A New Ac-Like Transposon of Arabidopsis Is Associated With a Deletion of the RPS5 Disease Resistance Gene

A New Ac-Like Transposon of Arabidopsis Is Associated With a Deletion of the RPS5 Disease Resistance Gene

Adam D. Henk^a, Randall F. Warren^a, and Roger W. Innes^a
^a Department of Biology, Indiana University, Bloomington, Indiana 47405

Corresponding author: Roger W. Innes, Department of Biology, Jordan Hall 142, Indiana University, Bloomington, IN 47405., rinnes{at}bio.indiana.edu (E-mail)

Communicating editor: V. SUNDARESAN

The RPS5 and RFL1 disease resistance genes of Arabidopsis ecotypeCol-0 are oriented in tandem and are separated by 1.4 kb. TheLer-0 ecotype contains RFL1, but lacks RPS5. Sequence analysisof the RPS5 deletion region in Ler-0 revealed the presence ofan Ac-like transposable element, which we have designated Tag2.Southern hybridization analysis of six Arabidopsis ecotypesrevealed 4–11 Tag2-homologous sequences in each, indicatingthat this element is ubiquitous in Arabidopsis and has beenactive in recent evolutionary time. The Tag2 insertion adjacentto RFL1 was unique to the Ler-0 ecotype, however, and was notpresent in two other ecotypes that lack RPS5. DNA sequence fromthe latter ecotypes lacked a transposon footprint, suggestingthat insertion of Tag2 occurred after the initial deletion ofRPS5. The deletion breakpoint contained a 192-bp insertion thatdisplayed hallmarks of a nonhomologous DNA end-joining event.We conclude that loss of RPS5 was caused by a double-strandbreak and subsequent repair, and cannot be attributed to unequalcrossing over between resistance gene homologs.

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