The overall goal of this project is to study variation in Alu retroposons in human populations. Alu elements compose approximately 5% of the human genome, and many of them are polymorphic (present or absent) in humans. Their unique properties make them ideally suited to studies of genetic variation and evolutionary history: because each element is inserted into the genome only once, polarity and identify by descent can be determined unambiguously. To date, however, only a handful of these polymorphisms have been identified and analyzed, and their variation in human populations remains poorly understood. In this project, we will identify 125 new polymorphic Alu polymorphisms in a worldwide sample of 400 individuals. We will develop new statistical methods that fully exploit the properties of these polymorphisms. The data and themes developed in this project will fully exploit the properties of these polymorphisms. The data and methods developed in this project will permit us to test a series of hypotheses about modern human origins and ancient human population sizes. The trajectory of human population size has important implications for the distribution of alleles that contribute to susceptibility to complex diseases. For a subset of 10 Alu polymorphisms, haplotypes will be constructed using single nucleotide and microsatellite polymorphisms located within 20 kb of the Alu insert. This will permit us to estimate the time of insertion of Alu elements, compare linkages disequilibrium patterns in populations with different histories, and study the behavior of linkage disequilibrium in well-controlled settings. These project will contribute to our understanding of human genetic evolution and the ways in which it influences the genetic variability that underlies complex human diseases.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM059290-03
Application #
6386465
Study Section
Genome Study Section (GNM)
Program Officer
Eckstrand, Irene A
Project Start
1999-05-01
Project End
2003-04-30
Budget Start
2001-05-01
Budget End
2002-04-30
Support Year
3
Fiscal Year
2001
Total Cost
$465,560
Indirect Cost
Name
University of Utah
Department
Genetics
Type
Schools of Medicine
DUNS #
City
Salt Lake City
State
UT
Country
United States
Zip Code
84112
Baker, Jasmine N; Walker, Jerilyn A; Denham, Michael W et al. (2018) Recently integratedAluinsertions in the squirrel monkey (Saimiri) lineage and application for population analyses. Mob DNA 9:9
Al-Agha, Abdulmoein Eid; Ahmed, Ihab Abdulhamed; Nuebel, Esther et al. (2018) Primary Ovarian Insufficiency and Azoospermia in Carriers of a Homozygous PSMC3IP Stop Gain Mutation. J Clin Endocrinol Metab 103:555-563
Steely, Cody J; Baker, Jasmine N; Walker, Jerilyn A et al. (2018) Analysis of lineage-specificAlusubfamilies in the genome of the olive baboon,Papio anubis. Mob DNA 9:10
Jordan, Vallmer E; Walker, Jerilyn A; Beckstrom, Thomas O et al. (2018) A computational reconstruction of Papio phylogeny using Alu insertion polymorphisms. Mob DNA 9:13
Gilbert, Clément; Feschotte, Cédric (2018) Horizontal acquisition of transposable elements and viral sequences: patterns and consequences. Curr Opin Genet Dev 49:15-24
Gardner, Eugene J; Lam, Vincent K; Harris, Daniel N et al. (2017) The Mobile Element Locator Tool (MELT): population-scale mobile element discovery and biology. Genome Res 27:1916-1929
Walker, Jerilyn A; Jordan, Vallmer E; Steely, Cody J et al. (2017) Papio Baboon Species Indicative Alu Elements. Genome Biol Evol 9:1788-1796
Feusier, Julie; Witherspoon, David J; Scott Watkins, W et al. (2017) Discovery of rare, diagnostic AluYb8/9 elements in diverse human populations. Mob DNA 8:9
Steely, Cody J; Walker, Jerilyn A; Jordan, Vallmer E et al. (2017) Alu Insertion Polymorphisms as Evidence for Population Structure in Baboons. Genome Biol Evol 9:2418-2427
Baker, Jasmine N; Walker, Jerilyn A; Vanchiere, John A et al. (2017) Evolution of Alu Subfamily Structure in the Saimiri Lineage of New World Monkeys. Genome Biol Evol 9:2365-2376

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