LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption

LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption

LINE-1 (L1) elements are the most abundant autonomous non-LTR retrotransposons in the human genome. Having recently performed a meta-analysis of L1 endonuclease-mediated retrotranspositional events causing human genetic disease, we have extended this study by focusing on two key issues, namely, muta...

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Main Authors: Jian-Min Chen, Claude Férec, David N. Cooper
Format: Article
Language:English
Published: Hindawi Limited 2006-01-01
Series:Journal of Biomedicine and Biotechnology
Online Access:http://dx.doi.org/10.1155/JBB/2006/56182
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spelling doaj-d9f91bdca4bf4664b5f46ec8f5ea8dfa2020-11-24T21:45:15ZengHindawi LimitedJournal of Biomedicine and Biotechnology1110-72431110-72512006-01-01200610.1155/JBB/2006/5618256182LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene DisruptionJian-Min Chen0Claude Férec1David N. Cooper2INSERM U613, Génétique Moléculaire et Génétique Épidémiologique, Brest 29220, FranceINSERM U613, Génétique Moléculaire et Génétique Épidémiologique, Brest 29220, FranceInstitute of Medical Genetics, School of Medicine, Cardiff University, Heath Park Campus, Cardiff CF14 4XN, United KingdomLINE-1 (L1) elements are the most abundant autonomous non-LTR retrotransposons in the human genome. Having recently performed a meta-analysis of L1 endonuclease-mediated retrotranspositional events causing human genetic disease, we have extended this study by focusing on two key issues, namely, mutation detection bias and the multiplicity of mechanisms of target gene disruption. Our analysis suggests that whereas an ascertainment bias may have generally militated against the detection of autosomal L1-mediated insertions, autosomal L1 direct insertions could have been disproportionately overlooked owing to their unusually large size. Our analysis has also indicated that the mechanisms underlying the functional disruption of target genes by L1-mediated retrotranspositional events are likely to be dependent on several different factors such as the type of insertion (L1 direct, L1 trans-driven Alu, or SVA), the precise locations of the inserted sequences within the target gene regions, the length of the inserted sequences, and possibly also their orientation.http://dx.doi.org/10.1155/JBB/2006/56182
collection DOAJ
language English
format Article
sources DOAJ
author Jian-Min Chen
Claude Férec
David N. Cooper
spellingShingle Jian-Min Chen
Claude Férec
David N. Cooper
LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
Journal of Biomedicine and Biotechnology
author_facet Jian-Min Chen
Claude Férec
David N. Cooper
author_sort Jian-Min Chen
title LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
title_short LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
title_full LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
title_fullStr LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
title_full_unstemmed LINE-1 Endonuclease-Dependent Retrotranspositional Events Causing Human Genetic Disease: Mutation Detection Bias and Multiple Mechanisms of Target Gene Disruption
title_sort line-1 endonuclease-dependent retrotranspositional events causing human genetic disease: mutation detection bias and multiple mechanisms of target gene disruption
publisher Hindawi Limited
series Journal of Biomedicine and Biotechnology
issn 1110-7243
1110-7251
publishDate 2006-01-01
description LINE-1 (L1) elements are the most abundant autonomous non-LTR retrotransposons in the human genome. Having recently performed a meta-analysis of L1 endonuclease-mediated retrotranspositional events causing human genetic disease, we have extended this study by focusing on two key issues, namely, mutation detection bias and the multiplicity of mechanisms of target gene disruption. Our analysis suggests that whereas an ascertainment bias may have generally militated against the detection of autosomal L1-mediated insertions, autosomal L1 direct insertions could have been disproportionately overlooked owing to their unusually large size. Our analysis has also indicated that the mechanisms underlying the functional disruption of target genes by L1-mediated retrotranspositional events are likely to be dependent on several different factors such as the type of insertion (L1 direct, L1 trans-driven Alu, or SVA), the precise locations of the inserted sequences within the target gene regions, the length of the inserted sequences, and possibly also their orientation.
url http://dx.doi.org/10.1155/JBB/2006/56182
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AT claudeferec line1endonucleasedependentretrotranspositionaleventscausinghumangeneticdiseasemutationdetectionbiasandmultiplemechanismsoftargetgenedisruption
AT davidncooper line1endonucleasedependentretrotranspositionaleventscausinghumangeneticdiseasemutationdetectionbiasandmultiplemechanismsoftargetgenedisruption
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