361 results on '"Nelson, William G."'
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2. Triptolide sensitizes cancer cells to nucleoside DNA methyltransferase inhibitors through inhibition of DCTPP1-mediated cell-intrinsic resistance
3. Prognostic and therapeutic potential of senescent stromal fibroblasts in prostate cancer
4. Arrested Agonist Paradigm For Selective Radiosensitization of Prostate Cancer
5. Convergent alterations in the tumor microenvironment of MYC-driven human and murine prostate cancer
6. Supplementary Figure S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
7. Supplementary Figure S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
8. Data from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
9. Supplementary Table S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
10. Supplementary Figure S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
11. Supplementary Table S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
12. Supplementary Table S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
13. Supplementary Table S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
14. Supplementary Table S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
15. Supplementary Figure S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
16. Supplementary Figure S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
17. Supplementary Figure S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
18. Supplementary Table S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
19. Supplementary Figure S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
20. Supplementary Table S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
21. Supplementary Table S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
22. Supplementary Table S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
23. Supplementary Figure S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
24. Data from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
25. Supplementary Table S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
26. Supplementary Figure S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
27. Supplementary Figure S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
28. Supplementary Figure S2 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
29. Supplementary Table S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
30. Supplementary Table S1 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
31. Supplementary Figure S3 from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
32. Data from Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
33. Contributors
34. Prostate Cancer
35. Progressive Spreading of DNA Methylation in the GSTP1 Promoter CpG Island across Transitions from Precursors to Invasive Prostate Cancer
36. Supplementary Fig. S4 from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
37. Supplementary figure S2 from Epigenetic DNA Methylation of Antioxidative Stress Regulator NRF2 in Human Prostate Cancer
38. Data from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
39. Supplementary Fig. S5 from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
40. Supplementary Fig. S4 from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
41. Data from Use of Aspirin and Statins in Relation to Inflammation in Benign Prostate Tissue in the Placebo Arm of the Prostate Cancer Prevention Trial
42. Supplementary Data from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing
43. Supplementary Fig. S2 from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
44. Supplementary table S1 from Epigenetic DNA Methylation of Antioxidative Stress Regulator NRF2 in Human Prostate Cancer
45. Supplementary figure S1 from Epigenetic DNA Methylation of Antioxidative Stress Regulator NRF2 in Human Prostate Cancer
46. Supplementary Figure Legends from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
47. Supplementary Methods from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
48. Supplementary figure S2 from Epigenetic DNA Methylation of Antioxidative Stress Regulator NRF2 in Human Prostate Cancer
49. Supplementary Data from Identifying Phased Mutations and Complex Rearrangements in Human Prostate Cancer Cell Lines through Linked-Read Whole-Genome Sequencing
50. Supplementary Fig. S5 from Bacterial Prostatitis Enhances 2-Amino-1-Methyl-6-Phenylimidazo[4,5-b]Pyridine (PhIP)–Induced Cancer at Multiple Sites
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