Common Sequence Polymorphisms Shaping Genetic Diversity in Arabidopsis Thaliana

Overview

Journal Science

Specialty Science

Date 2007 Jul 21

PMID 17641193

Citations 373

Authors

Richard M Clark

Gabriele Schweikert

Christopher Toomajian

Stephan Ossowski

Georg Zeller

Paul Shinn

Norman Warthmann

Tina T Hu

Glenn Fu

David A Hinds

Huaming Chen

Kelly A Frazer

Daniel H Huson

Bernhard Scholkopf

Magnus Nordborg

Gunnar Ratsch

Joseph R Ecker

Detlef Weigel

Affiliations

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Abstract

The genomes of individuals from the same species vary in sequence as a result of different evolutionary processes. To examine the patterns of, and the forces shaping, sequence variation in Arabidopsis thaliana, we performed high-density array resequencing of 20 diverse strains (accessions). More than 1 million nonredundant single-nucleotide polymorphisms (SNPs) were identified at moderate false discovery rates (FDRs), and approximately 4% of the genome was identified as being highly dissimilar or deleted relative to the reference genome sequence. Patterns of polymorphism are highly nonrandom among gene families, with genes mediating interaction with the biotic environment having exceptional polymorphism levels. At the chromosomal scale, regional variation in polymorphism was readily apparent. A scan for recent selective sweeps revealed several candidate regions, including a notable example in which almost all variation was removed in a 500-kilobase window. Analyzing the polymorphisms we describe in larger sets of accessions will enable a detailed understanding of forces shaping population-wide sequence variation in A. thaliana.

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