EurekaMag PDF full texts Chapter 71,714

Gomes Assenço, R.A.; Alves Mota, E.; De Oliveira, V.F.; De Castro Borges, W.; Guerra-Sá, R. 2021: Epigenetic Markers Associated with Schistosomiasis. Helminthologia 58(1): 28-40

Liu, G.; Song, S.; Zhang, Q.; Dong, B.; Sun, Y.; Liu, G.; Zhao, X. 2021: Epigenetic Marks and Variation of Sequence-Based Information Along Genomic Regions Are Predictive of Recombination Hot/Cold Spots in Saccharomyces cerevisiae. Frontiers in Genetics 12: 705038

Von Walden, F.; Fernandez-Gonzalo, R.; Pingel, J.; McCarthy, J.; Stål, P.; Pontén, E. 2020: Epigenetic Marks at the Ribosomal DNA Promoter in Skeletal Muscle Are Negatively Associated with Degree of Impairment in Cerebral Palsy. Frontiers in Pediatrics 8: 236

Cao, F.; Shi, M.; Yu, B.; Cheng, X.; Li, X.; Jia, X. 2021: Epigenetic Mechanism of Enrichment of A549 Lung Cancer Stem Cells with 5-Fu. Oncotargets and Therapy 14: 3783-3794

Zhao, P.; Malik, S.; Xing, S. 2021: Epigenetic Mechanisms Involved in HCV-Induced Hepatocellular Carcinoma (HCC). Frontiers in Oncology 11: 677926

Papazoglou, P.; Peng, L.; Sachinidis, A. 2021: Epigenetic Mechanisms Involved in the Cardiovascular Toxicity of Anticancer Drugs. Frontiers in Cardiovascular Medicine 8: 658900

Chen, C.; Lim, Y.; Tan, W.; Anene-Nzelu, G.; Ng, S.; Li, Y.; Luu, D.; Lim, B.; Foo, R. 2020: Epigenetic Mechanisms Underlying Anthracycline-Induced Cardiotoxicity. Journal of Heart and Lung Transplantation: the Official Publication of the International Society for Heart Transplantation 39(4s): S359-S360

Ghare, S.S.; Chilton, P.M.; Rao, A.V.; Joshi-Barve, S.; Peyrani, P.; Reyes Vega, A.; McClain, C.J.; Bryant, K.; Cook, R.L.; Freiberg, M.; Barve, S. 2021: Epigenetic Mechanisms Underlying HIV-Infection Induced Susceptibility of CD4+ T Cells to Enhanced Activation-Induced FasL Expression and Cell Death. Journal of Acquired Immune Deficiency Syndromes 86(1): 128-137

Xavier, P.L.P.; Müller, S.; Fukumasu, H. 2020: Epigenetic Mechanisms in Canine Cancer. Frontiers in Oncology 10: 591843

Fernandez, A.; O'Leary, C.; O'Byrne, K.J.; Burgess, J.; Richard, D.J.; Suraweera, A. 2021: Epigenetic Mechanisms in DNA Double Strand Break Repair: a Clinical Review. Frontiers in Molecular Biosciences 8: 685440

Bosch, S.; Young, N.A.; Mignot, G.ég.; Bach, J.-M. 2020: Epigenetic Mechanisms in Immune Disease: the Significance of Toll-Like Receptor-Binding Extracellular Vesicle-Encapsulated microRNA. Frontiers in Genetics 11: 578335

Mahurkar-Joshi, S.; Chang, L. 2020: Epigenetic Mechanisms in Irritable Bowel Syndrome. Frontiers in Psychiatry 11: 805

Hong, H.; Yue, J.-M.; Zhang, W.-J.; Zhu, B.-M. 2020: Epigenetic Mechanisms of Angiogenesis in the Ischemic Heart Diseases with Acupuncture Treatment. Medical Acupuncture 32(6): 381-384

Xu, X.; Miao, Z.; Sun, M.; Wan, B. 2021: Epigenetic Mechanisms of Paternal Stress in Offspring Development and Diseases. International Journal of Genomics 2021: 6632719

Efrat, S. 2020: Epigenetic Memory: Lessons from iPS Cells Derived from Human β Cells. Frontiers in Endocrinology 11: 614234

Ceribelli, A.; Selmi, C. 2020: Epigenetic Methods and Twin Studies. Advances in Experimental Medicine and Biology 1253: 95-104

Rydzik, A.M.; Gottschling, D.; Simon, E.; Skronska-Wasek, W.; Rippmann, J.ör.F.; Riether, D. 2021: Epigenetic Modification 6-Methyladenosine can Impact the Potency and Specificity of siRNA. Chembiochem: a European Journal of Chemical Biology 22(3): 491-495

Li, Z.; Li, N. 2021: Epigenetic Modification Drives Acute Kidney Injury-to-Chronic Kidney Disease Progression. Nephron 145(6): 737-747

Osunkalu, V.O.; Taiwo, I.A.; Makwe, C.C.; Abiola, A.A.; Quao, R.A.; Anorlu, R.I. 2021: Epigenetic Modification in Methylene Tetrahydrofolate Reductase (MTHFR) Gene of Women with Pre-eclampsia. Journal of Obstetrics and Gynaecology of India 71(1): 52-57

Haas, B.W.; Smith, A.K.; Nishitani, S. 2018: Epigenetic Modification of OXTR is Associated with Openness to Experience. Personality Neuroscience 1: E7

Plunk, E.C.; Richards, S.M. 2020: Epigenetic Modifications due to Environment, Ageing, Nutrition, and Endocrine Disrupting Chemicals and their Effects on the Endocrine System. International Journal of Endocrinology 2020: 9251980

Shinde, S.; Saxena, S.; Dixit, V.; Tiwari, A.K.; Vishvakarma, N.K.; Shukla, D. 2020: Epigenetic Modifiers and their Potential Application in Colorectal Cancer Diagnosis and Therapy. Critical Reviews in Oncogenesis 25(2): 95-109

Maes, K.; Mondino, A.; Lasarte, J.J.é; Agirre, X.; Vanderkerken, K.; Prosper, F.; Breckpot, K. 2021: Epigenetic Modifiers: Anti-Neoplastic Drugs with Immunomodulating Potential. Frontiers in Immunology 12: 652160

Wang, L.; Yu, C.-C.; Liu, X.-Y.; Deng, X.-N.; Tian, Q.; Du, Y.-J. 2021: Epigenetic Modulation of Microglia Function and Phenotypes in Neurodegenerative Diseases. Neural Plasticity 2021: 9912686

Villagra, C.; Frías-Lasserre, D. 2020: Epigenetic Molecular Mechanisms in Insects. Neotropical Entomology 49(5): 615-642

Soldan, S.S.; Su, C.; Lamontagne, R.J.; Grams, N.; Lu, F.; Zhang, Y.; Gesualdi, J.D.; Frase, D.M.; Tolvinski, L.E.; Martin, K.; Messick, T.E.; Fingerut, J.T.; Koltsova, E.; Kossenkov, A.; Lieberman, P.M. 2021: Epigenetic Plasticity Enables CNS-Trafficking of EBV-infected B Lymphocytes. Plos Pathogens 17(6): E1009618

Binnie, A.; Walsh, C.J.; Hu, P.; Dwivedi, D.J.; Fox-Robichaud, A.; Liaw, P.C.; Tsang, J.L.Y.; Batt, J.; Carrasqueiro, G.; Gupta, S.; Marshall, J.C.; Castelo-Branco, P.; Dos Santos, C.C. 2020: Epigenetic Profiling in Severe Sepsis: a Pilot Study of DNA Methylation Profiles in Critical Illness. Critical Care Medicine 48(2): 142-150

Iwanami, N.; Takeshita, K.; Lawir, D.-F.; Suetake, I.; Tajima, S.; Sikora, K.; Trancoso, I.ês.; ÓMeara, C.; Siamishi, I.; Takahama, Y.; Furutani-Seiki, M.; Kondoh, H.; Yonezawa, Y.; Schorpp, M.; Boehm, T. 2020: Epigenetic Protection of Vertebrate Lymphoid Progenitor Cells by Dnmt1. Iscience 23(7): 101260

Himeoka, Y.; Kaneko, K. 2020: Epigenetic Ratchet: Spontaneous Adaptation via Stochastic Gene Expression. Scientific Reports 10(1): 459

Holshouser, S.; Cafiero, R.; Robinson, M.; Kirkpatrick, J.; Casero, R.A.; Hyacinth, H.I.; Woster, P.M. 2020: Epigenetic Reexpression of Hemoglobin F Using Reversible LSD1 Inhibitors: Potential Therapies for Sickle Cell Disease. Acs Omega 5(24): 14750-14758

Wang A, J.; Wang, S.; Wang B, J.; Xiao, M.; Guo, Y.; Tang, Y.; Zhang, J.; Gu, J. 2020: Epigenetic Regulation Associated with Sirtuin 1 in Complications of Diabetes Mellitus. Frontiers in Endocrinology 11: 598012

Selmin, O.I.; Donovan, M.G.; Stillwater, B.J.; Neumayer, L.; Romagnolo, D.F. 2020: Epigenetic Regulation and Dietary Control of Triple Negative Breast Cancer. Frontiers in Nutrition 7: 159

Renn, S.C.P.; Hurd, P.L. 2021: Epigenetic Regulation and Environmental Sex Determination in Cichlid Fishes. Sexual Development: Genetics Molecular Biology Evolution Endocrinology Embryology and Pathology of Sex Determination and Differentiation 15(1-3): 93-107

Cheng, Y.; Xie, Y.; Chen, Y.; Liu, X. 2021: Epigenetic Regulation and Nonepigenetic Mechanisms of Ferroptosis Drive Emerging Nanotherapeutics in Tumor. Oxidative Medicine and Cellular Longevity 2021: 8854790

Borodinova, A.A.; Balaban, P.M. 2020: Epigenetic Regulation as a Basis for Long-Term Changes in the Nervous System: in Search of Specificity Mechanisms. BIOCHEMISTRY. Biokhimiia 85(9): 994

Nam, H.J.; Baek, S.H. 2021: Epigenetic Regulation in Breast Cancer. Advances in Experimental Medicine and Biology 1187: 103-119

Pillai, A.; Gungi, A.; Reddy, P.C.; Galande, S. 2021: Epigenetic Regulation in Hydra: Conserved and Divergent Roles. Frontiers in Cell and Developmental Biology 9: 663208

Wang, R.; Wang, Y.; Zhu, L.; Liu, Y.; Li, W. 2020: Epigenetic Regulation in Mesenchymal Stem Cell Aging and Differentiation and Osteoporosis. Stem Cells International 2020: 8836258

Falcão-Holanda, R.B.; Brunialti, M.K.C.; Jasiulionis, M.G.; Salomão, R. 2021: Epigenetic Regulation in Sepsis, Role in Pathophysiology and Therapeutic Perspective. Frontiers in Medicine 8: 685333

Lukosiute-Urboniene, A.; Mazeike, A.; Kazokaite, M.; Silkuniene, G.; Silkunas, M.; Barauskas, V.; Barauskas, G.; Gulbinas, A.; Dauksa, A.; Dambrauskas, Z. 2020: Epigenetic Regulation of APAF-1 Through DNA Methylation in Pancreatic Cancer. Anticancer Research 40(7): 3765-3779

Pant, R.; Firmal, P.; Shah, V.K.; Alam, A.; Chattopadhyay, S. 2020: Epigenetic Regulation of Adipogenesis in Development of Metabolic Syndrome. Frontiers in Cell and Developmental Biology 8: 619888

Alashkar Alhamwe, B.; Miethe, S.; Pogge von Strandmann, E.; Potaczek, D.P.; Garn, H. 2020: Epigenetic Regulation of Airway Epithelium Immune Functions in Asthma. Frontiers in Immunology 11: 1747

Renz, H. 2020: Epigenetic Regulation of Allergic Disease. Drug Research 70(01): S29

He, C.; Huang, Z.-S.; Yu, C.-C.; Wang, H.-H.; Zhou, H.; Kong, L.-H. 2020: Epigenetic Regulation of Amyloid-beta Metabolism in Alzheimer's Disease. Current Medical Science 40(6): 1022-1030

Aspriţoiu, V.M.ãd.ãl.; Stoica, I.; Bleotu, C.; Diaconu, C.C. 2021: Epigenetic Regulation of Angiogenesis in Development and Tumors Progression: Potential Implications for Cancer Treatment. Frontiers in Cell and Developmental Biology 9: 689962

Jiang, X-Xia.; Chou, Y.; Jones, L.; Wang, T.; Sanchez, S.; Huang, X.F.; Zhang, L.; Wang, C.; Chen, S-Yi. 2015: Epigenetic Regulation of Antibody Responses by the Histone H2A Deubiquitinase MYSM1. Scientific Reports 5: 13755

Shi, Y.; Shen, H.-M.; Gopalakrishnan, V.; Gordon, N. 2021: Epigenetic Regulation of Autophagy Beyond the Cytoplasm: a Review. Frontiers in Cell and Developmental Biology 9: 675599

Hulme, B.; Didikoglu, A.; Bradburn, S.; Robinson, A.; Canal, M.; Payton, A.; Pendleton, N.; Murgatroyd, C. 2020: Epigenetic Regulation of BMAL1 with Sleep Disturbances and Alzheimer's Disease. Journal of Alzheimer's Disease: Jad 77(4): 1783-1792

Singh, R.; Ramsuran, V.; Naranbhai, V.; Yende-Zuma, N.; Garrett, N.; Mlisana, K.; Dong, K.L.; Walker, B.D.; Abdool Karim, S.S.; Carrington, M.; Ndung'u, T. 2021: Epigenetic Regulation of BST-2 Expression Levels and the Effect on HIV-1 Pathogenesis. Frontiers in Immunology 12: 669241

Yan, S.; Lu, J.; Jiao, K. 2021: Epigenetic Regulation of Cardiac Neural Crest Cells. Frontiers in Cell and Developmental Biology 9: 678954

Aloia, L. 2021: Epigenetic Regulation of Cell-Fate Changes that Determine Adult Liver Regeneration After Injury. Frontiers in Cell and Developmental Biology 9: 643055

Visco, Z.R.; Sfakianos, G.; Grenier, C.; Boudreau, M.-H.; Simpson, S.; Rodriguez, I.; Whitaker, R.; Yao, D.Y.; Berchuck, A.; Murphy, S.K.; Huang, Z. 2021: Epigenetic Regulation of Claudin-1 in the Development of Ovarian Cancer Recurrence and Drug Resistance. Frontiers in Oncology 11: 620873

Sebastian, R.; Hosogane, E.K.; Sun, E.G.; Tran, A.D.; Reinhold, W.C.; Burkett, S.; Sturgill, D.M.; Gudla, P.R.; Pommier, Y.; Aladjem, M.I.; Oberdoerffer, P. 2020: Epigenetic Regulation of DNA Repair Pathway Choice by MacroH2A1 Splice Variants Ensures Genome Stability. Molecular Cell 79(5): 836-845.E7

Zhou, D.; Gan, L.; Peng, Y.; Zhou, Y.; Zhou, X.; Wan, M.; Fan, Y.; Xu, X.; Zhou, X.; Zheng, L.; Du, W. 2020: Epigenetic Regulation of Dental Pulp Stem Cell Fate. Stem Cells International 2020: 8876265

Wang, J.; Yu, L.; Jiang, H.; Zheng, X.; Zeng, S. 2020: Epigenetic Regulation of Differentially Expressed Drug-Metabolizing Enzymes in Cancer. Drug Metabolism and Disposition: the Biological Fate of Chemicals 48(9): 759-768

Botchkarev, V.A. 2015: Epigenetic Regulation of Epidermal Development and Keratinocyte Differentiation. Journal of Investigative Dermatology. Symposium Proceedings 17(1): 18-19

Liu, Q.-L.; Luo, M.; Huang, C.; Chen, H.-N.; Zhou, Z.-G. 2021: Epigenetic Regulation of Epithelial to Mesenchymal Transition in the Cancer Metastatic Cascade: Implications for Cancer Therapy. Frontiers in Oncology 11: 657546

Helgudottir, S.S.; Routhe, L.J.; Burkhart, A.; Jønsson, K.; Pedersen, I.S.; Lichota, J.; Moos, T. 2020: Epigenetic Regulation of Ferroportin in Primary Cultures of the Rat Blood-Brain Barrier. Molecular Neurobiology 57(8): 3526-3539

Lee, J.; Jang, A.; Seo, S.J.; Myung, S.C. 2020: Epigenetic Regulation of Filaggrin Gene Expression in Human Epidermal Keratinocytes. Annals of Dermatology 32(2): 122-129

Indellicato, R.; Trinchera, M. 2021: Epigenetic Regulation of Glycosylation. Advances in Experimental Medicine and Biology 1325: 173-186

Srivastava, S.; Singh, A.; Sandeep, K.; Yadav, D. 2021: Epigenetic Regulation of Gut Microbial Dysbiosis. Indian Journal of Microbiology 61(2): 125-129

Padula, S.L.; Yutzey, K.E. 2021: Epigenetic Regulation of Heart Failure: Cell Type Matters. Circulation Research 129(3): 414-416

Shi, C.-X.; Wang, Y.; Jiao, F.-Z.; Chen, Q.; Cao, P.; Pei, M.-H.; Zhang, L.-Y.; Guo, J.; Deng, W.; Wang, L.-W.; Gong, Z.-J. 2021: Epigenetic Regulation of Hepatic Stellate Cell Activation and Macrophage in Chronic Liver Inflammation. Frontiers in Physiology 12: 683526

Guo, M.; Li, N.; Zheng, J.; Wang, W.; Wu, Y.; Han, X.; Guo, J.; Chen, W.; Bai, Z.; Bai, W.; Wu, J. 2021: Epigenetic Regulation of Hepatocellular Carcinoma Progression through the mTOR Signaling Pathway. Canadian Journal of Gastroenterology and Hepatology 2021: 5596712

Osabe, K.; Harukawa, Y.; Miura, S.; Saze, H. 2017: Epigenetic Regulation of Intronic Transgenes in Arabidopsis. Scientific Reports 7: 45166

Campbell, M.; Yang, W.-S.; Yeh, W.W.; Kao, C.-H.; Chang, P.-C. 2020: Epigenetic Regulation of Kaposi's Sarcoma-Associated Herpesvirus Latency. Frontiers in Microbiology 11: 850

Li, X.; Xiao, H.; Jian, X.; Zhang, X.; Zhang, H.; Mu, Y.; Wang, H.; Chen, S.; Cong, R. 2020: Epigenetic Regulation of Key Enzymes CYP7a1 and HMGCR Affect Hepatic Cholesterol Metabolism in Different Breeds of Piglets. Frontiers in Veterinary Science 7: 231

Bennett, H.; Troutman, T.D.; Sakai, M.; Glass, C.K. 2020: Epigenetic Regulation of Kupffer Cell Function in Health and Disease. Frontiers in Immunology 11: 609618

Zhou, S.; Zeng, H.; Huang, J.; Lei, L.; Tong, X.; Li, S.; Zhou, Y.; Guo, H.; Khan, M.; Luo, L.; Xiao, R.; Chen, J.; Zeng, Q. 2021: Epigenetic regulation of melanogenesis. Ageing Research Reviews 69: 101349

Xia, M.; Wang, B.; Wang, Z.; Zhang, X.; Wang, X. 2021: Epigenetic Regulation of NK Cell-Mediated Antitumor Immunity. Frontiers in Immunology 12: 672328

Liu, J.; Lang, G.; Shi, J. 2021: Epigenetic Regulation of PDX-1 in Type 2 Diabetes Mellitus. Diabetes Metabolic Syndrome and Obesity: Targets and Therapy 14: 431-442

Bialesova, L.; Kulyté, Aé.; Petrus, P.; Sinha, I.; Laurencikiene, J.; Zhao, C.; Wright, K.Dahlman.; Arner, P.; Dahlman, I. 2017: Epigenetic Regulation of PLIN 1 in Obese Women and its Relation to Lipolysis. Scientific Reports 7(1): 10152

Mossel, D.M.; Moganti, K.; Riabov, V.; Weiss, C.; Kopf, S.; Cordero, J.; Dobreva, G.; Rots, M.G.; Klüter, H.; Harmsen, M.C.; Kzhyshkowska, J. 2020: Epigenetic Regulation of S100A9 and S100A12 Expression in Monocyte-Macrophage System in Hyperglycemic Conditions. Frontiers in Immunology 11: 1071

De, S.; Kitsou, C.; Sonenshine, D.E.; Pedra, J.H.F.; Fikrig, E.; Kassis, J.A.; Pal, U. 2021: Epigenetic Regulation of Tick Biology and Vectorial Capacity. Trends in Genetics: Tig 37(1): 8-11

Zurek, M.; Aavik, E.; Mallick, R.; Ylä-Herttuala, S. 2021: Epigenetic Regulation of Vascular Smooth Muscle Cell Phenotype Switching in Atherosclerotic Artery Remodeling: a Mini-Review. Frontiers in Genetics 12: 719456

Seib, K.L.; Srikhanta, Y.N.; Atack, J.M.; Jennings, M.P. 2020: Epigenetic Regulation of Virulence and Immunoevasion by Phase-Variable Restriction-Modification Systems in Bacterial Pathogens. Annual Review of Microbiology 74: 655-671

Zhang, W.; Sviripa, V.M.; Xie, Y.; Yu, T.; Haney, M.G.; Blackburn, J.S.; Adeniran, C.A.; Zhan, C.-G.; Watt, D.S.; Liu, C. 2020: Epigenetic Regulation of Wnt Signaling by Carboxamide-Substituted Benzhydryl Amines that Function as Histone Demethylase Inhibitors. Iscience 23(12): 101795

Sun, L.; Chen, B.; Wu, J.; Jiang, C.; Fan, Z.; Feng, Y.; Xu, Y. 2020: Epigenetic Regulation of a Disintegrin and Metalloproteinase (ADAM) Transcription in Colorectal Cancer Cells: Involvement of β-Catenin, BRG1, and KDM4. Frontiers in Cell and Developmental Biology 8: 581692

Cruz, J.d.O.; Silva, A.O.; Ribeiro, J.M.; Luizon, M.R.; Ceron, C.S. 2021: Epigenetic Regulation of the N-Terminal Truncated Isoform of Matrix Metalloproteinase-2 (NTT-MMP-2) and its Presence in Renal and Cardiac Diseases. Frontiers in Genetics 12: 637148

St John, J.C. 2021: Epigenetic Regulation of the Nuclear and Mitochondrial Genomes: Involvement in Metabolism, Development, and Disease. Annual Review of Animal Biosciences 9: 203-224

Sharma, A.; Mir, R.; Galande, S. 2021: Epigenetic Regulation of the Wnt/β-Catenin Signaling Pathway in Cancer. Frontiers in Genetics 12: 681053

Sun, X.; Wang, L.; Obayomi, S.M.B.; Wei, Z. 2021: Epigenetic Regulation of β Cell Identity and Dysfunction. Frontiers in Endocrinology 12: 725131

Khan, M.A.-A.-K.; Sany, M.R.U.; Islam, M.S.; Islam, A.B.M.M.K. 2020: Epigenetic Regulator miRNA Pattern Differences Among SARS-CoV, SARS-CoV-2, and SARS-CoV-2 World-Wide Isolates Delineated the Mystery Behind the Epic Pathogenicity and Distinct Clinical Characteristics of Pandemic COVID-19. Frontiers in Genetics 11: 765

Cakouros, D.; Gronthos, S. 2020: Epigenetic Regulators of Mesenchymal Stem/Stromal Cell Lineage Determination. Current Osteoporosis Reports 18(5): 597-605

Ji, X.; Guo, D.; Ma, J.; Yin, M.; Yu, Y.; Liu, C.; Zhou, Y.; Sun, J.; Li, Q.; Chen, N.; Fan, C.; Song, H. 2021: Epigenetic Remodeling Hydrogel Patches for Multidrug-Resistant Triple-Negative Breast Cancer. Advanced Materials 33(18): E2100949

Bagley, J.R.; Burghardt, K.J.; McManus, R.; Howlett, B.; Costa, P.B.; Coburn, J.W.; Arevalo, J.A.; Malek, M.H.; Galpin, A.J. 2020: Epigenetic Responses to Acute Resistance Exercise in Trained vs. Sedentary Men. Journal of Strength and Conditioning Research 34(6): 1574-1580

Min, D.; Byun, J.; Lee, E.-J.; Khan, A.A.; Liu, C.; Loudig, O.; Hu, W.; Zhao, Y.; Herlyn, M.; Tycko, B.; Cole, P.A.; Ryu, B. 2022: Epigenetic Silencing of BMP6 by the SIN3A-HDAC1/2 Repressor Complex Drives Melanoma Metastasis via FAM83G/PAWS1. Molecular Cancer Research: Mcr 20(2): 217-230

Zuberi, M.; Dholariya, S.; Khan, I.; Mir, R.; Guru, S.; Bhat, M.; Sumi, M.; Saxena, A. 2021: Epigenetic Silencing of DAPK1and p16 INK4a Genes by CpG Island Hypermethylation in Epithelial Ovarian Cancer Patients. Indian Journal of Clinical Biochemistry: Ijcb 36(2): 200-207

Radpour, R.; Stucki, M.; Riether, C.; Ochsenbein, A.F. 2021: Epigenetic Silencing of Immune-Checkpoint Receptors in Bone Marrow- Infiltrating T Cells in Acute Myeloid Leukemia. Frontiers in Oncology 11: 663406

Ozaydin, A.; Soysal, A.; Seyhan, B.; Arikan, S.; Dalay, N.; Buyru, N. 2021: Epigenetic Silencing of SOX15 Is Controlled by mi RNAs rather than Methylation in Papillary Thyroid Cancer. Disease Markers 2021: 1588220

Hwang, S.; Kim, H-Eun.; Min, M.; Raghunathan, R.; Panova, I.P.; Munshi, R.; Ryu, B. 2015: Epigenetic Silencing of SPINT2 Promotes Cancer Cell Motility via HGF-MET Pathway Activation in Melanoma. Journal of Investigative Dermatology 135(9): 2283-2291

Konki, M.; Pasumarthy, K.; Malonzo, M.; Sainio, A.; Valensisi, C.; Söderström, M.; Emani, M.Reddy.; Stubb, A.; Närvä, E.; Ghimire, B.; Laiho, A.; Järveläinen, H.; Lahesmaa, R.; Lähdesmäki, H.; Hawkins, R.David.; Lund, R.J. 2016: Epigenetic Silencing of the Key Antioxidant Enzyme Catalase in Karyotypically Abnormal Human Pluripotent Stem Cells. Scientific Reports 6: 22190

Cardon, T.; Ozcan, B.; Aboulouard, S.; Kobeissy, F.; Duhamel, M.; Rodet, F.; Fournier, I.; Salzet, M. 2020: Epigenetic Studies Revealed a Ghost Proteome in PC1/3 KD Macrophages under Antitumoral Resistance Induced by IL-10. Acs Omega 5(43): 27774-27782

Xu, Y.; Wang, N.; Liu, R.; Lv, H.; Li, Z.; Zhang, F.; Gai, C.; Tian, Z. 2021: Epigenetic Study of Esophageal Carcinoma Based on Methylation, Gene Integration and Weighted Correlation Network Analysis. Oncotargets and Therapy 14: 3133-3149

Nowicki, T.S.; Farrell, C.; Morselli, M.; Rubbi, L.; Campbell, K.M.; Macabali, M.H.; Berent-Maoz, B.; Comin-Anduix, B.ña.; Pellegrini, M.; Ribas, A. 2020: Epigenetic Suppression of Transgenic T-cell Receptor Expression via Gamma-Retroviral Vector Methylation in Adoptive Cell Transfer Therapy. Cancer Discovery 10(11): 1645-1653

Deblois, G.èv.; Tonekaboni, S.A.M.; Grillo, G.; Martinez, C.; Kao, Y.I.; Tai, F.; Ettayebi, I.; Fortier, A.-M.; Savage, P.; Fedor, A.N.; Liu, X.; Guilhamon, P.; Lima-Fernandes, E.; Murison, A.; Kuasne, H.; Ba-Alawi, W.; Cescon, D.W.; Arrowsmith, C.H.; De Carvalho, D.D.; Haibe-Kains, B.; Locasale, J.W.; Park, M.; Lupien, M. 2020: Epigenetic Switch-Induced Viral Mimicry Evasion in Chemotherapy-Resistant Breast Cancer. Cancer Discovery 10(9): 1312-1329

Bates, S.E. 2020: Epigenetic Therapies for Cancer. New England Journal of Medicine 383(7): 650-663

Napoli, C.; Bontempo, P.; Palmieri, V.; Coscioni, E.; Maiello, C.; Donatelli, F.; Benincasa, G. 2021: Epigenetic Therapies for Heart Failure: Current Insights and Future Potential. Vascular Health and Risk Management 17: 247-254

Grandi, F.C.; Bhutani, N. 2020: Epigenetic Therapies for Osteoarthritis. Trends in Pharmacological Sciences 41(8): 557-569

Xi, Y.; Jingying, D.; Chenglong, L.; Hong, Z.; Rong, Z.; Xiaodong, W.; Chunsen, W.; Xiaobing, H. 2020: Epigenetic Therapy Promotes the Ratio of Th1/Th17 Lineage to Reverse Immune Evasion and Treat Leukemia Relapse Post-allogeneic Stem Cell Transplantation in Non-APL AML Patients. Frontiers in Molecular Biosciences 7: 595395

Tanaka, H.; Naito, T.; Muroi, S.; Seo, W.; Chihara, R.; Miyamoto, C.; Kominami, R.; Taniuchi, I. 2013: Epigenetic Thpok silencing limits the time window to choose CD4(+) helper-lineage fate in the thymus. EMBO Journal 32(8): 1183-1194

Rossi, D. 2021: Epigenetic Trajectories of the Premalignant-to-Malignant Transition of Chronic Lymphocytic Leukemia. Cancer Discovery 2(1): 6-8

Rossi, D. 2021: Epigenetic Trajectories of the Premalignant-to-Malignant Transition of Chronic Lymphocytic Leukemia. Blood Cancer Discovery 2(1): 6-8

Ben Maamar, M.; Sadler-Riggleman, I.; Beck, D.; Skinner, M.K. 2018: Epigenetic Transgenerational Inheritance of Altered Sperm Histone Retention Sites. Scientific Reports 8(1): 5308

King, S.E.; Skinner, M.K. 2020: Epigenetic Transgenerational Inheritance of Obesity Susceptibility. Trends in Endocrinology and Metabolism: Tem 31(7): 478-494

Michieletto, D.; Orlandini, E.; Marenduzzo, D. 2017: Epigenetic Transitions and Knotted Solitons in Stretched Chromatin. Scientific Reports 7(1): 14642

Grabowski, P.; Kustatscher, G.; Rappsilber, J. 2018: Epigenetic Variability Confounds Transcriptome but Not Proteome Profiling for Coexpression-based Gene Function Prediction. Molecular and Cellular Proteomics: Mcp 17(11): 2082-2090

Freeman, D.M.; Wang, Z. 2020: Epigenetic Vulnerability of Insulator CTCF Motifs at Parkinson's Disease-Associated Genes in Response to Neurotoxicant Rotenone. Frontiers in Genetics 11: 627

Furukawa, Y. 2021: Epigenetic abnormalities in non-Hodgkin lymphomas. Japanese Journal of Clinical Hematology 62(9): 1367-1381

Pajovic, S.; Siddaway, R.; Bridge, T.; Sheth, J.; Rakopoulos, P.; Kim, B.; Ryall, S.; Agnihotri, S.; Phillips, L.; Yu, M.; Li, C.; Milos, S.; Patel, P.; Srikanthan, D.; Huang, A.; Hawkins, C. 2020: Epigenetic activation of a RAS/MYC axis in H3.3K27M-driven cancer. Nature Communications 11(1): 6216

Vizoso, M.; Ferreira, H.J.; Lopez-Serra, P.; Carmona, F.Javier.; Martínez-Cardús, A.; Girotti, M.Romina.; Villanueva, A.; Guil, S.; Moutinho, C.; Liz, J.; Portela, A.; Heyn, H.; Moran, S.; Vidal, A.; Martinez-Iniesta, M.; Manzano, J.L.; Fernandez-Figueras, M.Teresa.; Elez, E.; Muñoz-Couselo, E.; Botella-Estrada, R.; Berrocal, A.; Pontén, F.; Oord, J.van.den.; Gallagher, W.M.; Frederick, D.T.; Flaherty, K.T.; McDermott, U.; Lorigan, P.; Marais, R.; Esteller, M. 2015: Epigenetic activation of a cryptic TBC1D16 transcript enhances melanoma progression by targeting EGFR. Nature Medicine 21(7): 741-750

Hiken, J.F.; McDonald, J.I.; Decker, K.F.; Sanchez, C.; Hoog, J.; VanderKraats, N.D.; Jung, K.L.; Akinhanmi, M.; Rois, L.E.; Ellis, M.J.; Edwards, J.R. 2017: Epigenetic activation of the prostaglandin receptor EP4 promotes resistance to endocrine therapy for breast cancer. Oncogene 36(16): 2319-2327

Wang, Y.; Yu, L.; Engel, J.D.; Singh, S.A. 2021: Epigenetic activities in erythroid cell gene regulation. Seminars in Hematology 58(1): 4-9

Zheng, C.; Berger, N.A.; Li, L.; Xu, R. 2020: Epigenetic age acceleration and clinical outcomes in gliomas. Plos one 15(7): E0236045

Tan, Q. 2021: Epigenetic age acceleration as an effective predictor of diseases and mortality in the elderly. Ebiomedicine 63: 103174

Esteban-Cantos, A.és.; Rodríguez-Centeno, J.; Barruz, P.; Alejos, B.én.; Saiz-Medrano, G.; Nevado, J.án.; Martin, A.; Gayá, F.; De Miguel, R.; Bernardino, J.I.; Montejano, R.ío.; Mena-Garay, B.; Cadiñanos, J.; Florence, E.; Mulcahy, F.; Banhegyi, D.; Antinori, A.; Pozniak, A.; Wallet, C.éd.; Raffi, F.ço.; Rodés, B.; Arribas, J.R. 2021: Epigenetic age acceleration changes 2 years after antiretroviral therapy initiation in adults with HIV: a substudy of the NEAT001/ANRS143 randomised trial. LANCET. HIV 8(4): E197-E205

Fan, X.; Yuan, H.; Zhao, S.; Yang, X.; Shi, R.; Wang, J.; Zhao, H. 2020: Epigenetic age acceleration of early stage hepatocellular carcinoma tightly associated with hepatitis B virus load, immunoactivation, and improved survival. Cancer Biology and Therapy 21(10): 899-906

Ross, K.M.; Carroll, J.E.; Horvath, S.; Hobel, C.J.; Coussons-Read, M.E.; Dunkel Schetter, C. 2020: Epigenetic age and pregnancy outcomes: GrimAge acceleration is associated with shorter gestational length and lower birthweight. Clinical Epigenetics 12(1): 120

Verschoor, C.P.; Lin, D.T.S.; Kobor, M.S.; Mian, O.; Ma, J.; Pare, G.; Ybazeta, G. 2021: Epigenetic age is associated with baseline and 3-year change in frailty in the Canadian Longitudinal Study on Aging. Clinical Epigenetics 13(1): 163

Van der Laan, L.; Cardenas, A.; Vermeulen, R.; Fadadu, R.P.; Hubbard, A.E.; Phillips, R.V.; Zhang, L.; Breeze, C.; Hu, W.; Wen, C.; Huang, Y.; Tang, X.; Smith, M.T.; Rothman, N.; Lan, Q. 2022: Epigenetic aging biomarkers and occupational exposure to benzene, trichloroethylene and formaldehyde. Environment International 158: 106871

Luo, A.; Jung, J.; Longley, M.; Rosoff, D.B.; Charlet, K.; Muench, C.; Lee, J.; Hodgkinson, C.A.; Goldman, D.; Horvath, S.; Kaminsky, Z.A.; Lohoff, F.W. 2020: Epigenetic aging is accelerated in alcohol use disorder and regulated by genetic variation in APOL2. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 45(2): 327-336

Weidner, C.I.; Ziegler, P.; Hahn, M.; Brümmendorf, T.H.; Ho, A.D.; Dreger, P.; Wagner, W. 2015: Epigenetic aging upon allogeneic transplantation: the hematopoietic niche does not affect age-associated DNA methylation. Leukemia 29(4): 985-988

Astuti, D.; Latif, F.; Wagner, K.; Gentle, D.; Cooper, W.N.; Catchpoole, D.; Grundy, R.; Ferguson-Smith, A.C.; Maher, E.R. 2005: Epigenetic alteration at the DLK1-GTL2 imprinted domain in human neoplasia: analysis of neuroblastoma, phaeochromocytoma and Wilms' tumour. British Journal of Cancer 92(8): 1574-1580

Sanyal, T.; Paul, M.; Bhattacharjee, S.; Bhattacharjee, P. 2020: Epigenetic alteration of mitochondrial biogenesis regulatory genes in arsenic exposed individuals (with and without skin lesions) and in skin cancer tissues: a case control study. Chemosphere 258: 127305

Danese, E.; Minicozzi, A.M.; Benati, M.; Montagnana, M.; Paviati, E.; Salvagno, G.L.; Gusella, M.; Pasini, F.; Guidi, G.C.; Lippi, G. 2013: Epigenetic alteration: new insights moving from tissue to plasma - the example of PCDH10 promoter methylation in colorectal cancer. British Journal of Cancer 109(3): 807-813

Zhang, P.; Zhang, M. 2020: Epigenetic alterations and advancement of treatment in peripheral T-cell lymphoma. Clinical Epigenetics 12(1): 169

Kianmehr, A.; Faraoni, I.; Kucuk, O.; Mahrooz, A. 2021: Epigenetic alterations and genetic variations of angiotensin-converting enzyme 2 (ACE2) as a functional receptor for SARS-CoV-2: potential clinical implications. European Journal of Clinical Microbiology and Infectious Diseases: Official Publication of the European Society of Clinical Microbiology 40(8): 1587-1598

Espíndola, M.S.; Soares, L.S.; Galvão-Lima, L.J.; Zambuzi, F.A.; Cacemiro, M.C.; Brauer, Vônica.S.; Marzocchi-Machado, C.M.; de Souza Gomes, M.; Amaral, L.R.; Martins-Filho, O.A.; Bollela, V.R.; Frantz, F.G. 2018: Epigenetic alterations are associated with monocyte immune dysfunctions in HIV-1 infection. Scientific Reports 8(1): 5505

Cardoso, A.Rita.; Lobo, Jão.; Miranda-Gonçalves, V.; Henrique, R.; Jerónimo, C. 2020: Epigenetic alterations as therapeutic targets in Testicular Germ Cell Tumours : current and future application of 'epidrugs'. Epigenetics 2020: 1-20

Karagianni, P.; Goules, A.V.; Tzioufas, A.G. 2020: Epigenetic alterations in Sjögren's syndrome patient saliva. Clinical and Experimental Immunology 202(2): 137-143

Ballestar, E. 2011: Epigenetic alterations in autoimmune rheumatic diseases. Nature Reviews. Rheumatology 7(5): 263-271

Ilango, S.; Paital, B.; Jayachandran, P.; Padma, P.R.; Nirmaladevi, R. 2020: Epigenetic alterations in cancer. Frontiers in Bioscience 25(6): 1058-1109

Acharya, K.S.; Schrott, R.; Grenier, C.; Huang, Z.; Holloway, Z.; Hawkey, A.; Levin, E.D.; Murphy, S.K. 2020: Epigenetic alterations in cytochrome P450 oxidoreductase (Por) in sperm of rats exposed to tetrahydrocannabinol (THC). Scientific Reports 10(1): 12251

Choi, I.Seon.; Wu, T.Teh. 2005: Epigenetic alterations in gastric carcinogenesis. Cell Research 15(4): 247-254

Acevedo, N.; Benfeitas, R.; Katayama, S.; Bruhn, Sören.; Andersson, A.; Wikberg, G.; Lundeberg, L.; Lindvall, J.M.; Greco, D.; Kere, J.; Söderhäll, C.; Scheynius, A. 2020: Epigenetic alterations in skin homing CD4 + CLA + T cells of atopic dermatitis patients. Scientific Reports 10(1): 18020

Grady, W.M. 2021: Epigenetic alterations in the gastrointestinal tract: Current and emerging use for biomarkers of cancer. Advances in Cancer Research 151: 425-468

Soni, P.; Ghufran, M.S.; Olakkaran, S.; Puttaswamygowda, G.H.; Duddukuri, G.R.; Kanade, S.R. 2021: Epigenetic alterations induced by aflatoxin B1: An in vitro and in vivo approach with emphasis on enhancer of zeste homologue-2/p21 axis. Science of the Total Environment 762: 143175

Cai, Y.; Lin, J-Rong.; Zhang, Q.; O'Brien, K.; Montagna, C.; Zhang, Z.D. 2018: Epigenetic alterations to Polycomb targets precede malignant transition in a mouse model of breast cancer. Scientific Reports 8(1): 5535

Voisey, J.; Lawford, B.R.; Morris, C.Phillip.; Wockner, L.F.; Noble, E.P.; Young, R.McD.; Mehta, D. 2017: Epigenetic analysis confirms no accelerated brain aging in schizophrenia. Npj Schizophrenia 3(1): 26

Rai, R.; Yadav, S.S.; Pan, H.; Khan, I.; O'Connor, J.; Alshalalfa, M.; Davicioni, E.; Taioli, E.; Elemento, O.; Tewari, A.K.; Yadav, K.K. 2019: Epigenetic analysis identifies factors driving racial disparity in prostate cancer. Cancer Reports 2(2): E1153

Ham, S.; Bae, J-Bum.; Lee, S.; Kim, B-Jo.; Han, B-Ghee.; Kwok, S-Ki.; Roh, T-Young. 2019: Epigenetic analysis in rheumatoid arthritis synoviocytes. Experimental and Molecular Medicine 51(2): 1-13

Shen, H.; Fridley, B.L.; Song, H.; Lawrenson, K.; Cunningham, J.M.; Ramus, S.J.; Cicek, M.S.; Tyrer, J.; Stram, D.; Larson, M.C.; Köbel, M.; Ziogas, A.; Zheng, W.; Yang, H.P.; Wu, A.H.; Wozniak, E.L.; Woo, Y.Ling.; Winterhoff, B.; Wik, E.; Whittemore, A.S.; Wentzensen, N.; Weber, R.Palmieri.; Vitonis, A.F.; Vincent, D.; Vierkant, R.A.; Vergote, I.; Van Den Berg, D.; Van Altena, A.M.; Tworoger, S.S.; Thompson, P.J.; Tessier, D.C.; Terry, K.L.; Teo, S-Hwang.; Templeman, C.; Stram, D.O.; Southey, M.C.; Sieh, W.; Siddiqui, N.; Shvetsov, Y.B.; Shu, X-Ou.; Shridhar, 2013: Epigenetic analysis leads to identification of HNF1B as a subtype-specific susceptibility gene for ovarian cancer. Nature Communications 4: 1628

Tabolacci, E.; Moscato, U.; Zalfa, F.; Bagni, C.; Chiurazzi, P.; Neri, G. 2008: Epigenetic analysis reveals a euchromatic configuration in the FMR1 unmethylated full mutations. European Journal of Human Genetics: Ejhg 16(12): 1487-1498

Kokosar, M.; Benrick, A.; Perfilyev, A.; Fornes, R.; Nilsson, E.; Maliqueo, M.; Behre, C.Johan.; Sazonova, A.; Ohlsson, C.; Ling, C.; Stener-Victorin, E. 2016: Epigenetic and Transcriptional Alterations in Human Adipose Tissue of Polycystic Ovary Syndrome. Scientific Reports 6: 22883

Van Ouwerkerk, A.F.; Hall, A.W.; Kadow, Z.A.; Lazarevic, S.; Reyat, J.S.; Tucker, N.R.; Nadadur, R.D.; Bosada, F.M.; Bianchi, V.; Ellinor, P.T.; Fabritz, L.; Martin, J.F.; de Laat, W.; Kirchhof, P.; Moskowitz, I.P.; Christoffels, V.M. 2020: Epigenetic and Transcriptional Networks Underlying Atrial Fibrillation. Circulation Research 127(1): 34-50

Novohradsky, V.; Zanellato, I.; Marzano, C.; Pracharova, J.; Kasparkova, J.; Gibson, D.; Gandin, V.; Osella, D.; Brabec, V. 2017: Epigenetic and antitumor effects of platinum(IV)-octanoato conjugates. Scientific Reports 7(1): 3751

Tsai, K.; Cullen, B.R. 2020: Epigenetic and epitranscriptomic regulation of viral replication. Nature Reviews. Microbiology 18(10): 559-570

Li, Z.; Haynes, K.; Pennisi, D.J.; Anderson, L.K.; Song, X.; Thomas, G.P.; Kenna, T.; Leo, P.; Brown, M.A. 2017: Epigenetic and gene expression analysis of ankylosing spondylitis-associated loci implicate immune cells and the gut in the disease pathogenesis. Genes and Immunity 18(3): 135-143

Soejima, H.; Higashimoto, K. 2013: Epigenetic and genetic alterations of the imprinting disorder Beckwith-Wiedemann syndrome and related disorders. Journal of Human Genetics 58(7): 402-409

Benonisdottir, S.; Oddsson, A.; Helgason, A.; Kristjansson, R.P.; Sveinbjornsson, G.; Oskarsdottir, A.; Thorleifsson, G.; Davidsson, O.B.; Arnadottir, G.A.; Sulem, G.; Jensson, B.O.; Holm, H.; Alexandersson, K.F.; Tryggvadottir, L.; Walters, G.Bragi.; Gudjonsson, S.A.; Ward, L.D.; Sigurdsson, J.K.; Iordache, P.D.; Frigge, M.L.; Rafnar, T.; Kong, A.; Masson, G.; Helgason, H.; Thorsteinsdottir, U.; Gudbjartsson, D.F.; Sulem, P.; Stefansson, K. 2016: Epigenetic and genetic components of height regulation. Nature Communications 7: 13490

Ahmed, D.; Eide, P.W.; Eilertsen, I.A.; Danielsen, S.A.; Eknæs, M.; Hektoen, M.; Lind, G.E.; Lothe, R.A. 2013: Epigenetic and genetic features of 24 colon cancer cell lines. Oncogenesis 2: E71

Kaminsky, Z.; Wilcox, H.C.; Eaton, W.W.; Van Eck, K.; Kilaru, V.; Jovanovic, T.; Klengel, T.; Bradley, B.; Binder, E.B.; Ressler, K.J.; Smith, A.K. 2015: Epigenetic and genetic variation at SKA2 predict suicidal behavior and post-traumatic stress disorder. Translational Psychiatry 5: E627

Farris, S.P.; Mayfield, R.D. 2021: Epigenetic and non-coding regulation of alcohol abuse and addiction. International Review of Neurobiology 156: 63-86

Kale, A.; Sankrityayan, H.; Anders, H.-J.; Gaikwad, A.B. 2021: Epigenetic and non-epigenetic regulation of Klotho in kidney disease. Life Sciences 264: 118644

Suvakov, S.; Ghamrawi, R.; Cubro, H.; Tu, H.; White, W.M.; Tobah, Y.S.B.; Milic, N.M.; Grande, J.P.; Cunningham, J.M.; Chebib, F.T.; Prata, L.G.P.L.; Zhu, Y.; Tchkonia, T.; Kirkland, J.L.; Nath, K.A.; Milosavljevic, A.; Garovic, V.D. 2021: Epigenetic and senescence markers indicate an accelerated ageing-like state in women with preeclamptic pregnancies. Ebiomedicine 70: 103536

Gascard, P.; Bilenky, M.; Sigaroudinia, M.; Zhao, J.; Li, L.; Carles, A.; Delaney, A.; Tam, A.; Kamoh, B.; Cho, S.; Griffith, M.; Chu, A.; Robertson, G.; Cheung, D.; Li, I.; Heravi-Moussavi, A.; Moksa, M.; Mingay, M.; Hussainkhel, A.; Davis, B.; Nagarajan, R.P.; Hong, C.; Echipare, L.; O'Geen, H.; Hangauer, M.J.; Cheng, J.B.; Neel, D.; Hu, D.; McManus, M.T.; Moore, R.; Mungall, A.; Ma, Y.; Plettner, P.; Ziv, E.; Wang, T.; Farnham, P.J.; Jones, S.J.M.; Marra, M.A.; Tlsty, T.D.; Costello, J.F.; Hirst, M. 2015: Epigenetic and transcriptional determinants of the human breast. Nature Communications 6: 6351

Perreault, A.A.; Sprunger, D.M.; Venters, B.J. 2019: Epigenetic and transcriptional profiling of triple negative breast cancer. Scientific Data 6: 190033

Kurotaki, D.; Yoshida, H.; Tamura, T. 2020: Epigenetic and transcriptional regulation of osteoclast differentiation. Bone 138: 115471

Sharma, S.; Mahajan, A.; Mittal, A.; Gohil, R.; Sachdeva, S.; Khan, S.; Dhillon, M. 2020: Epigenetic and transcriptional regulation of osteoclastogenesis in the pathogenesis of skeletal diseases: a systematic review. Bone 138: 115507

Wang, Y.; Huang, C.; Zeng, W.; Zhang, T.; Zhong, C.; Deng, S.; Tang, T. 2021: Epigenetic and transcriptional responses underlying mangrove adaptation to UV-B. Iscience 24(10): 103148

Schmolka, N.; Serre, K.; Grosso, A.R.; Rei, M.; Pennington, D.J.; Gomes, A.Q.; Silva-Santos, B. 2013: Epigenetic and transcriptional signatures of stable versus plastic differentiation of proinflammatory γδ T cell subsets. Nature Immunology 14(10): 1093-1100

Nielsen, M.M.; Trolle, C.; Vang, S.ør.; Hornshøj, H.; Skakkebaek, A.; Hedegaard, J.; Nordentoft, I.; Pedersen, J.S.; Gravholt, C.H.øj. 2020: Epigenetic and transcriptomic consequences of excess X-chromosome material in 47,XXX syndrome-A comparison with Turner syndrome and 46,XX females. American Journal of Medical Genetics. Part C Seminars in Medical Genetics 184(2): 279-293

Weber-Stadlbauer, U. 2017: Epigenetic and transgenerational mechanisms in infection-mediated neurodevelopmental disorders. Translational Psychiatry 7(5): E1113

Gallardo-Escribano, C.; Buonaiuto, V.ón.; Ruiz-Moreno, M.I.; Vargas-Candela, A.; Vilches-Perez, A.; Benitez-Porres, J.; Romance-Garcia, A.R.; Ruiz-Moreno, A.; Gomez-Huelgas, R.; Bernal-Lopez, M.R. 2020: Epigenetic approach in obesity: DNA methylation in a prepubertal population which underwent a lifestyle modification. Clinical Epigenetics 12(1): 144

Chauvistré, H.; Seré, K. 2020: Epigenetic aspects of DC development and differentiation. Molecular Immunology 128: 116-124

Gutiérrez-Marcos, Jé.F.; Costa, L.M.; Dal Prà, M.; Scholten, S.; Kranz, E.; Perez, P.; Dickinson, H.G. 2006: Epigenetic asymmetry of imprinted genes in plant gametes. Nature Genetics 38(8): 876-878

Oricchio, E. 2021: Epigenetic balance in DLBCL. Blood 138(5): 355-356

Gao, A.; Guo, M. 2020: Epigenetic based synthetic lethal strategies in human cancers. Biomarker Research 8: 44

Tecalco-Cruz, A.C.; Ramírez-Jarquín, J.é O.; Alvarez-Sánchez, M.ía.E.; Zepeda-Cervantes, J. 2020: Epigenetic basis of Alzheimer disease. World Journal of Biological Chemistry 11(2): 62-75

Koo, J.Wook.; Mazei-Robison, M.S.; LaPlant, Q.; Egervari, G.; Braunscheidel, K.M.; Adank, D.N.; Ferguson, D.; Feng, J.; Sun, H.; Scobie, K.N.; Damez-Werno, D.M.; Ribeiro, E.; Peña, C.Jensen.; Walker, D.; Bagot, R.C.; Cahill, M.E.; Anderson, S.Ann.R.; Labonté, B.; Hodes, G.E.; Browne, H.; Chadwick, B.; Robison, A.J.; Vialou, V.F.; Dias, C.; Lorsch, Z.; Mouzon, E.; Lobo, M.Kay.; Dietz, D.M.; Russo, S.J.; Neve, R.L.; Hurd, Y.L.; Nestler, E.J. 2015: Epigenetic basis of opiate suppression of Bdnf gene expression in the ventral tegmental area. Nature Neuroscience 18(3): 415-422

Lenz, M.; Goetzke, R.; Schenk, A.; Schubert, C.; Veeck, Jürgen.; Hemeda, H.; Koschmieder, S.; Zenke, M.; Schuppert, A.; Wagner, W. 2015: Epigenetic biomarker to support classification into pluripotent and non-pluripotent cells. Scientific Reports 5: 8973

Park, B.; Khanam, R.; Vinayachandran, V.; Baqui, A.H.; London, S.J.; Biswal, S. 2020: Epigenetic biomarkers and preterm birth. Environmental Epigenetics 6(1): Dvaa 005

Torres, T.; Ruivo, R.; Santos, M.M. 2021: Epigenetic biomarkers as tools for chemical hazard assessment: Gene expression profiling using the model Danio rerio. Science of the Total Environment 773: 144830

Beltrán-García, J.ús.; Osca-Verdegal, R.; Romá-Mateo, C.; Carbonell, N.; Ferreres, J.é; Rodríguez, M.ía.; Mulet, S.; García-López, E.; Pallardó, F.V.; García-Giménez, J.é L. 2020: Epigenetic biomarkers for human sepsis and septic shock: insights from immunosuppression. Epigenomics 12(7): 617-646

Peedicayil, J. 2008: Epigenetic biomarkers in psychiatric disorders. British Journal of Pharmacology 155(6): 795-796

Xu, K.; Li, S.; Whitehead, T.P.; Pandey, P.; Kang, A.Y.; Morimoto, L.M.; Kogan, S.C.; Metayer, C.; Wiemels, J.L.; de Smith, A.J. 2021: Epigenetic Biomarkers of Prenatal Tobacco Smoke Exposure Are Associated with Gene Deletions in Childhood Acute Lymphoblastic Leukemia. Cancer Epidemiology Biomarkers and Prevention: a Publication of the American Association for Cancer Research Cosponsored by the American Society of Preventive Oncology 30(8): 1517-1525

Perdigoto, C.N. 2019: Epigenetic cancer evolution, one cell at a time. Nature Reviews. Genetics 20(8): 434-435

Rius, M.; Lyko, F. 2012: Epigenetic cancer therapy: rationales, targets and drugs. Oncogene 31(39): 4257-4265

Contassot, E.; French, L.E. 2010: Epigenetic causes of apoptosis resistance in cutaneous T-cell lymphomas. Journal of Investigative Dermatology 130(4): 922-924

Frazer, C.; Staples, M.I.; Kim, Y.; Hirakawa, M.; Dowell, M.A.; Johnson, N.V.; Hernday, A.D.; Ryan, V.H.; Fawzi, N.L.; Finkelstein, I.J.; Bennett, R.J. 2020: Epigenetic cell fate in Candida albicans is controlled by transcription factor condensates acting at super-enhancer-like elements. Nature Microbiology 5(11): 1374-1389

Young, L.E.; Fernandes, K.; McEvoy, T.G.; Butterwith, S.C.; Gutierrez, C.G.; Carolan, C.; Broadbent, P.J.; Robinson, J.J.; Wilmut, I.; Sinclair, K.D. 2001: Epigenetic change in IGF2R is associated with fetal overgrowth after sheep embryo culture. Nature Genetics 27(2): 153-154

O'Connell, M.R.; Sarkar, S.; Luthra, G.K.; Okugawa, Y.; Toiyama, Y.; Gajjar, A.H.; Qiu, S.; Goel, A.; Singh, P. 2015: Epigenetic changes and alternate promoter usage by human colon cancers for expressing DCLK1-isoforms: Clinical Implications. Scientific Reports 5: 14983

Varghese, R.S.; Zhou, Y.; Chen, Y.; Barefoot, M.E.; Tadesse, M.; Ressom, H.W. 2020: Epigenetic changes associated with mechanisms of disparities in hepatocellular carcinoma. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020: 5320-5325

Kim, S.; Thapar, I.; Brooks, B.W. 2021: Epigenetic changes by per- and polyfluoroalkyl substances (PFAS). Environmental Pollution 279: 116929

Dempsey, L.A. 2017: Epigenetic changes in TILs. Nature Immunology 18(7): 715

Lillycrop, K.A.; Burdge, G.C. 2011: Epigenetic changes in early life and future risk of obesity. International Journal of Obesity 35(1): 72-83

Mapelli, P.; Aboagye, E.O.; Stebbing, J.; Sharma, R. 2015: Epigenetic changes in gastroenteropancreatic neuroendocrine tumours. Oncogene 34(34): 4439-4447

Nielsen, H.Myrtue.; Andersen, C.Lykkegaard.; Westman, M.; Kristensen, L.Sommer.; Asmar, F.; Kruse, T.Arvid.; Thomassen, M.; Larsen, T.Stauffer.; Skov, V.; Hansen, L.Lotte.; Bjerrum, O.Weis.; Hasselbalch, H.Carl.; Punj, V.; Grønbæk, K. 2017: Epigenetic changes in myelofibrosis: Distinct methylation changes in the myeloid compartments and in cases with ASXL1 mutations. Scientific Reports 7(1): 6774

Koch, M.W.; Metz, L.M.; Kovalchuk, O. 2013: Epigenetic changes in patients with multiple sclerosis. Nature Reviews. Neurology 9(1): 35-43

Komers, R.; Mar, D.; Denisenko, O.; Xu, B.; Oyama, T.T.; Bomsztyk, K. 2013: Epigenetic changes in renal genes dysregulated in mouse and rat models of type 1 diabetes. Laboratory Investigation; a Journal of Technical Methods and Pathology 93(5): 543-552

Ding, Y.; Li, Z.; Broome, J.D. 2005: Epigenetic changes in the repression and induction of asparagine synthetase in human leukemic cell lines. Leukemia 19(3): 420-426

Li, H.Pai.; Leu, Y.Wei.; Chang, Y.Sun. 2005: Epigenetic changes in virus-associated human cancers. Cell Research 15(4): 262-271

Wang, J.; Huang, S.K.; Marzese, D.M.; Hsu, S.C.; Kawas, N.P.; Chong, K.K.; Long, G.V.; Menzies, A.M.; Scolyer, R.A.; Izraely, S.; Sagi-Assif, O.; Witz, I.P.; Hoon, D.S.B. 2015: Epigenetic changes of EGFR have an important role in BRAF inhibitor-resistant cutaneous melanomas. Journal of Investigative Dermatology 135(2): 532-541

Ichioka, Y.; Asa'ad, F.; Malekzadeh, B.Öh.; Westerlund, A.; Larsson, L. 2021: Epigenetic changes of osteoblasts in response to titanium surface characteristics. Journal of Biomedical Materials Research. Part a 109(2): 170-180

Baker, E.K.; Johnstone, R.W.; Zalcberg, J.R.; El-Osta, A. 2005: Epigenetic changes to the MDR1 locus in response to chemotherapeutic drugs. Oncogene 24(54): 8061-8075

O'Neill, L.P.; VerMilyea, M.D.; Turner, B.M. 2006: Epigenetic characterization of the early embryo with a chromatin immunoprecipitation protocol applicable to small cell populations. Nature Genetics 38(7): 835-841

Wang, Z.; Wang, B.; Cao, X. 2021: Epigenetic checkpoint blockade: new booster for immunotherapy. Signal Transduction and Targeted Therapy 6(1): 281

Ma, D.K.; Marchetto, M.Carolina.; Guo, J.U.; Ming, G-li.; Gage, F.H.; Song, H. 2010: Epigenetic choreographers of neurogenesis in the adult mammalian brain. Nature Neuroscience 13(11): 1338-1344

Okazaki, S.; Otsuka, I.; Numata, S.; Horai, T.; Mouri, K.; Boku, S.; Ohmori, T.; Sora, I.; Hishimoto, A. 2019: Epigenetic clock analysis of blood samples from Japanese schizophrenia patients. Npj Schizophrenia 5(1): 4

Prado, N.A.; Brown, J.L.; Zoller, J.A.; Haghani, A.; Yao, M.; Bagryanova, L.R.; Campana, M.G.; E Maldonado, J.ús.; Raj, K.; Schmitt, D.; Robeck, T.R.; Horvath, S. 2021: Epigenetic clock and methylation studies in elephants. Aging Cell 20(7): E13414

Kordowitzki, P.ł; Haghani, A.; Zoller, J.A.; Li, C.Z.; Raj, K.; Spangler, M.L.; Horvath, S. 2021: Epigenetic clock and methylation study of oocytes from a bovine model of reproductive aging. Aging Cell 20(5): E13349

Marečková, K.ár.; Pačínková, A.; Klasnja, A.; Shin, J.; Andrýsková, L.; Stano-Kozubík, K.ři.; Pausová, Z.; Brázdil, M.; Paus, T.áš 2020: Epigenetic clock as a correlate of anxiety. NEUROIMAGE. Clinical 28: 102458

Wu, X.; Cao, B.; Aquino, P.; Chiu, T.-P.; Chen, C.; Jiang, S.; Deng, Z.; Chen, S.; Rohs, R.; Wang, L.; Galagan, J.E.; Dedon, P.C. 2020: Epigenetic competition reveals density-dependent regulation and target site plasticity of phosphorothioate epigenetics in bacteria. Proceedings of the National Academy of Sciences of the United States of America 117(25): 14322-14330

Wei, K.H-C.; Gibilisco, L.; Bachtrog, D. 2020: Epigenetic conflict on a degenerating Y chromosome increases mutational burden in Drosophila males. Nature Communications 11(1): 5537

Kong, S.; Peng, Y.; Chen, W.; Ma, X.; Wei, Y.; Zhao, Y.; Li, R.; Qiao, J.; Yan, L. 2020: Epigenetic consequences of hormonal interactions between opposite-sex twin fetuses. Clinical and translational medicine 10(8): e234

Harjes, U. 2018: Epigenetic control by sugar. Nature Reviews. Cancer 18(10): 598-599

Karouzakis, E.; Gay, R.E.; Gay, S.; Neidhart, M. 2009: Epigenetic control in rheumatoid arthritis synovial fibroblasts. Nature Reviews. Rheumatology 5(5): 266-272

Henning, A.N.; Roychoudhuri, R.; Restifo, N.P. 2018: Epigenetic control of CD8 + T cell differentiation. Nature Reviews. Immunology 18(5): 340-356

Huehn, J.; Polansky, J.K.; Hamann, A. 2009: Epigenetic control of FOXP3 expression: the key to a stable regulatory T-cell lineage?. Nature Reviews. Immunology 9(2): 83-89

Nagata, D.E.de.Almeida.; Ting, H-A.; Cavassani, K.A.; Schaller, M.A.; Mukherjee, S.; Ptaschinski, C.; Kunkel, S.L.; Lukacs, N.W. 2015: Epigenetic control of Foxp3 by SMYD3 H3K4 histone methyltransferase controls iTreg development and regulates pathogenic T-cell responses during pulmonary viral infection. Mucosal Immunology 8(5): 1131-1143

Li, H.; Yao, Q.; Mariscal, A.Garcia.; Wu, X.; Hülse, J.; Pedersen, E.; Helin, K.; Waisman, A.; Vinkel, C.; Thomsen, S.Francis.; Avgustinova, A.; Benitah, S.Aznar.; Lovato, P.; Norsgaard, H.; Mortensen, M.Sidsel.; Veng, L.; Rozell, Börn.; Brakebusch, C. 2018: Epigenetic control of IL-23 expression in keratinocytes is important for chronic skin inflammation. Nature Communications 9(1): 1420

Yang, B.; Wu, J.; Maddodi, N.; Ma, Y.; Setaluri, V.; Longley, B.Jack. 2007: Epigenetic control of MAGE gene expression by the KIT tyrosine kinase. Journal of Investigative Dermatology 127(9): 2123-2128

Wilson, C.B.; Rowell, E.; Sekimata, M. 2009: Epigenetic control of T-helper-cell differentiation. Nature Reviews. Immunology 9(2): 91-105

Avgustinova, A.; Benitah, S.Aznar. 2016: Epigenetic control of adult stem cell function. Nature Reviews. Molecular Cell Biology 17(10): 643-658

Lomniczi, A.; Loche, A.; Castellano, J.Manuel.; Ronnekleiv, O.K.; Bosch, M.; Kaidar, G.; Knoll, J.Gabriel.; Wright, H.; Pfeifer, G.P.; Ojeda, S.R. 2013: Epigenetic control of female puberty. Nature Neuroscience 16(3): 281-289

Wang, M. 2020: Epigenetic control of inflammatory cells. Nature Reviews. Nephrology 16(6): 316

Lau, C.M.; Adams, N.M.; Geary, C.D.; Weizman, O-El.; Rapp, M.; Pritykin, Y.; Leslie, C.S.; Sun, J.C. 2018: Epigenetic control of innate and adaptive immune memory. Nature Immunology 19(9): 963-972

Rosenberg, M. 1971: Epigenetic control of lactate dehydrogenase subunit assembly. Nature: new Biology 230(1): 12-14

Diener, J.; Baggiolini, A.; Pernebrink, M.; Dalcher, D.; Lerra, L.; Cheng, P.F.; Varum, S.; Häusel, J.; Stierli, S.; Treier, M.; Studer, L.; Basler, K.; Levesque, M.P.; Dummer, R.; Santoro, R.; Cantù, C.; Sommer, L. 2021: Epigenetic control of melanoma cell invasiveness by the stem cell factor SALL4. Nature Communications 12(1): 5056

Lee, M-H.; Na, H.; Na, T-Y.; Shin, Y-K.; Seong, J-K.; Lee, M-O. 2012: Epigenetic control of metastasis-associated protein 1 gene expression by hepatitis B virus X protein during hepatocarcinogenesis. Oncogenesis 1: E25

Lee, M-H.; Na, H.; Na, T-Y.; Shin, Y-K.; Seong, J-K.; Lee, M-O. 2014: Epigenetic control of metastasis-associated protein 1 gene expression by hepatitis B virus X protein during hepatocarcinogenesis. Oncogenesis 3: E88

Brasacchio, D.; Alsop, A.E.; Noori, T.; Lufti, M.; Iyer, S.; Simpson, K.J.; Bird, P.I.; Kluck, R.M.; Johnstone, R.W.; Trapani, J.A. 2017: Epigenetic control of mitochondrial cell death through PACS1-mediated regulation of BAX/BAK oligomerization. Cell Death and Differentiation 24(6): 961-970

Popko, B. 2008: Epigenetic control of myelin repair. Nature Neuroscience 11(9): 987-988

Álvarez-Errico, D.; Vento-Tormo, R.; Sieweke, M.; Ballestar, E. 2015: Epigenetic control of myeloid cell differentiation, identity and function. Nature Reviews. Immunology 15(1): 7-17

Rubattu, S.; Stanzione, R.; Cotugno, M.; Bianchi, F.; Marchitti, S.; Forte, M. 2020: Epigenetic control of natriuretic peptides: implications for health and disease. Cellular and Molecular Life Sciences: Cmls 77(24): 5121-5130

Hirabayashi, Y.; Gotoh, Y. 2010: Epigenetic control of neural precursor cell fate during development. Nature Reviews. Neuroscience 11(6): 377-388

Feliers, D. 2015: Epigenetic control of podocyte differentiation: a new target of the renin-angiotensin system in kidney disease. Kidney International 88(4): 668-670

Namy, O.; Galopier, Aélie.; Martini, C.; Matsufuji, S.; Fabret, Céline.; Rousset, J-Pierre. 2008: Epigenetic control of polyamines by the prion [PSI+. Nature Cell Biology 10(9): 1069-1075

Tanakas, S.; Aubin, J.E.; van Wijnen, A.J. 2021: Epigenetic control of skeletal homeostasis and diseases. Bone 144: 115797

Leśniak, Wława.; Słomnicki, Łukasz.P.; Kuźnicki, J. 2007: Epigenetic control of the S100A6 (calcyclin) gene expression. Journal of Investigative Dermatology 127(10): 2307-2314

He, J.-P.; Chen, J.-K. 2021: Epigenetic control of transposable elements and cell fate decision. Yi Chuan 43(9): 822-834

Li, T.; Mao, C.; Wang, X.; Shi, Y.; Tao, Y. 2020: Epigenetic crosstalk between hypoxia and tumor driven by HIF regulation. Journal of Experimental and Clinical Cancer Research: Cr 39(1): 224

Huang, H.-T.; Figueroa, M.E. 2021: Epigenetic deregulation in myeloid malignancies. Blood 138(8): 613-624

Almutairi, B.; Charlet, J.; Dallosso, A.R.; Szemes, M.; Etchevers, H.C.; Malik, K.T.A.; Brown, K.W. 2019: Epigenetic deregulation of GATA3 in neuroblastoma is associated with increased GATA3 protein expression and with poor outcomes. Scientific Reports 9(1): 18934

Köhler, F.; Bormann, F.; Raddatz, G.ün.; Gutekunst, J.; Corless, S.; Musch, T.; Lonsdorf, A.S.; Erhardt, S.; Lyko, F.; Rodríguez-Paredes, M. 2020: Epigenetic deregulation of lamina-associated domains in Hutchinson-Gilford progeria syndrome. Genome Medicine 12(1): 46

Loo, S.Yue.; Syn, N.L.; Koh, A.Pei-Fern.; Teng, J.Cheng-Fei.; Deivasigamani, A.; Tan, T.Zea.; Thike, A.Aye.; Vali, S.; Kapoor, S.; Wang, X.; Wang, J.Wei.; Tan, P.Hoon.; Yip, G.W.; Sethi, G.; Huang, R.Yun-Ju.; Hui, K.Man.; Wang, L.; Goh, B.Cher.; Kumar, A.Prem. 2021: Epigenetic derepression converts PPARγ into a druggable target in triple-negative and endocrine-resistant breast cancers. Cell Death Discovery 7(1): 265

Acharya, M.M.; Baddour, A.Anoud.D.; Kawashita, T.; Allen, B.D.; Syage, A.R.; Nguyen, T.H.; Yoon, N.; Giedzinski, E.; Yu, L.; Parihar, V.K.; Baulch, J.E. 2017: Epigenetic determinants of space radiation-induced cognitive dysfunction. Scientific Reports 7: 42885

Maltby, V.E.; Lea, R.A.; Burnard, S.; Xavier, A.; Van Cao, T.; White, N.; Kennedy, D.; Groen, K.; Sanders, K.A.; Seeto, R.; Bray, S.; Gresle, M.; Laverick, L.; Butzkueven, H.; Scott, R.J.; Lechner-Scott, J. 2020: Epigenetic differences at the HTR2A locus in progressive multiple sclerosis patients. Scientific Reports 10(1): 22217

Lewis, C.R.; Sowards, H.A.; Huentelman, M.J.; Doane, L.D.; Lemery-Chalfant, K. 2020: Epigenetic differences in inflammation genes of monozygotic twins are related to parent-child emotional availability and health. BrainBehaviorandImmunity-Health 5: 100084

Malki, K.; Koritskaya, E.; Harris, F.; Bryson, K.; Herbster, M.; Tosto, M.G. 2016: Epigenetic differences in monozygotic twins discordant for major depressive disorder. Translational Psychiatry 6(6): E839

Moraleda-Prados, J.; Caballero-Huertas, M.; Valdivieso, A.; Joly, S.; Ji, J.; Roher, N.; Ribas, L. 2021: Epigenetic differences in the innate response after immune stimulation during zebrafish sex differentiation. Developmental and Comparative Immunology 114: 103848

Lee, K.Y.; Geng, H.; Ng, K.M.; Yu, J.; van Hasselt, A.; Cao, Y.; Zeng, Y-X.; Wong, A.H.Y.; Wang, X.; Ying, J.; Srivastava, G.; Lung, M.L.; Wang, L-D.; Kwok, T.T.; Levi, B-Z.; Chan, A.T.C.; Sung, J.J.Y.; Tao, Q. 2008: Epigenetic disruption of interferon-gamma response through silencing the tumor suppressor interferon regulatory factor 8 in nasopharyngeal, esophageal and multiple other carcinomas. Oncogene 27(39): 5267-5276

Ying, J.; Li, H.; Cui, Y.; Wong, A.H.Y.; Langford, C.; Tao, Q. 2006: Epigenetic disruption of two proapoptotic genes MAPK10/JNK3 and PTPN13/FAP-1 in multiple lymphomas and carcinomas through hypermethylation of a common bidirectional promoter. Leukemia 20(6): 1173-1175

Latzel, Vít.; Allan, E.; Bortolini Silveira, A.; Colot, V.; Fischer, M.; Bossdorf, O. 2013: Epigenetic diversity increases the productivity and stability of plant populations. Nature Communications 4: 2875

Frieling, H.; Bleich, S.; Otten, J.; Römer, K.D.; Kornhuber, J.; de Zwaan, M.; Jacoby, G.E.; Wilhelm, J.; Hillemacher, T. 2008: Epigenetic downregulation of atrial natriuretic peptide but not vasopressin mRNA expression in females with eating disorders is related to impulsivity. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 33(11): 2605-2609

Bhunia, S.; Barbhuiya, M.A.; Gupta, S.; Shrivastava, B.R.; Tiwari, P.K. 2020: Epigenetic downregulation of desmin in gall bladder cancer reveals its potential role in disease progression. Indian Journal of Medical Research 151(4): 311-318

Noberini, R.; Bonaldi, T. 2019: Epigenetic drug target deconvolution by mass spectrometry-based technologies. Nature Structural and Molecular Biology 26(10): 854-857

Jostes, S.; Nettersheim, D.; Schorle, H. 2019: Epigenetic drugs and their molecular targets in testicular germ cell tumours. Nature Reviews. Urology 16(4): 245-259

Schotanus, K.; Yadav, V.; Heitman, J. 2021: Epigenetic dynamics of centromeres and neocentromeres in Cryptococcus deuterogattii. Plos Genetics 17(8): E1009743

Hemberger, M.; Dean, W.; Reik, W. 2009: Epigenetic dynamics of stem cells and cell lineage commitment: digging Waddington's canal. Nature Reviews. Molecular Cell Biology 10(8): 526-537

Jang, H.S.; Chen, Y.; Ge, J.; Wilkening, A.N.; Hou, Y.; Lee, H.J.; Choi, Y.R.; Lowdon, R.F.; Xing, X.; Li, D.; Kaufman, C.K.; Johnson, S.L.; Wang, T. 2021: Epigenetic dynamics shaping melanophore and iridophore cell fate in zebrafish. Genome Biology 22(1): 282

Sawalha, A.H.; Zhao, M.; Coit, P.; Lu, Q. 2020: Epigenetic dysregulation of ACE2 and interferon-regulated genes might suggest increased COVID-19 susceptibility and severity in lupus patients. Medrxiv: the Preprint Server for Health Sciences 2020

Chim, C.S.; Pang, R.; Fung, T.K.; Choi, C.L.; Liang, R. 2007: Epigenetic dysregulation of Wnt signaling pathway in multiple myeloma. Leukemia 21(12): 2527-2536

Li, P.; Marshall, L.; Oh, G.; Jakubowski, J.L.; Groot, D.; He, Y.; Wang, T.; Petronis, A.; Labrie, V. 2019: Epigenetic dysregulation of enhancers in neurons is associated with Alzheimer's disease pathology and cognitive symptoms. Nature Communications 10(1): 2246

Martino, D.; Neeland, M.; Dang, T.; Cobb, J.; Ellis, J.; Barnett, A.; Tang, M.; Vuillermin, P.; Allen, K.; Saffery, R. 2018: Epigenetic dysregulation of naive CD4+ T-cell activation genes in childhood food allergy. Nature Communications 9(1): 3308

Policarpi, C.; Dabin, J.; Hackett, J.A. 2021: Epigenetic editing: Dissecting chromatin function in context. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 43(5): E2000316

Khaghani, A.J.; Farrokh, P.; Zavareh, S. 2021: Epigenetic effects of Bisphenol a on granulosa cells of mouse follicles during in vitro culture: An experimental study. International Journal of Reproductive Biomedicine 19(2): 129-136

Wang, W.; Ito, T.; Otsuka, S.; Nansai, H.; Abe, K.; Nakao, Y.; Ohgane, J.; Yoneda, M.; Sone, H. 2021: Epigenetic effects of insecticides on early differentiation of mouse embryonic stem cells. Toxicology in Vitro: An International Journal Published in Association with Bibra 75: 105174

Tryndyak, V.P.; Borowa-Mazgaj, B.; Steward, C.R.; Beland, F.A.; Pogribny, I.P. 2020: Epigenetic effects of low-level sodium arsenite exposure on human liver HepaRG cells. Archives of Toxicology 94(12): 3993-4005

McNew, S.M.; Boquete, M.T.; Espinoza-Ulloa, S.; Andres, J.A.; Wagemaker, N.C.A.M.; Knutie, S.A.; Richards, C.L.; Clayton, D.H. 2021: Epigenetic effects of parasites and pesticides on captive and wild nestling birds. Ecology and Evolution 11(12): 7713-7729

Steers, G.J.; Carroll, R.S.; O'Leary, B.R.; Cullen, J.J. 2021: Epigenetic effects of pharmacologic ascorbate. Oncotarget 12(9): 876-877

Hayward, I.P.; Parsons, P.G. 1984: Epigenetic effects of the methylating agent 5-(3-methyl-1-triazeno) imidazole-4-carboxamide in human melanoma cells. Australian Journal of Experimental Biology and Medical Science 62: 597-606

Eltaweel, N.H.; ElKamah, G.Y.; Khairat, R.; Atia, H.A.E.; Amr, K.S. 2021: Epigenetic effects toward new insights as potential therapeutic target in B-thalassemia. Journal Genetic Engineering and Biotechnology 19(1): 51

Molina, O.; Vargiu, G.; Abad, M.Alba.; Zhiteneva, A.; Jeyaprakash, A.Arockia.; Masumoto, H.; Kouprina, N.; Larionov, V.; Earnshaw, W.C. 2016: Epigenetic engineering reveals a balance between histone modifications and transcription in kinetochore maintenance. Nature Communications 7: 13334

Bergmann, J.H.; Rodríguez, M.Gómez.; Martins, N.M.C.; Kimura, H.; Kelly, D.A.; Masumoto, H.; Larionov, V.; Jansen, L.E.T.; Earnshaw, W.C. 2011: Epigenetic engineering shows H3K4me2 is required for HJURP targeting and CENP-A assembly on a synthetic human kinetochore. EMBO Journal 30(2): 328-340

Vrtačnik, P.; Zupan, J.; Mlakar, V.; Kranjc, T.; Marc, J.; Kern, B.; Ostanek, B. 2018: Epigenetic enzymes influenced by oxidative stress and hypoxia mimetic in osteoblasts are differentially expressed in patients with osteoporosis and osteoarthritis. Scientific Reports 8(1): 16215

Park, S.; Lehner, B. 2013: Epigenetic epistatic interactions constrain the evolution of gene expression. Molecular Systems Biology 9: 645

Lunke, S.; Maxwell, S.; Khurana, I.; K N, H.; Okabe, J.; Al-Hasani, K.; El-Osta, A. 2021: Epigenetic evidence of an Ac/Dc axis by VPA and SAHA. Clinical Epigenetics 13(1): 58

Gaiti, F.; Chaligne, R.; Gu, H.; Brand, R.M.; Kothen-Hill, S.; Schulman, R.C.; Grigorev, K.; Risso, D.; Kim, K-Tae.; Pastore, A.; Huang, K.Y.; Alonso, A.; Sheridan, C.; Omans, N.D.; Biederstedt, E.; Clement, K.; Wang, L.; Felsenfeld, J.A.; Bhavsar, E.B.; Aryee, M.J.; Allan, J.N.; Furman, R.; Gnirke, A.; Wu, C.J.; Meissner, A.; Landau, D.A. 2019: Epigenetic evolution and lineage histories of chronic lymphocytic leukaemia. Nature 569(7757): 576-580

Vanharanta, S.; Shu, W.; Brenet, F.; Hakimi, A.Ari.; Heguy, A.; Viale, A.; Reuter, V.E.; Hsieh, J.J-D.; Scandura, J.M.; Massagué, J. 2013: Epigenetic expansion of VHL-HIF signal output drives multiorgan metastasis in renal cancer. Nature Medicine 19(1): 50-56

Hou, H.; Zhao, H. 2021: Epigenetic factors in atherosclerosis: DNA methylation, folic acid metabolism, and intestinal microbiota. Clinica Chimica Acta; International Journal of Clinical Chemistry 512: 7-11

Lincoln, M.R.; Axisa, P.-P.; Hafler, D.A. 2020: Epigenetic fine-mapping: identification of causal mechanisms for autoimmunity. Current Opinion in Immunology 67: 50-56

Yagi, M.; Yamanaka, S.; Yamada, Y. 2017: Epigenetic foundations of pluripotent stem cells that recapitulate in vivo pluripotency. Laboratory Investigation; a Journal of Technical Methods and Pathology 97(10): 1133-1141

Ferber, S.G.; Roth, T.L.; Weller, A. 2020: Epigenetic fragility of the endocannabinoid system under stress: risk for mood disorders and pharmacogenomic implications. Epigenomics 12(8): 657-660

He, M.; Raftrey, B.; Hsu, Y.-C. 2021: Epigenetic fun(ction) in the sun. Developmental Cell 56(18): 2537-2539

Islam, M.R.; Lbik, D.; Sakib, M.S.; Maximilian Hofmann, R.; Berulava, T.; Jiménez Mausbach, M.í; Cha, J.; Goldberg, M.; Vakhtang, E.; Schiffmann, C.; Zieseniss, A.; Katschinski, D.ör.M.; Sananbenesi, F.; Toischer, K.; Fischer, A. 2021: Epigenetic gene expression links heart failure to memory impairment. Embo Molecular Medicine 13(3): E11900

Stajic, D.; Perfeito, Lília.; Jansen, L.E.T. 2019: Epigenetic gene silencing alters the mechanisms and rate of evolutionary adaptation. Nature Ecology and Evolution 3(3): 491-498

Torres-Garcia, S.; Yaseen, I.; Shukla, M.; Audergon, P.N.C.B.; White, S.A.; Pidoux, A.L.; Allshire, R.C. 2020: Epigenetic gene silencing by heterochromatin primes fungal resistance. Nature 585(7825): 453-458

Baylin, S.B.; Ohm, J.E. 2006: Epigenetic gene silencing in cancer - a mechanism for early oncogenic pathway addiction?. Nature Reviews. Cancer 6(2): 107-116

Huypens, P.; Sass, S.; Wu, M.; Dyckhoff, D.; Tschöp, M.; Theis, F.; Marschall, S.; Hrabě de Angelis, M.; Beckers, J. 2016: Epigenetic germline inheritance of diet-induced obesity and insulin resistance. Nature Genetics 48(5): 497-499

Luu, J.; Kallestad, L.; Hoang, T.; Lewandowski, D.; Dong, Z.; Blackshaw, S.; Palczewski, K. 2020: Epigenetic hallmarks of age-related macular degeneration are recapitulated in a photosensitive mouse model. Human Molecular Genetics 29(15): 2611-2624

Zampini, M.; Tregnago, C.; Bisio, V.; Simula, L.; Borella, G.; Manara, E.; Zanon, C.; Zonta, F.; Serafin, V.; Accordi, B.; Campello, S.; Buldini, B.; Pession, A.; Locatelli, F.; Basso, G.; Pigazzi, M. 2018: Epigenetic heterogeneity affects the risk of relapse in children with t(8;21)RUNX1-RUNX1T1-rearranged AML. Leukemia 32(5): 1124-1134

Matsuda, Y.; Kobayashi-Ishihara, M.; Fujikawa, D.; Ishida, T.; Watanabe, T.; Yamagishi, M. 2015: Epigenetic heterogeneity in HIV-1 latency establishment. Scientific Reports 5: 7701

Sun, Y.; Zhang, Z.; Zhang, K.; Liu, Y.; Shen, P.; Cai, M.; Jia, C.; Wang, W.; Gu, Z.; Ma, P.; Lu, H.; Guan, L.; Di, W.; Zhuang, G.; Yin, X. 2021: Epigenetic heterogeneity promotes acquired resistance to BET bromodomain inhibition in ovarian cancer. American Journal of Cancer Research 11(6): 3021-3038

Ribeiro, A.C.R.; Jahr, F.M.; Hawkins, E.; Kronfol, M.M.; Younis, R.M.; McClay, J.L.; Deshpande, L.S. 2021: Epigenetic histone acetylation and Bdnf dysregulation in the hippocampus of rats exposed to repeated, low-dose diisopropylfluorophosphate. Life Sciences 281: 119765

Jin, H.; Wang, X.; Ying, J.; Wong, A.H.Y.; Li, H.; Lee, K.Y.; Srivastava, G.; Chan, A.T.C.; Yeo, W.; Ma, B.B.Y.; Putti, T.C.; Lung, M.L.; Shen, Z-Y.; Xu, L-Y.; Langford, C.; Tao, Q. 2007: Epigenetic identification of ADAMTS18 as a novel 16q23.1 tumor suppressor frequently silenced in esophageal, nasopharyngeal and multiple other carcinomas. Oncogene 26(53): 7490-7498

Tang, L.; Zhu, S.; Peng, W.; Yin, X.; Tan, C.; Yang, Y. 2021: Epigenetic identification of mitogen-activated protein kinase 10 as a functional tumor suppressor and clinical significance for hepatocellular carcinoma. Peerj 9: E10810

McHugh, J. 2020: Epigenetic imprinting maintains profibrotic phenotype in SSc. Nature Reviews. Rheumatology 16(4): 186

Manso, J.; Censi, S.; Mian, C. 2021: Epigenetic in medullary thyroid cancer: the role of microRNA in tumorigenesis and prognosis. Current Opinion in Oncology 33(1): 9-15

Esteller, M.; Avizienyte, E.; Corn, P.G.; Lothe, R.A.; Baylin, S.B.; Aaltonen, L.A.; Herman, J.G. 2000: Epigenetic inactivation of LKB1 in primary tumors associated with the Peutz-Jeghers syndrome. Oncogene 19(1): 164-168

Horiguchi, K.; Tomizawa, Y.; Tosaka, M.; Ishiuchi, S.; Kurihara, H.; Mori, M.; Saito, N. 2003: Epigenetic inactivation of RASSF1A candidate tumor suppressor gene at 3p21.3 in brain tumors. Oncogene 22(49): 7862-7865

Suzuki, H.; Watkins, D.Neil.; Jair, K-Wing.; Schuebel, K.E.; Markowitz, S.D.; Chen, W.Dong.; Pretlow, T.P.; Yang, B.; Akiyama, Y.; Van Engeland, M.; Toyota, M.; Tokino, T.; Hinoda, Y.; Imai, K.; Herman, J.G.; Baylin, S.B. 2004: Epigenetic inactivation of SFRP genes allows constitutive WNT signaling in colorectal cancer. Nature Genetics 36(4): 417-422

Dickinson, R.E.; Dallol, A.; Bieche, I.; Krex, D.; Morton, D.; Maher, E.R.; Latif, F. 2004: Epigenetic inactivation of SLIT3 and SLIT1 genes in human cancers. British Journal of Cancer 91(12): 2071-2078

Yu, J.; Ma, X.; Cheung, K.F.; Li, X.; Tian, L.; Wang, S.; Wu, C.W.; Wu, W.K.K.; He, M.; Wang, M.; Ng, S.S.M.; Sung, J.J.Y. 2010: Epigenetic inactivation of T-box transcription factor 5, a novel tumor suppressor gene, is associated with colon cancer. Oncogene 29(49): 6464-6474

Terasawa, K.; Toyota, M.; Sagae, S.; Ogi, K.; Suzuki, H.; Sonoda, T.; Akino, K.; Maruyama, R.; Nishikawa, N.; Imai, K.; Shinomura, Y.; Saito, T.; Tokino, T. 2006: Epigenetic inactivation of TCF2 in ovarian cancer and various cancer cell lines. British Journal of Cancer 94(6): 914-921

Sato, N.; Parker, A.R.; Fukushima, N.; Miyagi, Y.; Iacobuzio-Donahue, C.A.; Eshleman, J.R.; Goggins, M. 2005: Epigenetic inactivation of TFPI-2 as a common mechanism associated with growth and invasion of pancreatic ductal adenocarcinoma. Oncogene 24(5): 850-858

Hizaki, K.; Yamamoto, H.; Taniguchi, H.; Adachi, Y.; Nakazawa, M.; Tanuma, T.; Kato, N.; Sukawa, Y.; Sanchez, J.V.; Suzuki, H.; Sasaki, S.; Imai, K.; Shinomura, Y. 2011: Epigenetic inactivation of calcium-sensing receptor in colorectal carcinogenesis. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 24(6): 876-884

Satoh, A.; Toyota, M.; Ikeda, H.; Morimoto, Y.; Akino, K.; Mita, H.; Suzuki, H.; Sasaki, Y.; Kanaseki, T.; Takamura, Y.; Soejima, H.; Urano, T.; Yanagihara, K.; Endo, T.; Hinoda, Y.; Fujita, M.; Hosokawa, M.; Sato, N.; Tokino, T.; Imai, K. 2004: Epigenetic inactivation of class II transactivator (CIITA) is associated with the absence of interferon-gamma-induced HLA-DR expression in colorectal and gastric cancer cells. Oncogene 23(55): 8876-8886

Han, P.; Wang, Y.; Luo, W.; Lu, Y.; Zhou, X.; Yang, Y.; Zheng, Q.; Li, D.; Wu, S.; Li, L.; Zhang, H.; Zhao, J.; Zhang, Z.; Matskova, L.; Li, P.; Zhou, X. 2021: Epigenetic inactivation of hydroxymethylglutaryl CoA synthase reduces ketogenesis and facilitates tumor cell motility in clear cell renal carcinoma. Pathology Research and Practice 227: 153622

Li, X.; Cheung, K.F.; Ma, X.; Tian, L.; Zhao, J.; Go, M.Y.Y.; Shen, B.; Cheng, A.S.L.; Ying, J.; Tao, Q.; Sung, J.J.Y.; Kung, H-F.; Yu, J. 2012: Epigenetic inactivation of paired box gene 5, a novel tumor suppressor gene, through direct upregulation of p53 is associated with prognosis in gastric cancer patients. Oncogene 31(29): 3419-3430

Sánchez, A.; Setién, F.; Martinez, N.; Oliva, J.L.; Herranz, M.; Fraga, M-F.; Alaminos, M.; Esteller, M.; Rojas, J.M. 2008: Epigenetic inactivation of the ERK inhibitor Spry2 in B-cell diffuse lymphomas. Oncogene 27(36): 4969-4972

Aguilera, O.; Fraga, M.F.; Ballestar, E.; Paz, M.F.; Herranz, M.; Espada, J.; García, J.M.; Muñoz, A.; Esteller, M.; González-Sancho, J.M. 2006: Epigenetic inactivation of the Wnt antagonist DICKKOPF-1 (DKK-1) gene in human colorectal cancer. Oncogene 25(29): 4116-4121

Gordevicius, J.; Li, P.; Marshall, L.L.; Killinger, B.A.; Lang, S.; Ensink, E.; Kuhn, N.C.; Cui, W.; Maroof, N.; Lauria, R.; Rueb, C.; Siebourg-Polster, J.; Maliver, P.; Lamp, J.; Vega, I.; Manfredsson, F.P.; Britschgi, M.; Labrie, V. 2021: Epigenetic inactivation of the autophagy-lysosomal system in appendix in Parkinson's disease. Nature Communications 12(1): 5134

Agathanggelou, A.; Dallol, A.; Zöchbauer-Müller, S.; Morrissey, C.; Honorio, S.; Hesson, L.; Martinsson, T.; Fong, K.M.; Kuo, M.J.; Yuen, P.Wing.; Maher, E.R.; Minna, J.D.; Latif, F. 2003: Epigenetic inactivation of the candidate 3p21.3 suppressor gene BLU in human cancers. Oncogene 22(10): 1580-1588

Okuda, H.; Toyota, M.; Ishida, W.; Furihata, M.; Tsuchiya, M.; Kamada, M.; Tokino, T.; Shuin, T. 2006: Epigenetic inactivation of the candidate tumor suppressor gene HOXB13 in human renal cell carcinoma. Oncogene 25(12): 1733-1742

McKie, A.B.; Douglas, D.A.; Olijslagers, S.; Graham, J.; Omar, M.M.; Heer, R.; Gnanapragasam, V.J.; Robson, C.N.; Leung, H.Y. 2005: Epigenetic inactivation of the human sprouty2 (hSPRY2) homologue in prostate cancer. Oncogene 24(13): 2166-2174

Piqué, L.; Martinez de Paz, A.; Piñeyro, D.; Martínez-Cardús, A.; Castro de Moura, M.; Llinàs-Arias, P.; Setien, F.; Gomez-Miragaya, J.; Gonzalez-Suarez, E.; Sigurdsson, S.; Jonasson, J.G.; Villanueva, A.; Vidal, A.; Davalos, V.; Esteller, M. 2019: Epigenetic inactivation of the splicing RNA-binding protein CELF2 in human breast cancer. Oncogene 38(45): 7106-7112

Pulukuri, S.M.; Patibandla, S.; Patel, J.; Estes, N.; Rao, J.S. 2007: Epigenetic inactivation of the tissue inhibitor of metalloproteinase-2 (TIMP-2) gene in human prostate tumors. Oncogene 26(36): 5229-5237

Marini, A.; Mirmohammadsadegh, A.; Nambiar, S.; Gustrau, A.; Ruzicka, T.; Hengge, U.R. 2006: Epigenetic inactivation of tumor suppressor genes in serum of patients with cutaneous melanoma. Journal of Investigative Dermatology 126(2): 422-431

Ijomone, O.M.; Ijomone, O.K.; Iroegbu, J.D.; Ifenatuoha, C.W.; Olung, N.F.; Aschner, M. 2020: Epigenetic influence of environmentally neurotoxic metals. Neurotoxicology 81: 51-65

Levin, B.E. 2008: Epigenetic influences on food intake and physical activity level: review of animal studies. Obesity 16 Suppl. 3: S51-S54

Loison, L. 2021: Epigenetic inheritance and evolution: a historian's perspective. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 376(1826): 20200120

Morgan, H.D.; Sutherland, H.G.; Martin, D.I.; Whitelaw, E. 1999: Epigenetic inheritance at the agouti locus in the mouse. Nature Genetics 23(3): 314-318

Probst, A.V.; Dunleavy, E.; Almouzni, Gève. 2009: Epigenetic inheritance during the cell cycle. Nature Reviews. Molecular Cell Biology 10(3): 192-206

Henderson, I.R.; Jacobsen, S.E. 2007: Epigenetic inheritance in plants. Nature 447(7143): 418-424

Yu, R.; Wang, X.; Moazed, D. 2018: Epigenetic inheritance mediated by coupling of RNAi and histone H3K9 methylation. Nature 558(7711): 615-619

Vassoler, F.M.; White, S.L.; Schmidt, H.D.; Sadri-Vakili, G.; Pierce, R.Christopher. 2013: Epigenetic inheritance of a cocaine-resistance phenotype. Nature Neuroscience 16(1): 42-47

Chen, Q.; Yan, W.; Duan, E. 2016: Epigenetic inheritance of acquired traits through sperm RNAs and sperm RNA modifications. Nature Reviews. Genetics 17(12): 733-743

Bohacek, J.; Mansuy, I.M. 2013: Epigenetic inheritance of disease and disease risk. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 220-236

Zhu, B.; Reinberg, D. 2011: Epigenetic inheritance: uncontested?. Cell Research 21(3): 435-441

Lin, Y.; Li, S.; Xiao, Z.; Chen, S.; Yang, L.; Peng, Q.; Li, H.; Fu, J.; Yu, X.; Zhang, L. 2021: Epigenetic inhibition assisted chemotherapeutic treatment of lung cancer based on artificial exosomes. Pharmacological Research 171: 105787

Jing, H.; Su, X.; Gao, B.; Shuai, Y.; Chen, J.; Deng, Z.; Liao, L.; Jin, Y. 2018: Epigenetic inhibition of Wnt pathway suppresses osteogenic differentiation of BMSCs during osteoporosis. Cell Death and Disease 9(2): 176

Coetzee, N.; von Grüning, H.; Opperman, D.; van der Watt, M.; Reader, J.; Birkholtz, L-Marié. 2020: Epigenetic inhibitors target multiple stages of Plasmodium falciparum parasites. Scientific Reports 10(1): 2355

Kular, L.; Jagodic, M. 2020: Epigenetic insights into multiple sclerosis disease progression. Journal of Internal Medicine 288(1): 82-102

Vivekanandan, P.; Torbenson, M. 2008: Epigenetic instability is rare in fibrolamellar carcinomas but common in viral-associated hepatocellular carcinomas. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 21(6): 670-675

Shivakumar, M.; Han, S.; Lee, Y.; Kim, D. 2021: Epigenetic interplay between methylation and miRNA in bladder cancer: focus on isoform expression. Bmc Genomics 22(Suppl 3): 754

Crujeiras, A.B.; Izquierdo, A.G.; Primo, D.; Milagro, F.I.; Sajoux, I.; Jácome, A.; Fernandez-Quintela, A.; Portillo, M.ía.P.; Martínez, J.A.; Martinez-Olmos, M.A.; de Luis, D.; Casanueva, F.F. 2021: Epigenetic landscape in blood leukocytes following ketosis and weight loss induced by a very low calorie ketogenic diet (VLCKD) in patients with obesity. Clinical Nutrition 40(6): 3959-3972

Hama, N.; Totoki, Y.; Miura, F.; Tatsuno, K.; Saito-Adachi, M.; Nakamura, H.; Arai, Y.; Hosoda, F.; Urushidate, T.; Ohashi, S.; Mukai, W.; Hiraoka, N.; Aburatani, H.; Ito, T.; Shibata, T. 2018: Epigenetic landscape influences the liver cancer genome architecture. Nature Communications 9(1): 1643

Di Domenico, A.; Pipinikas, C.P.; Maire, R.S.; Bräutigam, K.; Simillion, C.; Dettmer, M.S.; Vassella, E.; Thirlwell, C.; Perren, A.; Marinoni, I. 2020: Epigenetic landscape of pancreatic neuroendocrine tumours reveals distinct cells of origin and means of tumour progression. Communications Biology 3(1): 740

Gatta, E.; Saudagar, V.; Auta, J.; Grayson, D.R.; Guidotti, A. 2021: Epigenetic landscape of stress surfeit disorders: Key role for DNA methylation dynamics. International Review of Neurobiology 156: 127-183

Patankar, A.; Gajbhiye, R.; Surve, S.; Parte, P. 2021: Epigenetic landscape of testis specific histone H2B variant and its influence on sperm function. Clinical Epigenetics 13(1): 101

Poppenberg, K.E.; Zebraski, H.R.; Avasthi, N.; Waqas, M.; Siddiqui, A.H.; Jarvis, J.N.; Tutino, V.M. 2021: Epigenetic landscapes of intracranial aneurysm risk haplotypes implicate enhancer function of endothelial cells and fibroblasts in dysregulated gene expression. Bmc Medical Genomics 14(1): 162

Yu, B.; Zhang, K.; Milner, J.Justin.; Toma, C.; Chen, R.; Scott-Browne, J.P.; Pereira, R.M.; Crotty, S.; Chang, J.T.; Pipkin, M.E.; Wang, W.; Goldrath, A.W. 2017: Epigenetic landscapes reveal transcription factors that regulate CD8 + T cell differentiation. Nature Immunology 18(5): 573-582

Moulton, T.; Crenshaw, T.; Hao, Y.; Moosikasuwan, J.; Lin, N.; Dembitzer, F.; Hensle, T.; Weiss, L.; McMorrow, L.; Loew, T.; Kraus, W.; Gerald, W.; Tycko, B. 1994: Epigenetic lesions at the H19 locus in Wilms' tumour patients. Nature Genetics 7(3): 440-447

Montoya, T.; Castejón, M.ía.L.; Muñoz-García, R.ío.; Alarcón-de-la-Lastra, C. 2021: Epigenetic linkage of systemic lupus erythematosus and nutrition. Nutrition Research Reviews 2021: 1-21

Vantaku, V.; Putluri, V.; Bader, D.A.; Maity, S.; Ma, J.; Arnold, J.M.; Rajapakshe, K.; Donepudi, S.Ramya.; von Rundstedt, F-Carl.; Devarakonda, V.; Dubrulle, J.; Karanam, B.; McGuire, S.E.; Stossi, F.; Jain, A.K.; Coarfa, C.; Cao, Q.; Sikora, A.G.; Villanueva, H.; Kavuri, S.M.; Lotan, Y.; Sreekumar, A.; Putluri, N. 2020: Epigenetic loss of AOX1 expression via EZH2 leads to metabolic deregulations and promotes bladder cancer progression. Oncogene 39(40): 6265-6285

Anadón, C.; van Tetering, G.; Ferreira, H.J.; Moutinho, C.; Martínez-Cardús, A.; Villanueva, A.; Soler, M.; Heyn, H.; Moran, S.; Castro de Moura, M.; Setien, F.; Vidal, A.; Genescà, E.; Ribera, J.M.; Nomdedeu, J.F.; Guil, S.; Esteller, M. 2017: Epigenetic loss of the RNA decapping enzyme NUDT16 mediates C-MYC activation in T-cell acute lymphoblastic leukemia. Leukemia 31(7): 1622-1625

Rosselló-Tortella, M.; Llinàs-Arias, P.; Sakaguchi, Y.; Miyauchi, K.; Davalos, V.; Setien, F.; Calleja-Cervantes, M.E.; Piñeyro, D.; Martínez-Gómez, Jús.; Guil, S.; Joshi, R.; Villanueva, A.; Suzuki, T.; Esteller, M. 2020: Epigenetic loss of the transfer RNA-modifying enzyme TYW2 induces ribosome frameshifts in colon cancer. Proceedings of the National Academy of Sciences of the United States of America 117(34): 20785-20793

Sung, S.; He, Y.; Eshoo, T.W.; Tamada, Y.; Johnson, L.; Nakahigashi, K.; Goto, K.; Jacobsen, S.E.; Amasino, R.M. 2006: Epigenetic Maintenance of the Vernalized State in Arabidopsis Thaliana Requires like Heterochromatin Protein 1. Nature Genetics 38(6): 706-710

Zhang, F.; Zhou, X.; DiSpirito, J.R.; Wang, C.; Wang, Y.; Shen, H. 2014: Epigenetic manipulation restores functions of defective CD8⁺ T cells from chronic viral infection. Molecular Therapy: the Journal of the American Society of Gene Therapy 22(9): 1698-1706

Zou, M.; Lu, C.; Zhang, S.; Chen, Q.; Sun, X.; Ma, P.; Hu, M.; Peng, M.; Ma, Z.; Chen, X.; Zhou, X.; Wang, H.; Feng, S.; Fang, K.; Xie, H.; Li, Z.; Liu, K.; Qin, Q.; Pei, J.; Wang, S.; Pan, K.; Hu, W.; Feng, B.; Fan, D.; Zhou, B.; Wu, C.; Su, M.; Xia, Z.; Li, K.; Wang, W. 2017: Epigenetic map and genetic map basis of complex traits in cassava population. Scientific Reports 7: 41232

Yagi, S.; Balzer, B.L.; Frishberg, D.P.; Shon, W. 2020: Epigenetic marker expression is of limited diagnostic utility in spitzoid melanocytic neoplasms. Journal of Cutaneous Pathology 47(12): 1228-1232

Misztak, P.; Pańczyszyn-Trzewik, P.; Nowak, G.; Sowa-Kućma, M. 2020: Epigenetic marks and their relationship with BDNF in the brain of suicide victims. Plos one 15(9): E0239335

Morse, R.H. 2010: Epigenetic marks identify functional elements. Nature Genetics 42(4): 282-284

Carrell, D.T. 2011: Epigenetic marks in zebrafish sperm: insights into chromatin compaction, maintenance of pluripotency, and the role of the paternal genome after fertilization. Asian Journal of Andrology 13(4): 620-621

Hillary, R.F.; Stevenson, A.J.; McCartney, D.L.; Campbell, A.; Walker, R.M.; Howard, D.M.; Ritchie, C.W.; Horvath, S.; Hayward, C.; McIntosh, A.M.; Porteous, D.J.; Deary, I.J.; Evans, K.L.; Marioni, R.E. 2020: Epigenetic measures of ageing predict the prevalence and incidence of leading causes of death and disease burden. Clinical Epigenetics 12(1): 115

Zhu, Y.; Sun, D.; Jakovcevski, M.; Jiang, Y. 2020: Epigenetic mechanism of SETDB1 in brain: implications for neuropsychiatric disorders. Translational Psychiatry 10(1): 115

Crunkhorn, S. 2019: Epigenetic mechanism of systemic sclerosis. Nature Reviews. Drug Discovery 18(8): 584

Krause, B.J.; Artigas, R.; Sciolla, A.F.; Hamilton, J. 2020: Epigenetic mechanisms activated by childhood adversity. Epigenomics 12(14): 1239-1255

Krepulat, F.; Löhler, Jürgen.; Heinlein, C.; Hermannstädter, A.; Tolstonog, G.V.; Deppert, W. 2005: Epigenetic mechanisms affect mutant p53 transgene expression in WAP-mutp53 transgenic mice. Oncogene 24(29): 4645-4659

Darwiche, N. 2020: Epigenetic mechanisms and the hallmarks of cancer: an intimate affair. American Journal of Cancer Research 10(7): 1954-1978

Anastasiadou, E.; Boccellato, F.; Cirone, M.; Kis, L.L.; Klein, E.; Frati, L.; Faggioni, A.; Trivedi, P. 2005: Epigenetic mechanisms do not control viral latency III in primary effusion lymphoma cells infected with a recombinant Epstein-Barr virus. Leukemia 19(10): 1854-1856

Zhang, T.Yuan.; Labonté, B.; Wen, X.Lan.; Turecki, G.; Meaney, M.J. 2013: Epigenetic mechanisms for the early environmental regulation of hippocampal glucocorticoid receptor gene expression in rodents and humans. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 111-123

Köhler, C.; Makarevich, G. 2006: Epigenetic mechanisms governing seed development in plants. Embo Reports 7(12): 1223-1227

Balazs, R. 2014: Epigenetic mechanisms in Alzheimer's disease. Degenerative Neurological and Neuromuscular Disease 4: 85-102

Riasat, K.; Bardell, D.; Goljanek-Whysall, K.; Clegg, P.D.; Peffers, M.J. 2020: Epigenetic mechanisms in Tendon Ageing. British Medical Bulletin 135(1): 90-107

Garcia-Martinez, L.; Zhang, Y.; Nakata, Y.; Chan, H.Lam.; Morey, L. 2021: Epigenetic mechanisms in breast cancer therapy and resistance. Nature Communications 12(1): 1786

Schweizer, S.; Meisel, A.; Märschenz, S. 2013: Epigenetic mechanisms in cerebral ischemia. Journal of Cerebral Blood Flow and Metabolism: Official Journal of the International Society of Cerebral Blood Flow and Metabolism 33(9): 1335-1346

Zovkic, I.B.; Sweatt, J.David. 2013: Epigenetic mechanisms in learned fear: implications for PTSD. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 77-93

Levenson, J.M.; Sweatt, J.David. 2005: Epigenetic mechanisms in memory formation. Nature Reviews. Neuroscience 6(2): 108-118

Yao, B.; Christian, K.M.; He, C.; Jin, P.; Ming, G-Li.; Song, H. 2016: Epigenetic mechanisms in neurogenesis. Nature Reviews. Neuroscience 17(9): 537-549

Jakovcevski, M.; Akbarian, S. 2012: Epigenetic mechanisms in neurological disease. Nature Medicine 18(8): 1194-1204

Akbarian, S.; Nestler, E.J. 2013: Epigenetic mechanisms in psychiatry. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 1-2

Smigielski, L.; Jagannath, V.; Rössler, W.; Walitza, S.; Grünblatt, E. 2020: Epigenetic mechanisms in schizophrenia and other psychotic disorders: a systematic review of empirical human findings. Molecular Psychiatry 25(8): 1718-1748

Piferrer, F. 2021: Epigenetic mechanisms in sex determination and in the evolutionary transitions between sexual systems. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 376(1832): 20200110

Hwang, J-Yeon.; Aromolaran, K.A.; Zukin, R.Suzanne. 2013: Epigenetic mechanisms in stroke and epilepsy. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 167-182

Doan, T.N.A.; Briffa, J.F.; Phillips, A.L.; Leemaqz, S.Y.; Burton, R.A.; Romano, T.; Wlodek, M.E.; Bianco-Miotto, T. 2021: Epigenetic mechanisms involved in intrauterine growth restriction and aberrant kidney development and function. Journal of Developmental Origins of Health and Disease 12(6): 952-962

Kim, J.-S.; Lim, H.-S.; Moon, B.-C.; Ang, M.-J.; Kim, S.-H.; Moon, C.-J.; Seong, B.; Jang, Y.-J.; Kim, H.-Y.; Kim, C. 2021: Epigenetic mechanisms involved in the neuroprotective effect of scorpion extract in a Parkinson's disease murine model based on multi-omics approach. Journal of Traditional Chinese Medicine 41(3): 390-396

Mukherjee, K.; Dubovskiy, I.; Grizanova, E.; Lehmann, Rüdiger.; Vilcinskas, A. 2019: Epigenetic mechanisms mediate the experimental evolution of resistance against parasitic fungi in the greater wax moth Galleria mellonella. Scientific Reports 9(1): 1626

Wuelling, M.; Neu, C.; Thiesen, A.M.; Kitanovski, S.; Cao, Y.; Lange, A.; Westendorf, A.M.; Hoffmann, D.; Vortkamp, A. 2021: Epigenetic Mechanisms Mediating Cell State Transitions in Chondrocytes. Journal of Bone and Mineral Research: the Official Journal of the American Society for Bone and Mineral Research 36(5): 968-985

Sanceau, J.; Gougelet, A.él. 2021: Epigenetic mechanisms of liver tumor resistance to immunotherapy. World Journal of Hepatology 13(9): 979-1002

Witzig, T.E.; Hu, G.; Offer, S.M.; Wellik, L.E.; Han, J.J.; Stenson, M.J.; Dogan, A.; Diasio, R.B.; Gupta, M. 2014: Epigenetic mechanisms of protein tyrosine phosphatase 6 suppression in diffuse large B-cell lymphoma: implications for epigenetic therapy. Leukemia 28(1): 147-154

Tung, P-Y.; Knoepfler, P.S. 2015: Epigenetic mechanisms of tumorigenicity manifesting in stem cells. Oncogene 34(18): 2288-2296

Chlamydas, S.; Papavassiliou, A.G.; Piperi, C. 2020: Epigenetic mechanisms regulating COVID-19 infection. Epigenetics 2020: 1-8

Hosseini, A.; Babaloo, Z.; Gharibi, T.; Shomali, N.; Marofi, F.; Hashemi, V.; Ayromlou, H.; Asadi, M.; Rahmani, S.; Noorolyai, S.; Shanehbandi, D.; Baradaran, B. 2020: Epigenetic mechanisms shape the underlining expression regulatory mechanisms of the STAT3 in multiple sclerosis disease. Bmc Research Notes 13(1): 568

Gluckman, P.D.; Hanson, M.A.; Buklijas, T.; Low, F.M.; Beedle, A.S. 2009: Epigenetic mechanisms that underpin metabolic and cardiovascular diseases. Nature Reviews. Endocrinology 5(7): 401-408

Alcalà-Vida, R.; Awada, A.; Boutillier, A.-L.; Merienne, K. 2021: Epigenetic mechanisms underlying enhancer modulation of neuronal identity, neuronal activity and neurodegeneration. Neurobiology of Disease 147: 105155

Dulman, R.S.; Wandling, G.M.; Pandey, S.C. 2020: Epigenetic mechanisms underlying pathobiology of alcohol use disorder. Current Pathobiology Reports 8(3): 61-73

Macedo-Silva, C.; Benedetti, R.; Ciardiello, F.; Cappabianca, S.; Jerónimo, C.; Altucci, L. 2021: Epigenetic mechanisms underlying prostate cancer radioresistance. Clinical Epigenetics 13(1): 125

Martins de Carvalho, L.; Chen, W.-Y.; Lasek, A.W. 2021: Epigenetic mechanisms underlying stress-induced depression. International Review of Neurobiology 156: 87-126

Jiang, Y.; Sun-Waterhouse, D.; Chen, Y.; Li, F.; Li, D. 2021: Epigenetic mechanisms underlying the benefits of flavonoids in cardiovascular health and diseases: are long non-coding RNAs rising stars?. Critical Reviews in Food Science and Nutrition 2021: 1-19

Pollard, C.A.; Jenkins, T.G. 2020: Epigenetic mechanisms within the sperm epigenome and their diagnostic potential. Best Practice and Research. Clinical Endocrinology and Metabolism 34(6): 101481

McLeod, D.V.; Wild, G.; Úbeda, F. 2021: Epigenetic memories and the evolution of infectious diseases. Nature Communications 12(1): 4273

Zhang, X.; Li, C.; Tie, D.; Quan, J.; Yue, M.; Liu, X. 2021: Epigenetic memory and growth responses of the clonal plant Glechoma longituba to parental recurrent UV-B stress. Functional Plant Biology: Fpb 48(8): 827-838

Hon, G.C.; Rajagopal, N.; Shen, Y.; McCleary, D.F.; Yue, F.; Dang, M.D.; Ren, B. 2013: Epigenetic memory at embryonic enhancers identified in DNA methylation maps from adult mouse tissues. Nature Genetics 45(10): 1198-1206

Rui, Y.; Xu, L.; Chen, R.; Zhang, T.; Lin, S.; Hou, Y.; Liu, Y.; Meng, F.; Liu, Z.; Ni, M.; Tsang, K.Sze.; Yang, F.; Wang, C.; Chan, H.Chang.; Jiang, X.; Li, G. 2015: Epigenetic memory gained by priming with osteogenic induction medium improves osteogenesis and other properties of mesenchymal stem cells. Scientific Reports 5: 11056

Kim, K.; Doi, A.; Wen, B.; Ng, K.; Zhao, R.; Cahan, P.; Kim, J.; Aryee, M.J.; Ji, H.; Ehrlich, L.I.R.; Yabuuchi, A.; Takeuchi, A.; Cunniff, K.C.; Hongguang, H.; McKinney-Freeman, S.; Naveiras, O.; Yoon, T.J.; Irizarry, R.A.; Jung, N.; Seita, J.; Hanna, J.; Murakami, P.; Jaenisch, R.; Weissleder, R.; Orkin, S.H.; Weissman, I.L.; Feinberg, A.P.; Daley, G.Q. 2010: Epigenetic memory in induced pluripotent stem cells. Nature 467(7313): 285-290

Li, J.; Yang, D-Lei.; Huang, H.; Zhang, G.; He, L.; Pang, J.; Lozano-Durán, R.; Lang, Z.; Zhu, J-Kang. 2020: Epigenetic memory marks determine epiallele stability at loci targeted by de novo DNA methylation. Nature Plants 6(6): 661-674

Ng, R.Kit.; Gurdon, J.B. 2008: Epigenetic memory of an active gene state depends on histone H3.3 incorporation into chromatin in the absence of transcription. Nature Cell Biology 10(1): 102-109

Elsherbiny, A.; Dobreva, G. 2021: Epigenetic memory of cell fate commitment. Current Opinion in Cell Biology 69: 80-87

Lacoste, N.; Almouzni, Gève. 2008: Epigenetic memory: H3.3 steps in the groove. Nature Cell Biology 10(1): 7-9

Zhou, S.; Li, T.; Zhang, M.; Chen, C.; Gao, X.; Zhang, C.; Hu, C.; Zuo, Q.; Chen, G.; Li, B. 2021: Epigenetic modification cooperates with Zeb1 transcription factor to regulate Bmp4 to promote chicken PGCs formation. Gene 794: 145760

Lv, W.; Ren, Y.; Hou, K.; Hu, W.; Yi, Y.; Xiong, M.; Wu, M.; Wu, Y.; Zhang, Q. 2020: Epigenetic modification mechanisms involved in keloid: current status and prospect. Clinical Epigenetics 12(1): 183

Kang, K.A.; Piao, M.J.; Kim, K.C.; Kang, H.K.; Chang, W.Y.; Park, I.C.; Keum, Y.S.; Surh, Y.J.; Hyun, J.W. 2014: Epigenetic modification of Nrf2 in 5-fluorouracil-resistant colon cancer cells: involvement of TET-dependent DNA demethylation. Cell Death and Disease 5: E1183

Chen, C.; Meng, S-Qiu.; Xue, Y-Xue.; Han, Y.; Sun, C-Yu.; Deng, J-Hui.; Chen, N.; Bao, Y-Ping.; Zhang, F-Long.; Cao, L-Lin.; Zhu, W-Guo.; Shi, J.; Song, W-Hong.; Lu, L. 2016: Epigenetic modification of PKMζ rescues aging-related cognitive impairment. Scientific Reports 6: 22096

Shen, W.; Wang, C.; Xia, L.; Fan, C.; Dong, H.; Deckelbaum, R.J.; Qi, K. 2014: Epigenetic modification of the leptin promoter in diet-induced obese mice and the effects of N-3 polyunsaturated fatty acids. Scientific Reports 4: 5282

Hiraoka, D.; Nishitani, S.; Shimada, K.; Kasaba, R.; Fujisawa, T.X.; Tomoda, A. 2021: Epigenetic modification of the oxytocin gene is associated with gray matter volume and trait empathy in mothers. Psychoneuroendocrinology 123: 105026

Andari, E.; Nishitani, S.; Kaundinya, G.; Caceres, G.A.; Morrier, M.J.; Ousley, O.; Smith, A.K.; Cubells, J.F.; Young, L.J. 2020: Epigenetic modification of the oxytocin receptor gene: implications for autism symptom severity and brain functional connectivity. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 45(7): 1150-1158

Fang, J.Yuan.; Chen, Y.Xuan.; Lu, J.; Lu, R.; Yang, L.; Zhu, H.Yin.; Gu, W.Qi.; Lu, L.Gen. 2004: Epigenetic modification regulates both expression of tumor-associated genes and cell cycle progressing in human colon cancer cell lines: Colo-320 and SW1116. Cell Research 14(3): 217-226

Meister, S.; Hahn, L.; Beyer, S.; Kuhn, C.; Jegen, M.; von Schönfeldt, V.; Corradini, S.; Schulz, C.; Kolben, T.M.; Hester, A.; Appelt, T.; Mahner, S.; Jeschke, U.; Kolben, T. 2021: Epigenetic modification via H3K4me3 and H3K9ac in human placenta is reduced in preeclampsia. Journal of Reproductive Immunology 145: 103287

Arif, M.; Sadayappan, S.; Becker, R.C.; Martin, L.J.; Urbina, E.M. 2019: Epigenetic modification: a regulatory mechanism in essential hypertension. Hypertension Research: Official Journal of the Japanese Society of Hypertension 42(8): 1099-1113

Habig, M.; Lorrain, C.; Feurtey, A.; Komluski, J.; Stukenbrock, E.H. 2021: Epigenetic modifications affect the rate of spontaneous mutations in a pathogenic fungus. Nature Communications 12(1): 5869

Portela, A.; Esteller, M. 2010: Epigenetic modifications and human disease. Nature Biotechnology 28(10): 1057-1068

Greco, C.M.; Condorelli, G. 2015: Epigenetic modifications and noncoding RNAs in cardiac hypertrophy and failure. Nature Reviews. Cardiology 12(8): 488-497

Lee, J.; Shinohara, T. 2011: Epigenetic modifications and self-renewal regulation of mouse germline stem cells. Cell Research 21(8): 1164-1171

Kelly, T.K.; De Carvalho, D.D.; Jones, P.A. 2010: Epigenetic modifications as therapeutic targets. Nature Biotechnology 28(10): 1069-1078

Kono, T.; Obata, Y.; Yoshimzu, T.; Nakahara, T.; Carroll, J. 1996: Epigenetic modifications during oocyte growth correlates with extended parthenogenetic development in the mouse. Nature Genetics 13(1): 91-94

Rao, J.S.; Keleshian, V.L.; Klein, S.; Rapoport, S.I. 2012: Epigenetic modifications in frontal cortex from Alzheimer's disease and bipolar disorder patients. Translational Psychiatry 2: E132

Rugowska, A.; Starosta, A.; Konieczny, P. 2021: Epigenetic modifications in muscle regeneration and progression of Duchenne muscular dystrophy. Clinical Epigenetics 13(1): 13

Day, J.J.; Sweatt, J.David. 2011: Epigenetic modifications in neurons are essential for formation and storage of behavioral memory. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 36(1): 357-358

Meissner, A. 2010: Epigenetic modifications in pluripotent and differentiated cells. Nature Biotechnology 28(10): 1079-1088

Paramasivam, A.; Priyadharsini, J.V. 2020: Epigenetic modifications of RNA and their implications in antiviral immunity. Epigenomics 12(19): 1673-1675

Yang, F.; Zhou, S.; Wang, C.; Huang, Y.; Li, H.; Wang, Y.; Zhu, Z.; Tang, J.; Yan, M. 2017: Epigenetic modifications of interleukin-6 in synovial fibroblasts from osteoarthritis patients. Scientific Reports 7: 43592

Radtke, K.M.; Schauer, M.; Gunter, H.M.; Ruf-Leuschner, M.; Sill, J.; Meyer, A.; Elbert, T. 2015: Epigenetic modifications of the glucocorticoid receptor gene are associated with the vulnerability to psychopathology in childhood maltreatment. Translational Psychiatry 5: E571

Obata, Y.; Furusawa, Y.; Hase, K. 2015: Epigenetic modifications of the immune system in health and disease. Immunology and Cell Biology 93(3): 226-232

Elgazzaz, M.; Lazartigues, E. 2021: Epigenetic modifications of the renin-angiotensin system in cardiometabolic diseases. Clinical Science 135(1): 127-142

Jha, B.K.; Saunthararajah, Y. 2021: Epigenetic modifier directed therapeutics to unleash healthy genes in unhealthy cells. Seminars in Hematology 58(1): 1-3

Mager, D.L.; Lorincz, M.C. 2017: Epigenetic modifier drugs trigger widespread transcription of endogenous retroviruses. Nature Genetics 49(7): 974-975

Li, Q.; Liu, F.; Dang, R.; Feng, C.; Xiao, R.; Hua, Y.; Wang, W.; Jia, Z.; Liu, D. 2020: Epigenetic modifier trichostatin a enhanced osteogenic differentiation of mesenchymal stem cells by inhibiting NF-κB (p65) DNA binding and promoted periodontal repair in rats. Journal of Cellular Physiology 235(12): 9691-9701

Davies, H.R.; Hodgson, K.; Schwalbe, E.; Coxhead, J.; Sinclair, N.; Zou, X.; Cockell, S.; Husain, A.; Nik-Zainal, S.; Rajan, N. 2019: Epigenetic modifiers DNMT3A and BCOR are recurrently mutated in CYLD cutaneous syndrome. Nature Communications 10(1): 4717

Sundaravel, S.; Steidl, U.; Wickrema, A. 2021: Epigenetic modifiers in normal and aberrent erythropoeisis. Seminars in Hematology 58(1): 15-26

Uittenbogaard, M.; Brantner, C.A.; Chiaramello, A. 2018: Epigenetic modifiers promote mitochondrial biogenesis and oxidative metabolism leading to enhanced differentiation of neuroprogenitor cells. Cell Death and Disease 9(3): 360

de Cubas, A.A.; Rathmell, W.Kimryn. 2018: Epigenetic modifiers: activities in renal cell carcinoma. Nature Reviews. Urology 15(10): 599-614

Arjunan, A.; Pajaniradje, S.; Francis, A.P.; Subramanian, S.; Chandramohan, S.; Parthasarathi, D.; Sajith, A.M.; Padusha, M.S.A.; Mathur, P.P.; Rajagopalan, R. 2021: Epigenetic modulation and apoptotic induction by a novel imidazo-benzamide derivative in human lung adenocarcinoma cells. Daru: Journal of Faculty of Pharmacy Tehran University of Medical Sciences 29(2): 377-387

Ramaiah, M.J.; Tangutur, A.D.; Manyam, R.R. 2021: Epigenetic modulation and understanding of HDAC inhibitors in cancer therapy. Life Sciences 277: 119504

Kim, J-Dae.; Lee, A.; Choi, J.; Park, Y.; Kang, H.; Chang, W.; Lee, M-Sok.; Kim, J. 2015: Epigenetic modulation as a therapeutic approach for pulmonary arterial hypertension. Experimental and Molecular Medicine 47: E175

Wu, Y.; Sang, M.; Liu, F.; Zhang, J.; Li, W.; Li, Z.; Gu, L.; Zheng, Y.; Li, J.; Shan, B. 2020: Epigenetic modulation combined with PD-1/PD-L1 blockade enhances immunotherapy based on MAGE-A11 antigen-specific CD8+T cells against esophageal carcinoma. Carcinogenesis 41(7): 894-903

Kim, M.Jeong.; Chen, G.; Sica, G.L.; Deng, X. 2020: Epigenetic modulation of FBW7/Mcl-1 pathway for lung cancer therapy. Cancer Biology and Therapy 2020: 1-11

Yuan, X.; Tsujimoto, K.; Hashimoto, K.; Kawahori, K.; Hanzawa, N.; Hamaguchi, M.; Seki, T.; Nawa, M.; Ehara, T.; Kitamura, Y.; Hatada, I.; Konishi, M.; Itoh, N.; Nakagawa, Y.; Shimano, H.; Takai-Igarashi, T.; Kamei, Y.; Ogawa, Y. 2018: Epigenetic modulation of Fgf21 in the perinatal mouse liver ameliorates diet-induced obesity in adulthood. Nature Communications 9(1): 636

Atlasi, Y.; Megchelenbrink, W.; Peng, T.; Habibi, E.; Joshi, O.; Wang, S-Yin.; Wang, C.; Logie, C.; Poser, I.; Marks, H.; Stunnenberg, H.G. 2019: Epigenetic modulation of a hardwired 3D chromatin landscape in two naive states of pluripotency. Nature Cell Biology 21(5): 568-578

Lopez-Bertoni, H.; Lal, B.; Michelson, N.; Guerrero-Cázares, H.; Quiñones-Hinojosa, A.; Li, Y.; Laterra, J. 2016: Epigenetic modulation of a miR-296-5p:HMGA1 axis regulates Sox2 expression and glioblastoma stem cells. Oncogene 35(37): 4903-4913

Tran, L.; Schulkin, J.; Ligon, C.O.; Greenwood-Van Meerveld, B. 2015: Epigenetic modulation of chronic anxiety and pain by histone deacetylation. Molecular Psychiatry 20(10): 1219-1231

Labonté, B.; Azoulay, N.; Yerko, V.; Turecki, G.; Brunet, A. 2014: Epigenetic modulation of glucocorticoid receptors in posttraumatic stress disorder. Translational Psychiatry 4: E368

Weng, R.R.; Lu, H-Hsuan.; Lin, C-Ting.; Fan, C-Chi.; Lin, R-Shan.; Huang, T-Chung.; Lin, S-Yung.; Huang, Y-Jhen.; Juan, Y-Hsiu.; Wu, Y-Chieh.; Hung, Z-Ci.; Liu, C.; Lin, X-Hui.; Hsieh, W-Chen.; Chiu, T-Yuan.; Liao, J-Chi.; Chiu, Y-Ling.; Chen, S-Yu.; Yu, C-Jen.; Tsai, H-Chen. 2021: Epigenetic modulation of immune synaptic-cytoskeletal networks potentiates γδ T cell-mediated cytotoxicity in lung cancer. Nature Communications 12(1): 2163

Kommalapati, A.; Tanvetyanon, T. 2020: Epigenetic modulation of immunotherapy cofactors to enhance tumor response in lung cancer. Human Vaccines and Immunotherapeutics 2020: 1-4

Wang, J.; Hodes, G.E.; Zhang, H.; Zhang, S.; Zhao, W.; Golden, S.A.; Bi, W.; Menard, C.; Kana, V.; Leboeuf, M.; Xie, M.; Bregman, D.; Pfau, M.L.; Flanigan, M.E.; Esteban-Fernández, A.; Yemul, S.; Sharma, A.; Ho, L.; Dixon, R.; Merad, M.; Han, M-Hu.; Russo, S.J.; Pasinetti, G.M. 2018: Epigenetic modulation of inflammation and synaptic plasticity promotes resilience against stress in mice. Nature Communications 9(1): 477

Aldholmi, M.; Wilkinson, B.; Ganesan, A. 2020: Epigenetic modulation of secondary metabolite profiles in Aspergillus calidoustus and Aspergillus westerdijkiae through histone deacetylase (HDAC) inhibition by vorinostat. Journal of Antibiotics 73(6): 410-413

Shin, Y-Hwan.; Jin, M.; Hwang, S-Min.; Choi, S-Ki.; Namkoong, E.; Kim, M.; Park, M-Yong.; Choi, S-Young.; Lee, J-Ho.; Park, K. 2015: Epigenetic modulation of the muscarinic type 3 receptor in salivary epithelial cells. Laboratory Investigation; a Journal of Technical Methods and Pathology 95(2): 237-245

Mu, S.; Shimosawa, T.; Ogura, S.; Wang, H.; Uetake, Y.; Kawakami-Mori, F.; Marumo, T.; Yatomi, Y.; Geller, D.S.; Tanaka, H.; Fujita, T. 2011: Epigenetic modulation of the renal β-adrenergic-WNK4 pathway in salt-sensitive hypertension. Nature Medicine 17(5): 573-580

Dos Santos, E.S.; Wagner, V.P.; Cabral Ramos, J.; Lambert, D.W.; Castilho, R.M.; Paes Leme, A.F. 2021: Epigenetic modulation of the tumor microenvironment in head and neck cancer: Challenges and opportunities. Critical Reviews in Oncology/Hematology 164: 103397

Khaliq, M.; Manikkam, M.; Martinez, E.D.; Fallahi-Sichani, M. 2021: Epigenetic modulation reveals differentiation state specificity of oncogene addiction. Nature Communications 12(1): 1536

Franci, G.; Folliero, V.; Cammarota, M.; Zannella, C.; Sarno, F.; Schiraldi, C.; de Lera, A.R.; Altucci, L.; Galdiero, M. 2018: Epigenetic modulator UVI5008 inhibits MRSA by interfering with bacterial gyrase. Scientific Reports 8(1): 13117

Moon, B.-S.; Cai, M.; Lee, G.; Zhao, T.; Song, X.; Giannotta, S.L.; Attenello, F.J.; Yu, M.; Lu, W. 2020: Epigenetic modulator inhibition overcomes temozolomide chemoresistance and antagonizes tumor recurrence of glioblastoma. Journal of Clinical Investigation 130(11): 5782-5799

Abballe, L.; Miele, E. 2021: Epigenetic modulators for brain cancer stem cells: Implications for anticancer treatment. World Journal of Stem Cells 13(7): 670-684

Feinberg, A.P.; Koldobskiy, M.A.; Göndör, A. 2016: Epigenetic modulators, modifiers and mediators in cancer aetiology and progression. Nature Reviews. Genetics 17(5): 284-299

Yan, Q.; Paul, K.C.; Lu, A.T.; Kusters, C.; Binder, A.M.; Horvath, S.; Ritz, B. 2020: Epigenetic mutation load is weakly correlated with epigenetic age acceleration. Aging 12(18): 17863-17894

Rodriguez, R.M.; Saiz, M.ía.L.; Suarez-Álvarez, B.; López-Larrea, C. 2022: Epigenetic networks driving T cell identity and plasticity during immunosenescence. Trends in Genetics: Tig 38(2): 120-123

Kriaucionis, S. 2021: Epigenetic nucleotides enhance therapy. Science 372(6538): 127-128

Goldmit, M.; Ji, Y.; Skok, J.; Roldan, E.; Jung, S.; Cedar, H.; Bergman, Y. 2005: Epigenetic ontogeny of the Igk locus during B cell development. Nature Immunology 6(2): 198-203

Beyer, M.; Huehn, J. 2017: Epigenetic orchestration of thymic T reg cell development. Nature Immunology 18(2): 144-146

Tolomeo, D.; Capozzi, O.; Stanyon, R.R.; Archidiacono, N.; D'Addabbo, P.; Catacchio, C.R.; Purgato, S.; Perini, G.; Schempp, W.; Huddleston, J.; Malig, M.; Eichler, E.E.; Rocchi, M. 2017: Epigenetic origin of evolutionary novel centromeres. Scientific Reports 7: 41980

Macartney, E.L.; Crean, A.J.; Bonduriansky, R. 2018: Epigenetic paternal effects as costly, condition-dependent traits. Heredity 121(3): 248-256

Lines, K.E.; Stevenson, M.; Filippakopoulos, P.; Müller, S.; Lockstone, H.E.; Wright, B.; Grozinsky-Glasberg, S.; Grossman, A.B.; Knapp, S.; Buck, D.; Bountra, C.; Thakker, R.V. 2017: Epigenetic pathway inhibitors represent potential drugs for treating pancreatic and bronchial neuroendocrine tumors. Oncogenesis 6(5): E332

Suter, R.K.; Rodriguez-Blanco, J.; Ayad, N.G. 2020: Epigenetic pathways and plasticity in brain tumors. Neurobiology of Disease 145: 105060

Hawes, N.A.; Amadoru, A.; Tremblay, L.A.; Pochon, X.; Dunphy, B.; Fidler, A.E.; Smith, K.F. 2019: Epigenetic patterns associated with an ascidian invasion: a comparison of closely related clades in their native and introduced ranges. Scientific Reports 9(1): 14275

Huang, Y-Tsung.; Maccani, J.Z.J.; Hawley, N.L.; Wing, R.R.; Kelsey, K.T.; McCaffery, J.M. 2015: Epigenetic patterns in successful weight loss maintainers: a pilot study. International Journal of Obesity 39(5): 865-868

Cras, A.; Darsin-Bettinger, D.; Balitrand, N.; Cassinat, B.; Soulié, A.; Toubert, M-E.; Delva, L.; Chomienne, C. 2007: Epigenetic patterns of the retinoic acid receptor beta2 promoter in retinoic acid-resistant thyroid cancer cells. Oncogene 26(27): 4018-4024

Bakusic, J.; Ghosh, M.; Polli, A.; Bekaert, B.; Schaufeli, W.; Claes, S.; Godderis, L. 2020: Epigenetic perspective on the role of brain-derived neurotrophic factor in burnout. Translational Psychiatry 10(1): 354

Pirola, L.; Balcerczyk, A.; Okabe, J.; El-Osta, A. 2010: Epigenetic phenomena linked to diabetic complications. Nature Reviews. Endocrinology 6(12): 665-675

Robinson, N.J.; Parker, K.A.; Schiemann, W.P. 2020: Epigenetic plasticity in metastatic dormancy: mechanisms and therapeutic implications. Annals of Translational Medicine 8(14): 903

Azouz, A.; Wu, Y-L.; Hillion, J.; Tarkanyi, I.; Karniguian, A.; Aradi, J.; Lanotte, M.; Chen, G-Q.; Chehna, M.; Ségal-Bendirdjian, E. 2010: Epigenetic plasticity of hTERT gene promoter determines retinoid capacity to repress telomerase in maturation-resistant acute promyelocytic leukemia cells. Leukemia 24(3): 613-622

Landan, G.; Cohen, N.Mendelson.; Mukamel, Z.; Bar, A.; Molchadsky, A.; Brosh, R.; Horn-Saban, S.; Zalcenstein, D.Amann.; Goldfinger, N.; Zundelevich, A.; Gal-Yam, E.Nili.; Rotter, V.; Tanay, A. 2012: Epigenetic polymorphism and the stochastic formation of differentially methylated regions in normal and cancerous tissues. Nature Genetics 44(11): 1207-1214

Szejniuk, W.Maria.; Robles, A.I.; McCulloch, T.; Falkmer, U.Gerda.Inge.; Røe, O.Dimitri. 2019: Epigenetic predictive biomarkers for response or outcome to platinum-based chemotherapy in non-small cell lung cancer, current state-of-art. Pharmacogenomics Journal 19(1): 5-14

Gadd, D.A.; Stevenson, A.J.; Hillary, R.F.; McCartney, D.L.; Wrobel, N.; McCafferty, S.; Murphy, L.; Russ, T.C.; Harris, S.E.; Redmond, P.; Taylor, A.M.; Smith, C.; Rose, J.; Millar, T.; Spires-Jones, T.L.; Cox, S.R.; Marioni, R.E. 2021: Epigenetic predictors of lifestyle traits applied to the blood and brain. Brain Communications 3(2): Fcab 082

Yoo, H.; Lee, Y.Jae.; Park, C.; Son, D.; Choi, D.Yoon.; Park, J-Hyun.; Choi, H-Jin.; La, H.Woo.; Choi, Y-Jung.; Moon, E-Hye.; Saur, D.; Chung, H.Min.; Song, H.; Do, J.Tae.; Jang, H.; Lee, D.Ryul.; Park, C.; Lee, O-Hee.; Cho, S-Goo.; Hong, S-Ho.; Kong, G.; Kim, J-Hoi.; Choi, Y.; Hong, K. 2020: Epigenetic priming by Dot1l in lymphatic endothelial progenitors ensures normal lymphatic development and function. Cell Death and Disease 11(1): 14

Eckersley-Maslin, Mélanie.A.; Parry, A.; Blotenburg, M.; Krueger, C.; Ito, Y.; Franklin, V.Nila.Roamio.; Narita, M.; D'Santos, C.S.; Reik, W. 2020: Epigenetic priming by Dppa2 and 4 in pluripotency facilitates multi-lineage commitment. Nature Structural and Molecular Biology 27(8): 696-705

Silva-Carvalho, A.Év.; Alencar, A.P.D.; Resende, M.R.; da Costa, D.F.; Nonino, A.; Neves, F.A.R.; Saldanha-Araujo, F. 2020: Epigenetic priming by EHMT1/EHMT2 in acute lymphoblastic leukemia induces TP53 and TP73 overexpression and promotes cell death. Toxicology in Vitro: An International Journal Published in Association with Bibra 69: 104992

Ritter, C.; Fan, K.; Paschen, A.; Reker Hardrup, S.; Ferrone, S.; Nghiem, P.; Ugurel, S.; Schrama, D.; Becker, Jürgen.C. 2017: Epigenetic priming restores the HLA class-I antigen processing machinery expression in Merkel cell carcinoma. Scientific Reports 7(1): 2290

Zhou, X.; Mei, C.; Zhang, J.; Lu, Y.; Lan, J.; Lin, S.; Zhang, Y.; Kuang, Y.; Ren, Y.; Ma, L.; Wei, J.; Ye, L.; Xu, W.; Li, K.; Lu, C.; Jin, J.; Tong, H. 2020: Epigenetic priming with decitabine followed by low dose idarubicin and cytarabine in acute myeloid leukemia evolving from myelodysplastic syndromes and higher-risk myelodysplastic syndromes: a prospective multicenter single-arm trial. Hematological Oncology 38(4): 531-540

Conboy, K.; Henshall, D.C.; Brennan, G.P. 2021: Epigenetic principles underlying epileptogenesis and epilepsy syndromes. Neurobiology of Disease 148: 105179

Ashraf, U.M.; Hall, D.L.; Rawls, A.Z.; Alexander, B.T. 2021: Epigenetic processes during preeclampsia and effects on fetal development and chronic health. Clinical Science 135(19): 2307-2327

Liu, Y.; Giannopoulou, E.G.; Wen, D.; Falciatori, I.; Elemento, O.; Allis, C.David.; Rafii, S.; Seandel, M. 2016: Epigenetic profiles signify cell fate plasticity in unipotent spermatogonial stem and progenitor cells. Nature Communications 7: 11275

van der Vos, K.E.; Vis, D.J.; Nevedomskaya, E.; Kim, Y.; Choi, W.; McConkey, D.; Wessels, L.F.A.; van Rhijn, B.W.G.; Zwart, W.; van der Heijden, M.S. 2020: Epigenetic profiling demarcates molecular subtypes of muscle-invasive bladder cancer. Scientific Reports 10(1): 10952

Orozco, J.I.J.; Knijnenburg, T.A.; Manughian-Peter, A.O.; Salomon, M.P.; Barkhoudarian, G.; Jalas, J.R.; Wilmott, J.S.; Hothi, P.; Wang, X.; Takasumi, Y.; Buckland, M.E.; Thompson, J.F.; Long, G.V.; Cobbs, C.S.; Shmulevich, I.; Kelly, D.F.; Scolyer, R.A.; Hoon, D.S.B.; Marzese, D.M. 2018: Epigenetic profiling for the molecular classification of metastatic brain tumors. Nature Communications 9(1): 4627

Walton, E.; Pingault, J-B.; Cecil, C.A.M.; Gaunt, T.R.; Relton, C.L.; Mill, J.; Barker, E.D. 2017: Epigenetic profiling of ADHD symptoms trajectories: a prospective, methylome-wide study. Molecular Psychiatry 22(2): 250-256

De Lillo, A.; Pathak, G.A.; De Angelis, F.; Di Girolamo, M.; Luigetti, M.; Sabatelli, M.; Perfetto, F.; Frusconi, S.; Manfellotto, D.; Fuciarelli, M.; Polimanti, R. 2020: Epigenetic profiling of Italian patients identified methylation sites associated with hereditary transthyretin amyloidosis. Clinical Epigenetics 12(1): 176

Ogino, S.; Brahmandam, M.; Kawasaki, T.; Kirkner, G.J.; Loda, M.; Fuchs, C.S. 2006: Epigenetic profiling of synchronous colorectal neoplasias by quantitative DNA methylation analysis. Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology Inc 19(8): 1083-1090

Lin, F-Mao.; Chien, S.; Chen, Z. 2018: Epigenetic profiling with ultralow DNA amounts. Nature Biomedical Engineering 2(3): 146-147

Nakazawa, M.S.; Eisinger-Mathason, T.S.Karin.; Sadri, N.; Ochocki, J.D.; Gade, T.P.F.; Amin, R.K.; Simon, M.Celeste. 2016: Epigenetic re-expression of HIF-2α suppresses soft tissue sarcoma growth. Nature Communications 7: 10539

Byun, J.S.; Park, S.; Yi, D.Ik.; Shin, J-Hye.; Hernandez, S.Gil.; Hewitt, S.M.; Nicklaus, M.C.; Peach, M.L.; Guasch, L.; Tang, B.; Wakefield, L.M.; Yan, T.; Caban, A.; Jones, A.; Kabbout, M.; Vohra, N.; Nápoles, A.María.; Singhal, S.; Yancey, R.; De Siervi, A.; Gardner, K. 2019: Epigenetic re-wiring of breast cancer by pharmacological targeting of C-terminal binding protein. Cell Death and Disease 10(10): 689

Vincent, A.; Perrais, M.; Desseyn, J-L.; Aubert, J-P.; Pigny, P.; Van Seuningen, I. 2007: Epigenetic regulation (DNA methylation, histone modifications) of the 11p15 mucin genes (MUC2, MUC5AC, MUC5B, MUC6) in epithelial cancer cells. Oncogene 26(45): 6566-6576

Kim, S.; Kaang, B-Kiun. 2017: Epigenetic regulation and chromatin remodeling in learning and memory. Experimental and Molecular Medicine 49(1): E281

van Rietschoten, J.G.I.; Gal-Yam, E.N.; Jeong, S.; Cortez, C.C.; Verweij, C.L.; Jones, P.A. 2008: Epigenetic regulation and nucleosome positioning in the human TATA-less IL-1 alpha promoter. Genes and Immunity 9(7): 582-590

Choi, J.Kyoon.; Kim, Y-Joon. 2008: Epigenetic regulation and the variability of gene expression. Nature Genetics 40(2): 141-147

Sandstrom, R.S.; Foret, M.R.; Grow, D.A.; Haugen, E.; Rhodes, C.T.; Cardona, A.E.; Phelix, C.F.; Wang, Y.; Berger, M.S.; Lin, C-Hsing.Annie. 2014: Epigenetic regulation by chromatin activation mark H3K4me3 in primate progenitor cells within adult neurogenic niche. Scientific Reports 4: 5371

Lewis, E.M.A.; Kaushik, K.; Sandoval, L.A.; Antony, I.; Dietmann, S.; Kroll, K.L. 2021: Epigenetic regulation during human cortical development: Seq-ing answers from the brain to the organoid. Neurochemistry International 147: 105039

Guo, C.; Dong, G.; Liang, X.; Dong, Z. 2019: Epigenetic regulation in AKI and kidney repair: mechanisms and therapeutic implications. Nature Reviews. Nephrology 15(4): 220-239

Figueiredo, L.M.; Cross, G.A.M.; Janzen, C.J. 2009: Epigenetic regulation in African trypanosomes: a new kid on the block. Nature Reviews. Microbiology 7(7): 504-513

Wu, H.; Deng, Y.; Feng, Y.; Long, D.; Ma, K.; Wang, X.; Zhao, M.; Lu, L.; Lu, Q. 2018: Epigenetic regulation in B-cell maturation and its dysregulation in autoimmunity. Cellular and Molecular Immunology 15(7): 676-684

Hyeon, J.W.; Kim, A.H.; Yano, H. 2021: Epigenetic regulation in Huntington's disease. Neurochemistry International 148: 105074

Larkin, J.; Goh, X.Yi.; Vetter, M.; Pickering, L.; Swanton, C. 2012: Epigenetic regulation in RCC: opportunities for therapeutic intervention?. Nature Reviews. Urology 9(3): 147-155

Tang, C.; Dong, Z. 2015: Epigenetic regulation in acute kidney injury: new light in a dark area. Kidney International 88(4): 665-668

Xue, T.; Qiu, X.; Liu, H.; Gan, C.; Tan, Z.; Xie, Y.; Wang, Y.; Ye, T. 2021: Epigenetic regulation in fibrosis progress. Pharmacological Research 173: 105910

Rehman, M.; Agarwal, V.; Sharma, K.; Mishra, V. 2020: Epigenetic regulation in mesial temporal lobe epilepsy associated with hippocampal sclerosis. Neurology India 68(2): 314-315

Lavebratt, C.; Almgren, M.; Ekström, T.J. 2012: Epigenetic regulation in obesity. International Journal of Obesity 36(6): 757-765

Tsankova, N.; Renthal, W.; Kumar, A.; Nestler, E.J. 2007: Epigenetic regulation in psychiatric disorders. Nature Reviews. Neuroscience 8(5): 355-367

Chouliaras, L.; Kumar, G.S.; Thomas, A.J.; Lunnon, K.; Chinnery, P.F.; O'Brien, J.T. 2020: Epigenetic regulation in the pathophysiology of Lewy body dementia. Progress in Neurobiology 192: 101822

Zhong, R.Q.; Tian, H.; Gao, X.J. 2021: Epigenetic regulation in tooth development. Zhonghua Kou Qiang Yi Xue Za Zhi 56(3): 288-293

Gomaa, A.; Peng, D.; Chen, Z.; Soutto, M.; Abouelezz, K.; Corvalan, A.; El-Rifai, W. 2019: Epigenetic regulation of AURKA by miR-4715-3p in upper gastrointestinal cancers. Scientific Reports 9(1): 16970

Zhang, F.; Xu, D.; Yuan, L.; Sun, Y.; Xu, Z. 2014: Epigenetic regulation of Atrophin1 by lysine-specific demethylase 1 is required for cortical progenitor maintenance. Nature Communications 5: 5815

Baba, T.; Convery, P.A.; Matsumura, N.; Whitaker, R.S.; Kondoh, E.; Perry, T.; Huang, Z.; Bentley, R.C.; Mori, S.; Fujii, S.; Marks, J.R.; Berchuck, A.; Murphy, S.K. 2009: Epigenetic regulation of CD133 and tumorigenicity of CD133+ ovarian cancer cells. Oncogene 28(2): 209-218

Gopisetty, G.; Xu, J.; Sampath, D.; Colman, H.; Puduvalli, V.K. 2013: Epigenetic regulation of CD133/PROM1 expression in glioma stem cells by Sp1/myc and promoter methylation. Oncogene 32(26): 3119-3129

Carpentieri, V.; Cerniglia, L.; Cimino, S.; Pucci, M.; Pascale, E.; D'Addario, C.; Adriani, W. 2021: Epigenetic regulation of DAT gene promoter modulates the risk of externalizing and internalizing behaviors on a normative population: An explorative study. Behavioural Brain Research 406: 113246

Du, C.; Li, S.W.; Singh, S.X.; Roso, K.; Sun, M.A.; Pirozzi, C.J.; Yang, R.; Li, J.-L.; He, Y. 2021: Epigenetic Regulation of Fanconi Anemia Genes Implicates PRMT5 Blockage as a Strategy for Tumor Chemosensitization. Molecular Cancer Research: Mcr 19(12): 2046-2056

Celton, M.; Forest, A.; Gosse, G.; Lemieux, S.; Hebert, J.; Sauvageau, G.; Wilhelm, B.T. 2014: Epigenetic regulation of GATA2 and its impact on normal karyotype acute myeloid leukemia. Leukemia 28(8): 1617-1626

Tao, C.Chieh.; Hsu, W.Lun.; Ma, Y.Li.; Cheng, S.Jhong.; Lee, E.Hy. 2017: Epigenetic regulation of HDAC1 SUMOylation as an endogenous neuroprotection against Aβ toxicity in a mouse model of Alzheimer's disease. Cell Death and Differentiation 24(4): 597-614

Bendinelli, P.; Maroni, P.; Matteucci, E.; Desiderio, M.Alfonsina. 2017: Epigenetic regulation of HGF/Met receptor axis is critical for the outgrowth of bone metastasis from breast carcinoma. Cell Death and Disease 8(2): E2578

Xu, J.; Wang, B.; Xu, Y.; Sun, L.; Tian, W.; Shukla, D.; Barod, R.; Grillari, J.; Grillari-Voglauer, R.; Maxwell, P.H.; Esteban, M.A. 2012: Epigenetic regulation of HIF-1α in renal cancer cells involves HIF-1α/2α binding to a reverse hypoxia-response element. Oncogene 31(8): 1065-1072

Angrisano, T.; Pero, R.; Paoletti, I.; Keller, S.; Lembo, L.; Baroni, A.; Chiariotti, L.; Lembo, F.; Donnarumma, G. 2013: Epigenetic regulation of IL-8 and β-defensin genes in human keratinocytes in response to Malassezia furfur. Journal of Investigative Dermatology 133(8): 2101-2104

Spilianakis, C.G.; Flavell, R.A. 2007: Epigenetic regulation of Ifng expression. Nature Immunology 8(7): 681-683

Liao, J.; Zhang, Y.; Ye, F.; Zhang, L.; Chen, Y.; Zeng, F.; Shi, L. 2017: Epigenetic regulation of L-type voltage-gated Ca 2+ channels in mesenteric arteries of aging hypertensive rats. Hypertension Research: Official Journal of the Japanese Society of Hypertension 40(5): 441-449

Zhang, Z-Qin.; Ren, S-Chong.; Tan, Y.; Li, Z-Zhi.; Tang, X.; Wang, T-Ting.; Hao, D-Long.; Zhao, X.; Chen, H-Zao.; Liu, D-Pei. 2016: Epigenetic regulation of NKG2D ligands is involved in exacerbated atherosclerosis development in Sirt6 heterozygous mice. Scientific Reports 6: 23912

Li, X.; Islam, S.; Xiong, M.; Nsumu, N.N.; Lee, M.W.; Zhang, L.Qin.; Ueki, Y.; Heruth, D.P.; Lei, G.; Ye, S.Qing. 2019: Epigenetic regulation of NfatC1 transcription and osteoclastogenesis by nicotinamide phosphoribosyl transferase in the pathogenesis of arthritis. Cell Death Discovery 5: 62

Gu, X.; Boldrup, L.; Coates, P.J.; Fahraeus, R.; Nylander, E.; Loizou, C.; Olofsson, K.; Norberg-Spaak, L.; Gärskog, O.; Nylander, K. 2016: Epigenetic regulation of OAS2 shows disease-specific DNA methylation profiles at individual CpG sites. Scientific Reports 6: 32579

Gómez-Díaz, E.; Yerbanga, Ré.S.; Lefèvre, T.; Cohuet, A.; Rowley, M.Jordan.; Ouedraogo, J.Bosco.; Corces, V.G. 2017: Epigenetic regulation of Plasmodium falciparum clonally variant gene expression during development in Anopheles gambiae. Scientific Reports 7: 40655

Golden, S.A.; Christoffel, D.J.; Heshmati, M.; Hodes, G.E.; Magida, J.; Davis, K.; Cahill, M.E.; Dias, C.; Ribeiro, E.; Ables, J.L.; Kennedy, P.J.; Robison, A.J.; Gonzalez-Maeso, J.; Neve, R.L.; Turecki, G.; Ghose, S.; Tamminga, C.A.; Russo, S.J. 2013: Epigenetic regulation of RAC1 induces synaptic remodeling in stress disorders and depression. Nature Medicine 19(3): 337-344

Park, J-L.; Lee, Y-S.; Song, M-J.; Hong, S-H.; Ahn, J-H.; Seo, E-H.; Shin, S-P.; Lee, S-J.; Johnson, B.H.; Stampfer, M.R.; Kim, H-P.; Kim, S-Y.; Lee, Y.S. 2017: Epigenetic regulation of RNA polymerase III transcription in early breast tumorigenesis. Oncogene 36(49): 6793-6804

Tang, Y-Neng.; Ding, W-Qiao.; Guo, X-Jie.; Yuan, X-Wang.; Wang, D-Mei.; Song, J-Guo. 2015: Epigenetic regulation of Smad2 and Smad3 by profilin-2 promotes lung cancer growth and metastasis. Nature Communications 6: 8230

Lee, S-Hyun.; Kim, O.; Kim, H-Jin.; Hwangbo, C.; Lee, J-Hyung. 2021: Epigenetic regulation of TGF-β-induced EMT by JMJD3/KDM6B histone H3K27 demethylase. Oncogenesis 10(2): 17

Fernández, A.; Veloso, P.; Astorga, J.; Rodríguez, C.; Torres, V.A.; Valdés, M.; Garrido, M.; Gebicke-Haerter, P.J.; Hernández, M. 2020: Epigenetic regulation of TLR2-mediated periapical inflammation. International Endodontic Journal 53(9): 1229-1237

Németh, A.; Guibert, S.; Tiwari, V.Kumar.; Ohlsson, R.; Längst, G. 2008: Epigenetic regulation of TTF-I-mediated promoter-terminator interactions of rRNA genes. EMBO Journal 27(8): 1255-1265

Zhang, L.Ming.; Su, L.Xin.; Hu, J.Zhou.; Wang, D.Ming.; Ju, H.Yu.; Li, X.; Han, Y.Feng.; Xia, W.Ya.; Guo, W.; Ren, G.Xin.; Fan, X.Dong. 2020: Epigenetic regulation of VENTXP1 suppresses tumor proliferation via miR-205-5p/ANKRD2/NF-kB signaling in head and neck squamous cell carcinoma. Cell Death and Disease 11(10): 838

James, S.R.; Link, P.A.; Karpf, A.R. 2006: Epigenetic regulation of X-linked cancer/germline antigen genes by DNMT1 and DNMT3b. Oncogene 25(52): 6975-6985

Oberkofler, V.; Pratx, L.; Bäurle, I. 2021: Epigenetic regulation of abiotic stress memory: maintaining the good things while they last. Current Opinion in Plant Biology 61: 102007

Rubinskii, A.V.; Linkova, N.S.; Chalisova, N.I.; Noskin, L.A.; Marchenko, V.N.; Khavinson, V.K. 2021: Epigenetic regulation of adaptogenesis by pathology and aging. Advances in Gerontology 34(1): 10-17

Benayoun, Bérénice.A.; Pollina, E.A.; Brunet, A. 2015: Epigenetic regulation of ageing: linking environmental inputs to genomic stability. Nature Reviews. Molecular Cell Biology 16(10): 593-610

Pollina, E.A.; Brunet, A. 2011: Epigenetic regulation of aging stem cells. Oncogene 30(28): 3105-3126

Vavougios, G.D.; Zarogiannis, S.G.; Krogfelt, K.A.; Stamoulis, G.; Gourgoulianis, K.I. 2020: Epigenetic regulation of apoptosis via the PARK7 interactome in peripheral blood mononuclear cells donated by tuberculosis patients vs. healthy controls and the response to treatment: a systems biology approach. Tuberculosis 123: 101938

Mandhair, H.K.; Novak, U.; Radpour, R. 2021: Epigenetic regulation of autophagy: a key modification in cancer cells and cancer stem cells. World Journal of Stem Cells 13(6): 542-567

Fischer, C.; Drexler, H.G.; Reinhardt, J.; Zaborski, M.; Quentmeier, H. 2007: Epigenetic regulation of brain expressed X-linked-2, a marker for acute myeloid leukemia with mixed lineage leukemia rearrangements. Leukemia 21(2): 374-377

Ayata, P.; Badimon, A.; Strasburger, H.J.; Duff, M.Kaye.; Montgomery, S.E.; Loh, Y-Hwee.E.; Ebert, A.; Pimenova, A.A.; Ramirez, B.R.; Chan, A.T.; Sullivan, J.M.; Purushothaman, I.; Scarpa, J.R.; Goate, A.M.; Busslinger, M.; Shen, L.; Losic, B.; Schaefer, A. 2018: Epigenetic regulation of brain region-specific microglia clearance activity. Nature Neuroscience 21(8): 1049-1060

Zhu, K.; Xie, V.; Huang, S. 2020: Epigenetic regulation of cancer stem cell and tumorigenesis. Advances in Cancer Research 148: 1-26

Lugenbiel, P.; Govorov, K.; Syren, P.; Rahm, A.-K.; Wieder, T.; Wunsch, M.; Weiberg, N.; Manolova, E.; Gramlich, D.; Rivinius, R.; Finke, D.; Lehmann, L.H.; Schweizer, P.A.; Frank, D.; El Tahry, F.A.; Bruehl, C.; Heimberger, T.; Sandke, S.; Weis, T.; Most, P.; Schmack, B.; Ruhparwar, A.; Karck, M.; Frey, N.; Katus, H.A.; Thomas, D. 2021: Epigenetic regulation of cardiac electrophysiology in atrial fibrillation: HDAC2 determines action potential duration and suppresses NRSF in cardiomyocytes. Basic Research in Cardiology 116(1): 13

Allshire, R.C.; Karpen, G.H. 2008: Epigenetic regulation of centromeric chromatin: old dogs, new tricks?. Nature Reviews. Genetics 9(12): 923-937

Xu, M.; Feng, M.; Peng, H.; Qian, Z.; Zhao, L.; Wu, S. 2020: Epigenetic regulation of chondrocyte hypertrophy and apoptosis through Sirt1/P53/P21 pathway in surgery-induced osteoarthritis. Biochemical and Biophysical Research Communications 528(1): 179-185

Adam, M.A.; Harwell, C.C. 2020: Epigenetic regulation of cortical neurogenesis; orchestrating fate switches at the right time and place. Current Opinion in Neurobiology 63: 146-153

Dambacher, S.; Hahn, M.; Schotta, G. 2010: Epigenetic regulation of development by histone lysine methylation. Heredity 105(1): 24-37

Weigel, C.; Veldwijk, M.R.; Oakes, C.C.; Seibold, P.; Slynko, A.; Liesenfeld, D.B.; Rabionet, M.; Hanke, S.A.; Wenz, F.; Sperk, E.; Benner, A.; Rösli, C.; Sandhoff, R.; Assenov, Y.; Plass, C.; Herskind, C.; Chang-Claude, J.; Schmezer, P.; Popanda, O. 2016: Epigenetic regulation of diacylglycerol kinase alpha promotes radiation-induced fibrosis. Nature Communications 7: 10893

Kyzar, E.J.; Pandey, S.C. 2020: Epigenetic regulation of enhancer RNAs in neuropsychiatric disease and addiction. Epigenomics 12(11): 889-892

Piñuñuri, R.; Castaño-Moreno, E.; Llanos, M.N.; Ronco, A.M. 2020: Epigenetic regulation of folate receptor-α (FOLR1) in human placenta of preterm newborns. Placenta 94: 20-25

Song, C.; Pan, X.; Ge, Z.; Gowda, C.; Ding, Y.; Li, H.; Li, Z.; Yochum, G.; Muschen, M.; Li, Q.; Payne, K.J.; Dovat, S. 2016: Epigenetic regulation of gene expression by Ikaros, HDAC1 and Casein Kinase II in leukemia. Leukemia 30(6): 1436-1440

Carter, M.Q.; Hu, B.; Chain, P.S.G. 2021: Epigenetic regulation of gene expression in Shiga toxin-producing Escherichia coli: Transcriptomic data. Data in Brief 36: 107065

Botchkarev, V.A.; Gdula, M.R.; Mardaryev, A.N.; Sharov, A.A.; Fessing, M.Y. 2012: Epigenetic regulation of gene expression in keratinocytes. Journal of Investigative Dermatology 132(11): 2505-2521

Jaenisch, R.; Bird, A. 2003: Epigenetic regulation of gene expression: how the genome integrates intrinsic and environmental signals. Nature Genetics 33 Suppl: 245-254

Jo, D.; Nashabi, A.; Doxsee, C.; Lin, Q.; Unutmaz, D.; Chen, J.; Ruley, H.E. 2001: Epigenetic regulation of gene structure and function with a cell-permeable Cre recombinase. Nature Biotechnology 19(10): 929-933

Driscoll, R.M.H.; Faber-Hammond, J.J.; O'Rourke, C.F.; Hurd, P.L.; Renn, S.C.P. 2020: Epigenetic regulation of gonadal and brain aromatase expression in a cichlid fish with environmental sex determination. General and Comparative Endocrinology 296: 113538

Molokie, R.; DeSimone, J.; Lavelle, D. 2021: Epigenetic regulation of hemoglobin switching in non-human primates. Seminars in Hematology 58(1): 10-14

Yin, L.; Chung, W.O. 2011: Epigenetic regulation of human β-defensin 2 and CC chemokine ligand 20 expression in gingival epithelial cells in response to oral bacteria. Mucosal Immunology 4(4): 409-419

Jurdziński, K.T.; Potempa, J.; Grabiec, A.M. 2020: Epigenetic regulation of inflammation in periodontitis: cellular mechanisms and therapeutic potential. Clinical Epigenetics 12(1): 186

Jung, B.C.; Kang, S. 2021: Epigenetic regulation of inflammatory factors in adipose tissue. Biochimica et Biophysica Acta. Molecular and Cell Biology of Lipids 1866(11): 159019

Wang, Y.; Wang, J.; Yang, L.; Qiu, L.; Hua, Y.; Wu, S.; Zeng, S.; Yu, L.; Zheng, X. 2021: Epigenetic regulation of intestinal peptide transporter PEPT1 as a potential strategy for colorectal cancer sensitization. Cell Death and Disease 12(6): 532

Verzi, M.P.; Shivdasani, R.A. 2020: Epigenetic regulation of intestinal stem cell differentiation. American Journal of Physiology. Gastrointestinal and Liver Physiology 319(2): G189-G196

Xiao, Y.; Zhou, H.; Jiang, L.; Liu, R.; Chen, Q. 2021: Epigenetic regulation of ion channels in the sense of taste. Pharmacological Research 172: 105760

Li, Z.; Xia, J.; Fang, M.; Xu, Y. 2019: Epigenetic regulation of lung cancer cell proliferation and migration by the chromatin remodeling protein BRG1. Oncogenesis 8(11): 66

Chen, S.; Yang, J.; Wei, Y.; Wei, X. 2020: Epigenetic regulation of macrophages: from homeostasis maintenance to host defense. Cellular and Molecular Immunology 17(1): 36-49

He, J.; Qin, M.; Chen, Y.; Hu, Z.; Xie, F.; Ye, L.; Hui, T. 2020: Epigenetic regulation of matrix metalloproteinases in inflammatory diseases: a narrative review. Cell and Bioscience 10: 86

Stowers, R.; Chaudhuri, O. 2021: Epigenetic regulation of mechanotransduction. Nature Biomedical Engineering 5(1): 8-10

Jung, Y.-D.; Park, S.-K.; Kang, D.; Hwang, S.; Kang, M.-H.; Hong, S.-W.; Moon, J.-H.; Shin, J.-S.; Jin, D.-H.; You, D.; Lee, J.-Y.; Park, Y.-Y.; Hwang, J.J.; Kim, C.S.; Suh, N. 2020: Epigenetic regulation of miR-29a/miR-30c/DNMT3A axis controls SOD2 and mitochondrial oxidative stress in human mesenchymal stem cells. Redox Biology 37: 101716

Agirre, X.; Martínez-Climent, J.Á.; Odero, M.D.; Prósper, F. 2012: Epigenetic regulation of miRNA genes in acute leukemia. Leukemia 26(3): 395-403

Meng, F.; Wehbe-Janek, H.; Henson, R.; Smith, H.; Patel, T. 2008: Epigenetic regulation of microRNA-370 by interleukin-6 in malignant human cholangiocytes. Oncogene 27(3): 378-386

Fu, X.; Zhang, C.; Zhang, Y. 2020: Epigenetic regulation of mouse preimplantation embryo development. Current Opinion in Genetics and Development 64: 13-20

Covic, M.; Karaca, E.; Lie, D.C. 2010: Epigenetic regulation of neurogenesis in the adult hippocampus. Heredity 105(1): 122-134

Buzzo, C.de.Lima.; Medina, T.; Branco, L.M.; Lage, S.L.; Ferreira, Lís.Carlos.de.Souza.; Amarante-Mendes, G.P.; Hottiger, M.O.; De Carvalho, D.D.; Bortoluci, K.R. 2017: Epigenetic regulation of nitric oxide synthase 2, inducible (Nos2) by NLRC4 inflammasomes involves PARP1 cleavage. Scientific Reports 7: 41686

Li, A.; Hu, B.; Chu, C. 2021: Epigenetic regulation of nitrogen and phosphorus responses in plants. Journal of Plant Physiology: 258-259: 153363

Rice, K.L.; Hormaeche, I.; Licht, J.D. 2007: Epigenetic regulation of normal and malignant hematopoiesis. Oncogene 26(47): 6697-6714

Follo, M.Y.; Russo, D.; Finelli, C.; Mongiorgi, S.; Clissa, C.; Filì, C.; Colombi, C.; Gobbi, M.; Manzoli, L.; Piazzi, M.; Martelli, A.M.; Cocco, L. 2012: Epigenetic regulation of nuclear PI-PLCbeta1 signaling pathway in low-risk MDS patients during azacitidine treatment. Leukemia 26(5): 943-950

Chang, S.; Huang, J.; Niu, H.; Wang, J.; Si, Y.; Bai, Z.; Cheng, S.; Ding, W. 2020: Epigenetic regulation of osteopontin splicing isoform c defines its role as a microenvironmental factor to promote the survival of colon cancer cells from 5-FU treatment. Cancer Cell International 20: 452

Lee, M.; Nam, H.Yun.; Kang, H-Bum.; Lee, W.Hyeok.; Lee, G-Hee.; Sung, G-Jun.; Han, M.Woul.; Cho, K-Ja.; Chang, E-Ju.; Choi, K-Chul.; Kim, S.Who.; Kim, S.Yoon. 2021: Epigenetic regulation of p62/SQSTM1 overcomes the radioresistance of head and neck cancer cells via autophagy-dependent senescence induction. Cell Death and Disease 12(3): 250

Palli, S.R. 2021: Epigenetic regulation of post-embryonic development. Current Opinion in Insect Science 43: 63-69

Wang, R.; Liu, X. 2020: Epigenetic regulation of prostate cancer. Genes and Diseases 7(4): 606-613

Jacob, S.T.; Motiwala, T. 2005: Epigenetic regulation of protein tyrosine phosphatases: potential molecular targets for cancer therapy. Cancer Gene Therapy 12(8): 665-672

Lomniczi, A.; Wright, H.; Castellano, J.Manuel.; Matagne, V.; Toro, C.A.; Ramaswamy, S.; Plant, T.M.; Ojeda, S.R. 2015: Epigenetic regulation of puberty via Zinc finger protein-mediated transcriptional repression. Nature Communications 6: 10195

Xu, X-Feng.; Cheng, F.; Du, L-Zhong. 2011: Epigenetic regulation of pulmonary arterial hypertension. Hypertension Research: Official Journal of the Japanese Society of Hypertension 34(9): 981-986

Falbo, L.; Costanzo, V. 2021: Epigenetic regulation of replication origin assembly: a role for histone H1 and chromatin remodeling factors. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 43(1): E2000181

Raeisossadati, R.; Ferrari, M.F.R.; Kihara, A.H.; AlDiri, I.; Gross, J.M. 2021: Epigenetic regulation of retinal development. Epigenetics and Chromatin 14(1): 11

Massenet, J.; Gardner, E.; Chazaud, B.én.éd.; Dilworth, F.J. 2021: Epigenetic regulation of satellite cell fate during skeletal muscle regeneration. Skeletal Muscle 11(1): 4

Cheaib, M.; Dehghani Amirabad, A.; Nordström, K.J.V.; Schulz, M.H.; Simon, M. 2015: Epigenetic regulation of serotype expression antagonizes transcriptome dynamics in Paramecium tetraurelia. Dna Research: An International Journal for Rapid Publication of Reports on Genes and Genomes 22(4): 293-305

Le, N.Tu.; Harukawa, Y.; Miura, S.; Boer, D.; Kawabe, A.; Saze, H. 2020: Epigenetic regulation of spurious transcription initiation in Arabidopsis. Nature Communications 11(1): 3224

An, P.Nguyen.Thuy.; Shimaji, K.; Tanaka, R.; Yoshida, H.; Kimura, H.; Fukusaki, E.; Yamaguchi, M. 2017: Epigenetic regulation of starvation-induced autophagy in Drosophila by histone methyltransferase G9a. Scientific Reports 7(1): 7343

Gaydou, L.; Rossetti, M.F.; Tschopp, M.V.; Stoker, C.; Bosquiazzo, V.ón.L.; Ramos, J.G. 2020: Epigenetic regulation of steroidogenic enzymes expressed in peripheral blood mononuclear cells from healthy individuals and from patients with chronic lymphocytic leukemia. Journal of Steroid Biochemistry and Molecular Biology 204: 105767

Cruceanu, C.; Freemantle, E.; Alda, M.; Rouleau, G.A.; Turecki, G. 2013: Epigenetic regulation of synapsin genes in mood disorders. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 239-241

García-Cao, M.; O'Sullivan, R.; Peters, A.H.F.M.; Jenuwein, T.; Blasco, Mía.A. 2004: Epigenetic regulation of telomere length in mammalian cells by the Suv39h1 and Suv39h2 histone methyltransferases. Nature Genetics 36(1): 94-99

Vera, E.; Canela, A.; Fraga, M.F.; Esteller, M.; Blasco, M.A. 2008: Epigenetic regulation of telomeres in human cancer. Oncogene 27(54): 6817-6833

Boulle, F.; van den Hove, D.L.A.; Jakob, S.B.; Rutten, B.P.; Hamon, M.; van Os, J.; Lesch, K-P.; Lanfumey, L.; Steinbusch, H.W.; Kenis, G. 2012: Epigenetic regulation of the BDNF gene: implications for psychiatric disorders. Molecular Psychiatry 17(6): 584-596

Jing, Y-Ya.; Cai, F-Feng.; Zhang, L.; Han, J.; Yang, L.; Tang, F.; Li, Y-Bin.; Chang, J-Feng.; Sun, F.; Yang, X-Mei.; Sun, F-Lin.; Chen, S. 2020: Epigenetic regulation of the Warburg effect by H2B monoubiquitination. Cell Death and Differentiation 27(5): 1660-1676

Balog, J.; Miller, D.; Sanchez-Curtailles, E.; Carbo-Marques, J.; Block, G.; Potman, M.; de Knijff, P.; Lemmers, R.J.L.F.; Tapscott, S.J.; van der Maarel, Sère.M. 2012: Epigenetic regulation of the X-chromosomal macrosatellite repeat encoding for the cancer/testis gene CT47. European Journal of Human Genetics: Ejhg 20(2): 185-191

Hatanaka, H.; Mukai, A.; Ito, E.; Ueno, M.; Sotozono, C.; Kinoshita, S.; Hamuro, J. 2021: Epigenetic regulation of the epithelial mesenchymal transition induced by synergistic action of TNF-α and TGF-β in retinal pigment epithelial cells. Biochemical and Biophysical Research Communications 544: 31-37

Jin, J.; Xie, X.; Xiao, Y.; Hu, H.; Zou, Q.; Cheng, X.; Sun, S-Cong. 2016: Epigenetic regulation of the expression of Il12 and Il23 and autoimmune inflammation by the deubiquitinase Trabid. Nature Immunology 17(3): 259-268

McGowan, P.O.; Sasaki, A.; D'Alessio, A.C.; Dymov, S.; Labonté, B.; Szyf, M.; Turecki, G.; Meaney, M.J. 2009: Epigenetic regulation of the glucocorticoid receptor in human brain associates with childhood abuse. Nature Neuroscience 12(3): 342-348

Soto-Reyes, E.; Recillas-Targa, F. 2010: Epigenetic regulation of the human p53 gene promoter by the CTCF transcription factor in transformed cell lines. Oncogene 29(15): 2217-2227

Zhang, Q.; Cao, X. 2019: Epigenetic regulation of the innate immune response to infection. Nature Reviews. Immunology 19(7): 417-432

Meaney, M.J.; Ferguson-Smith, A.C. 2010: Epigenetic regulation of the neural transcriptome: the meaning of the marks. Nature Neuroscience 13(11): 1313-1318

Kobayashi, K.; Jakt, L.M.; Nishikawa, S-I. 2013: Epigenetic regulation of the neuroblastoma genes, Arid3b and Mycn. Oncogene 32(21): 2640-2648

Hashizume, O.; Ohnishi, S.; Mito, T.; Shimizu, A.; Ishikawa, K.; Iashikawa, K.; Nakada, K.; Soda, M.; Mano, H.; Togayachi, S.; Miyoshi, H.; Okita, K.; Hayashi, J-Ichi. 2015: Epigenetic regulation of the nuclear-coded GCAT and SHMT2 genes confers human age-associated mitochondrial respiration defects. Scientific Reports 5: 10434

Puglia, M.H.; Connelly, J.J.; Morris, J.P. 2018: Epigenetic regulation of the oxytocin receptor is associated with neural response during selective social attention. Translational Psychiatry 8(1): 116

Cooper, W.N.; Dickinson, R.E.; Dallol, A.; Grigorieva, E.V.; Pavlova, T.V.; Hesson, L.B.; Bieche, I.; Broggini, M.; Maher, E.R.; Zabarovsky, E.R.; Clark, G.J.; Latif, F. 2008: Epigenetic regulation of the ras effector/tumour suppressor RASSF2 in breast and lung cancer. Oncogene 27(12): 1805-1811

Schiefer, L.; Visweswaran, M.; Perumal, V.; Arfuso, F.; Groth, D.; Newsholme, P.; Warrier, S.; Dharmarajan, A. 2014: Epigenetic regulation of the secreted frizzled-related protein family in human glioblastoma multiforme. Cancer Gene Therapy 21(7): 297-303

Habu, Y.; Mathieu, O.; Tariq, M.; Probst, A.V.; Smathajitt, C.; Zhu, T.; Paszkowski, J. 2006: Epigenetic regulation of transcription in intermediate heterochromatin. Embo Reports 7(12): 1279-1284

Vishnubalaji, R.; Alajez, N.M. 2021: Epigenetic regulation of triple negative breast cancer (TNBC) by TGF-β signaling. Scientific Reports 11(1): 15410

Castellano-Castillo, D.; Ramos-Molina, B.; Cardona, F.; Queipo-Ortuño, M.ía.I. 2020: Epigenetic regulation of white adipose tissue in the onset of obesity and metabolic diseases. Obesity Reviews: An Official Journal of the International Association for the Study of Obesity 21(11): E13054

He, H.; Hua, X.; Yan, J. 2011: Epigenetic regulations in hematopoietic Hox code. Oncogene 30(4): 379-388

Gui, Y.; Yuan, S. 2021: Epigenetic regulations in mammalian spermatogenesis: RNA-m6A modification and beyond. Cellular and Molecular Life Sciences: Cmls 78(11): 4893-4905

Gong, Z.-G.; Zhao, Y.; Wang, Z.-Y.; Fan, R.-F.; Liu, Z.-P.; Wang, L. 2022: Epigenetic regulator BRD4 is involved in cadmium-induced acute kidney injury via contributing to lysosomal dysfunction, autophagy blockade and oxidative stress. Journal of Hazardous Materials 423(Part A): 127110

Zhao, Z.; Zhao, X.; He, T.; Wu, X.; Lv, P.; Zhu, A.J.; Du, J. 2021: Epigenetic regulator Stuxnet modulates octopamine effect on sleep through a Stuxnet-Polycomb-Octβ2R cascade. Embo Reports 22(2): E47910

Grosswendt, S.; Kretzmer, H.; Smith, Z.D.; Kumar, A.Sampath.; Hetzel, S.; Wittler, L.; Klages, S.; Timmermann, B.; Mukherji, S.; Meissner, A. 2020: Epigenetic regulator function through mouse gastrulation. Nature 584(7819): 102-108

Rroji, O.; Kumar, A.; Karuppagounder, S.S.; Ratan, R.R. 2021: Epigenetic regulators of neuronal ferroptosis identify novel therapeutics for neurological diseases: HDACs, transglutaminases, and HIF prolyl hydroxylases. Neurobiology of Disease 147: 105145

Sharma, A.; Liu, H.; Herwig-Carl, M.C.; Chand Dakal, T.; Schmidt-Wolf, I.G.H. 2021: Epigenetic regulatory enzymes: mutation prevalence and coexistence in cancers. Cancer Investigation 2021: 1-20

Cvekl, A.; Mitton, K.P. 2010: Epigenetic regulatory mechanisms in vertebrate eye development and disease. Heredity 105(1): 135-151

Real, Ál.D.; Santurtún, A.; Teresa Zarrabeitia, M. 2021: Epigenetic related changes on air quality. Environmental Research 197: 111155

Frigola, J.; Song, J.; Stirzaker, C.; Hinshelwood, R.A.; Peinado, M.A.; Clark, S.J. 2006: Epigenetic remodeling in colorectal cancer results in coordinate gene suppression across an entire chromosome band. Nature Genetics 38(5): 540-549

Ross, P.J.; Sampaio, R.V. 2018: Epigenetic remodeling in preimplantation embryos: cows are not big mice. Animal Reproduction 15(3): 204-214

Aloia, L.; McKie, M.Alexander.; Vernaz, Gégoire.; Cordero-Espinoza, Lía.; Aleksieva, N.; van den Ameele, J.; Antonica, F.; Font-Cunill, B.; Raven, A.; Aiese Cigliano, R.; Belenguer, G.; Mort, R.L.; Brand, A.H.; Zernicka-Goetz, M.; Forbes, S.J.; Miska, E.A.; Huch, M. 2019: Epigenetic remodelling licences adult cholangiocytes for organoid formation and liver regeneration. Nature Cell Biology 21(11): 1321-1333

Coral, S.; Covre, A.; Nicolay, H.J.M.G.; Parisi, G.; Rizzo, A.; Colizzi, F.; Dalla Santa, S.; Fonsatti, E.; Fratta, E.; Sigalotti, L.; Maio, M. 2012: Epigenetic remodelling of gene expression profiles of neoplastic and normal tissues: immunotherapeutic implications. British Journal of Cancer 107(7): 1116-1124

Nishida, J.; Momoi, Y.; Miyakuni, K.; Tamura, Y.; Takahashi, K.; Koinuma, D.; Miyazono, K.; Ehata, S. 2020: Epigenetic remodelling shapes inflammatory renal cancer and neutrophil-dependent metastasis. Nature Cell Biology 22(4): 465-475

Kou, H.; Gui, S.; Dai, Y.; Guo, Y.; Wang, H. 2020: Epigenetic repression of AT2 receptor is involved in β cell dysfunction and glucose intolerance of adult female offspring rats exposed to dexamethasone prenatally. Toxicology and Applied Pharmacology 404: 115187

Arzumanyan, A.; Friedman, T.; Kotei, E.; Ng, I.O.L.; Lian, Z.; Feitelson, M.A. 2012: Epigenetic repression of E-cadherin expression by hepatitis B virus x antigen in liver cancer. Oncogene 31(5): 563-572

Mühlisch, J.; Schwering, A.; Grotzer, M.; Vince, G.H.; Roggendorf, W.; Hagemann, C.; Sörensen, N.; Rickert, C.H.; Osada, N.; Jürgens, H.; Frühwald, M.C. 2006: Epigenetic repression of RASSF1A but not CASP8 in supratentorial PNET (sPNET) and atypical teratoid/rhabdoid tumors (AT/RT) of childhood. Oncogene 25(7): 1111-1117

Delgado-Olguín, P.; Huang, Y.; Li, X.; Christodoulou, D.; Seidman, C.E.; Seidman, J.G.; Tarakhovsky, A.; Bruneau, B.G. 2012: Epigenetic repression of cardiac progenitor gene expression by Ezh2 is required for postnatal cardiac homeostasis. Nature Genetics 44(3): 343-347

Wu, T-Hsiang.; Kuo, Y-Yeh.; Lee, H-Hui.; Kuo, J-Cheng.; Ou, M-Hsin.; Chang, Z-Fen. 2016: Epigenetic repression of ribosomal RNA transcription by ROCK-dependent aberrant cytoskeletal organization. Scientific Reports 6: 28685

Mandal, M.; Powers, S.E.; Maienschein-Cline, M.; Bartom, E.T.; Hamel, K.M.; Kee, B.L.; Dinner, A.R.; Clark, M.R. 2011: Epigenetic repression of the Igk locus by STAT5-mediated recruitment of the histone methyltransferase Ezh2. Nature Immunology 12(12): 1212-1220

Coarfa, C.; Grimm, S.L.; Katz, T.; Zhang, Y.; Jangid, R.K.; Walker, C.L.; Moorthy, B.; Lingappan, K. 2020: Epigenetic response to hyperoxia in the neonatal lung is sexually dimorphic. Redox Biology 37: 101718

Yang, Y.; Wu, Q.; Wang, D. 2020: Epigenetic response to nanopolystyrene in germline of nematode Caenorhabditis elegans. Ecotoxicology and Environmental Safety 206: 111404

Wang, T.; Qin, Z-Yi.; Wen, L-Zhi.; Guo, Y.; Liu, Q.; Lei, Z-Jie.; Pan, W.; Liu, K-Jun.; Wang, X-Wei.; Lai, S-Jie.; Sun, W-Jing.; Wei, Y-Ling.; Liu, L.; Guo, L.; Chen, Y-Qin.; Wang, J.; Xiao, H-Liang.; Bian, X-Wu.; Chen, D-Feng.; Wang, B. 2018: Epigenetic restriction of Hippo signaling by MORC2 underlies stemness of hepatocellular carcinoma cells. Cell Death and Differentiation 25(12): 2086-2100

Ng, R.Kit.; Dean, W.; Dawson, C.; Lucifero, D.; Madeja, Z.; Reik, W.; Hemberger, M. 2008: Epigenetic restriction of embryonic cell lineage fate by methylation of Elf5. Nature Cell Biology 10(11): 1280-1290

Smith, Z.D.; Shi, J.; Gu, H.; Donaghey, J.; Clement, K.; Cacchiarelli, D.; Gnirke, A.; Michor, F.; Meissner, A. 2017: Epigenetic restriction of extraembryonic lineages mirrors the somatic transition to cancer. Nature 549(7673): 543-547

Bao, S.; Tang, F.; Li, X.; Hayashi, K.; Gillich, A.; Lao, K.; Surani, M.Azim. 2009: Epigenetic reversion of post-implantation epiblast to pluripotent embryonic stem cells. Nature 461(7268): 1292-1295

Williams, K.; Carrasquilla, G.án.D.; Ingerslev, L.R.; Hochreuter, M.Y.; Hansson, S.; Pillon, N.J.; Donkin, I.; Versteyhe, S.; Zierath, J.R.; Kilpeläinen, T.O.; Barrès, R. 2021: Epigenetic rewiring of skeletal muscle enhancers after exercise training supports a role in whole-body function and human health. Molecular Metabolism 53: 101290

Decombe, S.; Loll, F.ço.; Caccianini, L.; Affannoukoué, K.év.; Izeddin, I.; Mozziconacci, J.; Escudé, C.; Lopes, J. 2021: Epigenetic rewriting at centromeric DNA repeats leads to increased chromatin accessibility and chromosomal instability. Epigenetics and Chromatin 14(1): 35

Zhao, K.; Yang, C.-X.; Li, P.; Sun, W.; Kong, X.-Q. 2020: Epigenetic role of N6-methyladenosine (m6A) RNA methylation in the cardiovascular system. Journal of Zhejiang University. Science. B 21(7): 509-523

Sadoughi, F.; Mirhashemi, S.M.; Asemi, Z. 2021: Epigenetic roles of PIWi proteins and pi RNAs in colorectal cancer. Cancer Cell International 21(1): 328

MacDonald, I.A.; Hathaway, N.A. 2015: Epigenetic roots of immunologic disease and new methods for examining chromatin regulatory pathways. Immunology and Cell Biology 93(3): 261-270

Abdel-Hakeem, M.S.; Manne, S.; Beltra, J-Christophe.; Stelekati, E.; Chen, Z.; Nzingha, K.; Ali, M-Alkhatim.; Johnson, J.L.; Giles, J.R.; Mathew, D.; Greenplate, A.R.; Vahedi, G.; Wherry, E.John. 2021: Epigenetic scarring of exhausted T cells hinders memory differentiation upon eliminating chronic antigenic stimulation. Nature Immunology 22(8): 1008-1019

Yates, K.B.; Tonnerre, P.; Martin, G.E.; Gerdemann, U.; Al Abosy, R.; Comstock, D.E.; Weiss, S.A.; Wolski, D.; Tully, D.C.; Chung, R.T.; Allen, T.M.; Kim, A.Y.; Fidler, S.; Fox, J.; Frater, J.; Lauer, G.M.; Haining, W.Nicholas.; Sen, D.R. 2021: Epigenetic scars of CD8 + T cell exhaustion persist after cure of chronic infection in humans. Nature Immunology 22(8): 1020-1029

Scherf, D.B.; Sarkisyan, N.; Jacobsson, H.; Claus, R.; Bermejo, J.L.; Peil, B.; Gu, L.; Muley, T.; Meister, M.; Dienemann, H.; Plass, C.; Risch, A. 2013: Epigenetic screen identifies genotype-specific promoter DNA methylation and oncogenic potential of CHRNB4. Oncogene 32(28): 3329-3338

Chaisaingmongkol, J.; Popanda, O.; Warta, R.; Dyckhoff, G.; Herpel, E.; Geiselhart, L.; Claus, R.; Lasitschka, F.; Campos, B.; Oakes, C.C.; Bermejo, J.L.; Herold-Mende, C.; Plass, C.; Schmezer, P. 2012: Epigenetic screen of human DNA repair genes identifies aberrant promoter methylation of NEIL1 in head and neck squamous cell carcinoma. Oncogene 31(49): 5108-5116

Sánchez-Mora, C.; Soler Artigas, Mía.; Garcia-Martínez, I.; Pagerols, M.; Rovira, P.; Richarte, V.; Corrales, M.; Fadeuilhe, C.; Padilla, Nàlia.; de la Cruz, X.; Franke, B.; Arias-Vásquez, A.; Casas, M.; Ramos-Quiroga, J-Antoni.; Ribasés, M. 2019: Epigenetic signature for attention-deficit/hyperactivity disorder: identification of miR-26b-5p, miR-185-5p, and miR-191-5p as potential biomarkers in peripheral blood mononuclear cells. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 44(5): 890-897

Wang, Y.; Chen, L.; Ju, L.; Qian, K.; Wang, X.; Xiao, Y.; Wang, G. 2020: Epigenetic signature predicts overall survival clear cell renal cell carcinoma. Cancer Cell International 20(1): 564

Opsahl, J.O.; Moen, G.-H.; Qvigstad, E.; Böttcher, Y.; Birkeland, K.år.I.; Sommer, C. 2021: Epigenetic signatures associated with maternal body mass index or gestational weight gain: a systematic review. Journal of Developmental Origins of Health and Disease 12(3): 373-383

Hasan, N.M.; Sharma, A.; Ruzgar, N.M.; Deshpande, H.; Olino, K.; Khan, S.; Ahuja, N. 2021: Epigenetic signatures differentiate uterine and soft tissue leiomyosarcoma. Oncotarget 12(16): 1566-1579

Robakis, T.K.; Zhang, S.; Rasgon, N.L.; Li, T.; Wang, T.; Roth, M.C.; Humphreys, K.L.; Gotlib, I.H.; Ho, M.; Khechaduri, A.; Watson, K.; Roat-Shumway, S.; Budhan, V.V.; Davis, K.N.; Crowe, S.D.; Ellie Williams, K.; Urban, A.E. 2020: Epigenetic signatures of attachment insecurity and childhood adversity provide evidence for role transition in the pathogenesis of perinatal depression. Translational Psychiatry 10(1): 48

Ardura, A.; Zaiko, A.; Morán, P.; Planes, S.; Garcia-Vazquez, E. 2017: Epigenetic signatures of invasive status in populations of marine invertebrates. Scientific Reports 7: 42193

Corley, J.; Cox, S.R.; Harris, S.E.; Hernandez, M.Valdéz.; Maniega, S.Muñoz.; Bastin, M.E.; Wardlaw, J.M.; Starr, J.M.; Marioni, R.E.; Deary, I.J. 2019: Epigenetic signatures of smoking associate with cognitive function, brain structure, and mental and physical health outcomes in the Lothian Birth Cohort 1936. Translational Psychiatry 9(1): 248

Spivakov, M.; Fisher, A.G. 2007: Epigenetic signatures of stem-cell identity. Nature Reviews. Genetics 8(4): 263-271

Ramos-Lopez, O.; Milagro, F.I.; Riezu-Boj, J.I.; Martinez, J.A. 2021: Epigenetic signatures underlying inflammation: an interplay of nutrition, physical activity, metabolic diseases, and environmental factors for personalized nutrition. Inflammation Research: Official Journal of the European Histamine Research Society . 70(1): 29-49

Zimak, J.; Wagoner, Z.W.; Nelson, N.; Waechtler, B.; Schlosser, H.; Kopecky, M.; Wu, J.; Zhao, W. 2021: Epigenetic silencing directs expression heterogeneity of stably integrated multi-transcript unit genetic circuits. Scientific Reports 11(1): 2424

Ding, L.-Y.; Hou, Y.-C.; Kuo, I.-Y.; Hsu, T.-Y.; Tsai, T.-C.; Chang, H.-W.; Hsu, W.-Y.; Tsao, C.-C.; Tian, C.-C.; Wang, P.-S.; Wang, H.-C.; Lee, C.-T.; Wang, Y.-C.; Lin, S.-H.; Hughes, M.W.; Chuang, W.-J.; Lu, P.-J.; Shan, Y.-S.; Huang, P.-H. 2020: Epigenetic silencing of AATK in acinar to ductal metaplasia in murine model of pancreatic cancer. Clinical Epigenetics 12(1): 87

Soung, Y.Hwa.; Pruitt, K.; Chung, J. 2014: Epigenetic silencing of ARRDC3 expression in basal-like breast cancer cells. Scientific Reports 4: 3846

Koinuma, K.; Yamashita, Y.; Liu, W.; Hatanaka, H.; Kurashina, K.; Wada, T.; Takada, S.; Kaneda, R.; Choi, Y.L.; Fujiwara, S-I.; Miyakura, Y.; Nagai, H.; Mano, H. 2006: Epigenetic silencing of AXIN2 in colorectal carcinoma with microsatellite instability. Oncogene 25(1): 139-146

Tseng, R-C.; Lin, R-K.; Wen, C-K.; Tseng, C.; Hsu, H-S.; Hsu, W-H.; Wang, Y-C. 2008: Epigenetic silencing of AXIN2/betaTrCP and deregulation of p53-mediated control lead to wild-type beta-catenin nuclear accumulation in lung tumorigenesis. Oncogene 27(32): 4488-4496

Ridinger-Saison, M.; Evanno, E.; Gallais, I.; Rimmelé, P.; Selimoglu-Buet, D.; Sapharikas, E.; Moreau-Gachelin, F.; Guillouf, C. 2013: Epigenetic silencing of Bim transcription by Spi-1/PU.1 promotes apoptosis resistance in leukaemia. Cell Death and Differentiation 20(9): 1268-1278

Zou, Y.R.; Sunshine, M.J.; Taniuchi, I.; Hatam, F.; Killeen, N.; Littman, D.R. 2001: Epigenetic silencing of CD4 in T cells committed to the cytotoxic lineage. Nature Genetics 29(3): 332-336

Li, B.; Li, A.; You, Z.; Xu, J.; Zhu, S. 2020: Epigenetic silencing of CDKN1A and CDKN2B by SNHG1 promotes the cell cycle, migration and epithelial-mesenchymal transition progression of hepatocellular carcinoma. Cell Death and Disease 11(10): 823

Wendt, M.K.; Cooper, A.N.; Dwinell, M.B. 2008: Epigenetic silencing of CXCL12 increases the metastatic potential of mammary carcinoma cells. Oncogene 27(10): 1461-1471

Herath, N.I.; Doecke, J.; Spanevello, M.D.; Leggett, B.A.; Boyd, A.W. 2009: Epigenetic silencing of EphA1 expression in colorectal cancer is correlated with poor survival. British Journal of Cancer 100(7): 1095-1102

Yang, W.; Mok, M.T.S.; Li, M.S.M.; Kang, W.; Wang, H.; Chan, A.W.; Chou, J-L.; Chen, J.; Ng, E.K.W.; To, K-F.; Yu, J.; Chan, M.W.Y.; Chan, F.K.L.; Sung, J.J.Y.; Cheng, A.S.L. 2016: Epigenetic silencing of GDF1 disrupts SMAD signaling to reinforce gastric cancer development. Oncogene 35(16): 2133-2144

Staub, J.; Chien, J.; Pan, Y.; Qian, X.; Narita, K.; Aletti, G.; Scheerer, M.; Roberts, L.R.; Molina, J.; Shridhar, V. 2007: Epigenetic silencing of HSulf-1 in ovarian cancer:implications in chemoresistance. Oncogene 26(34): 4969-4978

Gazon, H.él.èn.; Chauhan, P.S.; Porquet, F.; Hoffmann, G.B.; Accolla, R.; Willems, L. 2020: Epigenetic silencing of HTLV-1 expression by the HBZ RNA through interference with the basal transcription machinery. Blood Advances 4(21): 5574-5579

Yang, J.; Tian, B.; Sun, H.; Garofalo, R.P.; Brasier, A.R. 2017: Epigenetic silencing of IRF1 dysregulates type III interferon responses to respiratory virus infection in epithelial to mesenchymal transition. Nature Microbiology 2: 17086

Li, Z.; Guo, X.; Wu, S. 2020: Epigenetic silencing of KLF2 by long non-coding RNA SNHG1 inhibits periodontal ligament stem cell osteogenesis differentiation. Stem Cell Research and Therapy 11(1): 435

Uchida, R.; Saito, Y.; Nogami, K.; Kajiyama, Y.; Suzuki, Y.; Kawase, Y.; Nakaoka, T.; Muramatsu, T.; Kimura, M.; Saito, H. 2019: Epigenetic silencing of Lgr5 induces senescence of intestinal epithelial organoids during the process of aging. Npj Aging and Mechanisms of Disease 5: 1

Scarola, M.; Comisso, E.; Pascolo, R.; Chiaradia, R.; Marion, R.Maria.; Schneider, C.; Blasco, M.A.; Schoeftner, S.; Benetti, R. 2015: Epigenetic silencing of Oct4 by a complex containing SUV39H1 and Oct4 pseudogene lncRNA. Nature Communications 6: 7631

Su, P-H.; Lin, Y-W.; Huang, R-L.; Liao, Y-P.; Lee, H-Y.; Wang, H-C.; Chao, T-K.; Chen, C-K.; Chan, M.W.Y.; Chu, T-Y.; Yu, M-H.; Lai, H-C. 2013: Epigenetic silencing of PTPRR activates MAPK signaling, promotes metastasis and serves as a biomarker of invasive cervical cancer. Oncogene 32(1): 15-26

Grummt, I.; Pikaard, C.S. 2003: Epigenetic silencing of RNA polymerase I transcription. Nature Reviews. Molecular Cell Biology 4(8): 641-649

Chien, J.; Staub, J.; Avula, R.; Zhang, H.; Liu, W.; Hartmann, L.C.; Kaufmann, S.H.; Smith, D.I.; Shridhar, V. 2005: Epigenetic silencing of TCEAL7 (Bex4) in ovarian cancer. Oncogene 24(32): 5089-5100

Chen, H.-Q.; Chen, D.-J.; Li, Y.; Yuan, W.-B.; Fan, J.; Zhang, Z.; Han, F.; Jiang, X.; Chen, J.-P.; Wang, D.-D.; Cao, J.; Liu, J.-Y.; Liu, W.-B. 2021: Epigenetic silencing of TET1 mediated hydroxymethylation of base excision repair pathway during lung carcinogenesis. Environmental Pollution 268(Part B): 115860

Peng, D.; Kryczek, I.; Nagarsheth, N.; Zhao, L.; Wei, S.; Wang, W.; Sun, Y.; Zhao, E.; Vatan, L.; Szeliga, W.; Kotarski, J.; Tarkowski, Rł.; Dou, Y.; Cho, K.; Hensley-Alford, S.; Munkarah, A.; Liu, R.; Zou, W. 2015: Epigenetic silencing of TH1-type chemokines shapes tumour immunity and immunotherapy. Nature 527(7577): 249-253

Kondo, T.; Nakazawa, T.; Ma, D.; Niu, D.; Mochizuki, K.; Kawasaki, T.; Nakamura, N.; Yamane, T.; Kobayashi, M.; Katoh, R. 2009: Epigenetic silencing of TTF-1/NKX2-1 through DNA hypermethylation and histone H3 modulation in thyroid carcinomas. Laboratory Investigation; a Journal of Technical Methods and Pathology 89(7): 791-799

Jiang, D.; He, Z.; Wang, C.; Zhou, Y.; Li, F.; Pu, W.; Zhang, X.; Feng, X.; Zhang, M.; Yecheng, X.; Xu, Y.; Jin, L.; Guo, S.; Wang, J.; Wang, M. 2018: Epigenetic silencing of ZNF132 mediated by methylation-sensitive Sp1 binding promotes cancer progression in esophageal squamous cell carcinoma. Cell Death and Disease 10(1): 1

Hummel, G.; Berr, A.; Graindorge, S.éf.; Cognat, V.ér.; Ubrig, E.; Pflieger, D.; Molinier, J.; Drouard, L. 2020: Epigenetic silencing of clustered tRNA genes in Arabidopsis. Nucleic Acids Research 48(18): 10297-10312

Kiehl, S.; Zimmermann, T.; Savai, R.; Pullamsetti, S.S.; Seeger, W.; Bartkuhn, M.; Dammann, R.H. 2017: Epigenetic silencing of downstream genes mediated by tandem orientation in lung cancer. Scientific Reports 7(1): 3896

Hayat, B.; Kapuganti, R.Shyam.; Padhy, B.; Mohanty, P.Paramita.; Alone, D.Pankaj. 2020: Epigenetic silencing of heat shock protein 70 through DNA hypermethylation in pseudoexfoliation syndrome and glaucoma. Journal of Human Genetics 65(6): 517-529

Li, Z.; Kumar, S.; Jin, D.-Y.; Calin, G.A.; Chng, W.-J.; Siu, K.-L.; Poon, M.-W.; Chim, C.S. 2020: Epigenetic silencing of long non-coding RNA BM742401 in multiple myeloma: impact on prognosis and myeloma dissemination. Cancer Cell International 20: 403

Debret, R.; Cenizo, Vérie.; Aimond, Géraldine.; André, Vérie.; Devillers, M.; Rouvet, I.; Mégarbané, Aé.; Damour, O.; Sommer, P. 2010: Epigenetic silencing of lysyl oxidase-like-1 through DNA hypermethylation in an autosomal recessive cutis laxa case. Journal of Investigative Dermatology 130(11): 2594-2601

Qin, Y.; Zhang, S.; Deng, S.; An, G.; Qin, X.; Li, F.; Xu, Y.; Hao, M.; Yang, Y.; Zhou, W.; Chang, H.; Qiu, L. 2017: Epigenetic silencing of miR-137 induces drug resistance and chromosomal instability by targeting AURKA in multiple myeloma. Leukemia 31(5): 1123-1135

Kiga, K.; Mimuro, H.; Suzuki, M.; Shinozaki-Ushiku, A.; Kobayashi, T.; Sanada, T.; Kim, M.; Ogawa, M.; Iwasaki, Y.W.; Kayo, H.; Fukuda-Yuzawa, Y.; Yashiro, M.; Fukayama, M.; Fukao, T.; Sasakawa, C. 2014: Epigenetic silencing of miR-210 increases the proliferation of gastric epithelium during chronic Helicobacter pylori infection. Nature Communications 5: 4497

Zhang, M.Y.; Calin, G.A.; Yuen, K.S.; Jin, D.Y.; Chim, C.S. 2020: Epigenetic silencing of miR-342-3p in B cell lymphoma and its impact on autophagy. Clinical Epigenetics 12(1): 150

Yue, J.; Lv, D.; Wang, C.; Li, L.; Zhao, Q.; Chen, H.; Xu, L. 2018: Epigenetic silencing of miR-483-3p promotes acquired gefitinib resistance and EMT in EGFR-mutant NSCLC by targeting integrin β3. Oncogene 37(31): 4300-4312

Fiaschetti, G.; Abela, L.; Nonoguchi, N.; Dubuc, A.M.; Remke, M.; Boro, A.; Grunder, E.; Siler, U.; Ohgaki, H.; Taylor, M.D.; Baumgartner, M.; Shalaby, T.; Grotzer, M.A. 2014: Epigenetic silencing of miRNA-9 is associated with HES1 oncogenic activity and poor prognosis of medulloblastoma. British Journal of Cancer 110(3): 636-647

Dong, J.; Xiao, D.; Zhao, Z.; Ren, P.; Li, C.; Hu, Y.; Shi, J.; Su, H.; Wang, L.; Liu, H.; Li, B.; Gao, P.; Qing, G. 2017: Epigenetic silencing of microRNA-137 enhances ASCT2 expression and tumor glutamine metabolism. Oncogenesis 6(7): E356

Li, P.; Shan, J-Xuan.; Chen, X-Hua.; Zhang, D.; Su, L-Ping.; Huang, X-Ying.; Yu, B-Qin.; Zhi, Q-Ming.; Li, C-Long.; Wang, Y-Qing.; Tomei, S.; Cai, Q.; Ji, J.; Li, J-Fang.; Chouchane, L.; Yu, Y-Yan.; Sun, F-Zhen.; Xu, Z-Heng.; Liu, B-Ya.; Zhu, Z-Gang. 2015: Epigenetic silencing of microRNA-149 in cancer-associated fibroblasts mediates prostaglandin E2/interleukin-6 signaling in the tumor microenvironment. Cell Research 25(5): 588-603

Yang, N.; Liang, Y.; Zhu, T.; Long, Y.; Chen, Z.; Zhang, X.; Jiang, L. 2021: Epigenetic silencing of microRNA-199a-5p promotes the proliferation of non-small cell lung cancer cells by increasing AKAP1 expression. Oncology Letters 21(6): 434

Taube, J.H.; Malouf, G.G.; Lu, E.; Sphyris, N.; Vijay, V.; Ramachandran, P.P.; Ueno, K.R.; Gaur, S.; Nicoloso, M.S.; Rossi, S.; Herschkowitz, J.I.; Rosen, J.M.; Issa, J-Pierre.J.; Calin, G.A.; Chang, J.T.; Mani, S.A. 2013: Epigenetic silencing of microRNA-203 is required for EMT and cancer stem cell properties. Scientific Reports 3: 2687

Menigatti, M.; Staiano, T.; Manser, C.N.; Bauerfeind, P.; Komljenovic, A.; Robinson, M.; Jiricny, J.; Buffoli, F.; Marra, G. 2013: Epigenetic silencing of monoallelically methylated miRNA loci in precancerous colorectal lesions. Oncogenesis 2: E56

Kulaeva, O.I.; Draghici, S.; Tang, L.; Kraniak, J.M.; Land, S.J.; Tainsky, M.A. 2003: Epigenetic silencing of multiple interferon pathway genes after cellular immortalization. Oncogene 22(26): 4118-4127

Sugino, Y.; Misawa, A.; Inoue, J.; Kitagawa, M.; Hosoi, H.; Sugimoto, T.; Imoto, I.; Inazawa, J. 2007: Epigenetic silencing of prostaglandin E receptor 2 (PTGER2) is associated with progression of neuroblastomas. Oncogene 26(53): 7401-7413

Youn, J-In.; Kumar, V.; Collazo, M.; Nefedova, Y.; Condamine, T.; Cheng, P.; Villagra, A.; Antonia, S.; McCaffrey, J.C.; Fishman, M.; Sarnaik, A.; Horna, P.; Sotomayor, E.; Gabrilovich, D.I. 2013: Epigenetic silencing of retinoblastoma gene regulates pathologic differentiation of myeloid cells in cancer. Nature Immunology 14(3): 211-220

Woo, Y.Mi.; Shin, Y.; Hwang, J-Ah.; Hwang, Y-Hwan.; Lee, S.; Park, E.Young.; Kong, H.Kyung.; Park, H.Cho.; Lee, Y-Su.; Park, J.Hoon. 2015: Epigenetic silencing of the MUPCDH gene as a possible prognostic biomarker for cyst growth in ADPKD. Scientific Reports 5: 15238

Yeh, C-Min.; Chang, L-Yu.; Lin, S-Hui.; Chou, J-Liang.; Hsieh, H-Yen.; Zeng, L-Han.; Chuang, S-Yu.; Wang, H-Wen.; Dittner, C.; Lin, C-Yu.; Lin, J.M.J.; Huang, Y-Ting.; Ng, E.K.W.; Cheng, A.S.L.; Wu, S-Fen.; Lin, J.; Yeh, K-Tu.; Chan, M.W.Y. 2016: Epigenetic silencing of the NR4A3 tumor suppressor, by aberrant JAK/STAT signaling, predicts prognosis in gastric cancer. Scientific Reports 6: 31690

Victoria-Acosta, G.; Vazquez-Santillan, K.; Jimenez-Hernandez, L.; Muñoz-Galindo, L.; Maldonado, V.; Martinez-Ruiz, G.Ulises.; Melendez-Zajgla, J. 2015: Epigenetic silencing of the XAF1 gene is mediated by the loss of CTCF binding. Scientific Reports 5: 14838

Costa, Fício.F.; Verbisck, N.V.; Salim, A.Christina.M.; Ierardi, D.F.; Pires, L.C.; Sasahara, R.M.; Sogayar, M.C.; Zanata, S.M.; Mackay, A.; O'Hare, M.; Soares, F.; Simpson, A.J.G.; Camargo, A.A. 2004: Epigenetic silencing of the adhesion molecule ADAM23 is highly frequent in breast tumors. Oncogene 23(7): 1481-1488

Tagoh, H.; Schebesta, A.; Lefevre, P.; Wilson, N.; Hume, D.; Busslinger, M.; Bonifer, C. 2004: Epigenetic silencing of the c-fms locus during B-lymphopoiesis occurs in discrete steps and is reversible. EMBO Journal 23(21): 4275-4285

Hsieh, H-Y.; Jou, Y-C.; Tung, C-L.; Tsai, Y-S.; Wang, Y-H.; Chi, C-L.; Lin, R-I.; Hung, S-K.; Chuang, Y-M.; Wu, S-F.; Li, C.; Shen, C-H.; Chan, M.W.Y.; Hsu, C-D. 2018: Epigenetic silencing of the dual-role signal mediator, ANGPTL4 in tumor tissues and its overexpression in the urothelial carcinoma microenvironment. Oncogene 37(5): 673-686

Grady, W.M.; Parkin, R.K.; Mitchell, P.S.; Lee, J.H.; Kim, Y-H.; Tsuchiya, K.D.; Washington, M.K.; Paraskeva, C.; Willson, J.K.V.; Kaz, A.M.; Kroh, E.M.; Allen, A.; Fritz, B.R.; Markowitz, S.D.; Tewari, M. 2008: Epigenetic silencing of the intronic microRNA hsa-miR-342 and its host gene EVL in colorectal cancer. Oncogene 27(27): 3880-3888

Pospisil, V.; Vargova, K.; Kokavec, J.; Rybarova, J.; Savvulidi, F.; Jonasova, A.; Necas, E.; Zavadil, J.; Laslo, P.; Stopka, T. 2011: Epigenetic silencing of the oncogenic miR-17-92 cluster during PU.1-directed macrophage differentiation. EMBO Journal 30(21): 4450-4464

Moro, L.; Simoneschi, D.; Kurz, E.; Arbini, A.A.; Jang, S.; Guaragnella, N.; Giannattasio, S.; Wang, W.; Chen, Y-An.; Pires, G.; Dang, A.; Hernandez, E.; Kapur, P.; Mishra, A.; Tsirigos, A.; Miller, G.; Hsieh, J-Tsong.; Pagano, M. 2020: Epigenetic silencing of the ubiquitin ligase subunit FBXL7 impairs c-SRC degradation and promotes epithelial-to-mesenchymal transition and metastasis. Nature Cell Biology 22(9): 1130-1142

Yu, Y.; Zhang, M.; Wang, N.; Li, Q.; Yang, J.; Yan, S.; He, X.; Ji, G.; Miao, L. 2018: Epigenetic silencing of tumor suppressor gene CDKN1A by oncogenic long non-coding RNA SNHG1 in cholangiocarcinoma. Cell Death and Disease 9(7): 746

Yu, W.; Gius, D.; Onyango, P.; Muldoon-Jacobs, K.; Karp, J.; Feinberg, A.P.; Cui, H. 2008: Epigenetic silencing of tumour suppressor gene p15 by its antisense RNA. Nature 451(7175): 202-206

Francis, D.D.; Szegda, K.; Campbell, G.; Martin, W.David.; Insel, T.R. 2003: Epigenetic sources of behavioral differences in mice. Nature Neuroscience 6(5): 445-446

Kim, K-Dong.; Tanizawa, H.; De Leo, A.; Vladimirova, O.; Kossenkov, A.; Lu, F.; Showe, L.C.; Noma, K-Ichi.; Lieberman, P.M. 2020: Epigenetic specifications of host chromosome docking sites for latent Epstein-Barr virus. Nature Communications 11(1): 877

Lesch, B.J. 2021: Epigenetic states in the human placenta: a singular epigenome for an exceptional tissue. Developmental Cell 56(9): 1211-1212

Fujisawa, K.; Maesawa, C.; Sato, R.; Wada, K.; Ogasawara, S.; Akiyama, Y.; Takeda, M.; Fujita, T.; Otsuka, K.; Higuchi, T.; Suzuki, K.; Saito, K.; Masuda, T. 2005: Epigenetic status and aberrant expression of the maspin gene in human hepato-biliary tract carcinomas. Laboratory Investigation; a Journal of Technical Methods and Pathology 85(2): 214-224

Benard, A.; van de Velde, C.J.H.; Lessard, L.; Putter, H.; Takeshima, L.; Kuppen, P.J.K.; Hoon, D.S.B. 2013: Epigenetic status of LINE-1 predicts clinical outcome in early-stage rectal cancer. British Journal of Cancer 109(12): 3073-3083

Syed, N.; Langer, J.; Janczar, K.; Singh, P.; Lo Nigro, C.; Lattanzio, L.; Coley, H.M.; Hatzimichael, E.; Bomalaski, J.; Szlosarek, P.; Awad, M.; O'Neil, K.; Roncaroli, F.; Crook, T. 2013: Epigenetic status of argininosuccinate synthetase and argininosuccinate lyase modulates autophagy and cell death in glioblastoma. Cell Death and Disease 4: E458

Rugg-Gunn, P.J.; Ferguson-Smith, A.C.; Pedersen, R.A. 2005: Epigenetic status of human embryonic stem cells. Nature Genetics 37(6): 585-587

Widschwendter, M.; Fiegl, H.; Egle, D.; Mueller-Holzner, E.; Spizzo, G.; Marth, C.; Weisenberger, D.J.; Campan, M.; Young, J.; Jacobs, I.; Laird, P.W. 2007: Epigenetic stem cell signature in cancer. Nature Genetics 39(2): 157-158

Chen, X.; Pan, X.; Zhang, W.; Guo, H.; Cheng, S.; He, Q.; Yang, B.; Ding, L. 2020: Epigenetic strategies synergize with PD-L1/PD-1 targeted cancer immunotherapies to enhance antitumor responses. Acta Pharmaceutica Sinica. B 10(5): 723-733

Akbari, B.; Ghahri-Saremi, N.; Soltantoyeh, T.; Hadjati, J.; Ghassemi, S.; Mirzaei, H.R. 2021: Epigenetic strategies to boost CAR T cell therapy. Molecular Therapy: the Journal of the American Society of Gene Therapy 29(9): 2640-2659

Moody, L.; Crowder, S.L.; Fruge, A.D.; Locher, J.L.; Demark-Wahnefried, W.; Rogers, L.Q.; Delk-Licata, A.; Carroll, W.R.; Spencer, S.A.; Black, M.; Erdman, J.W.; Chen, H.; Pan, Y.-X.; Arthur, A.E. 2020: Epigenetic stratification of head and neck cancer survivors reveals differences in lycopene levels, alcohol consumption, and methylation of immune regulatory genes. Clinical Epigenetics 12(1): 138

Schwörer, S.; Becker, F.; Feller, C.; Baig, A.H.; Köber, U.; Henze, H.; Kraus, J.M.; Xin, B.; Lechel, Aé.; Lipka, D.B.; Varghese, C.S.; Schmidt, M.; Rohs, R.; Aebersold, R.; Medina, K.L.; Kestler, H.A.; Neri, F.; von Maltzahn, J.; Tümpel, S.; Rudolph, K.Lenhard. 2016: Epigenetic stress responses induce muscle stem-cell ageing by Hoxa9 developmental signals. Nature 540(7633): 428-432

Bellanti, J.A. 2020: Epigenetic studies and pediatric research. Pediatric Research 87(2): 378-384

Moro, L.; Pagano, M. 2020: Epigenetic suppression of FBXL7 promotes metastasis. Molecular and Cellular Oncology 7(6): 1833698

Zhang, Z.; Cai, Y-Qing.; Zou, F.; Bie, B.; Pan, Z.Z. 2011: Epigenetic suppression of GAD65 expression mediates persistent pain. Nature Medicine 17(11): 1448-1455

Moribe, F.; Nishikori, M.; Takashima, T.; Taniyama, D.; Onishi, N.; Arima, H.; Sasanuma, H.; Akagawa, R.; Elloumi, F.; Takeda, S.; Pommier, Y.; Morii, E.; Takaori-Kondo, A.; Murai, J. 2021: Epigenetic suppression of SLFN11 in germinal center B-cells during B-cell development. Plos one 16(1): E0237554

You, J.C.; Muralidharan, K.; Park, J.W.; Petrof, I.; Pyfer, M.S.; Corbett, B.F.; LaFrancois, J.J.; Zheng, Y.; Zhang, X.; Mohila, C.A.; Yoshor, D.; Rissman, R.A.; Nestler, E.J.; Scharfman, H.E.; Chin, J. 2017: Epigenetic suppression of hippocampal calbindin-D28k by ΔFosB drives seizure-related cognitive deficits. Nature Medicine 23(11): 1377-1383

Stephen, H.M.; Khoury, R.J.; Majmudar, P.R.; Blaylock, T.; Hawkins, K.; Salama, M.S.; Scott, M.D.; Cosminsky, B.; Utreja, N.K.; Britt, J.; Conway, R.E. 2016: Epigenetic suppression of neprilysin regulates breast cancer invasion. Oncogenesis 5: E207

Bie, B.; Wu, J.; Yang, H.; Xu, J.J.; Brown, D.L.; Naguib, M. 2014: Epigenetic suppression of neuroligin 1 underlies amyloid-induced memory deficiency. Nature Neuroscience 17(2): 223-231

Crimi, E.; Benincasa, G.; Figueroa-Marrero, N.; Galdiero, M.; Napoli, C. 2020: Epigenetic susceptibility to severe respiratory viral infections and its therapeutic implications: a narrative review. British Journal of Anaesthesia 125(6): 1002-1017

Albrengues, J.; Bertero, T.; Grasset, E.; Bonan, S.; Maiel, M.; Bourget, I.; Philippe, C.; Herraiz Serrano, C.; Benamar, S.; Croce, O.; Sanz-Moreno, V.; Meneguzzi, G.; Feral, C.C.; Cristofari, G.; Gaggioli, C. 2015: Epigenetic switch drives the conversion of fibroblasts into proinvasive cancer-associated fibroblasts. Nature Communications 6: 10204

Li, J.; Hao, D.; Wang, L.; Wang, H.; Wang, Y.; Zhao, Z.; Li, P.; Deng, C.; Di, L-Jun. 2017: Epigenetic targeting drugs potentiate chemotherapeutic effects in solid tumor therapy. Scientific Reports 7(1): 4035

Tang, Y.; Gholamin, S.; Schubert, S.; Willardson, M.I.; Lee, A.; Bandopadhayay, P.; Bergthold, G.; Masoud, S.; Nguyen, B.; Vue, N.; Balansay, B.; Yu, F.; Oh, S.; Woo, P.; Chen, S.; Ponnuswami, A.; Monje, M.; Atwood, S.X.; Whitson, R.J.; Mitra, S.; Cheshier, S.H.; Qi, J.; Beroukhim, R.; Tang, J.Y.; Wechsler-Reya, R.; Oro, A.E.; Link, B.A.; Bradner, J.E.; Cho, Y-Jae. 2014: Epigenetic targeting of Hedgehog pathway transcriptional output through BET bromodomain inhibition. Nature Medicine 20(7): 732-740

Waibel, M.; Vervoort, S.J.; Kong, I.Y.; Heinzel, S.; Ramsbottom, K.M.; Martin, B.P.; Hawkins, E.D.; Johnstone, R.W. 2018: Epigenetic targeting of Notch1-driven transcription using the HDACi panobinostat is a potential therapy against T-cell acute lymphoblastic leukemia. Leukemia 32(1): 237-241

Segatto, M.; Fittipaldi, R.; Pin, F.; Sartori, R.; Dae Ko, K.; Zare, H.; Fenizia, C.; Zanchettin, G.; Pierobon, E.Sefora.; Hatakeyama, S.; Sperti, C.; Merigliano, S.; Sandri, M.; Filippakopoulos, P.; Costelli, P.; Sartorelli, V.; Caretti, G. 2017: Epigenetic targeting of bromodomain protein BRD4 counteracts cancer cachexia and prolongs survival. Nature Communications 8(1): 1707

Saiz, M.L.; DeDiego, M.L.; López-García, D.ío.; Corte-Iglesias, V.; Baragaño Raneros, A.; Astola, I.; Asensi, V.; López-Larrea, C.; Suarez-Alvarez, B. 2021: Epigenetic targeting of the ACE2 and NRP1 viral receptors limits SARS-CoV-2 infectivity. Clinical Epigenetics 13(1): 187

Maio, M.; Coral, S.; Fratta, E.; Altomonte, M.; Sigalotti, L. 2003: Epigenetic targets for immune intervention in human malignancies. Oncogene 22(42): 6484-6488

Claus, R.; Lübbert, M. 2003: Epigenetic targets in hematopoietic malignancies. Oncogene 22(42): 6489-6496

Tsai, C.T.; So, C.W.E. 2017: Epigenetic therapies by targeting aberrant histone methylome in AML: molecular mechanisms, current preclinical and clinical development. Oncogene 36(13): 1753-1759

De Nigris, F.; Ruosi, C.; Colella, G.; Napoli, C. 2021: Epigenetic therapies of osteoporosis. Bone 142: 115680

Holmberg-Thydén, S.; Dufva, I.H.øg.; Gang, A.O.; Breinholt, M.F.; Schejbel, L.; Andersen, M.K.; Kadivar, M.; Svane, I.M.; Grønbæk, K.; Hadrup, S.R.; El Fassi, D. 2022: Epigenetic therapy in combination with a multi-epitope cancer vaccine targeting shared tumor antigens for high-risk myelodysplastic syndrome - a phase i clinical trial. Cancer Immunology Immunotherapy: Cii 71(2): 433-444

Jones, P.A.; Ohtani, H.; Chakravarthy, A.; De Carvalho, D.D. 2019: Epigenetic therapy in immune-oncology. Nature Reviews. Cancer 19(3): 151-161

Mehdipour, P.; Marhon, S.A.; Ettayebi, I.; Chakravarthy, A.; Hosseini, A.; Wang, Y.; de Castro, Fíola.Attié.; Loo Yau, H.; Ishak, C.; Abelson, S.; O'Brien, C.A.; De Carvalho, D.D. 2020: Epigenetic therapy induces transcription of inverted SINEs and ADAR1 dependency. Nature 588(7836): 169-173

Lu, Z.; Zou, J.; Li, S.; Topper, M.J.; Tao, Y.; Zhang, H.; Jiao, X.; Xie, W.; Kong, X.; Vaz, M.; Li, H.; Cai, Y.; Xia, L.; Huang, P.; Rodgers, K.; Lee, B.; Riemer, J.B.; Day, C-Ping.; Yen, R-Whay.Chiu.; Cui, Y.; Wang, Y.; Wang, Y.; Zhang, W.; Easwaran, H.; Hulbert, A.; Kim, K.; Juergens, R.A.; Yang, S.C.; Battafarano, R.J.; Bush, E.L.; Broderick, S.R.; Cattaneo, S.M.; Brahmer, J.R.; Rudin, C.M.; Wrangle, J.; Mei, Y.; Kim, Y.J.; Zhang, B.; Wang, K.Kang-Hsin.; Forde, P.M.; Margolick, J.B.; Nelkin, B.D.; Zahnow, C.A.; Pardoll, D.M.; Housseau, F 2020: Epigenetic therapy inhibits metastases by disrupting premetastatic niches. Nature 579(7798): 284-290

Yoo, C.B.; Jones, P.A. 2006: Epigenetic therapy of cancer: past, present and future. Nature Reviews. Drug Discovery 5(1): 37-50

Deveau, A.P.; Forrester, A.M.; Coombs, A.J.; Wagner, G.S.; Grabher, C.; Chute, I.C.; Léger, D.; Mingay, M.; Alexe, G.; Rajan, V.; Liwski, R.; Hirst, M.; Steigmaier, K.; Lewis, S.M.; Look, A.T.; Berman, J.N. 2015: Epigenetic therapy restores normal hematopoiesis in a zebrafish model of NUP98-HOXA9-induced myeloid disease. Leukemia 29(10): 2086-2097

Kim, H.; Hong, M.-W.; Bae, Y.-H.; Lee, S.-J. 2021: Epigenetic toxicity and cytotoxicity of perfluorooctanoic acid and its effects on gene expression in embryonic mouse hypothalamus cells. Arhiv Za Higijenu Rada i Toksikologiju 72(3): 182-190

Mujtaba, S.; Manzur, K.L.; Gurnon, J.R.; Kang, M.; Van Etten, J.L.; Zhou, M-Ming. 2008: Epigenetic transcriptional repression of cellular genes by a viral SET protein. Nature Cell Biology 10(9): 1114-1122

Wang, W.; Cao, Q.; Tan, T.; Yang, F.; Williams, J.B.; Yan, Z. 2021: Epigenetic treatment of behavioral and physiological deficits in a tauopathy mouse model. Aging cell 20(10): e13456

Day, J.J.; Sweatt, J.David. 2012: Epigenetic treatments for cognitive impairments. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 37(1): 247-260

Ecker, J.R. 2013: Epigenetic trigger for tomato ripening. Nature Biotechnology 31(2): 119-120

Velkova, A.; Monteiro, A.N.A. 2011: Epigenetic tumor suppression by BRCA1. Nature Medicine 17(10): 1183-1185

Puglia, M.H.; Krol, K.M.; Missana, M.; Williams, C.L.; Lillard, T.S.; Morris, J.P.; Connelly, J.J.; Grossmann, T. 2020: Epigenetic tuning of brain signal entropy in emergent human social behavior. Bmc Medicine 18(1): 244

Williamson, S.M.; Ingelson-Filpula, W.A.; Hadj-Moussa, H.; Storey, K.B. 2021: Epigenetic underpinnings of freeze avoidance in the goldenrod gall moth, Epiblema scudderiana. Journal of Insect Physiology 134: 104298

Li, M.; Alsager, J.S.; Wang, Z.; Cheng, L.; Shan, B. 2020: Epigenetic upregulation of HOXC10 in non-small lung cancer cells. Aging 12(17): 16921-16935

Gao, X.; Yang, Q.; Zhang, S.; Huang, X.; Yan, Z.; Wang, P.; Luo, R.; Wang, W.; Xie, K.; Gun, S. 2021: Epigenetic upregulation of ssc-miR-124a following treatment with Clostridium perfringens beta2-toxin attenuates both apoptosis and inflammation in intestinal porcine epithelial cells. Archives of Biochemistry and Biophysics 701: 108806

Kebir, O.; Chaumette, B.; Krebs, M-Odile. 2018: Epigenetic variability in conversion to psychosis: novel findings from an innovative longitudinal methylomic analysis. Translational Psychiatry 8(1): 93

Kaminski, J.A.; Schlagenhauf, F.; Rapp, M.; Awasthi, S.; Ruggeri, B.; Deserno, L.; Banaschewski, T.; Bokde, A.L.W.; Bromberg, U.; Büchel, C.; Quinlan, E.Burke.; Desrivières, S.; Flor, H.; Frouin, V.; Garavan, H.; Gowland, P.; Ittermann, B.; Martinot, J-Luc.; Martinot, M-Laure.Paillère.; Nees, F.; Orfanos, D.Papadopoulos.; Paus, Táš.; Poustka, L.; Smolka, M.N.; Fröhner, J.H.; Walter, H.; Whelan, R.; Ripke, S.; Schumann, G.; Heinz, A. 2018: Epigenetic variance in dopamine D2 receptor: a marker of IQ malleability?. Translational Psychiatry 8(1): 169

Issa, J-Pierre. 2011: Epigenetic variation and cellular Darwinism. Nature Genetics 43(8): 724-726

Qiu, T.; Liu, Z.; Yang, Y.; Liu, B. 2021: Epigenetic variation associated with responses to different habitats in the context of genetic divergence in Phragmites australis. Ecology and Evolution 11(17): 11874-11889

Alvarado, S.; Rajakumar, R.; Abouheif, E.; Szyf, M. 2015: Epigenetic variation in the Egfr gene generates quantitative variation in a complex trait in ants. Nature Communications 6: 6513

Jablonka, E. 2012: Epigenetic variations in heredity and evolution. Clinical Pharmacology and Therapeutics 92(6): 683-688

Thaulow, J.; Song, Y.; Lindeman, L.C.; Kamstra, J.H.; Lee, Y.; Xie, L.; Aleström, P.; Salbu, B.; Tollefsen, K.E. 2020: Epigenetic, transcriptional and phenotypic responses in Daphnia magna exposed to low-level ionizing radiation. Environmental Research 190: 109930

Michalak, P. 2009: Epigenetic, transposon and small RNA determinants of hybrid dysfunctions. Heredity 102(1): 45-50

Benincasa, G.; Vasco, M.; Corrado, A.; Sansone, A.; Picascia, A.; Napoli, C. 2021: Epigenetic-based therapy in allogenic hematopoietic stem cell transplantation: Novel opportunities for personalized treatment. Clinical Transplantation 35(8): E14306

Lu, V.M.; Daniels, D.J. 2021: Epigenetic-Targeted Treatments for H3K27M-Mutant Midline Gliomas. Advances in Experimental Medicine and Biology 1283: 73-84

Hassanzadeh, M.; Mahernia, S.; Caprini, G.; Fossati, G.; Adib, M.; Moakedi, F.; Amanlou, M. 2020: Epigenetic-based cancer therapeutics: new potential HDAC8 inhibitors. Journal of Biomolecular Structure and Dynamics 2020: 1-15

Marini, F.; Giusti, F.; Brandi, M.Luisa. 2021: Epigenetic-based targeted therapies for well-differentiated pancreatic neuroendocrine tumors: recent advances and future perspectives. Expert Review of Endocrinology and Metabolism 2021: 1-13

Hulf, T.; Sibbritt, T.; Wiklund, E.D.; Patterson, K.; Song, J.Z.; Stirzaker, C.; Qu, W.; Nair, S.; Horvath, L.G.; Armstrong, N.J.; Kench, J.G.; Sutherland, R.L.; Clark, S.J. 2013: Epigenetic-induced repression of microRNA-205 is associated with MED1 activation and a poorer prognosis in localized prostate cancer. Oncogene 32(23): 2891-2899

Mansueto, G.; Benincasa, G.; Della Mura, N.; Nicoletti, G.F.; Napoli, C. 2020: Epigenetic-sensitive liquid biomarkers and personalised therapy in advanced heart failure: a focus on cell-free DNA and microRNAs. Journal of Clinical Pathology 73(9): 535-543

Ji, X.; Lin, L.; Shen, S.; Dong, X.; Chen, C.; Li, Y.; Zhu, Y.; Huang, H.; Chen, J.; Chen, X.; Wei, L.; He, J.; Duan, W.; Su, L.; Jiang, Y.; Fan, J.; Guan, J.; You, D.; Shafer, A.; Bjaanaes, M.M.; Karlsson, A.; Planck, M.; Staaf, J.; Helland, Ås.; Esteller, M.; Wei, Y.; Zhang, R.; Chen, F.; Christiani, D.C. 2020: Epigenetic-smoking interaction reveals histologically heterogeneous effects of TRIM27 DNA methylation on overall survival among early-stage NSCLC patients. Molecular Oncology 14(11): 2759-2774

Russell, S.B.; Russell, J.D.; Trupin, K.M.; Gayden, A.E.; Opalenik, S.R.; Nanney, L.B.; Broquist, A.H.; Raju, L.; Williams, S.M. 2010: Epigenetically altered wound healing in keloid fibroblasts. Journal of Investigative Dermatology 130(10): 2489-2496

Kanki, Y.; Kohro, T.; Jiang, S.; Tsutsumi, S.; Mimura, I.; Suehiro, J-Ichi.; Wada, Y.; Ohta, Y.; Ihara, S.; Iwanari, H.; Naito, M.; Hamakubo, T.; Aburatani, H.; Kodama, T.; Minami, T. 2011: Epigenetically coordinated GATA2 binding is necessary for endothelium-specific endomucin expression. EMBO Journal 30(13): 2582-2595

Sweha, S.R.; Chung, C.; Natarajan, S.K.; Panwalkar, P.; Pun, M.; Ghali, A.; Bayliss, J.; Pratt, D.; Shankar, A.; Ravikumar, V.; Rao, A.; Cieslik, M.; Wilder-Romans, K.; Scott, A.J.; Wahl, D.R.; Jessa, S.; Kleinman, C.L.; Jabado, N.; Mackay, A.; Jones, C.; Martinez, D.; Santi, M.; Judkins, A.R.; Yadav, V.N.; Qin, T.; Phoenix, T.N.; Koschmann, C.J.; Baker, S.J.; Chinnaiyan, A.M.; Venneti, S. 2021: Epigenetically defined therapeutic targeting in H3.3G34R/V high-grade gliomas. Science Translational Medicine 13(615): Eabf 7860

Vishweswaraiah, S.; Swierkowska, J.; Ratnamala, U.; Mishra, N.K.; Guda, C.; Chettiar, S.S.; Johar, K.R.; Mrugacz, M.; Karolak, J.A.; Gajecka, M.; Radhakrishna, U. 2019: Epigenetically dysregulated genes and pathways implicated in the pathogenesis of non-syndromic high myopia. Scientific Reports 9(1): 4145

Summerbell, E.R.; Mouw, J.K.; Bell, J.S.K.; Knippler, C.M.; Pedro, B.; Arnst, J.L.; Khatib, T.O.; Commander, R.; Barwick, B.G.; Konen, J.; Dwivedi, B.; Seby, S.; Kowalski, J.; Vertino, P.M.; Marcus, A.I. 2020: Epigenetically heterogeneous tumor cells direct collective invasion through filopodia-driven fibronectin micropatterning. Science Advances 6(30): Eaaz 6197

Ogiyama, Y.; Ohno, Y.; Kubota, Y.; Ishii, K. 2013: Epigenetically induced paucity of histone H2A.Z stabilizes fission-yeast ectopic centromeres. Nature Structural and Molecular Biology 20(12): 1397-1406

Gondalia, R.; Baldassari, A.; Holliday, K.M.; Justice, A.E.; Stewart, J.D.; Liao, D.; Yanosky, J.D.; Engel, S.M.; Sheps, D.; Jordahl, K.M.; Bhatti, P.; Horvath, S.; Assimes, T.L.; Demerath, E.W.; Guan, W.; Fornage, M.; Bressler, J.; North, K.E.; Conneely, K.N.; Li, Y.; Hou, L.; Baccarelli, A.A.; Whitsel, E.A. 2021: Epigenetically mediated electrocardiographic manifestations of sub-chronic exposures to ambient particulate matter air pollution in the Women's Health Initiative and Atherosclerosis Risk in Communities Study. Environmental Research 198: 111211

Saravanan, V.; Rajamani, A.; Ramasamy, S.; Baazeem, A.; Upadhyaya, I.R. 2021: Epigenetically modified nucleobases (5hmc, 5fc, and 5caC) interaction with boron and nitrogen doped porous graphene (B/N-pGr) as promising materials for biosensing application: a density functional theory calculations. Environmental Research 197: 111133

Yang, S.; Jiang, W.; Yang, W.; Yang, C.; Yang, X.; Chen, K.; Hu, Y.; Shen, G.; Lu, L.; Cheng, F.; Zhang, F.; Rao, J.; Wang, X. 2021: Epigenetically modulated miR-1224 suppresses the proliferation of HCC through CREB-mediated activation of YAP signaling pathway. Molecular Therapy. Nucleic Acids 23: 944-958

Bae, H.; Kim, B.; Lee, H.; Lee, S.; Kang, H-Sung.; Kim, S.Jung. 2017: Epigenetically regulated Fibronectin leucine rich transmembrane protein 2 (FLRT2) shows tumor suppressor activity in breast cancer cells. Scientific Reports 7(1): 272

Ooki, A.; Dinalankara, W.; Marchionni, L.; Tsay, J-Chieh.J.; Goparaju, C.; Maleki, Z.; Rom, W.N.; Pass, H.I.; Hoque, M.O. 2018: Epigenetically regulated PAX6 drives cancer cells toward a stem-like state via GLI-SOX2 signaling axis in lung adenocarcinoma. Oncogene 37(45): 5967-5981

Clark, H.R.; McKenney, C.; Livingston, N.M.; Gershman, A.; Sajjan, S.; Chan, I.S.; Ewald, A.J.; Timp, W.; Wu, B.; Singh, A.; Regot, S. 2021: Epigenetically regulated digital signaling defines epithelial innate immunity at the tissue level. Nature Communications 12(1): 1836

Liang, J.; Zhou, W.; Sakre, N.; DeVecchio, J.; Ferrandon, S.; Ting, A.H.; Bao, S.; Bissett, I.; Church, J.; Kalady, M.F. 2018: Epigenetically regulated miR-1247 functions as a novel tumour suppressor via MYCBP2 in methylator colon cancers. British Journal of Cancer 119(10): 1267-1277

Zhang, X.; Liu, H.; Xie, Z.; Deng, W.; Wu, C.; Qin, B.; Hou, J.; Lu, M. 2016: Epigenetically regulated miR-449a enhances hepatitis B virus replication by targeting cAMP-responsive element binding protein 5 and modulating hepatocytes phenotype. Scientific Reports 6: 25389

Kalimutho, M.; Di Cecilia, S.; Del Vecchio Blanco, G.; Roviello, F.; Sileri, P.; Cretella, M.; Formosa, A.; Corso, G.; Marrelli, D.; Pallone, F.; Federici, G.; Bernardini, S. 2011: Epigenetically silenced miR-34b/c as a novel faecal-based screening marker for colorectal cancer. British Journal of Cancer 104(11): 1770-1778

Frank-Bertoncelj, M.; Trenkmann, M.; Klein, K.; Karouzakis, E.; Rehrauer, H.; Bratus, A.; Kolling, C.; Armaka, M.; Filer, A.; Michel, B.A.; Gay, R.E.; Buckley, C.D.; Kollias, G.; Gay, S.; Ospelt, C. 2017: Epigenetically-driven anatomical diversity of synovial fibroblasts guides joint-specific fibroblast functions. Nature Communications 8: 14852

Guo, Y.; Li, C.; Zhang, R.; Zhan, Y.; Yu, J.; Tu, J.; Zheng, J. 2021: Epigenetically-regulated serum GAS5 as a potential biomarker for patients with chronic hepatitis B virus infection. Cancer Biomarkers: Section a of Disease Markers 32(2): 137-146

Tabe, Y. 2012: Epigenetics. Nihon Rinsho. Japanese Journal of Clinical Medicine 70(Suppl 2): 86-90

Mauron, A. 2013: Epigenetics. Revue Medicale Suisse 9(376): 530-531

Kollenstart, L.; van der Horst, S.C.; Vreeken, K.; Janssen, G.M.C.; Martino, F.; Vlaming, H.; van Veelen, P.A.; van Leeuwen, F.; van Attikum, H. 2021: Epigenetics Identifier screens reveal regulators of chromatin acylation and limited specificity of acylation antibodies. Scientific Reports 11(1): 12795

Kumar, A.; Misra, S.; Nair, P.; Algahtany, M. 2021: Epigenetics Mechanisms in Ischemic Stroke: a Promising Avenue?. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 30(5): 105690

Wong, L.M.; Phoon, L.Q.; Wei, L.K. 2021: Epigenetics Modifications in Large-Artery Atherosclerosis: a Systematic Review. Journal of Stroke and Cerebrovascular Diseases: the Official Journal of National Stroke Association 30(12): 106033

Mirkovic, B.; Chagraoui, A.; Gerardin, P.; Cohen, D. 2020: Epigenetics and Attention-Deficit/Hyperactivity Disorder: new Perspectives?. Frontiers in Psychiatry 11: 579

George, R.M.; Firulli, A.B. 2021: Epigenetics and Heart Development. Frontiers in Cell and Developmental Biology 9: 637996

Shao, B.-Y.; Zhang, S.-F.; Li, H.-D.; Meng, X.-M.; Chen, H.-Y. 2021: Epigenetics and Inflammation in Diabetic Nephropathy. Frontiers in Physiology 12: 649587

Ribatti, D. 2021: Epigenetics and its Ethical Implications. Critical Reviews in Eukaryotic Gene Expression 31(1): 23-27

Kowluru, R.A.; Mohammad, G. 2020: Epigenetics and Mitochondrial Stability in the Metabolic Memory Phenomenon Associated with Continued Progression of Diabetic Retinopathy. Scientific Reports 10(1): 6655

Ding, Q.; Shao, C.; Rose, P.; Zhu, Y.Z. 2020: Epigenetics and Vascular Senescence-Potential new Therapeutic Targets?. Frontiers in Pharmacology 11: 535395

Thorson, J.L.M.; Smithson, M.; Beck, D.; Sadler-Riggleman, I.; Nilsson, E.; Dybdahl, M.; Skinner, M.K. 2017: Epigenetics and adaptive phenotypic variation between habitats in an asexual snail. Scientific Reports 7(1): 14139

Moore, D.S.; Flom, R. 2020: Epigenetics and behavioral development. Infant Behavior and Development 61: 101477

Ordovás, Jé.M.; Smith, C.E. 2010: Epigenetics and cardiovascular disease. Nature Reviews. Cardiology 7(9): 510-519

Forsberg, S.Louise.; Ilieva, M.; Maria Michel, T. 2018: Epigenetics and cerebral organoids: promising directions in autism spectrum disorders. Translational Psychiatry 8(1): 14

Lao, V.Valinluck.; Grady, W.M. 2011: Epigenetics and colorectal cancer. Nature Reviews. Gastroenterology and Hepatology 8(12): 686-700

Dennis, C. 2003: Epigenetics and disease: Altered states. Nature 421(6924): 686-688

Kato, M.; Natarajan, R. 2019: Epigenetics and epigenomics in diabetic kidney disease and metabolic memory. Nature Reviews. Nephrology 15(6): 327-345

Agarwal, G.; Kudapa, H.; Ramalingam, A.; Choudhary, D.; Sinha, P.; Garg, V.; Singh, V.K.; Patil, G.B.; Pandey, M.K.; Nguyen, H.T.; Guo, B.; Sunkar, R.; Niederhuth, C.E.; Varshney, R.K. 2020: Epigenetics and epigenomics: underlying mechanisms, relevance, and implications in crop improvement. Functional and Integrative Genomics 20(6): 739-761

Gibney, E.R.; Nolan, C.M. 2010: Epigenetics and gene expression. Heredity 105(1): 4-13

Kasinski, A.L.; Slack, F.J. 2011: Epigenetics and genetics. MicroRNAs en route to the clinic: progress in validating and targeting micro RNAs for cancer therapy. Nature Reviews. Cancer 11(12): 849-864

Skakkebaek, A.; Viuff, M.; Nielsen, M.M.; Gravholt, C.H. 2020: Epigenetics and genomics in Klinefelter syndrome. American Journal of Medical Genetics. Part C Seminars in Medical Genetics 184(2): 216-225

Issa, J.P.; Baylin, S.B. 1996: Epigenetics and human disease. Nature Medicine 2(3): 281-282

van Dijk, S.J.; Molloy, P.L.; Varinli, H.; Morrison, J.L.; Muhlhausler, B.S.; Buckley, M.; Clark, S.J.; McMillen, I.C.; Noakes, M.; Samaras, K.; Tellam, R.L. 2015: Epigenetics and human obesity. International Journal of Obesity 39(1): 85-97

Hennessy, C.; McKernan, D.P. 2016: Epigenetics and innate immunity: the 'unTolld' story. Immunology and Cell Biology 94(7): 631-639

Zovkic, I.B. 2021: Epigenetics and memory: an expanded role for chromatin dynamics. Current Opinion in Neurobiology 67: 58-65

Ravindran Menon, D.; Hammerlindl, H.; Torrano, J.; Schaider, H.; Fujita, M. 2020: Epigenetics and metabolism at the crossroads of stress-induced plasticity, stemness and therapeutic resistance in cancer. Theranostics 10(14): 6261-6277

Gluckman, P.D. 2011: Epigenetics and metabolism in 2011: Epigenetics, the life-course and metabolic disease. Nature Reviews. Endocrinology 8(2): 74-76

Meng, C.-L.; Zhao, W.; Zhong, D.-N. 2021: Epigenetics and micro RNAs in UGT1As. Human Genomics 15(1): 30

Lattal, K.Matthew.; Wood, M.A. 2013: Epigenetics and persistent memory: implications for reconsolidation and silent extinction beyond the zero. Nature Neuroscience 16(2): 124-129

Ono, A.; Kinoshita, T. 2021: Epigenetics and plant reproduction: Multiple steps for responsibly handling succession. Current Opinion in Plant Biology 61: 102032

Bhattacharya, D.; Pomeroy, S.L.; Pomeranz Krummel, D.A.; Sengupta, S. 2020: Epigenetics and survivorship in pediatric brain tumor patients. Journal of Neuro-Oncology 150(1): 77-83

Ramahi, A.; Altorok, N.; Kahaleh, B. 2020: Epigenetics and systemic sclerosis: An answer to disease onset and evolution?. European Journal of Rheumatology 7(Suppl 3): S147-S156

Long, A.; Bunning, B.; Sampath, V.; DeKruyff, R.H.; Nadeau, K.C. 2020: Epigenetics and the Environment in Airway Disease: Asthma and Allergic Rhinitis. Advances in Experimental Medicine and Biology 1253: 153-181

Zhang, D.; Yu, Z-yuan.; Cruz, P.; Kong, Q.; Li, S.; Kone, B.C. 2009: Epigenetics and the control of epithelial sodium channel expression in collecting duct. Kidney International 75(3): 260-267

Gomes, T.M.; Dias da Silva, D.; Carmo, H.; Carvalho, F.él.; Silva, J.ão.P. 2020: Epigenetics and the endocannabinoid system signaling: An intricate interplay modulating neurodevelopment. Pharmacological Research 162: 105237

Feil, R.; Fraga, M.F. 2012: Epigenetics and the environment: emerging patterns and implications. Nature Reviews. Genetics 13(2): 97-109

Lotem, J.; Sachs, L. 2006: Epigenetics and the plasticity of differentiation in normal and cancer stem cells. Oncogene 25(59): 7663-7672

Mounger, J.; Ainouche, M.L.; Bossdorf, O.; Cavé-Radet, A.; Li, B.; Parepa, M.; Salmon, A.; Yang, J.; Richards, C.L. 2021: Epigenetics and the success of invasive plants. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 376(1826): 20200117

Peedicayil, J. 2014: Epigenetics and the war on mental illness. Molecular Psychiatry 19(9): 960

Weiner, A.K.M.; Katz, L.A. 2021: Epigenetics as Driver of Adaptation and Diversification in Microbial Eukaryotes. Frontiers in Genetics 12: 642220

Clausing, E.S.; Non, A.L. 2021: Epigenetics as a Mechanism of Developmental Embodiment of Stress, Resilience, and Cardiometabolic Risk Across Generations of Latinx Immigrant Families. Frontiers in Psychiatry 12: 696827

Glasspool, R.M.; Teodoridis, J.M.; Brown, R. 2006: Epigenetics as a mechanism driving polygenic clinical drug resistance. British Journal of Cancer 94(8): 1087-1092

Cheptou, P-O.; Donohue, K. 2013: Epigenetics as a new avenue for the role of inbreeding depression in evolutionary ecology. Heredity 110(3): 205-206

Petronis, A. 2010: Epigenetics as a unifying principle in the aetiology of complex traits and diseases. Nature 465(7299): 721-727

Muyle, A.; Bachtrog, D.; Marais, G.A.B.; Turner, J.M.A. 2021: Epigenetics drive the evolution of sex chromosomes in animals and plants. Philosophical Transactions of the Royal Society of London. Series B Biological Sciences 376(1826): 20200124

Cao, J.-M.; Wang, N.; Hou, S.-Y.; Qi, X.; Xiong, W. 2021: Epigenetics effect on pathogenesis of thyroid-associated ophthalmopathy. International Journal of Ophthalmology 14(9): 1441-1448

Pirola, C.Jose.; Sookoian, S. 2020: Epigenetics factors in nonalcoholic fatty liver disease. Expert Review of Gastroenterology and Hepatology 2020: 1-16

Akbaba, T.H.; Sag, E.; Balci-Peynircioglu, B.; Ozen, S. 2020: Epigenetics for Clinicians from the Perspective of Pediatric Rheumatic Diseases. Current Rheumatology Reports 22(8): 46

Richardson, B.C.; Patel, D.R. 2014: Epigenetics in 2013. DNA methylation and miRNA: key roles in systemic autoimmunity. Nature Reviews. Rheumatology 10(2): 72-74

Wu, L.; Zhang, Y.; Ren, J. 2021: Epigenetic modification in alcohol use disorder and alcoholic cardiomyopathy: From pathophysiology to therapeutic opportunities. Metabolism, Clinical and Experimental 125: 154909

Zhang, L.; Lu, Q.; Chang, C. 2020: Epigenetics in Health and Disease. Advances in Experimental Medicine and Biology 1253: 3-55

Sharma, K.; Vignesh, P.; Srivastava, P.; Sharma, J.; Chaudhary, H.; Mondal, S.; Kaur, A.; Kaur, H.; Singh, S. 2021: Epigenetics in Kawasaki Disease. Frontiers in Pediatrics 9: 673294

Mitra, P.; Misra, S.; Sharma, P. 2021: Epigenetics in Lead Toxicity: new Avenues for Future Research. Indian Journal of Clinical Biochemistry: Ijcb 36(2): 129-130

Chan, V.S.-F. 2020: Epigenetics in Multiple Sclerosis. Advances in Experimental Medicine and Biology 1253: 309-374

Sodum, N.; Kumar, G.; Bojja, S.L.; Kumar, N.; Rao, C.M. 2021: Epigenetics in NAFLD/NASH: Targets and therapy. Pharmacological Research 167: 105484

Mendiola, A.J.P.; LaSalle, J.M. 2021: Epigenetics in Prader-Willi Syndrome. Frontiers in Genetics 12: 624581

Bordron, A.; Devauchelle-Pensec, V.ér.; Le Dantec, C.; Capdeville, A.; Brooks, W.H.; Renaudineau, Y. 2020: Epigenetics in Primary Sjögren's Syndrome. Advances in Experimental Medicine and Biology 1253: 285-308

Arteaga, M.F.; Mikesch, J-H.; Fung, T-K.; So, C.W.E. 2015: Epigenetics in acute promyelocytic leukaemia pathogenesis and treatment response: a TRAnsition to targeted therapies. British Journal of Cancer 112(3): 413-418

Ihezie, S.A.; Mathew, I.E.; McBride, D.W.; Dienel, A.; Blackburn, S.L.; Thankamani Pandit, P.K. 2021: Epigenetics in blood-brain barrier disruption. Fluids and Barriers of the Cns 18(1): 17

Estey, E.H. 2013: Epigenetics in clinical practice: the examples of azacitidine and decitabine in myelodysplasia and acute myeloid leukemia. Leukemia 27(9): 1803-1812

Hübel, C.; Marzi, S.J.; Breen, G.; Bulik, C.M. 2019: Epigenetics in eating disorders: a systematic review. Molecular Psychiatry 24(6): 901-915

Fernández-Barrena, M.G.; Arechederra, M.ía.; Colyn, L.; Berasain, C.; Avila, M.A. 2020: Epigenetics in hepatocellular carcinoma development and therapy: the tip of the iceberg. Jhep Reports: Innovation in Hepatology 2(6): 100167

Egger, G.; Liang, G.; Aparicio, A.; Jones, P.A. 2004: Epigenetics in human disease and prospects for epigenetic therapy. Nature 429(6990): 457-463

Ding, H.; Zhang, L.; Yang, Q.; Zhang, X.; Li, X. 2021: Epigenetics in kidney diseases. Advances in Clinical Chemistry 104: 233-297

Schagdarsurengin, U.; Steger, K. 2016: Epigenetics in male reproduction: effect of paternal diet on sperm quality and offspring health. Nature Reviews. Urology 13(10): 584-595

Pan, X.; Zheng, L. 2020: Epigenetics in modulating immune functions of stromal and immune cells in the tumor microenvironment. Cellular and Molecular Immunology 17(9): 940-953

Zhang, L.; Hofer, T.P.; Zawada, A.M.; Rotter, B.ör.; Krezdorn, N.; Noessner, E.; Devaux, Y.; Heine, G.; Ziegler-Heitbrock, L. 2020: Epigenetics in non-classical monocytes support their pro-inflammatory gene expression. Immunobiology 225(3): 151958

Ramos-Cruz, D.; Troyee, A.N.; Becker, C. 2021: Epigenetics in plant organismic interactions. Current Opinion in Plant Biology 61: 102060

Conteduca, V.; Hess, J.; Yamada, Y.; Ku, S.-Y.; Beltran, H. 2021: Epigenetics in prostate cancer: clinical implications. Translational Andrology and Urology 10(7): 3104-3116

Luo, Y.; Qu, K.; Kuai, L.; Ru, Y.; Huang, K.; Yan, X.; Xing, M. 2021: Epigenetics in psoriasis: perspective of DNA methylation. Molecular Genetics and Genomics: Mgg 296(5): 1027-1040

Weigel, C.; Schmezer, P.; Plass, C.; Popanda, O. 2015: Epigenetics in radiation-induced fibrosis. Oncogene 34(17): 2145-2155

Joosten, S.C.; Smits, K.M.; Aarts, M.J.; Melotte, V.; Koch, A.; Tjan-Heijnen, V.C.; van Engeland, M. 2018: Epigenetics in renal cell cancer: mechanisms and clinical applications. Nature Reviews. Urology 15(7): 430-451

Zhang, P.; Zhang, M. 2021: Epigenetics in the Pathogenesis and Treatment of Cutaneous T-Cell Lymphoma. Frontiers in Oncology 11: 663961

Houston, I.; Peter, C.J.; Mitchell, A.; Straubhaar, J.; Rogaev, E.; Akbarian, S. 2013: Epigenetics in the human brain. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 183-197

Kim, H.; Kulkarni, R.N. 2020: Epigenetics in β-cell adaptation and type 2 diabetes. Current Opinion in Pharmacology 55: 125-131

Reiner, D.; Seifert, L.; Deck, C.; Schüle, R.; Jung, M.; Stark, H. 2020: Epigenetics meets GPCR: inhibition of histone H3 methyltransferase (G9a) and histamine H 3 receptor for Prader-Willi Syndrome. Scientific Reports 10(1): 13558

Cristancho, A.G.; Marsh, E.D. 2020: Epigenetics modifiers: potential hub for understanding and treating neurodevelopmental disorders from hypoxic injury. Journal of Neurodevelopmental Disorders 12(1): 37

Barragan, I. 2020: Epigenetics modulates the complexity of the response to Immune Checkpoint Blockade. Ebiomedicine 60: 103005

Chen, H.; Malentacchi, F.; Fambrini, M.; Harrath, A.H.; Huang, H.; Petraglia, F. 2020: Epigenetics of Estrogen and Progesterone Receptors in Endometriosis. Reproductive Sciences 27(11): 1967-1974

Maude, H.; Sanchez-Cabanillas, C.; Cebola, I.ês. 2021: Epigenetics of Hepatic Insulin Resistance. Frontiers in Endocrinology 12: 681356

Klasić, M.; Zoldoš, V. 2021: Epigenetics of Immunoglobulin G Glycosylation. Experientia Supplementum 112: 289-301

Longley, J.; Johnson, P.W.M. 2021: Epigenetics of Indolent Lymphoma and how it Drives Novel Therapeutic Approaches-Focus on EZH2-Targeted Drugs. Current Oncology Reports 23(7): 76

Rotondo, J.C.; Lanzillotti, C.; Mazziotta, C.; Tognon, M.; Martini, F. 2021: Epigenetics of Male Infertility: the Role of DNA Methylation. Frontiers in Cell and Developmental Biology 9: 689624

Li, Y.; Tang, R.; Ma, X. 2020: Epigenetics of Primary Biliary Cholangitis. Advances in Experimental Medicine and Biology 1253: 259-283

Longley, M.J.; Lee, J.; Jung, J.; Lohoff, F.W. 2021: Epigenetics of alcohol use disorder-A review of recent advances in DNA methylation profiling. Addiction Biology 26(6): E13006

Jung, G.; Hernández-Illán, E.; Moreira, L.; Balaguer, F.; Goel, A. 2020: Epigenetics of colorectal cancer: biomarker and therapeutic potential. Nature Reviews. Gastroenterology and Hepatology 17(2): 111-130

Lai, P.; Wang, Y. 2021: Epigenetics of cutaneous T-cell lymphoma: biomarkers and therapeutic potentials. Cancer Biology and Medicine 18(1): 34-51

Cedar, H.; Bergman, Y. 2011: Epigenetics of haematopoietic cell development. Nature Reviews. Immunology 11(7): 478-488

Arngrímsson, R. 2005: Epigenetics of hypertension in pregnancy. Nature Genetics 37(5): 460-461

Cadet, J.Lud.; Jayanthi, S. 2013: Epigenetics of methamphetamine-induced changes in glutamate function. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 248-249

Itzykson, R.; Fenaux, P. 2014: Epigenetics of myelodysplastic syndromes. Leukemia 28(3): 497-506

Saito, T.; Toda, H.; Duncan, G.N.; Jellison, S.S.; Yu, T.; Klisares, M.J.; Daniel, S.; Andreasen, A.J.; Leyden, L.R.; Hellman, M.M.; Shinozaki, E.; Lee, S.; Yoshino, A.; Cho, H.R.; Shinozaki, G. 2020: Epigenetics of neuroinflammation: Immune response, inflammatory response and cholinergic synaptic involvement evidenced by genome-wide DNA methylation analysis of delirious inpatients. Journal of Psychiatric Research 129: 61-65

Leader, B.A.; Koritala, B.S.C.; Moore, C.A.; Grigg Dean, E.H.; Kottyan, L.C.; Smith, D.F. 2021: Epigenetics of obstructive sleep apnea syndrome: a systematic review. Journal of Clinical Sleep Medicine: Jcsm: Official Publication of the American Academy of Sleep Medicine 17(12): 2533-2541

He, J.; Cao, W.; Azeem, I.; Shao, Z. 2020: Epigenetics of osteoarthritis: Histones and TGF-β1. Clinica Chimica Acta; International Journal of Clinical Chemistry 510: 593-598

Sun, H.; Kennedy, P.J.; Nestler, E.J. 2013: Epigenetics of the depressed brain: role of histone acetylation and methylation. Neuropsychopharmacology: Official Publication of the American College of Neuropsychopharmacology 38(1): 124-137

Borowska-Zuchowska, N.; Hasterok, R. 2017: Epigenetics of the preferential silencing of Brachypodium stacei-originated 35S rDNA loci in the allotetraploid grass Brachypodium hybridum. Scientific Reports 7(1): 5260

Senn, S. 2006: Epigenetics or ephemeral genetics?. European Journal of Human Genetics: Ejhg 14(11): 1149; Author Reply 1149-50

Esteller, M. 2006: Epigenetics provides a new generation of oncogenes and tumour-suppressor genes. British Journal of Cancer 94(2): 179-183

Singh, M.; Hardin, S.J.; George, A.K.; Eyob, W.; Stanisic, D.; Pushpakumar, S.; Tyagi, S.C. 2020: Epigenetics, 1-Carbon Metabolism, and Homocysteine During Dysbiosis. Frontiers in Physiology 11: 617953

Ebner, B.F.; Chueng, T.; Martinez, C.A. 2021: Epigenetics, HIV, and Cardiovascular Disease Risk. Current Problems in Cardiology 46(3): 100615

Bhargavan, B.; Kanmogne, G.D. 2019: Epigenetics, N-myrystoyltransferase-1 and casein kinase-2-alpha modulates the increased replication of HIV-1 CRF02_AG, compared to subtype-B viruses. Scientific Reports 9(1): 10689

Koletzko, B. 2019: Epigenetics, Nutrition and Growth. World Review of Nutrition and Dietetics 120: 48-60

Koletzko, B. 2021: Epigenetics, Nutrition and Growth. World Review of Nutrition and Dietetics 123: 59-71

Ahmad, S.H.; Assaf, M.D.; Herbein, G. 2021: Epigenetics, a new therapeutic target for fighting viral infections. Virologie 25(2): 63-92

Maldonado, R.; Martin, M. 2016: Epigenetics, behavior and early nicotine. Nature Neuroscience 19(7): 863-864

Millis, R.M. 2009: Epigenetics, essential hypertension and renin-angiotensin system upregulation in the offspring of water-deprived pregnant rats. Hypertension Research: Official Journal of the Japanese Society of Hypertension 32(12): 1051-1052

Streifer, M.; Gore, A.C. 2021: Epigenetics, estrogenic endocrine-disrupting chemicals (EDCs), and the brain. Advances in Pharmacology 92: 73-99

Pacini, G.; Paolino, S.; Andreoli, L.; Tincani, A.; Gerosa, M.; Caporali, R.; Iagnocco, A.; Ospelt, C.; Smith, V.; Cutolo, M. 2020: Epigenetics, pregnancy and autoimmune rheumatic diseases. Autoimmunity Reviews 19(12): 102685

Li, X.; Yang, Y.; Chen, S.; Zhou, J.; Li, J.; Cheng, Y. 2021: Epigenetics-based therapeutics for myocardial fibrosis. Life Sciences 271: 119186

Burgess, D.J. 2012: Epigenetics. Dissecting driving DNA methylations. Nature Reviews. Cancer 12(7): 448-449

McCarthy, N. 2012: Epigenetics. Going places with BANCR. Nature Reviews. Cancer 12(7): 451

McCarthy, N. 2011: Epigenetics. Layer by layer. Nature Reviews. Cancer 11(12): 830

Jouve de la Barreda, N.ás. 2020: Epigenetics. Mechanism and significance in gene regulation. Cuadernos de Bioetica: Revista Oficial de la Asociacion Espanola de Bioetica y Etica Medica 31(103): 405-419

Patterson, M. 2001: Epigenetics. Satellite tools. Nature Reviews. Genetics 2(1): 4-5

Saavedra, K.; Salazar, L.A. 2021: Epigenetics: a Missing Link Between Early Life Stress and Depression. Advances in Experimental Medicine and Biology 1305: 117-128

Juruena, M.F.; Gadelrab, R.; Cleare, A.J.; Young, A.H. 2020: Epigenetics: A missing link between early life stress and depression. ProgressinNeuro-PsychopharmacologyandBiologicalPsychiatry 2020: 110231

Kietrys, A.M.; Kool, E.T. 2016: Epigenetics: A new methyl mark on messengers. Nature 530(7591): 423-424

Marriott, L.; Charbonneau, A.; Moss, B.; Shannon, J.; Thornburg, K.; Turker, M. 2016: Epigenetics: a new science for middle school - and why you should teach it. Science Scope 39(6): 6-11

Waldron, D. 2016: Epigenetics: A three-state model for epigenetic silencing. Nature Reviews. Genetics 17(4): 192-193

Hsieh, T-Fu. 2016: Epigenetics: A tug of war for DNA methylation. Nature Plants 2(11): 16171

Dart, A. 2017: Epigenetics: Addicted to reading. Nature Reviews. Cancer 17(4): 207

Pfeifer, G.P. 2016: Epigenetics: An elusive DNA base in mammals. Nature 532(7599): 319-320

Burgess, D.J. 2013: Epigenetics: Bacterial DNA methylation gets SMRT. Nature Reviews. Genetics 14(1): 4

Geach, T. 2016: Epigenetics: Blood-based markers for T2DM. Nature Reviews. Endocrinology 12(6): 311

Gehring, M. 2016: Epigenetics: Cell-type methylomes in the root. Nature Plants 2(5): 16061

Reik, W.; Kelsey, G. 2014: Epigenetics: Cellular memory erased in human embryos. Nature 511(7511): 540-541

Zlotorynski, E. 2015: Epigenetics: Characterizing enhancers with dCas9. Nature Reviews. Molecular Cell Biology 16(5): 266-267

Villanueva, M.Teresa. 2015: Epigenetics: Chromatin marks the spot. Nature Reviews. Cancer 15(4): 196-197

Seton-Rogers, S. 2015: Epigenetics: Chromatin reorganization on a 'mega' scale. Nature Reviews. Cancer 15(9): 512-513

Seton-Rogers, S. 2015: Epigenetics: Chromatin reorganization on a 'mega' scale. Nature Reviews. Genetics 16(9): 498-499

Renaudineau, Y.; Ballestar, E. 2016: Epigenetics: DNA methylation signatures in Sjögren syndrome. Nature Reviews. Rheumatology 12(10): 565-566

Flintoft, L. 2011: Epigenetics: Dad's diet lives on. Nature Reviews. Genetics 12(2): 80

Swami, M. 2010: Epigenetics: Demethylation links cell fate and cancer. Nature Reviews. Genetics 11(11): 749

Onuora, S. 2015: Epigenetics: Demethylation of IFN-regulated genes in SLE neutrophils. Nature Reviews. Rheumatology 11(3): 128

Trojer, P. 2015: Epigenetics: Disrupting histone lysine methylation. Nature Chemical Biology 11(8): 552-554

Carney, E.F. 2017: Epigenetics: Disturbed imprinting in pre-eclampsia. Nature Reviews. Nephrology 13(11): 663

Holmes, D. 2016: Epigenetics: Don't stress dad - it's bad for your kids' health. Nature Reviews. Endocrinology 12(6): 312

Stower, H. 2012: Epigenetics: Dynamic DNA methylation. Nature Reviews. Genetics 13(2): 75

Heintze, J.M. 2018: Epigenetics: EWAS of kidney function. Nature Reviews. Nephrology 14(1): 3

Baumann, K. 2014: Epigenetics: Enhancers under TET control. Nature Reviews. Molecular Cell Biology 15(11): 699

Guibert, S.; Weber, M. 2012: Epigenetics: Erase for a new start. Nature 492(7429): 363-364

Waldron, D. 2015: Epigenetics: Fatherly histone influences. Nature Reviews. Genetics 16(12): 685

Strzyz, P. 2017: Epigenetics: Getting instructions from mum. Nature Reviews. Genetics 18(9): 513

Strzyz, P. 2017: Epigenetics: Getting instructions from mum. Nature Reviews. Molecular Cell Biology 18(9): 531

Burgess, D.J. 2014: Epigenetics: H3K27 methylation in transgenerational epigenetic memory. Nature Reviews. Genetics 15(11): 703

Allison, S.J. 2018: Epigenetics: H3K27me3 in glomerular disease. Nature Reviews. Nephrology 14(3): 143

Alderton, G.K. 2015: Epigenetics: Histone methylation: it's in the numbers. Nature Reviews. Cancer 15(1): 1

Patten, M.M. 2016: Epigenetics: Imprinting evolution in Arabidopsis. Nature Plants 2(10): 16152

Chalker, D.L. 2014: Epigenetics: Keeping one's sex. Nature 509(7501): 430-431

Whalley, K. 2017: Epigenetics: Leaving a lasting mark. Nature Reviews. Neuroscience 18(12): 710

Kåhrström, C.Tobin. 2013: Epigenetics: Legionella makes its mark on histones. Nature Reviews. Genetics 14(6): 370

Zuccala, E. 2016: Epigenetics: Making marks in oocyte development. Nature Reviews. Genetics 17(2): 68-69

Harada, B.T.; He, C. 2017: Epigenetics: Making your mark on DNA. Nature Chemistry 9(11): 1040-1042

Ledford, H. 2012: Epigenetics: Marked for success. Nature 483(7391): 637-639

Zlotorynski, E. 2017: Epigenetics: Maternal TRIM28 for male embryos. Nature Reviews. Molecular Cell Biology 18(3): 138-139

Burgess, D.J. 2012: Epigenetics: Melanoma insights written in the DNA. Nature Reviews. Cancer 12(11): 738-739

Dart, A. 2018: Epigenetics: Methylating patterns. Nature Reviews. Cancer 18(4): 206

Seton-Rogers, S. 2013: Epigenetics: Methylation reboot. Nature Reviews. Cancer 13(5): 292

Zuccala, E. 2016: Epigenetics: Misdirecting methylation to drive oncogenesis. Nature Reviews. Cancer 16(7): 410

Ospelt, C.; Frank-Bertoncelj, M. 2016: Epigenetics: New insights into site-specific variations in RA and OA. Nature Reviews. Rheumatology 12(9): 506-507

Greenhill, C. 2015: Epigenetics: Obesity-induced hypermethylation of adiponectin gene. Nature Reviews. Endocrinology 11(9): 504

Holmes, D. 2016: Epigenetics: On-off switch for obesity. Nature Reviews. Endocrinology 12(3): 125

Seton-Rogers, S. 2015: Epigenetics: Place your BETs. Nature Reviews. Cancer 15(11): 638

Marx, V. 2012: Epigenetics: Reading the second genomic code. Nature 491(7422): 143-147

Feil, R. 2009: Epigenetics: Ready for the marks. Nature 461(7262): 359-360

Xiao, X.; Liu, X.; Jiao, B. 2020: Epigenetics: Recent Advances and its Role in the Treatment of Alzheimer's Disease. Frontiers in Neurology 11: 538301

Burgess, D.J. 2017: Epigenetics: Rich pore methods for DNA methylation detection. Nature Reviews. Genetics 18(4): 209

Rong, D.; Sun, G.; Wu, F.; Cheng, Y.; Sun, G.; Jiang, W.; Li, X.; Zhong, Y.; Wu, L.; Zhang, C.; Tang, W.; Wang, X. 2021: Epigenetics: Roles and therapeutic implications of non-coding RNA modifications in human cancers. Molecular Therapy. Nucleic Acids 25: 67-82

Burgess, D.J. 2016: Epigenetics: Separate paths for epigenomes and genomes in cancer evolution?. Nature Reviews. Genetics 17(8): 438

McCarthy, N. 2013: Epigenetics: Showing a more sensitive side. Nature Reviews. Cancer 13(10): 680

Nestler, E.J. 2012: Epigenetics: Stress makes its molecular mark. Nature 490(7419): 171-172

Ahmed, F. 2010: Epigenetics: Tales of adversity. Nature 468(7327): S20

Travers, J.; Blagg, J.; Workman, P. 2011: Epigenetics: Targeting leukemia on the DOT. Nature Chemical Biology 7(10): 663-665

Véron, N.; Peters, A.H.F.M. 2011: Epigenetics: Tet proteins in the limelight. Nature 473(7347): 293-294

Ledford, H. 2015: Epigenetics: The genome unwrapped. Nature 528(7580): S12-S13

Paszkowski, J. 2015: Epigenetics: The karma of oil palms. Nature 525(7570): 466-467

Hughes, V. 2014: Epigenetics: The sins of the father. Nature 507(7490): 22-24

Burgess, D.J. 2017: Epigenetics: Therapy-induced transcription is cryptically widespread. Nature Reviews. Cancer 17(8): 456

Dart, A. 2017: Epigenetics: Tumour suppressive HIF2α. Nature Reviews. Cancer 17(8): 453

Brower, V. 2011: Epigenetics: Unravelling the cancer code. Nature 471(7339): S12-S13

McCarthy, N. 2013: Epigenetics: WIP1 creates hush and havoc. Nature Reviews. Cancer 13(12): 822

Greenhill, C. 2016: Epigenetics: Weight change alters the spermatozoal epigenome. Nature Reviews. Endocrinology 12(2): 62

McCarthy, N. 2011: Epigenetics: Worth another look?. Nature Reviews. Cancer 12(1): 2

Stower, H. 2013: Epigenetics: X inactivation by titration. Nature Reviews. Genetics 14(8): 518

Welberg, L. 2014: Epigenetics: a lingering smell?. Nature Reviews. Neuroscience 15(1): 1

Koch, L. 2014: Epigenetics: an epigenetic twist on the missing heritability of complex traits. Nature Reviews. Genetics 15(4): 218

Jones, B. 2012: Epigenetics: detecting the dynamics and memory of heterochromatin. Nature Reviews. Genetics 13(8): 517

Whalley, K. 2011: Epigenetics: from father to son. Nature Reviews. Neuroscience 12(10): 548

Djupedal, I.; Ekwall, K. 2009: Epigenetics: heterochromatin meets RNAi. Cell Research 19(3): 282-295

Lokody, I. 2014: Epigenetics: histone methyltransferase mutations promote leukaemia. Nature Reviews. Cancer 14(4): 214-215

Osley, M.Ann. 2008: Epigenetics: how to lose a tail. Nature 456(7224): 885-886

Muers, M. 2011: Epigenetics: inheriting a long life. Nature Reviews. Genetics 12(12): 806-807

Welberg, L. 2013: Epigenetics: keeping it in the family. Nature Reviews. Neuroscience 14(7): 458-459

Burris, H.H.; Baccarelli, A.A.; Wright, R.O.; Wright, R.J. 2016: Epigenetics: linking social and environmental exposures to preterm birth. Pediatric Research 79(1-2): 136-140

Ferguson-Smith, A.C.; Greally, J.M. 2007: Epigenetics: perceptive enzymes. Nature 449(7159): 148-149

McCarthy, N. 2014: Epigenetics: prognosis based on commitment signature. Nature Reviews. Cancer 14(3): 153

Wright, J. 2013: Epigenetics: reversible tags. Nature 498(7455): S10-S11

Jones, R.S. 2007: Epigenetics: reversing the 'irreversible'. Nature 450(7168): 357-359

Whitelaw, E. 2006: Epigenetics: sins of the fathers, and their fathers. European Journal of Human Genetics: Ejhg 14(2): 131-132

Klein, G. 2005: Epigenetics: surveillance team against cancer. Nature 434(7030): 150

Wrighton, K.H. 2014: Epigenetics: the TRPM7 ion channel modifies histones. Nature Reviews. Molecular Cell Biology 15(7): 427

McCarthy, N. 2013: Epigenetics: the long view. Nature Reviews. Cancer 13(2): 76

Qiu, J. 2006: Epigenetics: unfinished symphony. Nature 441(7090): 143-145

Peery, R.C.; Pammi, M.; Claud, E.; Shen, L. 2021: Epigenome - a mediator for host-microbiome crosstalk. Seminars in Perinatology 45(6): 151455

Ching, T-Ting.; Maunakea, A.K.; Jun, P.; Hong, C.; Zardo, G.; Pinkel, D.; Albertson, D.G.; Fridlyand, J.; Mao, J-Hua.; Shchors, K.; Weiss, W.A.; Costello, J.F. 2005: Epigenome analyses using BAC microarrays identify evolutionary conservation of tissue-specific methylation of SHANK3. Nature Genetics 37(6): 645-651

Breiling, A.; O'Neill, L.P.; D'Eliseo, D.; Turner, B.M.; Orlando, V. 2004: Epigenome changes in active and inactive polycomb-group-controlled regions. Embo Reports 5(10): 976-982

Johannes, F.; Colot, V.; Jansen, R.C. 2008: Epigenome dynamics: a quantitative genetics perspective. Nature Reviews. Genetics 9(11): 883-890

Hilton, I.B.; D'Ippolito, A.M.; Vockley, C.M.; Thakore, P.I.; Crawford, G.E.; Reddy, T.E.; Gersbach, C.A. 2015: Epigenome editing by a CRISPR-Cas9-based acetyltransferase activates genes from promoters and enhancers. Nature Biotechnology 33(5): 510-517

Zentner, G.E.; Henikoff, S. 2015: Epigenome editing made easy. Nature Biotechnology 33(6): 606-607

Kabadi, A.M.; Machlin, L.; Dalal, N.; Lee, R.E.; McDowell, I.; Shah, N.N.; Drowley, L.; Randell, S.H.; Reddy, T.E. 2022: Epigenome editing of the CFTR-locus for treatment of cystic fibrosis. Journal of Cystic Fibrosis: Official Journal of the European Cystic Fibrosis Society 21(1): 164-171

Elsner, M. 2018: Epigenome editing to the rescue. Nature Biotechnology 36(4): 315

Katsnelson, A. 2010: Epigenome effort makes its mark. Nature 467(7316): 646

Manukyan, M.; Singh, P.B. 2014: Epigenome rejuvenation: HP1β mobility as a measure of pluripotent and senescent chromatin ground states. Scientific Reports 4: 4789

Lee, M.Y.; Lee, J.; Hyeon, S.J.; Cho, H.; Hwang, Y.J.; Shin, J.-Y.; McKee, A.C.; Kowall, N.W.; Kim, J.-I.; Stein, T.D.; Hwang, D.; Ryu, H. 2020: Epigenome signatures landscaped by histone H3K9me3 are associated with the synaptic dysfunction in Alzheimer's disease. Aging Cell 19(6): E13153

Hoang, T.T.; Qi, C.; Paul, K.C.; Lee, M.; White, J.D.; Richards, M.; Auerbach, S.S.; Long, S.; Shrestha, S.; Wang, T.; Beane Freeman, L.E.; Hofmann, J.N.; Parks, C.; Xu, C.-J.; Ritz, B.; Koppelman, G.H.; London, S.J. 2021: Epigenome-Wide DNA Methylation and Pesticide use in the Agricultural Lung Health Study. Environmental Health Perspectives 129(9): 97008

Dong, Y.-M.; Li, M.; He, Q.-E.; Tong, Y.-F.; Gao, H.-Z.; Zhang, Y.-Z.; Wu, Y.-M.; Hu, J.; Zhang, N.; Song, K. 2020: Epigenome-Wide Tobacco-Related Methylation Signature Identification and their Multilevel Regulatory Network Inference for Lung Adenocarcinoma. Biomed Research International 2020: 2471915

Lee, D.; Zhang, J.; Liu, J.; Gerstein, M. 2020: Epigenome-based splicing prediction using a recurrent neural network. Plos Computational Biology 16(6): E1008006

Amatullah, H.; Jeffrey, K.L. 2020: Epigenome-metabolome-microbiome axis in health and IBD. Current Opinion in Microbiology 56: 97-108

Everson, T.M.; Marsit, C.J.; Michael O'Shea, T.; Burt, A.; Hermetz, K.; Carter, B.S.; Helderman, J.; Hofheimer, J.A.; McGowan, E.C.; Neal, C.R.; Pastyrnak, S.L.; Smith, L.M.; Soliman, A.; DellaGrotta, S.A.; Dansereau, L.M.; Padbury, J.F.; Lester, B.M. 2019: Epigenome-wide Analysis Identifies Genes and Pathways Linked to Neurobehavioral Variation in Preterm Infants. Scientific Reports 9(1): 6322

Krushkal, J.; Silvers, T.; Reinhold, W.C.; Sonkin, D.; Vural, S.; Connelly, J.; Varma, S.; Meltzer, P.S.; Kunkel, M.; Rapisarda, A.; Evans, D.; Pommier, Y.; Teicher, B.A. 2020: Epigenome-wide DNA methylation analysis of small cell lung cancer cell lines suggests potential chemotherapy targets. Clinical Epigenetics 12(1): 93

Ennour-Idrissi, K.; Dragic, D.; Durocher, F.; Diorio, C. 2020: Epigenome-wide DNA methylation and risk of breast cancer: a systematic review. Bmc Cancer 20(1): 1048

Weber, A.; Schwarz, S.C.; Tost, Jörg.; Trümbach, D.; Winter, P.; Busato, F.; Tacik, P.; Windhorst, A.C.; Fagny, M.; Arzberger, T.; McLean, C.; van Swieten, J.C.; Schwarz, J.; Vogt Weisenhorn, D.; Wurst, W.; Adhikary, T.; Dickson, D.W.; Höglinger, Günter.U.; Müller, U. 2018: Epigenome-wide DNA methylation profiling in Progressive Supranuclear Palsy reveals major changes at DLX1. Nature Communications 9(1): 2929

Fan, X.; Li, Y.; Yi, X.; Chen, G.; Jin, S.; Dai, Y.; Cui, B.; Dai, B.; Lin, H.; Zhou, D. 2020: Epigenome-wide DNA methylation profiling of portal vein tumor thrombosis (PVTT) tissues in hepatocellular carcinoma patients. Neoplasia 22(11): 630-643