307 results on '"Ayrault, Olivier"'
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2. SALL4 is a CRL3REN/KCTD11 substrate that drives Sonic Hedgehog-dependent medulloblastoma
3. Cancer-specific epigenome identifies oncogenic hijacking by nuclear factor I family proteins for medulloblastoma progression
4. Imaging and multi-omics datasets converge to define different neural progenitor origins for ATRT-SHH subgroups
5. Molecular characterisation defines clinically-actionable heterogeneity within Group 4 medulloblastoma and improves disease risk-stratification
6. The transcriptional landscape of Shh medulloblastoma.
7. Germline Elongator mutations in Sonic Hedgehog medulloblastoma.
8. ClustMMRA v2: A Scalable Computational Pipeline for the Identification of MicroRNA Clusters Acting Cooperatively on Tumor Molecular Subgroups
9. Failure of human rhombic lip differentiation underlies medulloblastoma formation
10. Medulloblastomas with ELP1 pathogenic variants: a weakly penetrant syndrome with a restricted spectrum in a limited age window
11. The HHIP-AS1 lncRNA promotes tumorigenicity through stabilization of dynein complex 1 in human SHH-driven tumors
12. Immunohistochemistry as a tool to identify ELP1-associated medulloblastoma
13. Regulation of Primary Cilia Disassembly Through HUWE1-Mediated TTBK2 Degradation Plays a Crucial Role in Cerebellar Development and Medulloblastoma Growth
14. Proteogenomic profiling uncovers differential therapeutic vulnerabilities between TCF3::PBX1 and TCF3::HLF translocated B-cell acute lymphoblastic leukemia
15. LEF-1 immunohistochemistry, a better diagnostic biomarker than β-catenin for medulloblastoma, WNT-activated subtyping
16. Circular RNA profiling distinguishes medulloblastoma groups and shows aberrant RMST overexpression in WNT medulloblastoma
17. Author Correction: Failure of human rhombic lip differentiation underlies medulloblastoma formation
18. Divergent clonal selection dominates medulloblastoma at recurrence
19. SALL4 is a CRL3REN/KCTD11 substrate that drives Sonic Hedgehog-dependent medulloblastoma
20. Germline Elongator mutations in Sonic Hedgehog medulloblastoma
21. Medulloblastomics revisited: biological and clinical insights from thousands of patients
22. Recurrent noncoding U1 snRNA mutations drive cryptic splicing in SHH medulloblastoma
23. P330: PROTEOMIC PROFILING UNCOVERS THERAPEUTIC VULNERABILITIES FOR TCF3 TRANSLOCATED B-CELL ACUTE LYMPHOBLASTIC LEUKEMIAS
24. Diagnostic Accuracy of a Reduced Immunohistochemical Panel in Medulloblastoma Molecular Subtyping, Correlated to DNA-methylation Analysis
25. SHH medulloblastoma in a young adult with a TCF4 germline pathogenic variation
26. Clinical outcome of pediatric medulloblastoma patients with Li–Fraumeni syndrome
27. Longitudinal characterization of primary osteosarcoma and derived subcutaneous and orthotopic relapsed patient-derived xenograft models
28. Class I HDAC inhibitor entinostat synergizes with PLK1 inhibitors in MYC-amplified medulloblastoma cells
29. Regulation of primary cilia disassembly through HUWE1-mediated TTBK2 degradation plays a crucial role in cerebellar development and medulloblastoma growth
30. An OTX2-PAX3 signaling axis regulates Group 3 medulloblastoma cell fate
31. Supplemental table 2 from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
32. Supplemental table 3 from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
33. Supplemental table 1 from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
34. Data from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
35. Supplemental materials and methods from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
36. Supplmental Figures and Legends from ATOH1 Promotes Leptomeningeal Dissemination and Metastasis of Sonic Hedgehog Subgroup Medulloblastomas
37. Supplementary Table 1 from Genetic Alterations in Mouse Medulloblastomas and Generation of Tumors De novo from Primary Cerebellar Granule Neuron Precursors
38. Supplementary Figure 2 from Genetic Alterations in Mouse Medulloblastomas and Generation of Tumors De novo from Primary Cerebellar Granule Neuron Precursors
39. Data from Silencing of the miR-17∼92 Cluster Family Inhibits Medulloblastoma Progression
40. Supplementary Figures 4-7 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
41. Supplementary Figure Legends 1-7 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
42. Data from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
43. Supplementary Figure Legends 1-2 from Genetic Alterations in Mouse Medulloblastomas and Generation of Tumors De novo from Primary Cerebellar Granule Neuron Precursors
44. Supplementary Figure 1 from Genetic Alterations in Mouse Medulloblastomas and Generation of Tumors De novo from Primary Cerebellar Granule Neuron Precursors
45. Supplementary Methods from Silencing of the miR-17∼92 Cluster Family Inhibits Medulloblastoma Progression
46. Supplementary Figure 2 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
47. Supplementary Table 1 from Silencing of the miR-17∼92 Cluster Family Inhibits Medulloblastoma Progression
48. Supplementary Table 1 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
49. Supplementary Figure 3 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
50. Supplementary Figure 1 from Atoh1 Inhibits Neuronal Differentiation and Collaborates with Gli1 to Generate Medulloblastoma-Initiating Cells
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