Data from Caspase-3–Induced Activation of SREBP2 Drives Drug Resistance via Promotion of Cholesterol Biosynthesis in Hepatocellular Carcinoma

Data from Caspase-3–Induced Activation of SREBP2 Drives Drug Resistance via Promotion of Cholesterol Biosynthesis in Hepatocellular Carcinoma

Data from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Data from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Data from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Data from Caspase-3–Induced Activation of SREBP2 Drives Drug Resistance via Promotion of Cholesterol Biosynthesis in Hepatocellular Carcinoma

Supplementary Data from Caspase-3–Induced Activation of SREBP2 Drives Drug Resistance via Promotion of Cholesterol Biosynthesis in Hepatocellular Carcinoma

Supplementary Data from Caspase-3–Induced Activation of SREBP2 Drives Drug Resistance via Promotion of Cholesterol Biosynthesis in Hepatocellular Carcinoma

Supplementary Figure 1 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 1 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 10 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 10 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 11 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 11 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 12 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 12 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 13 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 13 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 14 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 14 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 15 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 15 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 16 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 16 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 17 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 17 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 18 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 18 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 19 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 19 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 2 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 2 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 20 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 20 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 21 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 21 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 3 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 3 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 4 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 4 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 5 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 5 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 6 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 6 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 7 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 7 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 8 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 8 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 9 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure 9 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Figure from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Figure from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table 1 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 1 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 2 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 2 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 3 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 3 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 4 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 4 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 5 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 5 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 6 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 6 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 7 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 7 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 8 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 8 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 9 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table 9 from Tumor Suppressor Genes with Segmental Duplications Are Prone to Somatic Deletions and Structural Variations

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution

Supplementary Table from Single-Hit Inactivation Drove Tumor Suppressor Genes Out of the X Chromosome during Evolution