Jing Zhang
Zitiert von
Zitiert von
A global reference for human genetic variation
1000 Genomes Project Consortium
Nature 526 (7571), 68, 2015
An integrated map of structural variation in 2,504 human genomes
PH Sudmant, T Rausch, EJ Gardner, RE Handsaker, A Abyzov, ...
Nature 526 (7571), 75-81, 2015
Pan-cancer analysis of whole genomes
Nature 578 (7793), 82-93, 2020
Expanded encyclopaedias of DNA elements in the human and mouse genomes
JE Moore, MJ Purcaro, HE Pratt, CB Epstein, N Shoresh, J Adrian, T Kawli, ...
Nature 583 (7818), 699-710, 2020
Transcriptome-wide isoform-level dysregulation in ASD, schizophrenia, and bipolar disorder
MJ Gandal, P Zhang, E Hadjimichael, RL Walker, C Chen, S Liu, H Won, ...
Science 362 (6420), eaat8127, 2018
Comprehensive functional genomic resource and integrative model for the human brain
D Wang, S Liu, J Warrell, H Won, X Shi, FCP Navarro, D Clarke, M Gu, ...
Science 362 (6420), eaat8464, 2018
Integrative functional genomic analysis of human brain development and neuropsychiatric risks
M Li, G Santpere, YI Kawasawa, OV Evgrafov, FO Gulden, S Pochareddy, ...
Science 362 (6420), eaat7615, 2018
Analyses of non-coding somatic drivers in 2,658 cancer whole genomes
E Rheinbay, MM Nielsen, F Abascal, JA Wala, O Shapira, G Tiao, ...
Nature 578 (7793), 102-111, 2020
The real cost of sequencing: scaling computation to keep pace with data generation
P Muir, S Li, S Lou, D Wang, DJ Spakowicz, L Salichos, J Zhang, ...
Genome biology 17, 1-9, 2016
Transcriptome and epigenome landscape of human cortical development modeled in organoids
A Amiri, G Coppola, S Scuderi, F Wu, T Roychowdhury, F Liu, ...
Science 362 (6420), eaat6720, 2018
Pan-cancer analysis of whole genomes.
S Hirano, L Yang, M Juul, CA Purdie, BP O'Neill, R Kabbe, ...
Nature 578 (DKFZ-2020-01051), 82-93, 2020
An integrative ENCODE resource for cancer genomics
J Zhang, D Lee, V Dhiman, P Jiang, J Xu, P McGillivray, H Yang, J Liu, ...
Nature communications 11 (1), 3696, 2020
GC content around splice sites affects splicing through pre-mRNA secondary structures
J Zhang, CCJ Kuo, L Chen
BMC genomics 12, 1-11, 2011
LARVA: an integrative framework for large-scale analysis of recurrent variants in noncoding annotations
L Lochovsky, J Zhang, Y Fu, E Khurana, M Gerstein
Nucleic acids research 43 (17), 8123-8134, 2015
Dynamic RNA–protein interactions underlie the zebrafish maternal-to-zygotic transition
V Despic, M Dejung, M Gu, J Krishnan, J Zhang, L Herzel, K Straube, ...
Genome research 27 (7), 1184-1194, 2017
MicroRNAs establish uniform traits during the architecture of vertebrate embryos
DM Kasper, A Moro, E Ristori, A Narayanan, G Hill-Teran, E Fleming, ...
Developmental cell 40 (6), 552-565. e5, 2017
MicroRNA-dependent regulation of biomechanical genes establishes tissue stiffness homeostasis
A Moro, TP Driscoll, LC Boraas, W Armero, DM Kasper, N Baeyens, ...
Nature cell biology 21 (3), 348-358, 2019
STARRPeaker: uniform processing and accurate identification of STARR-seq active regions
D Lee, M Shi, J Moran, M Wall, J Zhang, J Liu, D Fitzgerald, Y Kyono, ...
Genome biology 21, 1-24, 2020
Revealing the brain's molecular architecture.
P Consortium
Science (New York, NY) 362 (6420), 1262, 2018
Network analysis as a grand unifier in biomedical data science
P McGillivray, D Clarke, W Meyerson, J Zhang, D Lee, M Gu, S Kumar, ...
Annual Review of Biomedical Data Science 1, 153-180, 2018
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