Effective population size (N) determines the amount of genetic diversity and the fate of genetic variants in a species and thus is an essential parameter in evolutionary genetics. There are standard approaches to determine the N of evolving species. For example, the long-term N of an extant species is calculated based on its unbiased global mutation rate and the neutral genetic diversity of the species. However, approaches for inferring N of ancestral lineages are less known. Here, we introduce an evolutionary genetic statistic and an analytical procedure to assess the efficiency of natural selection for deep nodes by calculating rates of nonsynonymous nucleotide substitutions leading to radical (d) and conservative (d) amino acid replacements, respectively. Given that radical variants are more likely to be deleterious than conservative ones, an elevated d/d ratio in gene families across the genome means an accelerated genome-wide accumulation of the more deleterious type of mutations (i.e., radical variants), which indicates that natural selection is less efficient and genetic drift becomes more powerful. Earlier approaches that calculate d/d do not consider the impact of nucleotide composition (G+C content) on the d/d result, which is partially accounted for in more recent methods. Here, we use these methods to demonstrate that genetic drift may have driven the early evolution of Prochlorococcus, the most abundant carbon-fixing photosynthetic bacteria in the ocean.
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