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1. Characterization of autonomous Dart1 transposons belonging to the hAT superfamily in rice

Author

Hiroyuki Takahara, Rie Terada, Qian Qian, Kyoko Takagi, Yasuyo Johzuka-Hisatomi, Chang Ho Eun, Atsushi Hoshino, Shigeru Iida, Zenpei Shimatani, Kazuo Tsugane, and Masahiko Maekawa

Subjects

DNA, Bacterial, Transposable element, DNA, Plant, Autonomous elements, Genetic Vectors, Arabidopsis, Chromosomes, Plant, Frameshift mutation, Transposition (music), Epigenetic silencing, Transformation, Genetic, Genetics, DNA transposon, Gene Silencing, Molecular Biology, Gene, Transposase, Cloning, Original Paper, Base Sequence, biology, Chromosome Mapping, Oryza, General Medicine, Transposition activity, Plants, Genetically Modified, biology.organism_classification, DNA Transposable Elements, hAT superfamily, Rice

Abstract

An endogenous 0.6-kb rice DNA transposon, nDart1-0, was found as an active nonautonomous element in a mutable virescent line, pyl-v, displaying leaf variegations. Here, we demonstrated that the active autonomous element aDart in pyl-v corresponds to Dart1-27 on chromosome 6 in Nipponbare, which carries no active aDart elements, and that aDart and Dart1-27 are identical in their sequences and chromosomal locations, indicating that Dart1-27 is epigenetically silenced in Nipponbare. The identification of aDart in pyl-v was first performed by map-based cloning and by detection of the accumulated transposase transcripts. Subsequently, various transposition activities of the cloned Dart1-27 element from Nipponbare were demonstrated in Arabidopsis. Dart1-27 in Arabidopsis was able to excise nDart1-0 and Dart1-27 from cloned sites, generating footprints, and to integrate into new sites, generating 8-bp target site duplications. In addition to Dart1-27, Nipponbare contains 37 putative autonomous Dart1 elements because their putative transposase genes carry no apparent nonsense or frameshift mutations. Of these, at least four elements were shown to become active aDart elements in transgenic Arabidopsis plants, even though considerable sequence divergence arose among their transposases. Thus, these four Dart1 elements and Dart1-27 in Nipponbare must be potential autonomous elements silenced epigenetically. The regulatory and evolutionary implications of the autonomous Dart1 elements and the development of an efficient transposon-tagging system in rice are discussed. Electronic supplementary material The online version of this article (doi:10.1007/s00438-008-0410-x) contains supplementary material, which is available to authorized users.

Published

2009