Ziqiang Zhou
@zachary0001.bsky.social
Ph.D. student at Tsinghua University. Studying transposon regulation and function, epigenetics, and 3D genomics etc.
Reposted by Ziqiang Zhou
Outstanding paper describing how SVAs are regulated,what's their function in gene regulation and its impact in cell fate
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation | Cell
#TEs #CellFate #HSCs #Aging
www.cell.com/cell/fulltex...
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation | Cell
#TEs #CellFate #HSCs #Aging
www.cell.com/cell/fulltex...
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation
This study reveals that composite transposons with bivalent histone marks can serve
as RNA-dependent enhancers, controlling key developmental and aging-related gene programs.
www.cell.com
August 7, 2025 at 9:38 PM
Outstanding paper describing how SVAs are regulated,what's their function in gene regulation and its impact in cell fate
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation | Cell
#TEs #CellFate #HSCs #Aging
www.cell.com/cell/fulltex...
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation | Cell
#TEs #CellFate #HSCs #Aging
www.cell.com/cell/fulltex...
Reposted by Ziqiang Zhou
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation: Cell www.cell.com/cell/fulltex...
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation
This study reveals that composite transposons with bivalent histone marks can serve
as RNA-dependent enhancers, controlling key developmental and aging-related gene programs.
www.cell.com
August 7, 2025 at 10:42 AM
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation: Cell www.cell.com/cell/fulltex...
Reposted by Ziqiang Zhou
Epigenetics Update - Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation bit.ly/47khG2x
Hsiang-Ying Lee and Nian Liu in Cell
#Epigenetics #Bivalency #HisMods #Transposons
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High-resolution insights without cell sorting; epigenometech.com
Hsiang-Ying Lee and Nian Liu in Cell
#Epigenetics #Bivalency #HisMods #Transposons
---
High-resolution insights without cell sorting; epigenometech.com
August 7, 2025 at 8:19 AM
Epigenetics Update - Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation bit.ly/47khG2x
Hsiang-Ying Lee and Nian Liu in Cell
#Epigenetics #Bivalency #HisMods #Transposons
---
High-resolution insights without cell sorting; epigenometech.com
Hsiang-Ying Lee and Nian Liu in Cell
#Epigenetics #Bivalency #HisMods #Transposons
---
High-resolution insights without cell sorting; epigenometech.com
Reposted by Ziqiang Zhou
Now online! Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation
Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation
This study reveals that composite transposons with bivalent histone marks can serve as RNA-dependent enhancers, controlling key developmental and aging-related gene programs.
dlvr.it
August 6, 2025 at 2:59 PM
Now online! Composite transposons with bivalent histone marks function as RNA-dependent enhancers in cell fate regulation
Reposted by Ziqiang Zhou
Composite transposons with bivalent histone marks can serve as RNA-dependent enhancers, controlling key developmental and aging-related gene programs @cellcellpress.bsky.social
www.cell.com/cell/fulltex...
www.cell.com/cell/fulltex...
August 7, 2025 at 9:43 PM
Composite transposons with bivalent histone marks can serve as RNA-dependent enhancers, controlling key developmental and aging-related gene programs @cellcellpress.bsky.social
www.cell.com/cell/fulltex...
www.cell.com/cell/fulltex...