1. Epigenetic Control of Genes Involved in Cancer Initiation and Progression
   Sabita N. Saldanha et al, 2016, Epigenetic Advancements in Cancer CrossRef
2. High-fat diet modifies expression of hepatic cellular senescence gene p16(INK4a) through chromatin modifications in adult male rats
   Xiyuan Zhang et al, 2018, Genes & Nutrition CrossRef
3. Epigenetic Mechanisms of Colon Cancer Prevention: What Can Nutrition Do?
   Yuan-Xiang Pan et al, 2014, Molecular mechanisms and physiology of disease CrossRef
4. Regulation of Tumor Suppressor Gene CDKN2A and Encoded p16-INK4a Protein by Covalent Modifications
   Yang Jiao et al, 2018, Biochemistry (Moscow) CrossRef
5. Implications of Genetic and Epigenetic Alterations of CDKN2A (p16 INK4a ) in Cancer
   Ran Zhao et al, 2016, EBioMedicine CrossRef
6. Integrated analyses of multi-omics reveal global patterns of methylation and hydroxymethylation and screen the tumor suppressive roles of HADHB in colorectal cancer
   Yimin Zhu et al, 2018, Clinical Epigenetics CrossRef
7. High LET 56Fe ion irradiation induces tissue‐specific changes in DNA methylation in the mouse
   Florence Lima et al, 2014, Environmental and Molecular Mutagenesis CrossRef
8. Epigenetic Mechanisms of Aging and Aging-Associated Diseases
   Annamaria la Torre et al, 2023, Cells CrossRef
9. Sodium valproate affects the expression of p16INK4a and p21WAFI/Cip1 cyclin‑dependent kinase inhibitors in HeLa cells
   Marina Rocha et al, 2024, Oncology Letters CrossRef
10. Methylation in Colorectal Cancer
    Pooneh Mokarram et al, 2015, Epigenetics Territory and Cancer CrossRef