DNA-binding mechanism of the Hippo pathway transcription factor TEAD4
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Title
DNA-binding mechanism of the Hippo pathway transcription factor TEAD4
Authors
Keywords
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Journal
ONCOGENE
Volume 36, Issue 30, Pages 4362-4369
Publisher
Springer Nature
Online
2017-04-04
DOI
10.1038/onc.2017.24
References
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Related references
Note: Only part of the references are listed.- Mechanisms of Hippo pathway regulation
- (2016) Zhipeng Meng et al. GENES & DEVELOPMENT
- A Potential Structural Switch for Regulating DNA-Binding by TEAD Transcription Factors
- (2016) Dong-Sun Lee et al. JOURNAL OF MOLECULAR BIOLOGY
- Autopalmitoylation of TEAD proteins regulates transcriptional output of the Hippo pathway
- (2016) PuiYee Chan et al. Nature Chemical Biology
- Palmitoylation of TEAD Transcription Factors Is Required for Their Stability and Function in Hippo Pathway Signaling
- (2016) Cameron L. Noland et al. STRUCTURE
- Hippo Pathway in Organ Size Control, Tissue Homeostasis, and Cancer
- (2015) Fa-Xing Yu et al. CELL
- Cellular energy stress induces AMPK-mediated regulation of YAP and the Hippo pathway
- (2015) Jung-Soon Mo et al. NATURE CELL BIOLOGY
- AMPK modulates Hippo pathway activity to regulate energy homeostasis
- (2015) Wenqi Wang et al. NATURE CELL BIOLOGY
- Structural dissection of Hippo signaling
- (2014) Z. Shi et al. ACTA BIOCHIMICA ET BIOPHYSICA SINICA
- A Peptide Mimicking VGLL4 Function Acts as a YAP Antagonist Therapy against Gastric Cancer
- (2014) Shi Jiao et al. CANCER CELL
- VGLL4 functions as a new tumor suppressor in lung cancer by negatively regulating the YAP-TEAD transcriptional complex
- (2014) Wenjing Zhang et al. CELL RESEARCH
- Emerging roles of TEAD transcription factors and its coactivators in cancers
- (2013) Ajaybabu V. Pobbati et al. CANCER BIOLOGY & THERAPY
- Integrative genomics analysis reveals the multilevel dysregulation and oncogenic characteristics of TEAD4 in gastric cancer
- (2013) Byungho Lim et al. CARCINOGENESIS
- A novel partner of Scalloped regulates Hippo signaling via antagonizing Scalloped-Yorkie activity
- (2013) Tong Guo et al. CELL RESEARCH
- The Hippo Effector Yorkie Controls Normal Tissue Growth by Antagonizing Scalloped-Mediated Default Repression
- (2013) Laura M. Koontz et al. DEVELOPMENTAL CELL
- Towards automated crystallographic structure refinement withphenix.refine
- (2012) Pavel V. Afonine et al. ACTA CRYSTALLOGRAPHICA SECTION D-BIOLOGICAL CRYSTALLOGRAPHY
- Structural and Functional Similarity between the Vgll1-TEAD and the YAP-TEAD Complexes
- (2012) Ajaybabu V. Pobbati et al. STRUCTURE
- The Hippo pathway in organ size control, tissue regeneration and stem cell self-renewal
- (2011) Bin Zhao et al. NATURE CELL BIOLOGY
- Features and development ofCoot
- (2010) P. Emsley et al. ACTA CRYSTALLOGRAPHICA SECTION D-BIOLOGICAL CRYSTALLOGRAPHY
- PHENIX: a comprehensive Python-based system for macromolecular structure solution
- (2010) Paul D. Adams et al. ACTA CRYSTALLOGRAPHICA SECTION D-BIOLOGICAL CRYSTALLOGRAPHY
- Structural basis of YAP recognition by TEAD4 in the Hippo pathway
- (2010) L. Chen et al. GENES & DEVELOPMENT
- Structural insights into the YAP and TEAD complex
- (2010) Z. Li et al. GENES & DEVELOPMENT
- TEADs Mediate Nuclear Retention of TAZ to Promote Oncogenic Transformation
- (2009) Siew Wee Chan et al. JOURNAL OF BIOLOGICAL CHEMISTRY
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