31 results on '"von Furstenberg, Richard J."'
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2. Plasmonic nanobiosensors for detection of microRNA cancer biomarkers in clinical samples
3. A cancer rainbow mouse for visualizing the functional genomics of oncogenic clonal expansion
4. 777 – Loss of TGF-Β Signaling Promotes Proliferation and is Associated with Barrett's Esophagus and Esophageal Adenocarcinoma
5. Su1040 – Early Activation of Sox9-Positive Cells in Esophageal Submucosal Glands After Injury
6. The enteric microbiota regulates jejunal Paneth cell number and function without impacting intestinal stem cells
7. Su1762 - Esophageal Submucosal Glands as a Source of Progenitor Cells Capable of Differentiating Into Squamous or Barrett's-Like Columnar Cells
8. 1075 - Increased Gastrin Responsiveness after Injury in Esophageal Submucosal Glands
9. Porcine Esophageal Submucosal Gland Culture Model Shows Capacity for Proliferation and Differentiation
10. Ductular and proliferative response of esophageal submucosal glands in a porcine model of esophageal injury and repair
11. Intestinal Enteroendocrine Lineage Cells Possess Homeostatic and Injury-Inducible Stem Cell Activity
12. Non-equivalence of Wnt and R-spondin ligands during Lgr5+ intestinal stem-cell self-renewal
13. GI stem cells - new insights into roles in physiology and pathophysiology
14. Tu1179 Previous Tonsillectomy Is Associated With Increased Risk of Esophageal Cancer
15. Mo1253 Ductular and Proliferative Response of Esophageal Submucosal Glands in a Porcine Model of Esophageal Injury and Repair
16. 523 Esophageal Submucosal Glands Contain Cells That Exhibit Progenitor Characteristics In Vitro
17. The Viral Mimetic Polyinosinic:Polycytidylic Acid Alters the Growth Characteristics of Small Intestinal and Colonic Crypt Cultures
18. Mo1836 Viral Products Elicit Different Phenotypes From Small Intestine and Colonic Crypt Cultures
19. Tissue underlying the intestinal epithelium elicits proliferation of intestinal stem cells following cytotoxic damage
20. Side population sorting separates subfractions of cycling and non-cycling intestinal stem cells
21. Intestinal stem cells remain viable after prolonged tissue storage
22. 277 Side Population Analysis of Mouse Jejunal Epithelium Reveals Sub-Groups With Active and Quiescent Intestinal Stem Cell Phenotypes
23. Mouse Paneth cell antimicrobial function is independent of Nod2
24. CD24 can be used to isolate Lgr5+ putative colonic epithelial stem cells in mice
25. Tu1856 NOD2 Does Not Regulate Mouse Paneth Cell a-Defensin Expression
26. Mouse Background Strain Profoundly Influences Paneth Cell Function and Intestinal Microbial Composition
27. CD24 as a Potential Marker to Directly Isolate LGR5+ Colonic Epithelial Cells
28. Sorting mouse jejunal epithelial cells with CD24 yields a population with characteristics of intestinal stem cells
29. 787 Sorting With CD24 Yields a Population Markedly Enriched for Markers of Intestinal Stem Cells
30. Rosiglitazone attenuates suppression of RXRα-dependent gene expression in inflamed liver
31. SOY‐LIPID DERIVED STIGMASTEROL SUPPRESSES FXR TARGET GENES BSEP AND FGF‐19 IN HUMAN HEPATOBLASTOMA (HEPG2) CELLS‐POTENTIAL ROLE IN TOTAL PARENTERAL NUTRITION‐ASSOCIATED CHOLESTASIS (TPNAC)
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