|Genetic effects on gene expression across human tissues|
Nature 550 (7675), 204, 2017
|Network motifs in integrated cellular networks of transcription–regulation and protein–protein interaction|
E Yeger-Lotem, S Sattath, N Kashtan, S Itzkovitz, R Milo, RY Pinter, ...
Proceedings of the National Academy of Sciences 101 (16), 5934-5939, 2004
|Bridging high-throughput genetic and transcriptional data reveals cellular responses to alpha-synuclein toxicity|
E Yeger-Lotem, L Riva, LJ Su, AD Gitler, AG Cashikar, OD King, ...
Nature genetics 41 (3), 316-323, 2009
|Alignment of metabolic pathways|
RY Pinter, O Rokhlenko, E Yeger-Lotem, M Ziv-Ukelson
Bioinformatics 21 (16), 3401-3408, 2005
|Compounds from an unbiased chemical screen reverse both ER-to-Golgi trafficking defects and mitochondrial dysfunction in Parkinson’s disease models|
LJ Su, PK Auluck, TF Outeiro, E Yeger-Lotem, JA Kritzer, DF Tardiff, ...
Disease models & mechanisms 3 (3-4), 194-208, 2010
|Dynamic voting for consistent primary components|
D Dolev, I Keidar, EY Lotem
Proceedings of the sixteenth annual ACM symposium on Principles of …, 1997
|Co-expression networks reveal the tissue-specific regulation of transcription and splicing|
A Saha, Y Kim, ADH Gewirtz, B Jo, C Gao, IC McDowell, BE Engelhardt, ...
Genome research 27 (11), 1843-1858, 2017
|Cancer evolution is associated with pervasive positive selection on globally expressed genes|
SL Ostrow, R Barshir, J DeGregori, E Yeger-Lotem, R Hershberg
PLoS Genet 10 (3), e1004239, 2014
|A reference map of the human binary protein interactome|
K Luck, DK Kim, L Lambourne, K Spirohn, BE Begg, W Bian, R Brignall, ...
Nature 580 (7803), 402-408, 2020
|Chromosomal organization is shaped by the transcription regulatory network|
R Hershberg, E Yeger-Lotem, H Margalit
Trends in genetics 21 (3), 138-142, 2005
|ResponseNet: revealing signaling and regulatory networks linking genetic and transcriptomic screening data|
A Lan, IY Smoly, G Rapaport, S Lindquist, E Fraenkel, E Yeger-Lotem
Nucleic acids research 39 (suppl_2), W424-W429, 2011
|Human protein interaction networks across tissues and diseases|
E Yeger-Lotem, R Sharan
Frontiers in genetics 6, 257, 2015
|Comparative analysis of human tissue interactomes reveals factors leading to tissue-specific manifestation of hereditary diseases|
R Barshir, O Shwartz, IY Smoly, E Yeger-Lotem
PLoS Comput Biol 10 (6), e1003632, 2014
|Local genetic effects on gene expression across 44 human tissues|
F Aguet, AA Brown, SE Castel, JR Davis, P Mohammadi, AV Segre, ...
BiorXiv, 074450, 2016
|The TissueNet database of human tissue protein–protein interactions|
R Barshir, O Basha, A Eluk, IY Smoly, A Lan, E Yeger-Lotem
Nucleic acids research 41 (D1), D841-D844, 2013
|Detection of regulatory circuits by integrating the cellular networks of protein–protein interactions and transcription regulation|
E Yeger‐Lotem, H Margalit
Nucleic acids research 31 (20), 6053-6061, 2003
|Identifying cis-mediators for trans-eQTLs across many human tissues using genomic mediation analysis|
F Yang, J Wang, BL Pierce, LS Chen, F Aguet, KG Ardlie, BB Cummings, ...
Genome research 27 (11), 1859-1871, 2017
|The TissueNet v. 2 database: a quantitative view of protein-protein interactions across human tissues|
O Basha, R Barshir, M Sharon, E Lerman, BF Kirson, I Hekselman, ...
Nucleic acids research 45 (D1), D427-D431, 2017
|Aging promotes reorganization of the CD4 T cell landscape toward extreme regulatory and effector phenotypes|
Y Elyahu, I Hekselman, I Eizenberg-Magar, O Berner, I Strominger, ...
Science advances 5 (8), eaaw8330, 2019
|The DifferentialNet database of differential protein–protein interactions in human tissues|
O Basha, R Shpringer, CM Argov, E Yeger-Lotem
Nucleic acids research 46 (D1), D522-D526, 2018