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1. Integrative genomic analyses of European intrahepatic cholangiocarcinoma: Novel ROS1 fusion gene and PBX1 as prognostic marker

2. Family history assessment significantly enhances delivery of precision medicine in the genomics era

3. Amenable epigenetic traits of dental pulp stem cells underlie high capability of xeno-free episomal reprogramming

4. Correction to: Family history assessment significantly enhances delivery of precision medicine in the genomics era

5. Global re‐wiring of p53 transcription regulation by the hepatitis B virus X protein

6. Epigenomic profiling of primary gastric adenocarcinoma reveals super-enhancer heterogeneity

7. TEX11 is mutated in infertile men with azoospermia and regulates genome‐wide recombination rates in mouse

8. Massively parallel sequencing of patients with intellectual disability, congenital anomalies and/or autism spectrum disorders with a targeted gene panel.

9. Regionally-specified second trimester fetal neural stem cells reveals differential neurogenic programming.

10. Host cell transcriptome profile during wild-type and attenuated dengue virus infection.

11. Improving indel detection specificity of the Ion Torrent PGM benchtop sequencer.

12. Assessing matched normal and tumor pairs in next-generation sequencing studies.

13. Metabolomics in early Alzheimer's disease: identification of altered plasma sphingolipidome using shotgun lipidomics.

14. A genomic‐augmented multivariate prognostic model for the survival of natural‐killer/T‐cell lymphoma patients from an international cohort

15. Supplementary Table 3 from Janus Kinase 3–Activating Mutations Identified in Natural Killer/T-cell Lymphoma

16. Supplementary Table 2 from Janus Kinase 3–Activating Mutations Identified in Natural Killer/T-cell Lymphoma

17. Supplementary Table 1 from Janus Kinase 3–Activating Mutations Identified in Natural Killer/T-cell Lymphoma

18. Supplementary Table 4 from Janus Kinase 3–Activating Mutations Identified in Natural Killer/T-cell Lymphoma

19. Supplementary Figure 1 from Janus Kinase 3–Activating Mutations Identified in Natural Killer/T-cell Lymphoma

20. Supplementary Methods, Tables 1-4, Figures 1-14 from TP53 Genomic Status Regulates Sensitivity of Gastric Cancer Cells to the Histone Methylation Inhibitor 3-Deazaneplanocin A (DZNep)

21. Data from TP53 Genomic Status Regulates Sensitivity of Gastric Cancer Cells to the Histone Methylation Inhibitor 3-Deazaneplanocin A (DZNep)

22. Supplementary Table 3 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

23. Supplementary Table 9 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

24. Supplementary Figure 1 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

25. Supplementary Table 8 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

26. Supplementary Table 5 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

27. Supplementary Table 4 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

28. Supplementary Table 11 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

29. Supplementary Table 2 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

30. Supplementary Figure 3 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

31. Supplementary Table 7 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

32. Supplementary Methods and Materials, Results, Legends for Tables 1-11 and Figures 1-3 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

33. Supplementary Table 6 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

34. Supplementary Figure 2 from Genetic and Structural Variation in the Gastric Cancer Kinome Revealed through Targeted Deep Sequencing

35. Family history assessment significantly enhances delivery of precision medicine in the genomics era

45. Acetyl-CoA metabolism drives epigenome change and contributes to carcinogenesis risk in fatty liver disease

47. Population genomics in South East Asia captures unexpectedly high carrier frequency for treatable inherited disorders

48. Author Correction: Highly recurrent CBS epimutations in gastric cancer CpG island methylator phenotypes and inflammation

50. Highly recurrent CBS epimutations in gastric cancer CpG island methylator phenotypes and inflammation

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