| Title | An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People. |
| Publication Type | Journal Article |
| Year of Publication | 2012 |
| Authors | Nelson, MR, Wegmann, D, Ehm, MG, Kessner, D, St Jean, P, Verzilli, C, Shen, J, Tang, Z, Bacanu, S-A, Fraser, D, Warren, L, Aponte, J, Zawistowski, M, Liu, X, Zhang, H, Zhang, Y, Li, J, Li, Y, Li, L, Woollard, P, Topp, S, Hall, MD, Nangle, K, Wang, J, Abecasis, G, Cardon, LR, Zöllner, S, Whittaker, JC, Chissoe, SL, Novembre, J, Mooser, V |
| Journal | Science (New York, N.Y.) |
| Date Published | 2012 May 17 |
| ISSN | 1095-9203 |
| Keywords | exomes, sequencing |
| Abstract | Rare genetic variants contribute to complex disease risk; however, the abundance of rare variants in human populations remains unknown. We explored this spectrum of variation by sequencing 202 genes encoding drug targets in 14,002 individuals. We find rare variants are abundant (one every 17 bases) and geographically localized, such that even with large sample sizes, rare variant catalogs will be largely incomplete. We used the observed patterns of variation to estimate population growth parameters, the proportion of variants in a given frequency class that are putatively deleterious, and mutation rates for each gene. Overall, we conclude that, due to rapid population growth and weak purifying selection, human populations harbor an abundance of rare variants, many of which are deleterious and have relevance to understanding disease risk. |
| DOI | 10.1126/science.1217876 |
| Citation Key | Nelson:rare:2012 |
| PubMed ID | 22604722 |
An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People.
Neandertals
For years, I've worked on their bones. Now I'm working on their genes. Read more about the science studying these ancient people.
Denisova
From a finger bone of an ancient human came the record of a completely unexpected population. My lab is working on the science of the Denisova genome.
Acceleration
The advent of agriculture caused natural selection to speed up greatly in humans. We're uncovering some of the ways that populations have rapidly changed during the last 10,000 years.
Malapa
Just outside Johannesburg, the Malapa site is producing some of the most exciting finds in human evolution. This site is the headquarters of the Malapa Soft Tissue Project.