Skip to main content
Enter the terms you wish to search for.
Select Search Option
This Site
All WCM Sites
Directory
Menu
Weill Cornell Medicine
Care
Discover
Teach
Elemento Lab
Explore this Website
Home
Affiliations
Research
Toggle Research menu options
Big Data Analytics & Machine Learning
Cancer Genomics
Drug Discovery
Epigenomics
Genetics
Mathematical Modeling
Projects
Proteomics
Spatial Computing
Software
Lab Team
Publications
News
Join Us
Weill Cornell Medicine
Care
Discover
Teach
Home
Affiliations
Research
Lab Team
Publications
News
Join Us
Home
Publications
Publications
Found 5 results
Author
Title
Type
Year
Filters:
Author
is
Levine, Ross L
[Clear All Filters]
2013
Béguelin W
,
Popovic R
,
Teater M
,
Jiang Y
,
Bunting KL
,
Rosen M
,
Shen H
,
Yang SNing
,
Wang L
,
Ezponda T
et al.
. 2013.
EZH2 is required for germinal center formation and somatic EZH2 mutations promote lymphoid transformation.
.
Cancer Cell. 23(5):677-92.
2016
Poulos MG
,
Ramalingam P
,
Gutkin MC
,
Kleppe M
,
Ginsberg M
,
Crowley MJP
,
Elemento O
,
Levine RL
,
Rafii S
,
Kitajewski J
et al.
. 2016.
Endothelial-specific inhibition of NF-κB enhances functional haematopoiesis.
.
Nat Commun. 7:13829.
Béguelin W
,
Teater M
,
Gearhart MD
,
Fernández MTeresa Cal
,
Goldstein RL
,
Cárdenas MG
,
Hatzi K
,
Rosen M
,
Shen H
,
Corcoran CM
et al.
. 2016.
EZH2 and BCL6 Cooperate to Assemble CBX8-BCOR Complex to Repress Bivalent Promoters, Mediate Germinal Center Formation and Lymphomagenesis.
.
Cancer Cell. 30(2):197-213.
2018
Dominguez PM
,
Ghamlouch H
,
Rosikiewicz W
,
Kumar P
,
Béguelin W
,
Fontán L
,
Rivas MA
,
Pawlikowska P
,
Armand M
,
Mouly E
et al.
. 2018.
TET2 Deficiency Causes Germinal Center Hyperplasia, Impairs Plasma Cell Differentiation, and Promotes B-cell Lymphomagenesis.
.
Cancer Discov. 8(12):1632-1653.
2021
Rivas MA
,
Meydan C
,
Chin CR
,
Challman MF
,
Kim D
,
Bhinder B
,
Kloetgen A
,
Viny AD
,
Teater MR
,
McNally DR
et al.
. 2021.
Smc3 dosage regulates B cell transit through germinal centers and restricts their malignant transformation.
.
Nat Immunol. 22(2):240-253.