34 results on '"Ross, Alonzo H."'
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2. Supplementary Figure S4 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
3. Supplementary Figure S3 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
4. Supplementary Figure S2 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
5. Data from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
6. Supplementary Figure S5 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
7. Supplementary Figure S3 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
8. Supplementary Figure S4 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
9. Supplementary Figure Legends from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
10. Supplementary Figure Legends from PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
11. Supplementary Figure 1 from PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
12. Supplementary Figure S1 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
13. Supplementary Figure S5 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
14. Supplementary Figure 2 from PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
15. Supplementary Figure Legends from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
16. Supplementary Figure S1 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
17. Supplementary Figure 2 from PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
18. Supplementary Figure 1 from PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
19. Supplementary Figure S2 from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
20. Data from Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
21. Supplementary Data from Global Targeting of Subcellular Heat Shock Protein-90 Networks for Therapy of Glioblastoma
22. Data from Global Targeting of Subcellular Heat Shock Protein-90 Networks for Therapy of Glioblastoma
23. Supplementary Data from Global Targeting of Subcellular Heat Shock Protein-90 Networks for Therapy of Glioblastoma
24. Data from Global Targeting of Subcellular Heat Shock Protein-90 Networks for Therapy of Glioblastoma
25. Supplementary Methods, Figure Legends 1-6 Table 1 from γ-Secretase Inhibitors Enhance Temozolomide Treatment of Human Gliomas by Inhibiting Neurosphere Repopulation and Xenograft Recurrence
26. Data from γ-Secretase Inhibitors Enhance Temozolomide Treatment of Human Gliomas by Inhibiting Neurosphere Repopulation and Xenograft Recurrence
27. Data from γ-Secretase Inhibitors Enhance Temozolomide Treatment of Human Gliomas by Inhibiting Neurosphere Repopulation and Xenograft Recurrence
28. Evaluation of Novel Imidazotetrazine Analogues Designed to Overcome Temozolomide Resistance and Glioblastoma Regrowth
29. PI3K and Bcl-2 Inhibition Primes Glioblastoma Cells to Apoptosis through Downregulation of Mcl-1 and Phospho-BAD
30. Abstract C52: A novel combinatorial treatment for glioblastoma of temozolomide and JLK1486.
31. Abstract 963: Glioma treatment with temozolomide and Notch inhibition blocks tumor recovery through the induction of senescence and tumor clearance
32. γ-Secretase Inhibitors Enhance Temozolomide Treatment of Human Gliomas by Inhibiting Neurosphere Repopulation and Xenograft Recurrence
33. Global Targeting of Subcellular Heat Shock Protein-90 Networks for Therapy of Glioblastoma
34. Abstract LB-32: Glioma treatment with temozolomide and Notch inhibition suppresses neurosphere formation and xenograft formation
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