Population Dynamics of an Ac-like Transposable Element in Self- and Cross-Pollinating Arabidopsis

Population Dynamics of an Ac-like Transposable Element in Self- and Cross-Pollinating Arabidopsis

Stephen I. Wright^a, Quang Hien Le^a, Daniel J. Schoen^a, and Thomas E. Bureau^a
^a Department of Biology, McGill University, Montreal, Quebec H3A 1B1, Canada

Corresponding author: Stephen I. Wright, Institute of Cell, Animal and Population Biology, University of Edinburgh, Ashworth Laboratories, King's Bldgs., W. Mains Rd., University of Edinburgh, Edinburgh, EH9 3JT Scotland., stephen.wright{at}ed.ac.uk (E-mail)

Communicating editor: O. SAVOLAINEN

Theoretical models predict that the mating system should bean important factor driving the dynamics of transposable elementsin natural populations due to differences in selective pressureon both element and host. We used a PCR-based approach to examinethe abundance and levels of insertion polymorphism of Ac-III,a recently identified Ac-like transposon family, in naturalpopulations of the selfing plant Arabidopsis thaliana and itsclose outcrossing relative, Arabidopsis lyrata. Although severalinsertions appeared to be ancient and shared between species,there is strong evidence for recent activity of this elementfamily in both species. Sequences of the regions flanking insertionsindicate that all Ac-III transposons segregating in naturalpopulations are in noncoding regions and provide no evidencefor local transposition events. Transposon display analysissuggests the presence of slightly higher numbers of insertionsites per individual but fewer total polymorphic insertionsin the self-pollinating A. thaliana than A. lyrata. Elementinsertions appear to be segregating at significantly lower frequenciesin A. lyrata than A. thaliana, which is consistent with a reductionin transposition rate, reduction in effective population size,or reduced efficacy of natural selection against element insertionsin selfing populations.

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