Transposon tools hopping in vertebrates | Zendy

Jun Ni | Zendy; Karl J. Clark | Zendy; Scott C. Fahrenkrug | Zendy; Stephen C. Ekker | Zendy

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Transposon tools hopping in vertebrates

Author(s) -

Jun Ni,

Karl J. Clark,

Scott C. Fahrenkrug,

Stephen C. Ekker

Publication year - 2008

Publication title -

briefings in functional genomics and proteomics

Language(s) - English

Resource type - Journals

eISSN - 1477-4062

pISSN - 1473-9550

DOI - 10.1093/bfgp/eln049

Subject(s) - transposable element , biology , zebrafish , computational biology , gene , vertebrate , genetics , evolutionary biology , genome

In the past decade, tools derived from DNA transposons have made major contributions to vertebrate genetic studies from gene delivery to gene discovery. Multiple, highly complementary systems have been developed, and many more are in the pipeline. Judging which DNA transposon element will work the best in diverse uses from zebrafish genetic manipulation to human gene therapy is currently a complex task. We have summarized the major transposon vector systems active in vertebrates, comparing and contrasting known critical biochemical and in vivo properties, for future tool design and new genetic applications.

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