22 research outputs found
Figure S2 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 2</p
Figure S3 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 3</p
Figure S4 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 4</p
Supplementary Data_v1 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSupplemental Method and Materials; Supplemental Figure Legends; Goes with the Longer version of the paper</p
Figure S1 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 1</p
Figure S6 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 6</p
Figure S5 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 5</p
Figure S7 from Metabolic Enzyme DLST Promotes Tumor Aggression and Reveals a Vulnerability to OXPHOS Inhibition in High-Risk Neuroblastoma
No full textSup. Figure 7</p
Supplementary Methods from Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts
No full textSupplementary Methods</p
Supplementary Figures from Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts
No full textFigures S1-S3</p
