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The protein encoded by this intronless gene is a member of the JUN family, and a functional component of the AP1 transcription factor complex. Additionally we are shipping Jun D Proto-Oncogene Antibodies (149) and Jun D Proto-Oncogene Kits (9) and many more products for this protein.
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identify AP-1(JunD/c-Fos) as a novel hematopoietic transcription factor and the requirement of AP-1(JunD/c-Fos) in BMP-4 (show BMP4 Proteins)-induced hematopoiesis during Xenopus hematopoiesis.
CARMA1 (show CARD11 Proteins)- and MyD88 (show MYD88 Proteins)-dependent activation of Jun (show JUN Proteins)/ATF-type AP-1 (show FOSB Proteins) complexes is a hallmark of ABC (show ABCB6 Proteins) diffuse large B-cell lymphomas.
recombinant SERPINE2 (show SERPINE2 Proteins) induced a clear inhibition of MMP-13 (show MMP13 Proteins) expression in IL-1alpha-stimulated chondrocytes. This inhibitory effect is likely regulated through a pathway involving ERK 1 (show MAPK3 Proteins)/2, NF-kappaB (show NFKB1 Proteins) and AP-1 (show FOSB Proteins)
miR (show MLXIP Proteins)-494 is a novel regulator of HNPC apoptosis induced by TNF-alpha (show TNF Proteins)
JunD activates miR (show MLXIP Proteins)-29b by enhancing its transcription and processing, which contribute to the inhibitory effect of JunD
Binding of specific AP-1 (show FOSB Proteins) factors, we found JunD associated with the LILRB1 (show LILRB1 Proteins) distal promoter.
Cells in contact with basement membrane undergo transient oscillations between two molecular states defined by their TGFBR3 (show TGFBR3 Proteins)- JUND expression.
BAG3 (show BAG3 Proteins) stabilized JunD mRNA.
Jun (show JUN Proteins) proteins (pc-Jun (show JUN Proteins) and JunD) influence carcinogenesis and tumour progression, suggesting a significant role as prognostic predictors in human ovarian carcinoma.
This genotype-phenotype correlation study confirmed the lack of direct genotype-phenotype correlations. However, patients with mutations affecting the JunD interacting domain had a higher risk of death secondary to a MEN1 (show MEN1 Proteins) tumor
HTLV-1 bZIP factor(hbz (show HBZ Proteins)) requires cellular JunD to upregulate HTLV-1 antisense transcription from the 3' long terminal repeat.
The present data indicate that bovine dialyzable leukocyte extract can block the AP-1 (show JUN Proteins) DNA-binding activity and expression of several transcriptions factors in breast cancer cells.
Differentiation-mediated activation of JunD results in enhanced TUBB4a expression in P19 embryonal carcinoma cells.
JunD provides protection in aging-induced endothelial dysfunction and may represent a novel target to prevent reactive oxygen species-driven vascular aging.
AP-1 (show JUN Proteins) composed with JunD and Fra2 (show FOSL2 Proteins) protein plays a primary role in enhancing the transcription level of the CD11c (show ITGAX Proteins) gene in dendritic cells
Nfe2 (show NFE2 Proteins) modulates JunD binding to the Gcm1 (show GCM1 Proteins) promoter via acetylation
5-HT2B (show HTR2B Proteins) blockade enhances liver regeneration by inhibiting induction of TGF-beta1 (show TGFB1 Proteins) expression by hepatic stellate cells that is dependent on 5-HT (show DDC Proteins), ERK (show EPHB2 Proteins) and JunD.
CDK4 (show CDK4 Proteins)-mediated regulation of cell functions via c-Jun (show JUN Proteins) phosphorylation and AP-1 (show JUN Proteins) activation
Downregulation of JunD and cyclin D1 (show CCND1 Proteins) expression in myofibroblasts may be important regarding the mechanism of action of MTA (show DNMT1 Proteins) in Mdr2 (show ABCB4 Proteins)-/- mice
c-Jun (show JUN Proteins), JunB (show JUNB Proteins), and JunD are not functionally equivalent and have both overlapping and independent functions in controlling cellular proliferation, cell-cycle arrest/senescence and the response to stress.
Study supports potential roles for jun (show JUN Proteins) D, jun (show JUN Proteins) B, and fra-1 (show FOSL1 Proteins) in the dietary energy restriction regulation of AP-1 (show JUN Proteins) function in the Sencar mouse skin carcinogenesis model.
protects cells from p53 (show TP53 Proteins)-dependent senescence and apoptosis
The protein encoded by this intronless gene is a member of the JUN family, and a functional component of the AP1 transcription factor complex. It has been proposed to protect cells from p53-dependent senescence and apoptosis. Alternate translation initiation site usage, including non-AUG codons, results in the production of different isoforms.
transcription factor jun-D
, JunD-FL isoform
, activator protein 1
, Jun proto-oncogene related gene d1