Increased DNA methylation variability in type 1 diabetes across three immune effector cell types

Increased DNA methylation variability in type 1 diabetes across three immune effector cell types

The incidence of type 1 diabetes is increasing, potentially implicating non-genetic factors. Here the authors conduct an epigenome-wide association study in disease-discordant twins and find increased DNA methylation variability at genes associated with immune cell metabolism and the cell cycle.

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Autores principales: Dirk S. Paul, Andrew E. Teschendorff, Mary A.N. Dang, Robert Lowe, Mohammed I. Hawa, Simone Ecker, Huriya Beyan, Stephanie Cunningham, Alexandra R. Fouts, Anita Ramelius, Frances Burden, Samantha Farrow, Sophia Rowlston, Karola Rehnstrom, Mattia Frontini, Kate Downes, Stephan Busche, Warren A. Cheung, Bing Ge, Marie-Michelle Simon, David Bujold, Tony Kwan, Guillaume Bourque, Avik Datta, Ernesto Lowy, Laura Clarke, Paul Flicek, Emanuele Libertini, Simon Heath, Marta Gut, Ivo G Gut, Willem H. Ouwehand, Tomi Pastinen, Nicole Soranzo, Sabine E. Hofer, Beate Karges, Thomas Meissner, Bernhard O. Boehm, Corrado Cilio, Helena Elding Larsson, Åke Lernmark, Andrea K. Steck, Vardhman K. Rakyan, Stephan Beck, R. David Leslie
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/74847440186d44ba8513e31e9862b708
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spelling oai:doaj.org-article:74847440186d44ba8513e31e9862b7082021-12-02T14:39:14ZIncreased DNA methylation variability in type 1 diabetes across three immune effector cell types10.1038/ncomms135552041-1723https://doaj.org/article/74847440186d44ba8513e31e9862b7082016-11-01T00:00:00Zhttps://doi.org/10.1038/ncomms13555https://doaj.org/toc/2041-1723The incidence of type 1 diabetes is increasing, potentially implicating non-genetic factors. Here the authors conduct an epigenome-wide association study in disease-discordant twins and find increased DNA methylation variability at genes associated with immune cell metabolism and the cell cycle.Dirk S. PaulAndrew E. TeschendorffMary A.N. DangRobert LoweMohammed I. HawaSimone EckerHuriya BeyanStephanie CunninghamAlexandra R. FoutsAnita RameliusFrances BurdenSamantha FarrowSophia RowlstonKarola RehnstromMattia FrontiniKate DownesStephan BuscheWarren A. CheungBing GeMarie-Michelle SimonDavid BujoldTony KwanGuillaume BourqueAvik DattaErnesto LowyLaura ClarkePaul FlicekEmanuele LibertiniSimon HeathMarta GutIvo G GutWillem H. OuwehandTomi PastinenNicole SoranzoSabine E. HoferBeate KargesThomas MeissnerBernhard O. BoehmCorrado CilioHelena Elding LarssonÅke LernmarkAndrea K. SteckVardhman K. RakyanStephan BeckR. David LeslieNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-11 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Dirk S. Paul
Andrew E. Teschendorff
Mary A.N. Dang
Robert Lowe
Mohammed I. Hawa
Simone Ecker
Huriya Beyan
Stephanie Cunningham
Alexandra R. Fouts
Anita Ramelius
Frances Burden
Samantha Farrow
Sophia Rowlston
Karola Rehnstrom
Mattia Frontini
Kate Downes
Stephan Busche
Warren A. Cheung
Bing Ge
Marie-Michelle Simon
David Bujold
Tony Kwan
Guillaume Bourque
Avik Datta
Ernesto Lowy
Laura Clarke
Paul Flicek
Emanuele Libertini
Simon Heath
Marta Gut
Ivo G Gut
Willem H. Ouwehand
Tomi Pastinen
Nicole Soranzo
Sabine E. Hofer
Beate Karges
Thomas Meissner
Bernhard O. Boehm
Corrado Cilio
Helena Elding Larsson
Åke Lernmark
Andrea K. Steck
Vardhman K. Rakyan
Stephan Beck
R. David Leslie
Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
description The incidence of type 1 diabetes is increasing, potentially implicating non-genetic factors. Here the authors conduct an epigenome-wide association study in disease-discordant twins and find increased DNA methylation variability at genes associated with immune cell metabolism and the cell cycle.
format article
author Dirk S. Paul
Andrew E. Teschendorff
Mary A.N. Dang
Robert Lowe
Mohammed I. Hawa
Simone Ecker
Huriya Beyan
Stephanie Cunningham
Alexandra R. Fouts
Anita Ramelius
Frances Burden
Samantha Farrow
Sophia Rowlston
Karola Rehnstrom
Mattia Frontini
Kate Downes
Stephan Busche
Warren A. Cheung
Bing Ge
Marie-Michelle Simon
David Bujold
Tony Kwan
Guillaume Bourque
Avik Datta
Ernesto Lowy
Laura Clarke
Paul Flicek
Emanuele Libertini
Simon Heath
Marta Gut
Ivo G Gut
Willem H. Ouwehand
Tomi Pastinen
Nicole Soranzo
Sabine E. Hofer
Beate Karges
Thomas Meissner
Bernhard O. Boehm
Corrado Cilio
Helena Elding Larsson
Åke Lernmark
Andrea K. Steck
Vardhman K. Rakyan
Stephan Beck
R. David Leslie
author_facet Dirk S. Paul
Andrew E. Teschendorff
Mary A.N. Dang
Robert Lowe
Mohammed I. Hawa
Simone Ecker
Huriya Beyan
Stephanie Cunningham
Alexandra R. Fouts
Anita Ramelius
Frances Burden
Samantha Farrow
Sophia Rowlston
Karola Rehnstrom
Mattia Frontini
Kate Downes
Stephan Busche
Warren A. Cheung
Bing Ge
Marie-Michelle Simon
David Bujold
Tony Kwan
Guillaume Bourque
Avik Datta
Ernesto Lowy
Laura Clarke
Paul Flicek
Emanuele Libertini
Simon Heath
Marta Gut
Ivo G Gut
Willem H. Ouwehand
Tomi Pastinen
Nicole Soranzo
Sabine E. Hofer
Beate Karges
Thomas Meissner
Bernhard O. Boehm
Corrado Cilio
Helena Elding Larsson
Åke Lernmark
Andrea K. Steck
Vardhman K. Rakyan
Stephan Beck
R. David Leslie
author_sort Dirk S. Paul
title Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
title_short Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
title_full Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
title_fullStr Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
title_full_unstemmed Increased DNA methylation variability in type 1 diabetes across three immune effector cell types
title_sort increased dna methylation variability in type 1 diabetes across three immune effector cell types
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/74847440186d44ba8513e31e9862b708
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