Multi-tissue integrative analysis of personal epigenomes
- Creators
-
Rozowsky, Joel
- Drenkow, Jorg
- Yang, Yucheng
- Gursoy, Gamze
- Galeev, Timur
- Borsari, Beatrice
-
Epstein, Charles
- Xiong, Kun
- Xu, Jinrui
- Gao, Jiahao
- Yu, Keyang
- Berthel, Ana
- Chen, Zhanlin
- Navarro, Fabio
- Liu, Jason
- Sun, Maxwell
- Wright, James
- Chang, Justin
- Cameron, Christopher
- Shoresh, Noam
- Gaskell, Elizabeth
- Adrian, Jessika
- Aganezov, Sergey
-
Balderrama-Gutierrez, Gabriela
- Banskota, Samridhi
- Corona, Guillermo
- Chee, Sora
- Chhetri, Surya
- Martins, Gabriel
- Danyko, Cassidy
- Davis, Carrie
- Farid, Daniel
- Farrell, Nina
- Gabdank, Idan
- Gofin, Yoel
-
Gorkin, David
- Gu, Mengting
- Hecht, Vivian
- Hitz, Benjamin
- Issner, Robbyn
- Kirsche, Melanie
- Kong, Xiangmeng
- Lam, Bonita
- Li, Shantao
- Li, Bian
- Li, Tianxiao
- Li, Xiqi
- Lin, Khine
- Luo, Ruibang
-
Mackiewicz, Mark
-
Moore, Jill
- Mudge, Jonathan
- Nelson, Nicholas
- Nusbaum, Chad
- Popov, Ioann
- Pratt, Henry
- Qiu, Yunjiang
- Ramakrishnan, Srividya
- Raymond, Joe
- Salichos, Leonidas
- Scavelli, Alexandra
- Schreiber, Jacob
- Sedlazeck, Fritz
- See, Lei
- Sherman, Rachel
- Shi, Xu
- Shi, Minyi
- Sloan, Cricket
- Strattan, J. Seth
- Tan, Zhen
- Tanaka, Forrest
- Vlasova, Anna
- Wang, Jun
- Werner, Jonathan
- Williams, Brian
- Xu, Min
- Yan, Chengfei
- Yu, Lu
- Zaleski, Christopher
- Zhang, Jing
-
Cherry, J. Michael
-
Mendenhall, Eric
- Noble, William
-
Weng, Zhiping
- Levine, Morgan
- Dobin, Alexander
-
Wold, Barbara
-
Mortazavi, Ali
-
Ren, Bing
-
Gillis, Jesse
- Myers, Richard
-
Snyder, Michael
- Choudhary, Jyoti
- Milosavljevic, Aleksandar
- Schatz, Michael
- Guigo, Roderic
-
Bernstein, Bradley
- Gingeras, Thomas
-
Gerstein, Mark
Abstract
Evaluating the impact of genetic variants on transcriptional regulation is a central goal in biological science that has been constrained by reliance on a single reference genome. To address this, we constructed phased, diploid genomes for four cadaveric donors (using long-read sequencing) and systematically charted noncoding regulatory elements and transcriptional activity across more than 25 tissues from these donors. Integrative analysis revealed over a million variants with allele-specific activity, coordinated, locus-scale allelic imbalances, and structural variants impacting proximal chromatin structure. We relate the personal genome analysis to the ENCODE encyclopedia, annotating allele- and tissue-specific elements that are strongly enriched for variants impacting expression and disease phenotypes. These experimental and statistical approaches, and the corresponding EN-TEx resource, provide a framework for personalized functional genomics.
Additional Information
The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY-NC-ND 4.0 International license. This version posted April 26, 2021. The authors have declared no competing interest.Attached Files
Submitted - 2021.04.26.441442v1.full.pdf
Files
| Name | Size | Download all |
|---|---|---|
|
md5:cac2d61a37f95f09733b9dd9767dbbb0
|
3.2 MB | Preview Download |
Additional details
- Eprint ID
- 108899
- Resolver ID
- CaltechAUTHORS:20210430-100605150
- Created
-
2021-04-30Created from EPrint's datestamp field
- Updated
-
2021-11-16Created from EPrint's last_modified field
- Caltech groups
- Division of Biology and Biological Engineering