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1. An integrated omics approach highlights how epigenetic events can explain and predict response to neoadjuvant chemotherapy and bevacizumab in breast cancer

2. Epigenetic footprints: Investigating placental DNA methylation in the context of prenatal exposure to phenols and phthalates

3. Maternal blood pressure associates with placental DNA methylation both directly and through alterations in cell-type composition

4. Subtype and cell type specific expression of lncRNAs provide insight into breast cancer

5. Association between dietary patterns reflecting one-carbon metabolism nutrients intake before pregnancy and placental DNA methylation

6. DNA methylation changes in response to neoadjuvant chemotherapy are associated with breast cancer survival

7. Crosstalk between microRNA expression and DNA methylation drives the hormone-dependent phenotype of breast cancer

8. Pregnancy exposure to phthalates and DNA methylation in male placenta — An epigenome-wide association study

9. Deregulation of microRNA expression in monocytes and CD4+ T lymphocytes from patients with axial spondyloarthritis

10. Demethylation by low-dose 5-aza-2′-deoxycytidine impairs 3D melanoma invasion partially through miR-199a-3p expression revealing the role of this miR in melanoma

11. Comprehensive miRNome-Wide Profiling in a Neuronal Cell Model of Synucleinopathy Implies Involvement of Cell Cycle Genes

12. Methylation of imprinted IGF2 regions is associated with total, visceral, and hepatic adiposity in postmenopausal women

13. Epigenome-wide DNA methylation profiling in Progressive Supranuclear Palsy reveals major changes at DLX1

14. miRNA profiling identifies deregulated miRNAs associated with osteosarcoma development and time to metastasis in two large cohorts

15. DNA methylation at enhancers identifies distinct breast cancer lineages

16. Enhanced-ice-COLD-PCR for the Sensitive Detection of Rare DNA Methylation Patterns in Liquid Biopsies

17. aCNViewer: Comprehensive genome-wide visualization of absolute copy number and copy neutral variations.

21. Differences in transcription patterns between induced pluripotent stem cells produced from the same germ layer are erased upon differentiation.

22. Lentiviral transduction of CD34(+) cells induces genome-wide epigenetic modifications.

23. Establishment and characterization of a highly tumourigenic and cancer stem cell enriched pancreatic cancer cell line as a well defined model system.

24. Identification of type 1 diabetes-associated DNA methylation variable positions that precede disease diagnosis.

25. Sex- and diet-specific changes of imprinted gene expression and DNA methylation in mouse placenta under a high-fat diet.

26. DNA methylation profiling of the human major histocompatibility complex: a pilot study for the human epigenome project.

27. Intranasal administration of Acinetobacter lwoffii in a murine model of asthma induces <scp>IL</scp> ‐6‐mediated protection associated with cecal microbiota changes

28. Figure S3 from Application of Genomic Sequencing to Refine Patient Stratification for Adjuvant Therapy in Renal Cell Carcinoma

29. Supplementary Methods S1 from Application of Genomic Sequencing to Refine Patient Stratification for Adjuvant Therapy in Renal Cell Carcinoma

30. Supplementary Table S1 from Application of Genomic Sequencing to Refine Patient Stratification for Adjuvant Therapy in Renal Cell Carcinoma

31. Supplementary Tables S3-S13 from Application of Genomic Sequencing to Refine Patient Stratification for Adjuvant Therapy in Renal Cell Carcinoma

32. Data from Application of Genomic Sequencing to Refine Patient Stratification for Adjuvant Therapy in Renal Cell Carcinoma

33. Supplementary Figure legends from DNA Methylation Status of Key Cell-Cycle Regulators Such as CDKNA2/p16 and CCNA1 Correlates with Treatment Response to Doxorubicin and 5-Fluorouracil in Locally Advanced Breast Tumors

34. Data from DNA Methylation Status of Key Cell-Cycle Regulators Such as CDKNA2/p16 and CCNA1 Correlates with Treatment Response to Doxorubicin and 5-Fluorouracil in Locally Advanced Breast Tumors

35. Supplementary Figure 1 from DNA Methylation Status of Key Cell-Cycle Regulators Such as CDKNA2/p16 and CCNA1 Correlates with Treatment Response to Doxorubicin and 5-Fluorouracil in Locally Advanced Breast Tumors

36. Supplementary Table 1-6 from DNA Methylation Status of Key Cell-Cycle Regulators Such as CDKNA2/p16 and CCNA1 Correlates with Treatment Response to Doxorubicin and 5-Fluorouracil in Locally Advanced Breast Tumors

37. Supplementary Figure 2 from DNA Methylation Status of Key Cell-Cycle Regulators Such as CDKNA2/p16 and CCNA1 Correlates with Treatment Response to Doxorubicin and 5-Fluorouracil in Locally Advanced Breast Tumors

38. Supplementary Table 2 from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

39. Supplementary Figure 1 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

40. Supplementary Table 1 from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

41. Data from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

42. Supplementary Figure 3 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

43. Data from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

44. Supplementary Table 2 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

45. Supplementary Figure 4 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

46. Supplementary Table 3 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

47. Supplementary Figure 1 from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

48. Supplementary Table 4 from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

49. Supplementary Table 3 from GSTP1 Promoter Haplotypes Affect DNA Methylation Levels and Promoter Activity in Breast Carcinomas

50. Supplementary Figure 2 from Quantitative Analysis of DNA Methylation Profiles in Lung Cancer Identifies Aberrant DNA Methylation of Specific Genes and Its Association with Gender and Cancer Risk Factors

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