Efficient Transposition of Tol2 in the Mouse Germline | Zendy

Vincent W. Keng | Zendy; Barbara J. Ryan | Zendy; Kirk J. Wangensteen | Zendy; Darius Balciunas | Zendy; Christian Schmedt | Zendy; Stephen C. Ekker | Zendy; David A. Largaespada | Zendy

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Efficient Transposition of Tol2 in the Mouse Germline

Author(s) -

Vincent W. Keng,

Barbara J. Ryan,

Kirk J. Wangensteen,

Darius Balciunas,

Christian Schmedt,

Stephen C. Ekker,

David A. Largaespada

Publication year - 2009

Publication title -

genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.792

H-Index - 246

eISSN - 1943-2631

pISSN - 0016-6731

DOI - 10.1534/genetics.109.100768

Subject(s) - transposition (logic) , germline , biology , genetics , transposable element , genome , gene , computer science , artificial intelligence

Insertional mutagenesis screens play an integral part in the annotating of functional data for all sequenced genes in the postgenomic era. Chemical mutagenesis screens are highly efficient but identifying the causative gene can be a laborious task. Other mutagenesis platforms, such as transposable elements, have been successfully applied for insertional mutagenesis screens in both the mouse and rat. However, relatively low transposition efficiency has hampered their use as a high-throughput forward genetic mutagenesis screen. Here we report the first evidence of germline activity in the mouse using a naturally active DNA transposon derived from the medaka fish called Tol2, as an alternative system for high-throughput forward genetic mutagenesis screening tool.

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