819 results on '"Merchant, Juanita L."'
Search Results
2. DDS Perspective: The Joy of Discovery and the Art of Mentoring
3. The immune microenvironment in gastric adenocarcinoma
4. GFAP-directed Inactivation of Men1 Exploits Glial Cell Plasticity in Favor of Neuroendocrine Reprogramming
5. Multiphoton microscopy combined with machine learning shows promise for localizing pancreatic neuroendocrine tumors
6. Validation of label-free optical imaging markers of pancreatic cancer using spatial transcriptomics
7. Evaluating the impact of freeze-thaw protocols on tissue microstructural imaging features measured using optical coherence tomography
8. Myeloid-Derived Suppressor Cells: Therapeutic Target for Gastrointestinal Cancers
9. Interleukin-1β Suppresses Gastrin via Primary Cilia and Induces Antral Hyperplasia
10. Combined flat-field and frequency filter approach to correcting artifacts of multichannel two-photon microscopy
11. Spatial profiling reveals tissue‐specific neuro‐immune interactions in gastroenteropancreatic neuroendocrine tumors
12. Zfp281 and Zfp148 control CD4 + T cell thymic development and T H 2 functions
13. Wide field-of-view fluorescence imaging for organ-level lineage tracing of rare intestinal stem cell populations
14. Identification of a Functional TPH1 Polymorphism Associated With Irritable Bowel Syndrome Bowel Habit Subtypes
15. Kinetic Profiles of p300 Occupancy in vivo Predict Common Features of Promoter Structure and Coactivator Recruitment
16. FIGURE 2 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
17. FIGURE 4 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
18. Supplementary Figure S1 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
19. FIGURE 3 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
20. FIGURE 7 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
21. FIGURE 5 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
22. FIGURE 6 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
23. Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
24. FIGURE 1 from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
25. Data from Clinically Defined Mutations in MEN1 Alter Its Tumor-suppressive Function Through Increased Menin Turnover
26. High-fat diet plus HNF1A variant promotes polyps by activating β-catenin in early onset colorectal cancer
27. Treatment of Helicobacter Gastritis with IL-4 Requires Somatostatin
28. Recapitulating Human Gastric Cancer Pathogenesis: Experimental Models of Gastric Cancer
29. Hedgehog Signaling Links Chronic Inflammation to Gastric Cancer Precursor Lesions
30. Zfp281 and Zfp148 control CD4+ T cell thymic development and TH2 functions.
31. The bHLH transcription factor ASCL1 promotes differentiation of endocrine cells in the stomach and is regulated by Notch signaling.
32. Schlafen4+-MDSC in Helicobacter-induced gastric metaplasia reveals role for GTPases
33. MENIN‐mediated regulation of gastrin gene expression and its role in gastrinoma development
34. The next big questions in cancer research
35. Data from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
36. Supplemental Data from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
37. Supplemental Figure 2 from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
38. Supplemental Figure 3 from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
39. Supplemental Table 1 from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
40. Supplemental Figure 1 from Transcription Factor ZBP-89 Drives a Feedforward Loop of β-Catenin Expression in Colorectal Cancer
41. Mueller matrix polarization imaging of gastrinoma shows promise for tumor localization
42. Spatial and spectral optimization of two-photon imaging data for optimal label-free texture-based tissue classification models (Conference Presentation)
43. Combined multiphoton microscopy and somatostatin receptor type 2 imaging of pancreatic neuroendocrine tumors
44. Helicobacter pylori treatment knowledge, access and barriers: A cross‐sectional study
45. Evidence for diet-gene interaction in early-onset colorectal cancer.
46. ZFP148 (Zinc-Finger Protein 148) Binds Cooperatively With NF-1 (Neurofibromin 1) to Inhibit Smooth Muscle Marker Gene Expression During Abdominal Aortic Aneurysm Formation
47. ZFP148 (Zinc-Finger Protein 148) Binds Cooperatively With NF-1 (Nuclear Factor 1) to Inhibit Smooth Muscle Marker Gene Expression During Abdominal Aortic Aneurysm Formation
48. Contributors
49. Transcription and Epigenetic Regulation
50. Design, fabrication, and preclinical testing of a miniaturized, multispectral, chip-on-tip, imaging probe for intraluminal fluorescence imaging of the gastrointestinal tract
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