FARE, a New Family of Foldback Transposons in Arabidopsis

FARE, a New Family of Foldback Transposons in Arabidopsis

Aaron J. Windsor^a and Candace S. Waddell^a
^a Department of Biology, McGill University, Montreal, Quebec H3A 1B1, Canada

Corresponding author: Candace S. Waddell, Department of Biology, McGill University, 1205 Dr. Penfield Ave., Montreal, Quebec H3A 1B1, Canada., candace_waddell{at}maclan.mcgill.ca (E-mail)

Communicating editor: J. A. BIRCHLER

A new family of transposons, FARE, has been identified in Arabidopsis.The structure of these elements is typical of foldback transposons,a distinct subset of mobile DNA elements found in both plantsand animals. The ends of FARE elements are long, conserved invertedrepeat sequences typically 550 bp in length. These invertedrepeats are modular in organization and are predicted to conferextensive secondary structure to the elements. FARE elementsare present in high copy number, are heterogeneous in size,and can be divided into two subgroups. FARE1's average 1.1 kbin length and are composed entirely of the long inverted repeats.FARE2's are larger, up to 16.7 kb in length, and contain a largeinternal region in addition to the inverted repeat ends. Theinternal region is predicted to encode three proteins, one ofwhich bears homology to a known transposase. FARE1.1 was isolatedas an insertion polymorphism between the ecotypes Columbia andNossen. This, coupled with the presence of 9-bp target-siteduplications, strongly suggests that FARE elements have transposedrecently. The termini of FARE elements and other foldback transposonsare imperfect palindromic sequences, a unique organization thatfurther distinguishes these elements from other mobile DNAs.

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