Genome Rearrangements by Nonlinear Transposons in Maize

Genome Rearrangements by Nonlinear Transposons in Maize

Jianbo Zhang^a and Thomas Peterson^a
^a Department of Zoology and Genetics and Department of Agronomy, Iowa State University, Ames, Iowa 50011

Corresponding author: Thomas Peterson, Department of Zoology and Genetics and Department of Agronomy, 2206 Molecular Biology, Iowa State University, Ames, Iowa 50011-3260., thomasp{at}iastate.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Transposable elements have long been considered as potentialagents of large-scale genome reorganization by virtue of theirability to induce chromosomal rearrangements such as deletions,duplications, inversions, and reciprocal translocations. Previousresearchers have shown that particular configurations of transposontermini can induce chromosome rearrangements at high frequencies.Here, we have analyzed chromosomal rearrangements derived froman unstable allele of the maize P1 (pericarp color) gene. Theprogenitor allele contains both a full-length Ac (Activator)transposable element and an Ac terminal fragment termed fAc(fractured Ac) inserted in the second intron of the P1-rr gene.Two rearranged alleles were derived from a classical maize eartwinned sector and were found to contain a large inverted duplicationand a corresponding deficiency. The sequences at the junctionsof the rearrangement breakpoints indicate that the duplicationand deletion structures were produced by a single transpositionevent involving Ac and fAc termini located on sister chromatids.Because the transposition process we describe involves transposonends located on different DNA molecules, it is termed nonlineartransposition (NLT). NLT can rapidly break and rejoin chromosomesand thus could have played an important role in generating structuralheterogeneity during genome evolution.

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