Selection of the Early Genetic Code by Ultraviolet Light

The DNA sequences available in the prebiotic era were the genomic building blocks of the first life forms on Earth and have therefore been a matter of intense debate.[1][1],[2][2] On the surface of the Early Earth, ultraviolet (UV) light is a key energy source[3][3], which is known to damage nucleic acids[4][4]. However, a systematic study of the sequence selectivity upon UV exposure under Early Earth conditions is still missing. In this work, we quantify the UV stability of all possible canonical DNA sequences and derive information on codon appearance under UV irradiation as selection pressure. We irradiate a model system of random 8mers at 266 nm and determine its UV stability via next-generation sequencing. As a result, we obtain the formation rates of the dominant dimer lesions as a function of their neighboring sequences and find a strong sequence selectivity. On the basis of our experimental results, we simulate the photodamage of short proto-genomes of 150 bases length by a Monte Carlo approach. Our results strongly argue for UV compatibility of early life and allow the ranking of codon evolutionary models with respect to their UV resistance. ### Competing Interest Statement The authors have declared no competing interest. [1]: #ref-1 [2]: #ref-2 [3]: #ref-3 [4]: #ref-4