A Population Threshold for Functional Polymorphisms

We sequenced 114 genes (for DNA repair, cell cycle arrest, apoptosis, and detoxification)in a mixed human population and observed a sudden increase in the number of functional polymorphisms below a minor allele frequency of approximately 6%. Functionality is assessed by considering the ratio in the number of nonsynonymous single nucletide polymorphisms (SNPs)to the number of synonymous or intron SNPs. This ratio is steady from below 1% in frequency-that regime traditionally associated with rare Mendelian diseases-all the way up to about 6% in frequency, after which it falls precipitously. We consider possible explanations for this threshold effect. There are four candidates as follows: (1). deleterious variants that have yet to be purified from the population, (2). balancing selection, in which a selective advantage accrues to the heterozygotes, (3). population-specific functional polymorphisms, and (4). adaptive variants that are accumulating in the population as a response to the dramatic environmental changes of the last 7000 approximately 17000 years.