429 results on '"Abounader, Roger"'
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2. Unraveling the hypoxic puzzle: LncRNA LUCAT1 drives glioblastoma in cooperation with HIF1⍺
3. Focused ultrasound delivery of miR-142-3p for glioblastoma therapy
4. Cryptic lncRNA-encoded ORFs: A hidden source of regulatory proteins
5. CNSC-14. T-TYPE CALCIUM CHANNELS REGULATE NEURON-GLIOBLASTOMA INTERACTIONS AND PROMOTE TUMOR GROWTH
6. CSIG-05. A FIRST COMPREHENSIVE ANALYSIS OF TRANSCRIBED ULTRA CONSERVED REGIONS UNCOVERS IMPORTANT REGULATORY FUNCTIONS OF NOVEL NON-CODING TRANSCRIPTS IN GLIOMAS
7. CSIG-08. GAIN-OF-FUNCTION MUTANT P53 REGULATES LONG-NONCODING RNAS TO CONTROL HIF1Α TRANSCRIPTION IN GLIOBLASTOMA
8. MicroRNA-29a inhibits glioblastoma stem cells and tumor growth by regulating the PDGF pathway
9. A first comprehensive analysis of Transcribed Ultra Conserved Regions uncovers important regulatory functions of novel non-coding transcripts in gliomas.
10. A cytoskeleton regulator AVIL drives tumorigenesis in glioblastoma
11. miR-3174 Is a New Tumor Suppressor MicroRNA That Inhibits Several Tumor-Promoting Genes in Glioblastoma
12. Abstract 3747: Transcribed ultra-conserved regions (TUCRs): A first computational and molecular characterization of an understudied class of molecules in gliomas
13. Supplementary Figure 1 from Cooperation between c-Met and Focal Adhesion Kinase Family Members in Medulloblastoma and Implications for Therapy
14. Data from Cooperation between c-Met and Focal Adhesion Kinase Family Members in Medulloblastoma and Implications for Therapy
15. Supplementary Figure Legends 1-2 from Cooperation between c-Met and Focal Adhesion Kinase Family Members in Medulloblastoma and Implications for Therapy
16. Supplementary Table 1 from Cooperation between c-Met and Focal Adhesion Kinase Family Members in Medulloblastoma and Implications for Therapy
17. Supplementary Figure 2 from Cooperation between c-Met and Focal Adhesion Kinase Family Members in Medulloblastoma and Implications for Therapy
18. Supplementary Data from Combined CDK4/6 and mTOR Inhibition Is Synergistic against Glioblastoma via Multiple Mechanisms
19. Figure S1-S3 from Mitochondrial NIX Promotes Tumor Survival in the Hypoxic Niche of Glioblastoma
20. Data from Targetable T-type Calcium Channels Drive Glioblastoma
21. Figure S11 from Mitochondrial NIX Promotes Tumor Survival in the Hypoxic Niche of Glioblastoma
22. Supplemental methods and materials from Targetable T-type Calcium Channels Drive Glioblastoma
23. Supplementary Methods from Hepatocyte Growth Factor Sensitizes Brain Tumors to c-MET Kinase Inhibition
24. Data from Mitochondrial NIX Promotes Tumor Survival in the Hypoxic Niche of Glioblastoma
25. Supplementary Table 1 from Hepatocyte Growth Factor Sensitizes Brain Tumors to c-MET Kinase Inhibition
26. Data from Combined c-Met/Trk Inhibition Overcomes Resistance to CDK4/6 Inhibitors in Glioblastoma
27. Supplementary figures 1-4 from Targetable T-type Calcium Channels Drive Glioblastoma
28. Supplementary Figure 1 from Hepatocyte Growth Factor Sensitizes Brain Tumors to c-MET Kinase Inhibition
29. Supplementary Table 2 from Hepatocyte Growth Factor Sensitizes Brain Tumors to c-MET Kinase Inhibition
30. Supplementary Data from Combined c-Met/Trk Inhibition Overcomes Resistance to CDK4/6 Inhibitors in Glioblastoma
31. Supplementary materials from Mitochondrial NIX Promotes Tumor Survival in the Hypoxic Niche of Glioblastoma
32. Supplementary Data 1 from PTEN Has Tumor-Promoting Properties in the Setting of Gain-of-Function p53 Mutations
33. Data from PTEN Has Tumor-Promoting Properties in the Setting of Gain-of-Function p53 Mutations
34. Data from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
35. Supplementary Figure Legends from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
36. Supplementary Figure 5 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
37. Supplementary Figure 6 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
38. Supplementary Figure 1 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
39. Supplementary Figure 2 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
40. Supplementary Figure 4 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
41. Supplementary Figure 3 from microRNA-148a Is a Prognostic oncomiR That Targets MIG6 and BIM to Regulate EGFR and Apoptosis in Glioblastoma
42. Editorial: GBM stem cells and the brain tumor microenvironment
43. CNSC-11. T-TYPE CALCIUM CHANNELS DRIVE GLIOBLASTOMA GROWTH BY PROMOTING NEURONAL INTERACTIONS
44. CSIG-07. GAIN-OF-FUNCTION MUTANT P53 REGULATES LONG-NONCODING RNAS IN GLIOBLASTOMA
45. Faculty Opinions recommendation of Glioblastoma hijacks neuronal mechanisms for brain invasion.
46. Diffuse midline (H3 K27M-mutant) glioma in adults—When resection fails to matter.
47. HGF/c-Met Signaling and Targeted Therapeutics in Brain Tumors
48. Transcribed Ultraconserved Regions in Cancer
49. Faculty Opinions recommendation of Stratification of radiosensitive brain metastases based on an actionable S100A9/RAGE resistance mechanism.
50. MicroRNA 3928 Suppresses Glioblastoma through Downregulation of Several Oncogenes and Upregulation of p53
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