Pages that link to "Q28505881"

The following pages link to Sumoylation activates the transcriptional activity of Pax-6, an important transcription factor for eye and brain development (Q28505881):

Displaying 33 items.

• Paired box 6 (Q14916221) (← links)
• Small ubiquitin-like modifier 1 (Q15333187) (← links)
• Dusp3 and Psme3 are associated with murine susceptibility to Staphylococcus aureus infection and human sepsis (Q27325556) (← links)
• Transcription Factor hDREF Is a Novel SUMO E3 Ligase of Mi2α. (Q29871439) (← links)
• Cephalopod eye evolution was modulated by the acquisition of Pax-6 splicing variants (Q30053277) (← links)
• Hedgehog-dependent E3-ligase Midline1 regulates ubiquitin-mediated proteasomal degradation of Pax6 during visual system development. (Q30353792) (← links)
• CRISPR/Cas-mediated targeted mutagenesis in Daphnia magna (Q33690167) (← links)
• Neuronal SUMOylation: mechanisms, physiology, and roles in neuronal dysfunction (Q34295237) (← links)
• A yeast one-hybrid and microfluidics-based pipeline to map mammalian gene regulatory networks (Q34897211) (← links)
• Macrophage/epithelium cross-talk regulates cell cycle progression and migration in pancreatic progenitors (Q35107451) (← links)
• Rapid and robust generation of long-term self-renewing human neural stem cells with the ability to generate mature astroglia. (Q36254742) (← links)
• Chromatin modification by SUMO-1 stimulates the promoters of translation machinery genes (Q36368843) (← links)
• SUMOylation of Pax7 is essential for neural crest and muscle development. (Q36773979) (← links)
• SUMOylation of DISC1: a potential role in neural progenitor proliferation in the developing cortex. (Q37164610) (← links)
• Regulation of transcription factor activity by interconnected post-translational modifications (Q37638351) (← links)
• Sumoylation differentially regulates Sp1 to control cell differentiation (Q37711906) (← links)
• The Diabetes-Linked Transcription Factor PAX4: From Gene to Functional Consequences (Q37724128) (← links)
• Marking the tempo for myogenesis: Pax7 and the regulation of muscle stem cell fate decisions (Q37880238) (← links)
• Emerging roles of the SUMO pathway in development (Q37926562) (← links)
• Protein sumoylation in brain development, neuronal morphology and spinogenesis. (Q38128632) (← links)
• SUMO-regulated transcription: challenging the dogma (Q38583743) (← links)
• A gene-specific non-enhancer sequence is critical for expression from the promoter of the small heat shock protein gene αB-crystallin (Q38614510) (← links)
• Derivation of multiple cranial tissues and isolation of lens epithelium-like cells from human embryonic stem cells (Q39206389) (← links)
• Regulation of Neuronal Protein Trafficking and Translocation by SUMOylation (Q39868446) (← links)
• The Key Regulator for Language and Speech Development, FOXP2, is a Novel Substrate for SUMOylation (Q40694675) (← links)
• Transcriptome analysis of developing lens reveals abundance of novel transcripts and extensive splicing alterations (Q41045582) (← links)
• Regulation of transcription factors by sumoylation. (Q41544794) (← links)
• Signaling and Gene Regulatory Networks in Mammalian Lens Development (Q47863726) (← links)
• Phenotypic Variation in a Four-Generation Family with Aniridia Carrying a Novel PAX6 Mutation. (Q54964054) (← links)
• 5-Aza Exposure Improves Reprogramming Process Through Embryoid Body Formation in Human Gingival Stem Cells (Q57817445) (← links)
• A comprehensive spatial-temporal transcriptomic analysis of differentiating nascent mouse lens epithelial and fiber cells (Q89043393) (← links)
• High glucose-induced oxidative stress accelerates myogenesis by altering SUMO reactions (Q98614955) (← links)
• PAX6, modified by SUMOylation, plays a protective role in corneal endothelial injury (Q98623257) (← links)