Simultaneous sequencing of genetic and epigenetic bases in DNA

DNA comprises molecular information stored in genetic and epigenetic bases, both of which are vital to our understanding of biology. Most DNA sequencing approaches address either genetics or epigenetics and thus capture incomplete information. Methods widely used to detect epigenetic DNA bases fail...

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Autores principales: Füllgrabe, Jens, Gosal, Walraj S., Creed, Páidí, Liu, Sidong, Lumby, Casper K., Morley, David J., Ost, Tobias W. B., Vilella, Albert J., Yu, Shirong, Bignell, Helen, Burns, Philippa, Charlesworth, Tom, Fu, Beiyuan, Fordham, Howerd, Harding, Nicolas J., Gandelman, Olga, Golder, Paula, Hodson, Christopher, Li, Mengjie, Lila, Marjana, Liu, Yang, Mason, Joanne, Mellad, Jason, Monahan, Jack M., Nentwich, Oliver, Palmer, Alexandra, Steward, Michael, Taipale, Minna, Vandomme, Audrey, San-Bento, Rita Santo, Singhal, Ankita, Vivian, Julia, Wójtowicz, Natalia, Williams, Nathan, Walker, Nicolas J., Wong, Nicola C. H., Yalloway, Gary N., Holbrook, Joanna D., Balasubramanian, Shankar
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10567558/
https://www.ncbi.nlm.nih.gov/pubmed/36747096
http://dx.doi.org/10.1038/s41587-022-01652-0
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author Füllgrabe, Jens
Gosal, Walraj S.
Creed, Páidí
Liu, Sidong
Lumby, Casper K.
Morley, David J.
Ost, Tobias W. B.
Vilella, Albert J.
Yu, Shirong
Bignell, Helen
Burns, Philippa
Charlesworth, Tom
Fu, Beiyuan
Fordham, Howerd
Harding, Nicolas J.
Gandelman, Olga
Golder, Paula
Hodson, Christopher
Li, Mengjie
Lila, Marjana
Liu, Yang
Mason, Joanne
Mellad, Jason
Monahan, Jack M.
Nentwich, Oliver
Palmer, Alexandra
Steward, Michael
Taipale, Minna
Vandomme, Audrey
San-Bento, Rita Santo
Singhal, Ankita
Vivian, Julia
Wójtowicz, Natalia
Williams, Nathan
Walker, Nicolas J.
Wong, Nicola C. H.
Yalloway, Gary N.
Holbrook, Joanna D.
Balasubramanian, Shankar
author_facet Füllgrabe, Jens
Gosal, Walraj S.
Creed, Páidí
Liu, Sidong
Lumby, Casper K.
Morley, David J.
Ost, Tobias W. B.
Vilella, Albert J.
Yu, Shirong
Bignell, Helen
Burns, Philippa
Charlesworth, Tom
Fu, Beiyuan
Fordham, Howerd
Harding, Nicolas J.
Gandelman, Olga
Golder, Paula
Hodson, Christopher
Li, Mengjie
Lila, Marjana
Liu, Yang
Mason, Joanne
Mellad, Jason
Monahan, Jack M.
Nentwich, Oliver
Palmer, Alexandra
Steward, Michael
Taipale, Minna
Vandomme, Audrey
San-Bento, Rita Santo
Singhal, Ankita
Vivian, Julia
Wójtowicz, Natalia
Williams, Nathan
Walker, Nicolas J.
Wong, Nicola C. H.
Yalloway, Gary N.
Holbrook, Joanna D.
Balasubramanian, Shankar
author_sort Füllgrabe, Jens
collection PubMed
description DNA comprises molecular information stored in genetic and epigenetic bases, both of which are vital to our understanding of biology. Most DNA sequencing approaches address either genetics or epigenetics and thus capture incomplete information. Methods widely used to detect epigenetic DNA bases fail to capture common C-to-T mutations or distinguish 5-methylcytosine from 5-hydroxymethylcytosine. We present a single base-resolution sequencing methodology that sequences complete genetics and the two most common cytosine modifications in a single workflow. DNA is copied and bases are enzymatically converted. Coupled decoding of bases across the original and copy strand provides a phased digital readout. Methods are demonstrated on human genomic DNA and cell-free DNA from a blood sample of a patient with cancer. The approach is accurate, requires low DNA input and has a simple workflow and analysis pipeline. Simultaneous, phased reading of genetic and epigenetic bases provides a more complete picture of the information stored in genomes and has applications throughout biomedicine.
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spelling pubmed-105675582023-10-13 Simultaneous sequencing of genetic and epigenetic bases in DNA Füllgrabe, Jens Gosal, Walraj S. Creed, Páidí Liu, Sidong Lumby, Casper K. Morley, David J. Ost, Tobias W. B. Vilella, Albert J. Yu, Shirong Bignell, Helen Burns, Philippa Charlesworth, Tom Fu, Beiyuan Fordham, Howerd Harding, Nicolas J. Gandelman, Olga Golder, Paula Hodson, Christopher Li, Mengjie Lila, Marjana Liu, Yang Mason, Joanne Mellad, Jason Monahan, Jack M. Nentwich, Oliver Palmer, Alexandra Steward, Michael Taipale, Minna Vandomme, Audrey San-Bento, Rita Santo Singhal, Ankita Vivian, Julia Wójtowicz, Natalia Williams, Nathan Walker, Nicolas J. Wong, Nicola C. H. Yalloway, Gary N. Holbrook, Joanna D. Balasubramanian, Shankar Nat Biotechnol Article DNA comprises molecular information stored in genetic and epigenetic bases, both of which are vital to our understanding of biology. Most DNA sequencing approaches address either genetics or epigenetics and thus capture incomplete information. Methods widely used to detect epigenetic DNA bases fail to capture common C-to-T mutations or distinguish 5-methylcytosine from 5-hydroxymethylcytosine. We present a single base-resolution sequencing methodology that sequences complete genetics and the two most common cytosine modifications in a single workflow. DNA is copied and bases are enzymatically converted. Coupled decoding of bases across the original and copy strand provides a phased digital readout. Methods are demonstrated on human genomic DNA and cell-free DNA from a blood sample of a patient with cancer. The approach is accurate, requires low DNA input and has a simple workflow and analysis pipeline. Simultaneous, phased reading of genetic and epigenetic bases provides a more complete picture of the information stored in genomes and has applications throughout biomedicine. Nature Publishing Group US 2023-02-06 2023 /pmc/articles/PMC10567558/ /pubmed/36747096 http://dx.doi.org/10.1038/s41587-022-01652-0 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Füllgrabe, Jens
Gosal, Walraj S.
Creed, Páidí
Liu, Sidong
Lumby, Casper K.
Morley, David J.
Ost, Tobias W. B.
Vilella, Albert J.
Yu, Shirong
Bignell, Helen
Burns, Philippa
Charlesworth, Tom
Fu, Beiyuan
Fordham, Howerd
Harding, Nicolas J.
Gandelman, Olga
Golder, Paula
Hodson, Christopher
Li, Mengjie
Lila, Marjana
Liu, Yang
Mason, Joanne
Mellad, Jason
Monahan, Jack M.
Nentwich, Oliver
Palmer, Alexandra
Steward, Michael
Taipale, Minna
Vandomme, Audrey
San-Bento, Rita Santo
Singhal, Ankita
Vivian, Julia
Wójtowicz, Natalia
Williams, Nathan
Walker, Nicolas J.
Wong, Nicola C. H.
Yalloway, Gary N.
Holbrook, Joanna D.
Balasubramanian, Shankar
Simultaneous sequencing of genetic and epigenetic bases in DNA
title Simultaneous sequencing of genetic and epigenetic bases in DNA
title_full Simultaneous sequencing of genetic and epigenetic bases in DNA
title_fullStr Simultaneous sequencing of genetic and epigenetic bases in DNA
title_full_unstemmed Simultaneous sequencing of genetic and epigenetic bases in DNA
title_short Simultaneous sequencing of genetic and epigenetic bases in DNA
title_sort simultaneous sequencing of genetic and epigenetic bases in dna
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10567558/
https://www.ncbi.nlm.nih.gov/pubmed/36747096
http://dx.doi.org/10.1038/s41587-022-01652-0
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