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A systematic analysis of LINE-1 endonuclease-dependent retrotranspositional events causing human genetic disease [review]

Chen, J. M., Stenson, Peter Daniel, Cooper, David Neil and Ferec, C. 2005. A systematic analysis of LINE-1 endonuclease-dependent retrotranspositional events causing human genetic disease [review]. Human Genetics -Berlin- 117 (5) , pp. 411-427. 10.1007/s00439-005-1321-0

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Abstract

Diverse long interspersed element-1 (LINE-1 or L1)-dependent mutational mechanisms have been extensively studied with respect to L1 and Alu elements engineered for retrotransposition in cultured cells and/or in genome-wide analyses. To what extent the in vitro studies can be held to accurately reflect in vivo events in the human genome, however, remains to be clarified. We have attempted to address this question by means of a systematic analysis of recent L1-mediated retrotranspositional events that have caused human genetic disease, with a view to providing a more complete picture of how L1-mediated retrotransposition impacts upon the architecture of the human genome. A total of 48 such mutations were identified, including those described as L1-mediated retrotransposons, as well as insertions reported to contain a poly(A) tail: 26 were L1 trans-driven Alu insertions, 15 were direct L1 insertions, four were L1 trans-driven SVA insertions, and three were associated with simple poly(A) insertions. The systematic study of these lesions, when combined with previous in vitro and genome-wide analyses, has strengthened several important conclusions regarding L1-mediated retrotransposition in humans: (a) approximately 25% of L1 insertions are associated with the 3' transduction of adjacent genomic sequences, (b) approximately 25% of the new L1 inserts are full-length, (c) poly(A) tail length correlates inversely with the age of the element, and (d) the length of target site duplication in vivo is rarely longer than 20 bp. Our analysis also suggests that some 10% of L1-mediated retrotranspositional events are associated with significant genomic deletions in humans. Finally, the identification of independent retrotranspositional events that have integrated at the same genomic locations provides new insight into the L1-mediated insertional process in humans.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Medicine
Subjects: R Medicine > R Medicine (General)
R Medicine > RZ Other systems of medicine
Publisher: Springer Verlag
ISSN: 0340-6717
Last Modified: 04 Jun 2017 06:29
URI: http://orca.cf.ac.uk/id/eprint/60803

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