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Varun Narendra
Varun Narendra
Verified email at nyumc.org
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Cited by
Year
CTCF establishes discrete functional chromatin domains at the Hox clusters during differentiation
V Narendra, PP Rocha, D An, R Raviram, JA Skok, EO Mazzoni, ...
Science 347 (6225), 1017-1021, 2015
5232015
Chemotherapy and COVID-19 outcomes in patients with cancer
J Jee, MB Foote, M Lumish, AJ Stonestrom, B Wills, V Narendra, V Avutu, ...
Journal of Clinical Oncology 38 (30), 3538-3546, 2020
1972020
SIRT3 functions in the nucleus in the control of stress-related gene expression
T Iwahara, R Bonasio, V Narendra, D Reinberg
Molecular and cellular biology 32 (24), 5022-5034, 2012
1832012
CTCF regulates the human p53 gene through direct interaction with its natural antisense transcript, Wrap53
R Saldaña-Meyer, E González-Buendía, G Guerrero, V Narendra, ...
Genes & development 28 (7), 723-734, 2014
1812014
Capturing the onset of PRC2-mediated repressive domain formation
O Oksuz, V Narendra, CH Lee, N Descostes, G LeRoy, R Raviram, ...
Molecular cell 70 (6), 1149-1162. e5, 2018
1692018
A comprehensive evaluation of multicategory classification methods for microbiomic data
A Statnikov, M Henaff, V Narendra, K Konganti, Z Li, L Yang, Z Pei, ...
Microbiome 1 (1), 1-12, 2013
1642013
Erk1/2 activity promotes chromatin features and RNAPII phosphorylation at developmental promoters in mouse ESCs
WW Tee, SS Shen, O Oksuz, V Narendra, D Reinberg
Cell 156 (4), 678-690, 2014
1612014
CTCF-mediated topological boundaries during development foster appropriate gene regulation
V Narendra, M Bulajić, J Dekker, EO Mazzoni, D Reinberg
Genes & development 30 (24), 2657-2662, 2016
1502016
Co-repressor CBFA2T2 regulates pluripotency and germline development
S Tu, V Narendra, M Yamaji, SE Vidal, LA Rojas, X Wang, SY Kim, ...
Nature 534 (7607), 387-390, 2016
622016
A comprehensive assessment of methods for de-novo reverse-engineering of genome-scale regulatory networks
V Narendra, NI Lytkin, CF Aliferis, A Statnikov
Genomics 97 (1), 7-18, 2011
552011
USP7 cooperates with SCML2 to regulate the activity of PRC1
E Lecona, V Narendra, D Reinberg
Molecular and cellular biology 35 (7), 1157-1168, 2015
532015
Interactions with RNA direct the Polycomb group protein SCML2 to chromatin where it represses target genes
R Bonasio, E Lecona, V Narendra, P Voigt, F Parisi, Y Kluger, D Reinberg
Elife 3, e02637, 2014
532014
In vivo proximity labeling for the detection of protein–protein and protein–RNA interactions
DB Beck, V Narendra, WJ Drury III, R Casey, PWTC Jansen, ZF Yuan, ...
Journal of proteome research 13 (12), 6135-6143, 2014
252014
CRISPR and biochemical screens identify MAZ as a cofactor in CTCF-mediated insulation at Hox clusters
H Ortabozkoyun, PY Huang, H Cho, V Narendra, G LeRoy, ...
Nature genetics 54 (2), 202-212, 2022
82022
Oncologic immunomodulatory agents in patients with cancer and COVID-19
J Jee, AJ Stonestrom, S Devlin, T Nguyentran, B Wills, V Narendra, ...
Scientific reports 11 (1), 1-6, 2021
82021
Neutropenia in adult acute myeloid leukemia patients represents a powerful risk factor for COVID-19 related mortality
M Stahl, V Narendra, J Jee, A Derkach, M Maloy, MB Geyer, AR Mato, ...
Leukemia & Lymphoma 62 (8), 1940-1948, 2021
52021
A CRISPR screen identifies Myc-associated zinc finger protein (MAZ) as an insulator functioning at CTCF boundaries in Hox clusters
H Ortabozkoyun-Kara, PY Huang, H Cho, V Narendra, G Leroy, JA Skok, ...
BioRxiv, 2020
32020
Correction for Lecona et al.,“USP7 Cooperates with SCML2 To Regulate the Activity of PRC1”
E Lecona, V Narendra, D Reinberg
Molecular and Cellular Biology 37 (19), e00631-15, 2017
22017
Corrigendum: CTCF-mediated topological boundaries during development foster appropriate gene regulation
V Narendra, M Bulajić, J Dekker, EO Mazzoni, D Reinberg
Genes & Development 31 (16), 1714, 2017
12017
Risks for Hospitalization and Death Among Patients with Blood Disorders from the ASH RC COVID-19 Registry for Hematology
LK Hicks, RA Redd, KC Anderson, P Desai, B Dolan, AD Goldberg, ...
Blood 138, 3040, 2021
2021
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