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1. Mitochondrial respiratory states and rate

2. C-Myc and AMPK control cellular energy levels by cooperatively regulating mitochondrial structure and function

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3. Targeting of the MYCN protein with small molecule c-MYC inhibitors

4. In vivo evolution of tumor-derived endothelial cells

5. Mitochondrial structure, function and dynamics are temporally controlled by c-Myc

6. The c-Myc target glycoprotein1bα links cytokinesis failure to oncogenic signal transduction pathways in cultured human cells

7. Point mutations in c-Myc uncouple neoplastic transformation from multiple other phenotypes in rat fibroblasts

9. Efficacy, pharmacokinetics, tisssue distribution, and metabolism of the Myc-Max disruptor, 10058-F4 [Z,E]-5-[4-ethylbenzylidine]-2-thioxothiazolidin-4-one, in mice.

11. c-myb but not c-myc suppresses the hemin-induced nonterminal expression of hemoglobin by murine erythroleukemia cells

12. Antithrombin-III-Hamilton: a gene with a point mutation (guanine to adenine) in codon 382 causing impaired serine protease reactivity

13. Molecular genetic survey of 16 kindreds with hereditary antithrombin III deficiency

14. ZDHHC3-mediated SCAP S-acylation promotes cholesterol biosynthesis and tumor immune escape in hepatocellular carcinoma.

15. Increases in 4-Acetaminobutyric Acid Generated by Phosphomevalonate Kinase Suppress CD8 + T Cell Activation and Allow Tumor Immune Escape.

16. Body-Wide Inactivation of the Myc-Like Mlx Transcription Factor Network Accelerates Aging and Increases the Lifetime Cancer Incidence.

17. Misprogramming of glucose metabolism impairs recovery of hippocampal slices from neuronal GLT-1 knockout mice and contributes to excitotoxic injury through mitochondrial superoxide production.

18. MYC Binding Near Transcriptional End Sites Regulates Basal Gene Expression, Read-Through Transcription and Intragenic Contacts.

19. Inhibition of DUSP18 impairs cholesterol biosynthesis and promotes anti-tumor immunity in colorectal cancer.

20. The Myc-Like Mlx Network Impacts Aging and Metabolism.

21. Premature aging and reduced cancer incidence associated with near-complete body-wide Myc inactivation.

22. A Novel Transgenic Mouse Model Implicates Sirt2 as a Promoter of Hepatocellular Carcinoma.

23. Lessons in aging from Myc knockout mouse models.

24. P53 deficiency affects cholesterol esterification to exacerbate hepatocarcinogenesis.

25. Phosphomevalonate Kinase Controls β-Catenin Signaling via the Metabolite 5-Diphosphomevalonate.

26. p53 promotes peroxisomal fatty acid β-oxidation to repress purine biosynthesis and mediate tumor suppression.

27. Cholesterol esterification and p53-mediated tumor suppression.

28. Disruption of Multiple Overlapping Functions Following Stepwise Inactivation of the Extended Myc Network.

29. Regulation of Normal and Neoplastic Proliferation and Metabolism by the Extended Myc Network.

30. Posttranslational control of lipogenesis in the tumor microenvironment.

32. Normal and Neoplastic Growth Suppression by the Extended Myc Network.

33. Ceramide-mediated gut dysbiosis enhances cholesterol esterification and promotes colorectal tumorigenesis in mice.

34. Coordinated Cross-Talk Between the Myc and Mlx Networks in Liver Regeneration and Neoplasia.

35. USP19 exacerbates lipogenesis and colorectal carcinogenesis by stabilizing ME1.

37. FBXL6 degrades phosphorylated p53 to promote tumor growth.

38. Reconciling the Biological and Transcriptional Variability of Hepatoblastoma with Its Mutational Uniformity.

39. The Metabolic Fates of Pyruvate in Normal and Neoplastic Cells.

40. The IKKβ-USP30-ACLY Axis Controls Lipogenesis and Tumorigenesis.

41. Acquired deficiency of peroxisomal dicarboxylic acid catabolism is a metabolic vulnerability in hepatoblastoma.

42. Patient-Derived Mutant Forms of NFE2L2/NRF2 Drive Aggressive Murine Hepatoblastomas.

43. Sequential analysis of transcript expression patterns improves survival prediction in multiple cancers.

44. The MAP3K13-TRIM25-FBXW7α axis affects c-Myc protein stability and tumor development.

45. Dynamic Regulation of ME1 Phosphorylation and Acetylation Affects Lipid Metabolism and Colorectal Tumorigenesis.

46. β-Catenin mutations as determinants of hepatoblastoma phenotypes in mice.

47. Myc Is Required for Adaptive β-Cell Replication in Young Mice but Is Not Sufficient in One-Year-Old Mice Fed With a High-Fat Diet.

48. Expression patterns of small numbers of transcripts from functionally-related pathways predict survival in multiple cancers.

49. Inhibition of hepatocellular carcinoma by metabolic normalization.

50. Metabolic and oncogenic adaptations to pyruvate dehydrogenase inactivation in fibroblasts.