Pages that link to "Q41854156"

The following pages link to Impact of Sox9 dosage and Hes1-mediated Notch signaling in controlling the plasticity of adult pancreatic duct cells in mice. (Q41854156):

Displaying 13 items.

• Notch Signaling in Pancreatic Development (Q26771258) (← links)
• The hepatic, biliary, and pancreatic network of stem/progenitor cell niches in humans: A new reference frame for disease and regeneration. (Q38622477) (← links)
• Stem cells versus plasticity in liver and pancreas regeneration. (Q38748909) (← links)
• The interplay of the Notch signaling in hepatic stellate cells and macrophages determines the fate of liver fibrogenesis. (Q38812340) (← links)
• Acinar cell plasticity and development of pancreatic ductal adenocarcinoma (Q38922230) (← links)
• Molecular mechanisms of Sox transcription factors during the development of liver, bile duct, and pancreas (Q38934951) (← links)
• Disappearance of centroacinar cells in the Notch ligand-deficient pancreas (Q42145429) (← links)
• Acinar cells in the neonatal pancreas grow by self-duplication and not by neogenesis from duct cells (Q42282476) (← links)
• Liver-specific Prox1 inactivation causes hepatic injury and glucose intolerance in mice. (Q46711750) (← links)
• Peribiliary Glands as a Niche of Extrapancreatic Precursors Yielding Insulin-Producing Cells in Experimental and Human Diabetes (Q47587195) (← links)
• Identification of a novel alpha-fetoprotein-expressing cell population induced by the Jagged1/Notch2 signal in murine fibrotic liver. (Q52699082) (← links)
• Progenitor cell niches in the human pancreatic duct system and associated pancreatic duct glands: an anatomical and immunophenotyping study. (Q52900209) (← links)
• Cep215 is essential for morphological differentiation of astrocytes (Q100525968) (← links)