Human transposon tectonics

Kathleen Burns; Jef D. Boeke

doi:10.1016/j.cell.2012.04.019

Human transposon tectonics

Kathleen Burns, Jef D. Boeke

School of Medicine

Research output: Contribution to journal › Review article › peer-review

174 Scopus citations

Abstract

Mobile DNAs have had a central role in shaping our genome. More than half of our DNA is comprised of interspersed repeats resulting from replicative copy and paste events of retrotransposons. Although most are fixed, incapable of templating new copies, there are important exceptions to retrotransposon quiescence. De novo insertions cause genetic diseases and cancers, though reliably detecting these occurrences has been difficult. New technologies aimed at uncovering polymorphic insertions reveal that mobile DNAs provide a substantial and dynamic source of structural variation. Key questions going forward include how and how much new transposition events affect human health and disease.

Original language	English (US)
Pages (from-to)	740-752
Number of pages	13
Journal	Cell
Volume	149
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2012.04.019
State	Published - May 11 2012

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/j.cell.2012.04.019

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title = "Human transposon tectonics",

abstract = "Mobile DNAs have had a central role in shaping our genome. More than half of our DNA is comprised of interspersed repeats resulting from replicative copy and paste events of retrotransposons. Although most are fixed, incapable of templating new copies, there are important exceptions to retrotransposon quiescence. De novo insertions cause genetic diseases and cancers, though reliably detecting these occurrences has been difficult. New technologies aimed at uncovering polymorphic insertions reveal that mobile DNAs provide a substantial and dynamic source of structural variation. Key questions going forward include how and how much new transposition events affect human health and disease.",

author = "Kathleen Burns and Boeke, {Jef D.}",

note = "Funding Information: This work was supported by grants P01 CA16519 and RC1 HG005359 (to J.D.B.) and K08 CA134746 and a Career Award for Medical Scientists from the Burroughs Wellcome Foundation (to K.H.B.). ",

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AU - Boeke, Jef D.

N1 - Funding Information: This work was supported by grants P01 CA16519 and RC1 HG005359 (to J.D.B.) and K08 CA134746 and a Career Award for Medical Scientists from the Burroughs Wellcome Foundation (to K.H.B.).

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N2 - Mobile DNAs have had a central role in shaping our genome. More than half of our DNA is comprised of interspersed repeats resulting from replicative copy and paste events of retrotransposons. Although most are fixed, incapable of templating new copies, there are important exceptions to retrotransposon quiescence. De novo insertions cause genetic diseases and cancers, though reliably detecting these occurrences has been difficult. New technologies aimed at uncovering polymorphic insertions reveal that mobile DNAs provide a substantial and dynamic source of structural variation. Key questions going forward include how and how much new transposition events affect human health and disease.

AB - Mobile DNAs have had a central role in shaping our genome. More than half of our DNA is comprised of interspersed repeats resulting from replicative copy and paste events of retrotransposons. Although most are fixed, incapable of templating new copies, there are important exceptions to retrotransposon quiescence. De novo insertions cause genetic diseases and cancers, though reliably detecting these occurrences has been difficult. New technologies aimed at uncovering polymorphic insertions reveal that mobile DNAs provide a substantial and dynamic source of structural variation. Key questions going forward include how and how much new transposition events affect human health and disease.

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Human transposon tectonics

Abstract

ASJC Scopus subject areas

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