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The protein encoded by GATA5 is a transcription factor that contains two GATA-type zinc fingers. Additionally we are shipping GATA5 Kits (27) and GATA5 Proteins (6) and many more products for this protein.
Showing 10 out of 64 products:
Mouse (Murine) Polyclonal GATA5 Primary Antibody for WB - ABIN2779840
Kaneko-Oshikawa, Nakagawa, Yamada, Yoshikawa, Matsumoto, Yada, Hatakeyama, Nakayama, Nakayama: Mammalian E4 is required for cardiac development and maintenance of the nervous system. in Molecular and cellular biology 2005
Human Polyclonal GATA5 Primary Antibody for ELISA, WB - ABIN188675
Belinsky, Liechty, Gentry, Wolf, Rogers, Vu, Haney, Kennedy, Hirsch, Miller, Franklin, Herman, Baylin, Bunn, Byers: Promoter hypermethylation of multiple genes in sputum precedes lung cancer incidence in a high-risk cohort. in Cancer research 2006
Human Monoclonal GATA5 Primary Antibody for ELISA, WB - ABIN969170
Hellebrekers, Lentjes, van den Bosch, Melotte, Wouters, Daenen, Smits, Akiyama, Yuasa, Sanduleanu, Khalid-de Bakker, Jonkers, Weijenberg, Louwagie, van Criekinge, Carvalho, Meijer, Baylin, Herman et al.: GATA4 and GATA5 are potential tumor suppressors and biomarkers in colorectal cancer. ... in Clinical cancer research : an official journal of the American Association for Cancer Research 2009
GATA5 is expressed in microvascular endothelial cells and its inactivation in mice leads to vascular endothelial dysfunction and hypertension.
GATA (show QRSL1 Antibodies) transcription factors are repressors of hedgehog (show SHH Antibodies) signaling, and NKX3.2 (show NKX3-2 Antibodies) maintains the ability of sclerotomal cells to express SHH (show SHH Antibodies) transcriptional targets in the presence of BMP signals by repressing the induction of Gata4 (show GATA4 Antibodies)/5/6
Gata5 deficiency induces airway hyperresponsiveness, at least in part, by blunting apoE (show APOE Antibodies) and increasing IL-13 (show IL13 Antibodies) expression.
Expression of Gata5 very efficiently promotes cardiomyocyte fate from murine embryonic stem cells.
USF1 transactivates GATA5 expression by binding to the E-box in its promoter
compound Gata4 (show GATA4 Antibodies)/Gata5 and Gata5/Gata6 (show GATA6 Antibodies) mutants die embryonically or perinatally due to severe congenital heart defects
Results unravel a critical cell-autonomous role for endocardial Gata5 in aortic valve formation and identify GATA5 as a potential gene responsible for congenital heart disease in humans.
These results demonstrate functional redundancy between Gata4 and Gata5 during cardiac development and implicate Gata5 as a candidate modifier gene for congenital heart disease.
data reveal that transcription factor GATA5 is required for differentiation of cardiogenic precursors into endothelial endocardial cells
collaboration between GATA-6 (show GATA6 Antibodies) and GATA-4 (show GATA4 Antibodies), or GATA-6 (show GATA6 Antibodies) and GATA-5 which can substitute for GATA-4 (show GATA4 Antibodies), is involved in the perception of differentiation cues by embryonic stem cells in their determination of endoderm lineage
The Correlation between GATA5, WT1 (show WT1 Antibodies) and PAX5 (show PAX5 Antibodies) methylation and clinical/histological parameters is suggestive of applicability of these markers in non-invasive (epi (show TFPI Antibodies))genetic testing in hepatocellular carcinoma (HCC (show FAM126A Antibodies)).
we identified gene promoter methylation signatures (WT1 (show WT1 Antibodies), MSH6 (show MSH6 Antibodies), GATA5 and PAX5 (show PAX5 Antibodies)) that are strongly correlated to, and can have a predictive value for the clinical outcome of oral squamous cell carcinoma patients
Evidence supporting a genetic basis includes the autosomal dominance of Bicuspid aortic valve inheritance patterns, and the identification of mutations in GATA binding protein 5 transcription factor.
Transcriptomic analysis of human microvascular endothelial cells with GATA5 knockdown reveals that GATA5 affects several genes and pathways critical for endothelial function.
This study firstly links GATA5 mutation to DCM, which provides novel insight into the molecular mechanisms of DCM, suggesting a potential molecular target for the prenatal prophylaxis and allele-specific treatment of DCM.
Promoter hypermethylation is an important mechanism of the transcriptional inactivation of GATA5 in invasive ductal breast carcinoma.
A combination of GATA5 and SFRP2 (show SFRP2 Antibodies) methylation could be promising as a marker for the detection and diagnosis of colorectal cancers and adenomas.
A new potentially pathogenic variant in GATA5 contributes to the development of bicuspid aortic valve syndrome.
DSVs in the GATA5 gene promoter may increase the susceptibility to the development of VSD as a risk factor.
Rare sequence variants, p.Gln3Arg and p.Leu233Pro, in GATA5 are associated with human bicuspid aortic valve.
The protein encoded by this gene is a transcription factor that contains two GATA-type zinc fingers. The encoded protein is known to bind to hepatocyte nuclear factor-1alpha (HNF-1alpha), and this interaction is essential for cooperative activation of the intestinal lactase-phlorizin hydrolase promoter. In other organisms, similar proteins may be involved in the establishment of cardiac smooth muscle cell diversity.
GATA binding protein 5
, GATA-binding factor 5
, GATA-binding protein 5
, Transcription factor GATA-5 (GATA binding factor-5)
, transcription factor GATA-5
, GATA binding factor-5
, GATA-5 transcription factor