Functional Dissection of the cis-Acting Sequences of the Arabidopsis Transposable Element Tag1 Reveals Dissimilar Subterminal Sequence and Minimal Spacing Requirements for Transposition

Functional Dissection of the cis-Acting Sequences of the Arabidopsis Transposable Element Tag1 Reveals Dissimilar Subterminal Sequence and Minimal Spacing Requirements for Transposition

Dong Liu^a, Alyson Mack^a, Rongchen Wang^a, Mary Galli^a, Jason Belk^a, Nan I. Ketpura^a, and Nigel M. Crawford^a
^a Section of Cell and Developmental Biology, Division of Biology, University of California, San Diego, California 92093-0116

Corresponding author: Nigel M. Crawford, Division of Biology, 0116, UCSD, 9500 Gilman Dr., San Diego, CA 92093-0116., ncrawford{at}ucsd.edu (E-mail)

Communicating editor: V. L. CHANDLER

The Arabidopsis transposon Tag1 has an unusual subterminal structurecontaining four sets of dissimilar repeats: one set near the5' end and three near the 3' end. To determine sequence requirementsfor efficient and regulated transposition, deletion derivativesof Tag1 were tested in Arabidopsis plants. These tests showedthat a 98-bp 5' fragment containing the 22-bp inverted repeatand four copies of the AAACCX (X = C, A, G) 5' subterminal repeatis sufficient for transposition while a 52-bp 5' fragment containingonly one copy of the subterminal repeat is not. At the 3' end,a 109-bp fragment containing four copies of the most 3' repeatTGACCC, but not a 55-bp fragment, which has no copies of thesubterminal repeats, is sufficient for transposition. The 5'and 3' end fragments are not functionally interchangeable andrequire an internal spacer DNA of minimal length between 238and 325 bp to be active. Elements with these minimal requirementsshow transposition rates and developmental control of excisionthat are comparable to the autonomous Tag1 element. Last, aDNA-binding activity that interacts with the 3' 109-bp fragmentbut not the 5' 98-bp fragment of Tag1 was found in nuclear extractsof Arabidopsis plants devoid of Tag1.

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