Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing

PURPOSE: Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counse...

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Autores principales: Watson, Christopher M., El-Asrag, Mohammed, Parry, David A., Morgan, Joanne E., Logan, Clare V., Carr, Ian M., Sheridan, Eamonn, Charlton, Ruth, Johnson, Colin A., Taylor, Graham, Toomes, Carmel, McKibbin, Martin, Inglehearn, Chris F., Ali, Manir
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4136783/
https://www.ncbi.nlm.nih.gov/pubmed/25133751
http://dx.doi.org/10.1371/journal.pone.0104281
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author Watson, Christopher M.
El-Asrag, Mohammed
Parry, David A.
Morgan, Joanne E.
Logan, Clare V.
Carr, Ian M.
Sheridan, Eamonn
Charlton, Ruth
Johnson, Colin A.
Taylor, Graham
Toomes, Carmel
McKibbin, Martin
Inglehearn, Chris F.
Ali, Manir
author_facet Watson, Christopher M.
El-Asrag, Mohammed
Parry, David A.
Morgan, Joanne E.
Logan, Clare V.
Carr, Ian M.
Sheridan, Eamonn
Charlton, Ruth
Johnson, Colin A.
Taylor, Graham
Toomes, Carmel
McKibbin, Martin
Inglehearn, Chris F.
Ali, Manir
author_sort Watson, Christopher M.
collection PubMed
description PURPOSE: Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counselling, carrier testing and prenatal/pre-implantation diagnosis, and often leads to a clearer prognosis. In addition, in a proportion of cases, when the mutation is known treatment can be optimised and patients are eligible for enrolment into clinical trials for gene-specific therapies. METHODS: Patient genomic DNA was sheared, tagged and pooled in batches of four samples, prior to targeted capture and next generation sequencing. The enrichment reagent was designed against genes listed on the RetNet database (July 2010). Sequence data were aligned to the human genome and variants were filtered to identify potential pathogenic mutations. These were confirmed by Sanger sequencing. RESULTS: Molecular analysis of 20 DNAs from retinal dystrophy patients identified likely pathogenic mutations in 12 cases, many of them known and/or confirmed by segregation. These included previously described mutations in ABCA4 (c.6088C>T,p.R2030*; c.5882G>A,p.G1961E), BBS2 (c.1895G>C,p.R632P), GUCY2D (c.2512C>T,p.R838C), PROM1 (c.1117C>T,p.R373C), RDH12 (c.601T>C,p.C201R; c.506G>A,p.R169Q), RPGRIP1 (c.3565C>T,p.R1189*) and SPATA7 (c.253C>T,p.R85*) and new mutations in ABCA4 (c.3328+1G>C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G>T) and USH2A (c.12874A>G,p.N4292D). CONCLUSIONS: Tagging and pooling DNA prior to targeted capture of known retinal dystrophy genes identified mutations in 60% of cases. This relatively high success rate may reflect enrichment for consanguineous cases in the local Yorkshire population, and the use of multiplex families. Nevertheless this is a promising high throughput approach to retinal dystrophy diagnostics.
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spelling pubmed-41367832014-08-20 Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing Watson, Christopher M. El-Asrag, Mohammed Parry, David A. Morgan, Joanne E. Logan, Clare V. Carr, Ian M. Sheridan, Eamonn Charlton, Ruth Johnson, Colin A. Taylor, Graham Toomes, Carmel McKibbin, Martin Inglehearn, Chris F. Ali, Manir PLoS One Research Article PURPOSE: Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counselling, carrier testing and prenatal/pre-implantation diagnosis, and often leads to a clearer prognosis. In addition, in a proportion of cases, when the mutation is known treatment can be optimised and patients are eligible for enrolment into clinical trials for gene-specific therapies. METHODS: Patient genomic DNA was sheared, tagged and pooled in batches of four samples, prior to targeted capture and next generation sequencing. The enrichment reagent was designed against genes listed on the RetNet database (July 2010). Sequence data were aligned to the human genome and variants were filtered to identify potential pathogenic mutations. These were confirmed by Sanger sequencing. RESULTS: Molecular analysis of 20 DNAs from retinal dystrophy patients identified likely pathogenic mutations in 12 cases, many of them known and/or confirmed by segregation. These included previously described mutations in ABCA4 (c.6088C>T,p.R2030*; c.5882G>A,p.G1961E), BBS2 (c.1895G>C,p.R632P), GUCY2D (c.2512C>T,p.R838C), PROM1 (c.1117C>T,p.R373C), RDH12 (c.601T>C,p.C201R; c.506G>A,p.R169Q), RPGRIP1 (c.3565C>T,p.R1189*) and SPATA7 (c.253C>T,p.R85*) and new mutations in ABCA4 (c.3328+1G>C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G>T) and USH2A (c.12874A>G,p.N4292D). CONCLUSIONS: Tagging and pooling DNA prior to targeted capture of known retinal dystrophy genes identified mutations in 60% of cases. This relatively high success rate may reflect enrichment for consanguineous cases in the local Yorkshire population, and the use of multiplex families. Nevertheless this is a promising high throughput approach to retinal dystrophy diagnostics. Public Library of Science 2014-08-18 /pmc/articles/PMC4136783/ /pubmed/25133751 http://dx.doi.org/10.1371/journal.pone.0104281 Text en © 2014 Watson et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Watson, Christopher M.
El-Asrag, Mohammed
Parry, David A.
Morgan, Joanne E.
Logan, Clare V.
Carr, Ian M.
Sheridan, Eamonn
Charlton, Ruth
Johnson, Colin A.
Taylor, Graham
Toomes, Carmel
McKibbin, Martin
Inglehearn, Chris F.
Ali, Manir
Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title_full Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title_fullStr Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title_full_unstemmed Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title_short Mutation Screening of Retinal Dystrophy Patients by Targeted Capture from Tagged Pooled DNAs and Next Generation Sequencing
title_sort mutation screening of retinal dystrophy patients by targeted capture from tagged pooled dnas and next generation sequencing
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4136783/
https://www.ncbi.nlm.nih.gov/pubmed/25133751
http://dx.doi.org/10.1371/journal.pone.0104281
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