Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer

<p>5hmC levels are enriched in gene bodies and are independently associated with gene expression in mCRPC. <b>A,</b> Location of hypomethylated regions defined by whole-genome bisulfite sequencing and location of 5hmC enrichment (peaks called by MACS2). Regions were mapped to Genco...

Full description

Saved in:

Bibliographic Details
Main Author:	Martin Sjöström (14845882) (author)
Other Authors:	Shuang G. Zhao (12227671) (author), Samuel Levy (14960811) (author), Meng Zhang (14960814) (author), Yuhong Ning (279537) (author), Raunak Shrestha (14949693) (author), Arian Lundberg (14960817) (author), Cameron Herberts (14960820) (author), Adam Foye (14960823) (author), Rahul Aggarwal (14960826) (author), Junjie T. Hua (14960829) (author), Haolong Li (1532230) (author), Anna Bergamaschi (14960832) (author), Corinne Maurice-Dror (14960835) (author), Ashutosh Maheshwari (14960838) (author), Sujun Chen (3553841) (author), Sarah W.S. Ng (14960841) (author), Wenbin Ye (14960844) (author), Jessica Petricca (14960847) (author), Michael Fraser (522709) (author), Lisa Chesner (14960850) (author), Marc D. Perry (14960853) (author), Thaidy Moreno-Rodriguez (14960856) (author), William S. Chen (14960859) (author), Joshi J. Alumkal (14950518) (author), Jonathan Chou (14957015) (author), Alicia K. Morgans (5600567) (author), Tomasz M. Beer (14960862) (author), George V. Thomas (13187926) (author), Martin Gleave (146446) (author), Paul Lloyd (14960865) (author), Tierney Phillips (4664332) (author), Erin McCarthy (14960868) (author), Michael C. Haffner (14960871) (author), Amina Zoubeidi (14960874) (author), Matti Annala (219688) (author), Robert E. Reiter (14960877) (author), Matthew B. Rettig (14960880) (author), Owen N. Witte (14960883) (author), Lawrence Fong (14960886) (author), Rohit Bose (14960889) (author), Franklin W. Huang (10726678) (author), Jianhua Luo (14960892) (author), Anders Bjartell (199682) (author), Joshua M. Lang (12227674) (author), Nupam P. Mahajan (14960895) (author), Primo N. Lara (13009812) (author), Christopher P. Evans (14960898) (author), Phuoc T. Tran (14960901) (author), Edwin M. Posadas (14960904) (author), Chuan He (178952) (author), Xiao-Long Cui (2020402) (author), Jiaoti Huang (88989) (author), Wilbert Zwart (14960907) (author), Luke A. Gilbert (5513207) (author), Christopher A. Maher (14960910) (author), Paul C. Boutros (14954698) (author), Kim N. Chi (14960913) (author), Alan Ashworth (14957030) (author), Eric J. Small (14960916) (author), Housheng H. He (14960919) (author), Alexander W. Wyatt (14960922) (author), David A. Quigley (14957012) (author), Felix Y. Feng (14845891) (author)
Published:	2025
Subjects:	Cancer Cancer Risk Factors Molecular and Cellular Biology Methods and Technology Epigenetics Epigenomics Genitourinary Cancers Prostate cancer Liquid Biopsy
Tags:	Add Tag No Tags, Be the first to tag this record!

_version_	1849927639666524160
author	Martin Sjöström (14845882)
author2	Shuang G. Zhao (12227671) Samuel Levy (14960811) Meng Zhang (14960814) Yuhong Ning (279537) Raunak Shrestha (14949693) Arian Lundberg (14960817) Cameron Herberts (14960820) Adam Foye (14960823) Rahul Aggarwal (14960826) Junjie T. Hua (14960829) Haolong Li (1532230) Anna Bergamaschi (14960832) Corinne Maurice-Dror (14960835) Ashutosh Maheshwari (14960838) Sujun Chen (3553841) Sarah W.S. Ng (14960841) Wenbin Ye (14960844) Jessica Petricca (14960847) Michael Fraser (522709) Lisa Chesner (14960850) Marc D. Perry (14960853) Thaidy Moreno-Rodriguez (14960856) William S. Chen (14960859) Joshi J. Alumkal (14950518) Jonathan Chou (14957015) Alicia K. Morgans (5600567) Tomasz M. Beer (14960862) George V. Thomas (13187926) Martin Gleave (146446) Paul Lloyd (14960865) Tierney Phillips (4664332) Erin McCarthy (14960868) Michael C. Haffner (14960871) Amina Zoubeidi (14960874) Matti Annala (219688) Robert E. Reiter (14960877) Matthew B. Rettig (14960880) Owen N. Witte (14960883) Lawrence Fong (14960886) Rohit Bose (14960889) Franklin W. Huang (10726678) Jianhua Luo (14960892) Anders Bjartell (199682) Joshua M. Lang (12227674) Nupam P. Mahajan (14960895) Primo N. Lara (13009812) Christopher P. Evans (14960898) Phuoc T. Tran (14960901) Edwin M. Posadas (14960904) Chuan He (178952) Xiao-Long Cui (2020402) Jiaoti Huang (88989) Wilbert Zwart (14960907) Luke A. Gilbert (5513207) Christopher A. Maher (14960910) Paul C. Boutros (14954698) Kim N. Chi (14960913) Alan Ashworth (14957030) Eric J. Small (14960916) Housheng H. He (14960919) Alexander W. Wyatt (14960922) David A. Quigley (14957012) Felix Y. Feng (14845891)
author2_role	author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author author
author_facet	Martin Sjöström (14845882) Shuang G. Zhao (12227671) Samuel Levy (14960811) Meng Zhang (14960814) Yuhong Ning (279537) Raunak Shrestha (14949693) Arian Lundberg (14960817) Cameron Herberts (14960820) Adam Foye (14960823) Rahul Aggarwal (14960826) Junjie T. Hua (14960829) Haolong Li (1532230) Anna Bergamaschi (14960832) Corinne Maurice-Dror (14960835) Ashutosh Maheshwari (14960838) Sujun Chen (3553841) Sarah W.S. Ng (14960841) Wenbin Ye (14960844) Jessica Petricca (14960847) Michael Fraser (522709) Lisa Chesner (14960850) Marc D. Perry (14960853) Thaidy Moreno-Rodriguez (14960856) William S. Chen (14960859) Joshi J. Alumkal (14950518) Jonathan Chou (14957015) Alicia K. Morgans (5600567) Tomasz M. Beer (14960862) George V. Thomas (13187926) Martin Gleave (146446) Paul Lloyd (14960865) Tierney Phillips (4664332) Erin McCarthy (14960868) Michael C. Haffner (14960871) Amina Zoubeidi (14960874) Matti Annala (219688) Robert E. Reiter (14960877) Matthew B. Rettig (14960880) Owen N. Witte (14960883) Lawrence Fong (14960886) Rohit Bose (14960889) Franklin W. Huang (10726678) Jianhua Luo (14960892) Anders Bjartell (199682) Joshua M. Lang (12227674) Nupam P. Mahajan (14960895) Primo N. Lara (13009812) Christopher P. Evans (14960898) Phuoc T. Tran (14960901) Edwin M. Posadas (14960904) Chuan He (178952) Xiao-Long Cui (2020402) Jiaoti Huang (88989) Wilbert Zwart (14960907) Luke A. Gilbert (5513207) Christopher A. Maher (14960910) Paul C. Boutros (14954698) Kim N. Chi (14960913) Alan Ashworth (14957030) Eric J. Small (14960916) Housheng H. He (14960919) Alexander W. Wyatt (14960922) David A. Quigley (14957012) Felix Y. Feng (14845891)
author_role	author
dc.creator.none.fl_str_mv	Martin Sjöström (14845882) Shuang G. Zhao (12227671) Samuel Levy (14960811) Meng Zhang (14960814) Yuhong Ning (279537) Raunak Shrestha (14949693) Arian Lundberg (14960817) Cameron Herberts (14960820) Adam Foye (14960823) Rahul Aggarwal (14960826) Junjie T. Hua (14960829) Haolong Li (1532230) Anna Bergamaschi (14960832) Corinne Maurice-Dror (14960835) Ashutosh Maheshwari (14960838) Sujun Chen (3553841) Sarah W.S. Ng (14960841) Wenbin Ye (14960844) Jessica Petricca (14960847) Michael Fraser (522709) Lisa Chesner (14960850) Marc D. Perry (14960853) Thaidy Moreno-Rodriguez (14960856) William S. Chen (14960859) Joshi J. Alumkal (14950518) Jonathan Chou (14957015) Alicia K. Morgans (5600567) Tomasz M. Beer (14960862) George V. Thomas (13187926) Martin Gleave (146446) Paul Lloyd (14960865) Tierney Phillips (4664332) Erin McCarthy (14960868) Michael C. Haffner (14960871) Amina Zoubeidi (14960874) Matti Annala (219688) Robert E. Reiter (14960877) Matthew B. Rettig (14960880) Owen N. Witte (14960883) Lawrence Fong (14960886) Rohit Bose (14960889) Franklin W. Huang (10726678) Jianhua Luo (14960892) Anders Bjartell (199682) Joshua M. Lang (12227674) Nupam P. Mahajan (14960895) Primo N. Lara (13009812) Christopher P. Evans (14960898) Phuoc T. Tran (14960901) Edwin M. Posadas (14960904) Chuan He (178952) Xiao-Long Cui (2020402) Jiaoti Huang (88989) Wilbert Zwart (14960907) Luke A. Gilbert (5513207) Christopher A. Maher (14960910) Paul C. Boutros (14954698) Kim N. Chi (14960913) Alan Ashworth (14957030) Eric J. Small (14960916) Housheng H. He (14960919) Alexander W. Wyatt (14960922) David A. Quigley (14957012) Felix Y. Feng (14845891)
dc.date.none.fl_str_mv	2025-11-24T22:43:46Z
dc.identifier.none.fl_str_mv	10.1158/0008-5472.30699421
dc.relation.none.fl_str_mv	https://figshare.com/articles/figure/Figure_1_from_The_5-Hydroxymethylcytosine_Landscape_of_Prostate_Cancer/30699421
dc.rights.none.fl_str_mv	CC BY info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv	Cancer Cancer Risk Factors Molecular and Cellular Biology Methods and Technology Epigenetics Epigenomics Genitourinary Cancers Prostate cancer Liquid Biopsy
dc.title.none.fl_str_mv	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
dc.type.none.fl_str_mv	Image Figure info:eu-repo/semantics/publishedVersion image
description	<p>5hmC levels are enriched in gene bodies and are independently associated with gene expression in mCRPC. <b>A,</b> Location of hypomethylated regions defined by whole-genome bisulfite sequencing and location of 5hmC enrichment (peaks called by MACS2). Regions were mapped to Gencode v.28 transcripts per sample and the frequencies averaged across 93 mCRPC samples. <b>B,</b> 5hmC enrichment in and around gene bodies for different gene expression levels. Protein coding genes were assigned to expression quintile per sample and log<sub>2</sub> 5hmC enrichment over input control (similar to low-pass WGS without 5hmC enrichment) was calculated using the NGSplot tool (<a href="#bib32" target="_blank">32</a>). 5hmC enrichment was then averaged across 93 mCRPC samples. <b>C,</b> Correlation between promoter methylation (average CpG methylation by whole-genome bisulfite sequencing), gene copy number, and 5hmC gene body counts, and gene expression, respectively, for protein coding genes across the 93 mCRPC samples. Genes with missing data or with no RNA-seq counts were excluded. Dashed lines, median correlation per data type. <b>D,</b> Gene expression was modeled for each gene by promoter methylation (PM), copy number (CN), SNVs, SVs, and 5hmC gene body counts (5hmC). Gene expression and 5hmC gene body counts were scaled (transformed to Z-score) to give comparable coefficients. Gray boxes, adjusted R-square of the model without 5hmC; blue boxes, adjusted R-square of the model including 5hmC. Analysis was done for 93 mCRPC samples. Boxplot shows median with hinges at 25th and 75th percentiles and whiskers at largest/smallest value within 1.5 × interquartile range. <b>E,</b> The adjusted 5hmC coefficients for individual genes modeled as in <b>D</b>. Genes in the Hallmark androgen response pathway are labeled black. <i>P</i> value was calculated by two-sided Wilcoxon rank-sum test for difference in scaled 5hmC coefficients between genes in the androgen response pathway including <i>AR</i> (<i>N</i> = 98) and all other protein coding genes (<i>N</i> = 18,434). Boxplots show distribution of AR response genes vs. other protein coding genes.</p>
eu_rights_str_mv	openAccess
id	Manara_ee41ab6efca5ba3a27928545136c555d
identifier_str_mv	10.1158/0008-5472.30699421
network_acronym_str	Manara
network_name_str	ManaraRepo
oai_identifier_str	oai:figshare.com:article/30699421
publishDate	2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv	CC BY
spelling	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate CancerMartin Sjöström (14845882)Shuang G. Zhao (12227671)Samuel Levy (14960811)Meng Zhang (14960814)Yuhong Ning (279537)Raunak Shrestha (14949693)Arian Lundberg (14960817)Cameron Herberts (14960820)Adam Foye (14960823)Rahul Aggarwal (14960826)Junjie T. Hua (14960829)Haolong Li (1532230)Anna Bergamaschi (14960832)Corinne Maurice-Dror (14960835)Ashutosh Maheshwari (14960838)Sujun Chen (3553841)Sarah W.S. Ng (14960841)Wenbin Ye (14960844)Jessica Petricca (14960847)Michael Fraser (522709)Lisa Chesner (14960850)Marc D. Perry (14960853)Thaidy Moreno-Rodriguez (14960856)William S. Chen (14960859)Joshi J. Alumkal (14950518)Jonathan Chou (14957015)Alicia K. Morgans (5600567)Tomasz M. Beer (14960862)George V. Thomas (13187926)Martin Gleave (146446)Paul Lloyd (14960865)Tierney Phillips (4664332)Erin McCarthy (14960868)Michael C. Haffner (14960871)Amina Zoubeidi (14960874)Matti Annala (219688)Robert E. Reiter (14960877)Matthew B. Rettig (14960880)Owen N. Witte (14960883)Lawrence Fong (14960886)Rohit Bose (14960889)Franklin W. Huang (10726678)Jianhua Luo (14960892)Anders Bjartell (199682)Joshua M. Lang (12227674)Nupam P. Mahajan (14960895)Primo N. Lara (13009812)Christopher P. Evans (14960898)Phuoc T. Tran (14960901)Edwin M. Posadas (14960904)Chuan He (178952)Xiao-Long Cui (2020402)Jiaoti Huang (88989)Wilbert Zwart (14960907)Luke A. Gilbert (5513207)Christopher A. Maher (14960910)Paul C. Boutros (14954698)Kim N. Chi (14960913)Alan Ashworth (14957030)Eric J. Small (14960916)Housheng H. He (14960919)Alexander W. Wyatt (14960922)David A. Quigley (14957012)Felix Y. Feng (14845891)CancerCancer Risk FactorsMolecular and Cellular BiologyMethods and TechnologyEpigeneticsEpigenomicsGenitourinary CancersProstate cancerLiquid Biopsy<p>5hmC levels are enriched in gene bodies and are independently associated with gene expression in mCRPC. <b>A,</b> Location of hypomethylated regions defined by whole-genome bisulfite sequencing and location of 5hmC enrichment (peaks called by MACS2). Regions were mapped to Gencode v.28 transcripts per sample and the frequencies averaged across 93 mCRPC samples. <b>B,</b> 5hmC enrichment in and around gene bodies for different gene expression levels. Protein coding genes were assigned to expression quintile per sample and log<sub>2</sub> 5hmC enrichment over input control (similar to low-pass WGS without 5hmC enrichment) was calculated using the NGSplot tool (<a href="#bib32" target="_blank">32</a>). 5hmC enrichment was then averaged across 93 mCRPC samples. <b>C,</b> Correlation between promoter methylation (average CpG methylation by whole-genome bisulfite sequencing), gene copy number, and 5hmC gene body counts, and gene expression, respectively, for protein coding genes across the 93 mCRPC samples. Genes with missing data or with no RNA-seq counts were excluded. Dashed lines, median correlation per data type. <b>D,</b> Gene expression was modeled for each gene by promoter methylation (PM), copy number (CN), SNVs, SVs, and 5hmC gene body counts (5hmC). Gene expression and 5hmC gene body counts were scaled (transformed to Z-score) to give comparable coefficients. Gray boxes, adjusted R-square of the model without 5hmC; blue boxes, adjusted R-square of the model including 5hmC. Analysis was done for 93 mCRPC samples. Boxplot shows median with hinges at 25th and 75th percentiles and whiskers at largest/smallest value within 1.5 × interquartile range. <b>E,</b> The adjusted 5hmC coefficients for individual genes modeled as in <b>D</b>. Genes in the Hallmark androgen response pathway are labeled black. <i>P</i> value was calculated by two-sided Wilcoxon rank-sum test for difference in scaled 5hmC coefficients between genes in the androgen response pathway including <i>AR</i> (<i>N</i> = 98) and all other protein coding genes (<i>N</i> = 18,434). Boxplots show distribution of AR response genes vs. other protein coding genes.</p>2025-11-24T22:43:46ZImageFigureinfo:eu-repo/semantics/publishedVersionimage10.1158/0008-5472.30699421https://figshare.com/articles/figure/Figure_1_from_The_5-Hydroxymethylcytosine_Landscape_of_Prostate_Cancer/30699421CC BYinfo:eu-repo/semantics/openAccessoai:figshare.com:article/306994212025-11-24T22:43:46Z
spellingShingle	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer Martin Sjöström (14845882) Cancer Cancer Risk Factors Molecular and Cellular Biology Methods and Technology Epigenetics Epigenomics Genitourinary Cancers Prostate cancer Liquid Biopsy
status_str	publishedVersion
title	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
title_full	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
title_fullStr	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
title_full_unstemmed	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
title_short	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
title_sort	Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer
topic	Cancer Cancer Risk Factors Molecular and Cellular Biology Methods and Technology Epigenetics Epigenomics Genitourinary Cancers Prostate cancer Liquid Biopsy

Figure 1 from The 5-Hydroxymethylcytosine Landscape of Prostate Cancer

Similar Items