Integrative analysis of 111 reference human epigenomes

The reference human genome sequence set the stage for studies of genetic variation and its association with human disease, but a similar reference has lacked for epigenomic studies. To address this need, the NIH Roadmap Epigenomics Consortium generated the largest collection to-date of human epigeno...

Descripción completa

Detalles Bibliográficos
Autores principales: Kundaje, Anshul, Meuleman, Wouter, Ernst, Jason, Bilenky, Misha, Yen, Angela, Kheradpour, Pouya, Zhang, Zhizhuo, Heravi-Moussavi, Alireza, Liu, Yaping, Amin, Viren, Ziller, Michael J, Whitaker, John W, Schultz, Matthew D, Sandstrom, Richard S, Eaton, Matthew L, Wu, Yi-Chieh, Wang, Jianrong, Ward, Lucas D, Sarkar, Abhishek, Quon, Gerald, Pfenning, Andreas, Wang, Xinchen, Claussnitzer, Melina, Coarfa, Cristian, Harris, R Alan, Shoresh, Noam, Epstein, Charles B, Gjoneska, Elizabeta, Leung, Danny, Xie, Wei, Hawkins, R David, Lister, Ryan, Hong, Chibo, Gascard, Philippe, Mungall, Andrew J, Moore, Richard, Chuah, Eric, Tam, Angela, Canfield, Theresa K, Hansen, R Scott, Kaul, Rajinder, Sabo, Peter J, Bansal, Mukul S, Carles, Annaick, Dixon, Jesse R, Farh, Kai-How, Feizi, Soheil, Karlic, Rosa, Kim, Ah-Ram, Kulkarni, Ashwinikumar, Li, Daofeng, Lowdon, Rebecca, Mercer, Tim R, Neph, Shane J, Onuchic, Vitor, Polak, Paz, Rajagopal, Nisha, Ray, Pradipta, Sallari, Richard C, Siebenthall, Kyle T, Sinnott-Armstrong, Nicholas, Stevens, Michael, Thurman, Robert E, Wu, Jie, Zhang, Bo, Zhou, Xin, Beaudet, Arthur E, Boyer, Laurie A, De Jager, Philip, Farnham, Peggy J, Fisher, Susan J, Haussler, David, Jones, Steven, Li, Wei, Marra, Marco, McManus, Michael T, Sunyaev, Shamil, Thomson, James A, Tlsty, Thea D, Tsai, Li-Huei, Wang, Wei, Waterland, Robert A, Zhang, Michael, Chadwick, Lisa H, Bernstein, Bradley E, Costello, Joseph F, Ecker, Joseph R, Hirst, Martin, Meissner, Alexander, Milosavljevic, Aleksandar, Ren, Bing, Stamatoyannopoulos, John A, Wang, Ting, Kellis, Manolis
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4530010/
https://www.ncbi.nlm.nih.gov/pubmed/25693563
http://dx.doi.org/10.1038/nature14248
_version_ 1782384856932548608
author Kundaje, Anshul
Meuleman, Wouter
Ernst, Jason
Bilenky, Misha
Yen, Angela
Kheradpour, Pouya
Zhang, Zhizhuo
Heravi-Moussavi, Alireza
Liu, Yaping
Amin, Viren
Ziller, Michael J
Whitaker, John W
Schultz, Matthew D
Sandstrom, Richard S
Eaton, Matthew L
Wu, Yi-Chieh
Wang, Jianrong
Ward, Lucas D
Sarkar, Abhishek
Quon, Gerald
Pfenning, Andreas
Wang, Xinchen
Claussnitzer, Melina
Coarfa, Cristian
Harris, R Alan
Shoresh, Noam
Epstein, Charles B
Gjoneska, Elizabeta
Leung, Danny
Xie, Wei
Hawkins, R David
Lister, Ryan
Hong, Chibo
Gascard, Philippe
Mungall, Andrew J
Moore, Richard
Chuah, Eric
Tam, Angela
Canfield, Theresa K
Hansen, R Scott
Kaul, Rajinder
Sabo, Peter J
Bansal, Mukul S
Carles, Annaick
Dixon, Jesse R
Farh, Kai-How
Feizi, Soheil
Karlic, Rosa
Kim, Ah-Ram
Kulkarni, Ashwinikumar
Li, Daofeng
Lowdon, Rebecca
Mercer, Tim R
Neph, Shane J
Onuchic, Vitor
Polak, Paz
Rajagopal, Nisha
Ray, Pradipta
Sallari, Richard C
Siebenthall, Kyle T
Sinnott-Armstrong, Nicholas
Stevens, Michael
Thurman, Robert E
Wu, Jie
Zhang, Bo
Zhou, Xin
Beaudet, Arthur E
Boyer, Laurie A
De Jager, Philip
Farnham, Peggy J
Fisher, Susan J
Haussler, David
Jones, Steven
Li, Wei
Marra, Marco
McManus, Michael T
Sunyaev, Shamil
Thomson, James A
Tlsty, Thea D
Tsai, Li-Huei
Wang, Wei
Waterland, Robert A
Zhang, Michael
Chadwick, Lisa H
Bernstein, Bradley E
Costello, Joseph F
Ecker, Joseph R
Hirst, Martin
Meissner, Alexander
Milosavljevic, Aleksandar
Ren, Bing
Stamatoyannopoulos, John A
Wang, Ting
Kellis, Manolis
author_facet Kundaje, Anshul
Meuleman, Wouter
Ernst, Jason
Bilenky, Misha
Yen, Angela
Kheradpour, Pouya
Zhang, Zhizhuo
Heravi-Moussavi, Alireza
Liu, Yaping
Amin, Viren
Ziller, Michael J
Whitaker, John W
Schultz, Matthew D
Sandstrom, Richard S
Eaton, Matthew L
Wu, Yi-Chieh
Wang, Jianrong
Ward, Lucas D
Sarkar, Abhishek
Quon, Gerald
Pfenning, Andreas
Wang, Xinchen
Claussnitzer, Melina
Coarfa, Cristian
Harris, R Alan
Shoresh, Noam
Epstein, Charles B
Gjoneska, Elizabeta
Leung, Danny
Xie, Wei
Hawkins, R David
Lister, Ryan
Hong, Chibo
Gascard, Philippe
Mungall, Andrew J
Moore, Richard
Chuah, Eric
Tam, Angela
Canfield, Theresa K
Hansen, R Scott
Kaul, Rajinder
Sabo, Peter J
Bansal, Mukul S
Carles, Annaick
Dixon, Jesse R
Farh, Kai-How
Feizi, Soheil
Karlic, Rosa
Kim, Ah-Ram
Kulkarni, Ashwinikumar
Li, Daofeng
Lowdon, Rebecca
Mercer, Tim R
Neph, Shane J
Onuchic, Vitor
Polak, Paz
Rajagopal, Nisha
Ray, Pradipta
Sallari, Richard C
Siebenthall, Kyle T
Sinnott-Armstrong, Nicholas
Stevens, Michael
Thurman, Robert E
Wu, Jie
Zhang, Bo
Zhou, Xin
Beaudet, Arthur E
Boyer, Laurie A
De Jager, Philip
Farnham, Peggy J
Fisher, Susan J
Haussler, David
Jones, Steven
Li, Wei
Marra, Marco
McManus, Michael T
Sunyaev, Shamil
Thomson, James A
Tlsty, Thea D
Tsai, Li-Huei
Wang, Wei
Waterland, Robert A
Zhang, Michael
Chadwick, Lisa H
Bernstein, Bradley E
Costello, Joseph F
Ecker, Joseph R
Hirst, Martin
Meissner, Alexander
Milosavljevic, Aleksandar
Ren, Bing
Stamatoyannopoulos, John A
Wang, Ting
Kellis, Manolis
collection PubMed
description The reference human genome sequence set the stage for studies of genetic variation and its association with human disease, but a similar reference has lacked for epigenomic studies. To address this need, the NIH Roadmap Epigenomics Consortium generated the largest collection to-date of human epigenomes for primary cells and tissues. Here, we describe the integrative analysis of 111 reference human epigenomes generated as part of the program, profiled for histone modification patterns, DNA accessibility, DNA methylation, and RNA expression. We establish global maps of regulatory elements, define regulatory modules of coordinated activity, and their likely activators and repressors. We show that disease and trait-associated genetic variants are enriched in tissue-specific epigenomic marks, revealing biologically-relevant cell types for diverse human traits, and providing a resource for interpreting the molecular basis of human disease. Our results demonstrate the central role of epigenomic information for understanding gene regulation, cellular differentiation, and human disease.
format Online
Article
Text
id pubmed-4530010
institution National Center for Biotechnology Information
language English
publishDate 2015
record_format MEDLINE/PubMed
spelling pubmed-45300102015-08-19 Integrative analysis of 111 reference human epigenomes Kundaje, Anshul Meuleman, Wouter Ernst, Jason Bilenky, Misha Yen, Angela Kheradpour, Pouya Zhang, Zhizhuo Heravi-Moussavi, Alireza Liu, Yaping Amin, Viren Ziller, Michael J Whitaker, John W Schultz, Matthew D Sandstrom, Richard S Eaton, Matthew L Wu, Yi-Chieh Wang, Jianrong Ward, Lucas D Sarkar, Abhishek Quon, Gerald Pfenning, Andreas Wang, Xinchen Claussnitzer, Melina Coarfa, Cristian Harris, R Alan Shoresh, Noam Epstein, Charles B Gjoneska, Elizabeta Leung, Danny Xie, Wei Hawkins, R David Lister, Ryan Hong, Chibo Gascard, Philippe Mungall, Andrew J Moore, Richard Chuah, Eric Tam, Angela Canfield, Theresa K Hansen, R Scott Kaul, Rajinder Sabo, Peter J Bansal, Mukul S Carles, Annaick Dixon, Jesse R Farh, Kai-How Feizi, Soheil Karlic, Rosa Kim, Ah-Ram Kulkarni, Ashwinikumar Li, Daofeng Lowdon, Rebecca Mercer, Tim R Neph, Shane J Onuchic, Vitor Polak, Paz Rajagopal, Nisha Ray, Pradipta Sallari, Richard C Siebenthall, Kyle T Sinnott-Armstrong, Nicholas Stevens, Michael Thurman, Robert E Wu, Jie Zhang, Bo Zhou, Xin Beaudet, Arthur E Boyer, Laurie A De Jager, Philip Farnham, Peggy J Fisher, Susan J Haussler, David Jones, Steven Li, Wei Marra, Marco McManus, Michael T Sunyaev, Shamil Thomson, James A Tlsty, Thea D Tsai, Li-Huei Wang, Wei Waterland, Robert A Zhang, Michael Chadwick, Lisa H Bernstein, Bradley E Costello, Joseph F Ecker, Joseph R Hirst, Martin Meissner, Alexander Milosavljevic, Aleksandar Ren, Bing Stamatoyannopoulos, John A Wang, Ting Kellis, Manolis Nature Article The reference human genome sequence set the stage for studies of genetic variation and its association with human disease, but a similar reference has lacked for epigenomic studies. To address this need, the NIH Roadmap Epigenomics Consortium generated the largest collection to-date of human epigenomes for primary cells and tissues. Here, we describe the integrative analysis of 111 reference human epigenomes generated as part of the program, profiled for histone modification patterns, DNA accessibility, DNA methylation, and RNA expression. We establish global maps of regulatory elements, define regulatory modules of coordinated activity, and their likely activators and repressors. We show that disease and trait-associated genetic variants are enriched in tissue-specific epigenomic marks, revealing biologically-relevant cell types for diverse human traits, and providing a resource for interpreting the molecular basis of human disease. Our results demonstrate the central role of epigenomic information for understanding gene regulation, cellular differentiation, and human disease. 2015-02-19 /pmc/articles/PMC4530010/ /pubmed/25693563 http://dx.doi.org/10.1038/nature14248 Text en http://www.nature.com/authors/editorial_policies/license.html#terms Users may view, print, copy, and download 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
Kundaje, Anshul
Meuleman, Wouter
Ernst, Jason
Bilenky, Misha
Yen, Angela
Kheradpour, Pouya
Zhang, Zhizhuo
Heravi-Moussavi, Alireza
Liu, Yaping
Amin, Viren
Ziller, Michael J
Whitaker, John W
Schultz, Matthew D
Sandstrom, Richard S
Eaton, Matthew L
Wu, Yi-Chieh
Wang, Jianrong
Ward, Lucas D
Sarkar, Abhishek
Quon, Gerald
Pfenning, Andreas
Wang, Xinchen
Claussnitzer, Melina
Coarfa, Cristian
Harris, R Alan
Shoresh, Noam
Epstein, Charles B
Gjoneska, Elizabeta
Leung, Danny
Xie, Wei
Hawkins, R David
Lister, Ryan
Hong, Chibo
Gascard, Philippe
Mungall, Andrew J
Moore, Richard
Chuah, Eric
Tam, Angela
Canfield, Theresa K
Hansen, R Scott
Kaul, Rajinder
Sabo, Peter J
Bansal, Mukul S
Carles, Annaick
Dixon, Jesse R
Farh, Kai-How
Feizi, Soheil
Karlic, Rosa
Kim, Ah-Ram
Kulkarni, Ashwinikumar
Li, Daofeng
Lowdon, Rebecca
Mercer, Tim R
Neph, Shane J
Onuchic, Vitor
Polak, Paz
Rajagopal, Nisha
Ray, Pradipta
Sallari, Richard C
Siebenthall, Kyle T
Sinnott-Armstrong, Nicholas
Stevens, Michael
Thurman, Robert E
Wu, Jie
Zhang, Bo
Zhou, Xin
Beaudet, Arthur E
Boyer, Laurie A
De Jager, Philip
Farnham, Peggy J
Fisher, Susan J
Haussler, David
Jones, Steven
Li, Wei
Marra, Marco
McManus, Michael T
Sunyaev, Shamil
Thomson, James A
Tlsty, Thea D
Tsai, Li-Huei
Wang, Wei
Waterland, Robert A
Zhang, Michael
Chadwick, Lisa H
Bernstein, Bradley E
Costello, Joseph F
Ecker, Joseph R
Hirst, Martin
Meissner, Alexander
Milosavljevic, Aleksandar
Ren, Bing
Stamatoyannopoulos, John A
Wang, Ting
Kellis, Manolis
Integrative analysis of 111 reference human epigenomes
title Integrative analysis of 111 reference human epigenomes
title_full Integrative analysis of 111 reference human epigenomes
title_fullStr Integrative analysis of 111 reference human epigenomes
title_full_unstemmed Integrative analysis of 111 reference human epigenomes
title_short Integrative analysis of 111 reference human epigenomes
title_sort integrative analysis of 111 reference human epigenomes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4530010/
https://www.ncbi.nlm.nih.gov/pubmed/25693563
http://dx.doi.org/10.1038/nature14248
work_keys_str_mv AT integrativeanalysisof111referencehumanepigenomes
AT kundajeanshul integrativeanalysisof111referencehumanepigenomes
AT meulemanwouter integrativeanalysisof111referencehumanepigenomes
AT ernstjason integrativeanalysisof111referencehumanepigenomes
AT bilenkymisha integrativeanalysisof111referencehumanepigenomes
AT yenangela integrativeanalysisof111referencehumanepigenomes
AT kheradpourpouya integrativeanalysisof111referencehumanepigenomes
AT zhangzhizhuo integrativeanalysisof111referencehumanepigenomes
AT heravimoussavialireza integrativeanalysisof111referencehumanepigenomes
AT liuyaping integrativeanalysisof111referencehumanepigenomes
AT aminviren integrativeanalysisof111referencehumanepigenomes
AT zillermichaelj integrativeanalysisof111referencehumanepigenomes
AT whitakerjohnw integrativeanalysisof111referencehumanepigenomes
AT schultzmatthewd integrativeanalysisof111referencehumanepigenomes
AT sandstromrichards integrativeanalysisof111referencehumanepigenomes
AT eatonmatthewl integrativeanalysisof111referencehumanepigenomes
AT wuyichieh integrativeanalysisof111referencehumanepigenomes
AT wangjianrong integrativeanalysisof111referencehumanepigenomes
AT wardlucasd integrativeanalysisof111referencehumanepigenomes
AT sarkarabhishek integrativeanalysisof111referencehumanepigenomes
AT quongerald integrativeanalysisof111referencehumanepigenomes
AT pfenningandreas integrativeanalysisof111referencehumanepigenomes
AT wangxinchen integrativeanalysisof111referencehumanepigenomes
AT claussnitzermelina integrativeanalysisof111referencehumanepigenomes
AT coarfacristian integrativeanalysisof111referencehumanepigenomes
AT harrisralan integrativeanalysisof111referencehumanepigenomes
AT shoreshnoam integrativeanalysisof111referencehumanepigenomes
AT epsteincharlesb integrativeanalysisof111referencehumanepigenomes
AT gjoneskaelizabeta integrativeanalysisof111referencehumanepigenomes
AT leungdanny integrativeanalysisof111referencehumanepigenomes
AT xiewei integrativeanalysisof111referencehumanepigenomes
AT hawkinsrdavid integrativeanalysisof111referencehumanepigenomes
AT listerryan integrativeanalysisof111referencehumanepigenomes
AT hongchibo integrativeanalysisof111referencehumanepigenomes
AT gascardphilippe integrativeanalysisof111referencehumanepigenomes
AT mungallandrewj integrativeanalysisof111referencehumanepigenomes
AT moorerichard integrativeanalysisof111referencehumanepigenomes
AT chuaheric integrativeanalysisof111referencehumanepigenomes
AT tamangela integrativeanalysisof111referencehumanepigenomes
AT canfieldtheresak integrativeanalysisof111referencehumanepigenomes
AT hansenrscott integrativeanalysisof111referencehumanepigenomes
AT kaulrajinder integrativeanalysisof111referencehumanepigenomes
AT sabopeterj integrativeanalysisof111referencehumanepigenomes
AT bansalmukuls integrativeanalysisof111referencehumanepigenomes
AT carlesannaick integrativeanalysisof111referencehumanepigenomes
AT dixonjesser integrativeanalysisof111referencehumanepigenomes
AT farhkaihow integrativeanalysisof111referencehumanepigenomes
AT feizisoheil integrativeanalysisof111referencehumanepigenomes
AT karlicrosa integrativeanalysisof111referencehumanepigenomes
AT kimahram integrativeanalysisof111referencehumanepigenomes
AT kulkarniashwinikumar integrativeanalysisof111referencehumanepigenomes
AT lidaofeng integrativeanalysisof111referencehumanepigenomes
AT lowdonrebecca integrativeanalysisof111referencehumanepigenomes
AT mercertimr integrativeanalysisof111referencehumanepigenomes
AT nephshanej integrativeanalysisof111referencehumanepigenomes
AT onuchicvitor integrativeanalysisof111referencehumanepigenomes
AT polakpaz integrativeanalysisof111referencehumanepigenomes
AT rajagopalnisha integrativeanalysisof111referencehumanepigenomes
AT raypradipta integrativeanalysisof111referencehumanepigenomes
AT sallaririchardc integrativeanalysisof111referencehumanepigenomes
AT siebenthallkylet integrativeanalysisof111referencehumanepigenomes
AT sinnottarmstrongnicholas integrativeanalysisof111referencehumanepigenomes
AT stevensmichael integrativeanalysisof111referencehumanepigenomes
AT thurmanroberte integrativeanalysisof111referencehumanepigenomes
AT wujie integrativeanalysisof111referencehumanepigenomes
AT zhangbo integrativeanalysisof111referencehumanepigenomes
AT zhouxin integrativeanalysisof111referencehumanepigenomes
AT beaudetarthure integrativeanalysisof111referencehumanepigenomes
AT boyerlauriea integrativeanalysisof111referencehumanepigenomes
AT dejagerphilip integrativeanalysisof111referencehumanepigenomes
AT farnhampeggyj integrativeanalysisof111referencehumanepigenomes
AT fishersusanj integrativeanalysisof111referencehumanepigenomes
AT hausslerdavid integrativeanalysisof111referencehumanepigenomes
AT jonessteven integrativeanalysisof111referencehumanepigenomes
AT liwei integrativeanalysisof111referencehumanepigenomes
AT marramarco integrativeanalysisof111referencehumanepigenomes
AT mcmanusmichaelt integrativeanalysisof111referencehumanepigenomes
AT sunyaevshamil integrativeanalysisof111referencehumanepigenomes
AT thomsonjamesa integrativeanalysisof111referencehumanepigenomes
AT tlstythead integrativeanalysisof111referencehumanepigenomes
AT tsailihuei integrativeanalysisof111referencehumanepigenomes
AT wangwei integrativeanalysisof111referencehumanepigenomes
AT waterlandroberta integrativeanalysisof111referencehumanepigenomes
AT zhangmichael integrativeanalysisof111referencehumanepigenomes
AT chadwicklisah integrativeanalysisof111referencehumanepigenomes
AT bernsteinbradleye integrativeanalysisof111referencehumanepigenomes
AT costellojosephf integrativeanalysisof111referencehumanepigenomes
AT eckerjosephr integrativeanalysisof111referencehumanepigenomes
AT hirstmartin integrativeanalysisof111referencehumanepigenomes
AT meissneralexander integrativeanalysisof111referencehumanepigenomes
AT milosavljevicaleksandar integrativeanalysisof111referencehumanepigenomes
AT renbing integrativeanalysisof111referencehumanepigenomes
AT stamatoyannopoulosjohna integrativeanalysisof111referencehumanepigenomes
AT wangting integrativeanalysisof111referencehumanepigenomes
AT kellismanolis integrativeanalysisof111referencehumanepigenomes

Ejemplares similares