Accurate whole genome sequencing and haplotyping from10-20 human cells

Recent advances in whole genome sequencing have brought the vision of personal genomics and genomic medicine closer to reality. However, current methods lack clinical accuracy and the ability to describe the context (haplotypes) in which genome variants co-occur in a cost-effective manner. Here we d...

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Autores principales: Peters, Brock A., Kermani, Bahram G., Sparks, Andrew B., Alferov, Oleg, Hong, Peter, Alexeev, Andrei, Jiang, Yuan, Dahl, Fredrik, Tang, Y. Tom, Haas, Juergen, Robasky, Kimberly, Zaranek, Alexander Wait, Lee, Je-Hyuk, Ball, Madeleine Price, Peterson, Joseph E., Perazich, Helena, Yeung, George, Liu, Jia, Chen, Linsu, Kennemer, Michael I., Pothuraju, Kaliprasad, Konvicka, Karel, Tsoupko-Sitnikov, Mike, Pant, Krishna P., Ebert, Jessica C., Nilsen, Geoffrey B., Baccash, Jonathan, Halpern, Aaron L., Church, George M., Drmanac, Radoje
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2012
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3397394/
https://www.ncbi.nlm.nih.gov/pubmed/22785314
http://dx.doi.org/10.1038/nature11236
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author Peters, Brock A.
Kermani, Bahram G.
Sparks, Andrew B.
Alferov, Oleg
Hong, Peter
Alexeev, Andrei
Jiang, Yuan
Dahl, Fredrik
Tang, Y. Tom
Haas, Juergen
Robasky, Kimberly
Zaranek, Alexander Wait
Lee, Je-Hyuk
Ball, Madeleine Price
Peterson, Joseph E.
Perazich, Helena
Yeung, George
Liu, Jia
Chen, Linsu
Kennemer, Michael I.
Pothuraju, Kaliprasad
Konvicka, Karel
Tsoupko-Sitnikov, Mike
Pant, Krishna P.
Ebert, Jessica C.
Nilsen, Geoffrey B.
Baccash, Jonathan
Halpern, Aaron L.
Church, George M.
Drmanac, Radoje
author_facet Peters, Brock A.
Kermani, Bahram G.
Sparks, Andrew B.
Alferov, Oleg
Hong, Peter
Alexeev, Andrei
Jiang, Yuan
Dahl, Fredrik
Tang, Y. Tom
Haas, Juergen
Robasky, Kimberly
Zaranek, Alexander Wait
Lee, Je-Hyuk
Ball, Madeleine Price
Peterson, Joseph E.
Perazich, Helena
Yeung, George
Liu, Jia
Chen, Linsu
Kennemer, Michael I.
Pothuraju, Kaliprasad
Konvicka, Karel
Tsoupko-Sitnikov, Mike
Pant, Krishna P.
Ebert, Jessica C.
Nilsen, Geoffrey B.
Baccash, Jonathan
Halpern, Aaron L.
Church, George M.
Drmanac, Radoje
author_sort Peters, Brock A.
collection PubMed
description Recent advances in whole genome sequencing have brought the vision of personal genomics and genomic medicine closer to reality. However, current methods lack clinical accuracy and the ability to describe the context (haplotypes) in which genome variants co-occur in a cost-effective manner. Here we describe a low-cost DNA sequencing and haplotyping process, Long Fragment Read (LFR) technology, similar to sequencing long single DNA molecules without cloning or separation of metaphase chromosomes. In this study, ten LFR libraries were made using only ~100 pg of human DNA per sample. Up to 97% of the heterozygous single nucleotide variants (SNVs) were assembled into long haplotype contigs. Removal of false positive SNVs not phased by multiple LFR haplotypes resulted in a final genome error rate of 1 in 10 Mb. Cost-effective and accurate genome sequencing and haplotyping from 10-20 human cells, as demonstrated here, will enable comprehensive genetic studies and diverse clinical applications.
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spelling pubmed-33973942013-01-12 Accurate whole genome sequencing and haplotyping from10-20 human cells Peters, Brock A. Kermani, Bahram G. Sparks, Andrew B. Alferov, Oleg Hong, Peter Alexeev, Andrei Jiang, Yuan Dahl, Fredrik Tang, Y. Tom Haas, Juergen Robasky, Kimberly Zaranek, Alexander Wait Lee, Je-Hyuk Ball, Madeleine Price Peterson, Joseph E. Perazich, Helena Yeung, George Liu, Jia Chen, Linsu Kennemer, Michael I. Pothuraju, Kaliprasad Konvicka, Karel Tsoupko-Sitnikov, Mike Pant, Krishna P. Ebert, Jessica C. Nilsen, Geoffrey B. Baccash, Jonathan Halpern, Aaron L. Church, George M. Drmanac, Radoje Nature Article Recent advances in whole genome sequencing have brought the vision of personal genomics and genomic medicine closer to reality. However, current methods lack clinical accuracy and the ability to describe the context (haplotypes) in which genome variants co-occur in a cost-effective manner. Here we describe a low-cost DNA sequencing and haplotyping process, Long Fragment Read (LFR) technology, similar to sequencing long single DNA molecules without cloning or separation of metaphase chromosomes. In this study, ten LFR libraries were made using only ~100 pg of human DNA per sample. Up to 97% of the heterozygous single nucleotide variants (SNVs) were assembled into long haplotype contigs. Removal of false positive SNVs not phased by multiple LFR haplotypes resulted in a final genome error rate of 1 in 10 Mb. Cost-effective and accurate genome sequencing and haplotyping from 10-20 human cells, as demonstrated here, will enable comprehensive genetic studies and diverse clinical applications. 2012-07-11 /pmc/articles/PMC3397394/ /pubmed/22785314 http://dx.doi.org/10.1038/nature11236 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Peters, Brock A.
Kermani, Bahram G.
Sparks, Andrew B.
Alferov, Oleg
Hong, Peter
Alexeev, Andrei
Jiang, Yuan
Dahl, Fredrik
Tang, Y. Tom
Haas, Juergen
Robasky, Kimberly
Zaranek, Alexander Wait
Lee, Je-Hyuk
Ball, Madeleine Price
Peterson, Joseph E.
Perazich, Helena
Yeung, George
Liu, Jia
Chen, Linsu
Kennemer, Michael I.
Pothuraju, Kaliprasad
Konvicka, Karel
Tsoupko-Sitnikov, Mike
Pant, Krishna P.
Ebert, Jessica C.
Nilsen, Geoffrey B.
Baccash, Jonathan
Halpern, Aaron L.
Church, George M.
Drmanac, Radoje
Accurate whole genome sequencing and haplotyping from10-20 human cells
title Accurate whole genome sequencing and haplotyping from10-20 human cells
title_full Accurate whole genome sequencing and haplotyping from10-20 human cells
title_fullStr Accurate whole genome sequencing and haplotyping from10-20 human cells
title_full_unstemmed Accurate whole genome sequencing and haplotyping from10-20 human cells
title_short Accurate whole genome sequencing and haplotyping from10-20 human cells
title_sort accurate whole genome sequencing and haplotyping from10-20 human cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3397394/
https://www.ncbi.nlm.nih.gov/pubmed/22785314
http://dx.doi.org/10.1038/nature11236
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