A Functional Role for Transposases in a Large Eukaryotic Genome | Zendy

Mariusz Nowacki | Zendy; Brian P. Higgins | Zendy; Genevieve Maquilan | Zendy; Estienne C. Swart | Zendy; Thomas G. Doak | Zendy; Laura F. Landweber | Zendy

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A Functional Role for Transposases in a Large Eukaryotic Genome

Author(s) -

Mariusz Nowacki,

Brian P. Higgins,

Genevieve Maquilan,

Estienne C. Swart,

Thomas G. Doak,

Laura F. Landweber

Publication year - 2009

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1170023

Subject(s) - transposable element , genome , biology , genetics , transposase , germline , gene , retrotransposon , dna , computational biology

Despite comprising much of the eukaryotic genome, few transposons are active, and they usually confer no benefit to the host. Through an exaggerated process of genome rearrangement, Oxytricha trifallax destroys 95% of its germline genome during development. This includes the elimination of all transposon DNA. We show that germline-limited transposase genes play key roles in this process of genome-wide DNA excision, which suggests that transposases function in large eukaryotic genomes containing thousands of active transposons. We show that transposase gene expression occurs during germline-soma differentiation and that silencing of transposase by RNA interference leads to abnormal DNA rearrangement in the offspring. This study suggests a new important role in Oxytricha for this large portion of genomic DNA that was previously thought of as junk.

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