|A validated regulatory network for Th17 cell specification|
M Ciofani, A Madar, C Galan, ML Sellars, K Mace, F Pauli, A Agarwal, ...
Cell 151 (2), 289-303, 2012
|Parallel SUMOylation-dependent pathways mediate gene-and signal-specific transrepression by LXRs and PPARγ|
S Ghisletti, W Huang, S Ogawa, G Pascual, ME Lin, TM Willson, ...
Molecular cell 25 (1), 57-70, 2007
|An IL-23R/IL-22 circuit regulates epithelial serum amyloid A to promote local effector Th17 responses|
T Sano, W Huang, JA Hall, Y Yang, A Chen, SJ Gavzy, JY Lee, JW Ziel, ...
Cell 163 (2), 381-393, 2015
|Cooperative NCoR/SMRT interactions establish a corepressor-based strategy for integration of inflammatory and anti-inflammatory signaling pathways|
S Ghisletti, W Huang, K Jepsen, C Benner, G Hardiman, MG Rosenfeld, ...
Genes & development 23 (6), 681-693, 2009
|Low Doses of Lipopolysaccharide and Minimally Oxidized Low-Density Lipoprotein Cooperatively Activate Macrophages via Nuclear Factor κB and Activator Protein-1|
P Wiesner, SH Choi, F Almazan, C Benner, W Huang, CJ Diehl, A Gonen, ...
Circulation research 107 (1), 56-65, 2010
|Coronin 2A mediates actin-dependent de-repression of inflammatory response genes|
W Huang, S Ghisletti, K Saijo, M Gandhi, M Aouadi, GJ Tesz, DX Zhang, ...
Nature 470 (7334), 414-418, 2011
|DDX5 and its associated lncRNA Rmrp modulate TH17 cell effector functions|
W Huang, B Thomas, RA Flynn, SJ Gavzy, L Wu, SV Kim, JA Hall, ...
Nature 528 (7583), 517, 2015
|Nuclear receptors and inflammation control: molecular mechanisms and pathophysiological relevance|
W Huang, CK Glass
Arteriosclerosis, thrombosis, and vascular biology 30 (8), 1542-1549, 2010
|Transcriptional integration of TLR2 and TLR4 signaling at the NCoR derepression checkpoint|
W Huang, S Ghisletti, V Perissi, MG Rosenfeld, CK Glass
Molecular cell 35 (1), 48-57, 2009
|The transcriptional specificity of NF-κB dimers is coded within the κB DNA response elements|
VYF Wang, W Huang, M Asagiri, N Spann, A Hoffmann, C Glass, G Ghosh
Cell reports 2 (4), 824-839, 2012
|Serum response factor utilizes distinct promoter-and enhancer-based mechanisms to regulate cytoskeletal gene expression in macrophages|
AL Sullivan, C Benner, S Heinz, W Huang, L Xie, JM Miano, CK Glass
Molecular and cellular biology 31 (4), 861-875, 2011
|Bacteria engineered to produce IL-22 in intestine induce expression of REG3G to reduce ethanol-induced liver disease in mice|
T Hendrikx, Y Duan, Y Wang, JH Oh, LM Alexander, W Huang, P Stärkel, ...
Gut 68 (8), 1504-1515, 2019
|A global clustering algorithm to identify long intergenic non-coding RNA-with applications in mouse macrophages|
LX Garmire, DG Garmire, W Huang, J Yao, CK Glass, S Subramaniam
PLoS One 6 (9), 2011
|Bacillus species proteins involved in spore formation and degradation: from identification in the genome, to sequence analysis, and determination of function and structure|
MJ Jedrzejas, WJM Huang
Critical reviews in biochemistry and molecular biology 38 (3), 173-198, 2003
|Regulation of RORγt in inflammatory lymphoid cell differentiation|
W Huang, DR Littman
Cold Spring Harbor symposia on quantitative biology 80, 257-263, 2015
|Early precursors and molecular determinants of tissue-resident memory CD8+ T lymphocytes revealed by single-cell RNA sequencing|
NS Kurd, Z He, TL Louis, JJ Milner, KD Omilusik, W Jin, MS Tsai, ...
Science Immunology 5 (47), 2020
|Noncoding RNAs in Inflammation and Colorectal Cancer|
S Ma, T Long, WJM Huang
RNA biology, 2019
|DDX5 promotes oncogene C3 and FABP1 expressions and drives intestinal inflammation and tumorigenesis|
N Abbasi, T Long, Y Li, BA Yee, BS Cho, JE Hernandez, E Ma, PR Patel, ...
Life Science Alliance 3 (10), 2020
|27 Harnessing the Therapeutic Potential of Long Non-coding RNAs in Immunity|
Genome Editing and Engineering: From TALENs, ZFNs and CRISPRs to Molecular …, 2018
|Coregulators and Inflammation|
S Ghisletti, W Huang, CK Glass
Nuclear Receptor Coregulators And Human Diseases, 441-465, 2008