolution of ribonucleotide reductase proteins [7], implying that the development of the DNA genome was not even possible until substantial evolution of protein enzymes had taken place.…”

“…(a) The first genetic system probably involved informational RNAs encoding ribozymes which facilitated the replication of those informational RNAs [1]. Given the narrow catalytic range of ribozymes, this system probably relied on substantial networks of prebiotic chemistry to provide activated nucleotides [6]. (b) Protein synthesis by translation most likely arose from this RNA-based system [7] and rapidly developed into a highly processive, high-fidelity system [8].…”

Oxytricha as a modern analog of ancient genome evolution

Informatic Capabilities of Translation and Its Implications for the Origins of Life