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doi:10.1534/genetics.107.075770
A more recent version of this article appeared on October 1, 2007.
REGULAR RESEARCH PAPERS |
State II Dissociation (Ds) Element Formation Following Activator (Ac) Excision in Maize
Liza J Conrad 1, Ling Bai 1, Kevin Ahern 2, Kelly Dusinberre 3, Daniel P Kane 4 and Thomas P Brutnell 2*
1 Cornell University
2 Boyce Thompson Institute
3 California Institute of Technology
4 Tufts University
* To whom correspondence should be addressed. E-mail: tpb8{at}cornell.edu.
Submitted on May 9, 2007
Revised on May 29, 2007
Accepted on 22 August 2007
Active Activator (Ac) elements undergo mutations to become non-autonomous Dissociation (Ds) elements at a low frequency. To understand the mechanism of Ds formation, we have developed high-throughput genetic and molecular screens to identify these rare Ds derivatives generated from any Ac insertion in the maize genome. Using these methods we have identified 15 new Ds elements derived from Ac insertions at 8 different loci. Approximately half of the Ds elements contain filler DNA inserted at the deletion junction that is derived from sequence within or adjacent to Ac. In contrast to previous reports, several of these Ds elements lack direct repeats flanking the deletion junctions and filler DNA in the donor Ac. To accommodate our findings and those of others, we propose a model of slip-mispairing during error-prone repair synthesis to explain the formation of state II Ds elements in maize. We discuss the use of these lines and molecular techniques developed here to capture somatic Ds transposition events in two-component Ac/Ds tagging programs in maize.
Key Words: Ac, Ds, mutagenesis, slip-mispairing, tagging
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