Bibliografía
Libros de divulgación complementarios
- Bueno, D. (2016). Cerebroflexia. El arte de construir el cerebro. Barcelona: Plataforma Editorial.
- Carey, N. (2013). La revolución epigenética. Vilassar de Dalt: Intervención Cultural.
- Esteller, M. (2017). No soy mi ADN. Barcelona: RBA.
- Francis, R. C. (2012). Epigenetics: How Environment Shapes Our Genes. Nueva York: W. W. Norton.
Libros académicos
- Allis, C. D. (ed.) (2015). Epigenetics. Nueva York: Cold Spring Harbour Laboratory Press.
- Armstrong, L. (2013). Epigenetics. Nueva York: Garland Science.
- Bueno, D. (2018). «Bases moleculares y celulares de la herencia biológica», en: Redolar Ripoll, D. Psicobiología. Madrid: Editorial Médica Panamericana.
- Rosenfeld, C. (ed.) (2015). The Epigenome and Developmental Origins of Health and Disease. Cambridge (Massachusetts): Academic Press.
Artículos especializados
- Adhikari, S., y Curtis, P. D. (2016). «DNA methyltransferases and epigenetic regulation in bacteria», FEMS Microbioly Reviews, vol. 40, n.º 5, pp. 575-591.
- Ahuja, N.; Sharma, A. R., y Baylin, S. B. (2016). «Epigenetic Therapeutics: A New Weapon in the War Against Cancer», Annual Review of Medicine, vol. 67, pp. 73-89.
- Ambatipudi, S.; Cuenin, C.; Hernandez-Vargas, H.; Ghantous, A.; Le Calvez-Kelm, F.; Kaaks, R.; Barrdahl, M.; Boeing, H.; Aleksandrova, K.; Trichopoulou, A.; Lagiou, P.; Naska, A.; Palli, D.; Krogh, V.; Polidoro, S.; Tumino, R.; Panico, S.; Bueno-de-Mesquita, B.; Peeters, P. H.; Quirós, J. R.; Navarro, C.; Ardanaz, E.; Dorronsoro, M.; Key, T.; Vineis, P.; Murphy, N.; Riboli, E.; Romieu, I., y Herceg, Z. (2016). «Tobacco smoking-associated genome-wide DNA methylation changes in the EPIC study», Epigenomics, vol. 8, n.º 5, pp. 599-618.
- Anderson, O. S.; Sant, K. E., y Dolinoy, D. C. (2012). «Nutrition and epigenetics: an interplay of dietary methyl donors, one-carbon metabolism and DNA methylation», The Journal of Nutritional Biochemistry, vol. 23, n.º 8, pp. 853-859.
- Balanyà, J.; Oller, J. M.; Huey, R. B.; Gilchrist, G. W., y Serra, L. (2006). «Global genetic change tracks global climate warming in Drosophila subobscura», Science, vol. 313, n.º 5.794, pp. 1.773-1.775.
- Bale, T. L. (2015). «Epigenetic and transgenerational reprogramming of brain development», Nature Reviews Neuroscience, vol. 16, n.º 6, pp. 332-344.
- Balter, M. (2015). «Can epigenetics explain homosexuality puzzle?», Science, vol. 350, n.º 6.257, p. 148.
- Barrès, R., y Zierath, J. R. (2016). «The role of diet and exercise in the transgenerational epigenetic landscape of T2DM», Nature Reviews Endocrinology, vol. 12, n.º 8, pp. 441-451.
- Bevilacqua, L., y Goldman, D. (2011). «Genetics of emotion», Trends in Cognitive Sciences, vol. 15, n.º 9, pp. 401-408.
- Block, T., y El-Osta, A. (2017). «Epigenetic programming, early life nutrition and the risk of metabolic disease», Atherosclerosis, vol. 266, pp. 31-40.
- Breton, C. V.; Siegmund, K. D.; Joubert, B. R.; Wang, X.; Qui, W.; Carey, V.; Nystad, W.; Håberg, S. E.; Ober, C.; Nicolae, D.; Barnes, K. C.; Martinez, F.; Liu, A.; Lemanske, R.; Strunk, R.; Weiss, S.; London, S.; Gilliland, F., y Raby, B. (2014). «Prenatal tobacco smoke exposure is associated with childhood DNA CpG methylation», PLoS One, vol. 9, n.º 6, e99716.
- Brown, W. M. (2015). «Exercise-associated DNA methylation change in skeletal muscle and the importance of imprinted genes: a bioinformatics meta-analysis», British Journal of Sports Medicine, doi: 10.1136/bjsports-2014-094073.
- Bueno, D.; Parvas, M., y Garcia-Fernàndez, J. (2014). «The embryonic blood-cerebrospinal fluid barrier function before the formation of the fetal choroid plexus: role in cerebrospinal fluid formation and homeostasis», Croatian Medical Journal, vol. 55, n.º 4, pp. 306-316.
- Bueno, D.; Parvas, M.; Hermelo, I., y Garcia-Fernàndez, J. (2014). «Embryonic blood-cerebrospinal fluid barrier formation and function», Frontiers in Neuroscience, vol. 8, p. 343.
- Carlberg, C.; Seuter, S.; Nurmi, T.; Tuomainen, T. P.; Virtanen, J. K., y Neme, A. (2018). «In vivo response of the human epigenome to vitamin D: A Proof-of-principle study», The Journal of Steroid Biochemistry and Molecular Biology, pii: S0960-0760(18)30003-7.
- Chakraborty, N.; Muhie, S.; Kumar, R.; Gautam, A.; Srinivasan, S.; Sowe, B.; Dimitrov, G.; Miller, S. A.; Jett, M, y Hammamieh, R. (2017). «Contributions of polyunsaturated fatty acids (PUFA) on cerebral neurobiology: an integrated omics approach with epigenomic focus», The Journal of Nutritional Biochemistry, vol. 42, pp. 84-94.
- Chango, A., y Pogribny, I. P. (2015). «Considering maternal dietary modulators for epigenetic regulation and programming of the fetal epigenome», Nutrients, vol. 7, n.º 4, pp. 2.748-2.770.
- Chastain, L. G., y Sarkar, D. K. (2017). «Alcohol effects on the epigenome in the germline: Role in the inheritance of alcohol-related pathology», Alcohol, vol. 60, pp. 53-66.
- Comerford, K. B., y Pasin, G. (2017). «Gene-Dairy Food Interactions and Health Outcomes: A Review of Nutrigenetic Studies», Nutrients, vol. 9, n.º 7, p. 710.
- Corella, D.; Coltell, O.; Macian, F., y Ordovás, J. M. (2018). «Advances in Understanding the Molecular Basis of the Mediterranean Diet Effect», Annual Review of Food Science and Technology, vol. 9, pp. 227-249.
- De Castro Barbosa, T.; Ingerslev, L. R.; Alm, P. S.; Versteyhe, S.; Massart, J.; Rasmussen, M.; Donkin, I.; Sjögren, R.; Mudry, J. M.; Vetterli, L.; Gupta, S.; Krook, A.; Zierath, J. R., y Barrès, R. (2015). «High-fat diet reprograms the epigenome of rat spermatozoa and transgenerationally affects metabolism of the offspring», Molecular Metabolism, vol. 5, n.º 3, pp. 184-197.
- Denham, J. (2018). «Exercise and epigenetic inheritance of disease risk», Acta Physiologica (Oxford), vol. 222, n.º 1, e12881.
- Dias, B. G., y Ressler, K. J. (2014). «Parental olfactory experience influences behavior and neural structure in subsequent generations», Nature Neuroscience, vol. 17, n.º 1, pp. 89-96.
- Eggertson, L. (2010). «Lancet retracts 12-year-old article linking autism to MMR vaccines», Canadian Medical Association Journal, vol. 182, n.º 4, pp. E199-E200.
- Ehlert, T.; Simon, P., y Moser, D. A. (2013). «Epigenetics in sports», Sports Medicine, vol. 43, n.º 2, pp. 93-110.
- Elliott, E.; Ezra-Nevo, G.; Regev, L.; Neufeld-Cohen, A., y Chen, A. (2010). «Resilience to social stress coincides with functional DNA methylation of the Crf gene in adult mice», Nature Neuroscience, vol. 13, n.º 11, pp. 1.351-1.353.
- Farris, S. P.; Harris, R. A., y Ponomarev, I. (2015). «Epigenetic modulation of brain gene networks for cocaine and alcohol abuse», Frontiers in Neuroscience, vol. 9, p. 176.
- Gaine, M. E.; Chatterjee, S., y Abel, T. (2018). «Sleep Deprivation and the Epigenome», Frontiers in Neural Circuits, vol. 12, p. 14.
- Geraghty, A. A.; Lindsay, K. L.; Alberdi, G.; McAuliffe, F. M., y Gibney, E. R. (2016). «Nutrition During Pregnancy Impacts Offspring’s Epigenetic Status-Evidence from Human and Animal Studies», Nutrition and Metabolic Insights, vol. 8 (supl. 1), pp. 41-47.
- Ghosh, S., y Bouchard, C. (2017). «Convergence between biological, behavioural and genetic determinants of obesity», Nature Reviews Genetics, vol. 18, n.º 12, pp. 731-748.
- Gonzalez-Nahm, S.; Mendez, M.; Robinson, W.; Murphy, S. K.; Hoyo, C.; Hogan, V., y Rowley, D. (2017). «Low maternal adherence to a Mediterranean diet is associated with increase in methylation at the MEG3-IG differentially methylated region in female infants», Environmental Epigenetics, vol. 3, n.º 2, dvx007.
- Grazioli, E.; Dimauro, I.; Mercatelli, N.; Wang, G.; Pitsiladis, Y.; Di Luigi, L., y Caporossi, D. (2017). «Physical activity in the prevention of human diseases: role of epigenetic modifications», BMC Genomics, vol. 18 (supl. 8), p. 802.
- Griffin, E. A. Jr.; Melas, P. A.; Zhou, R.; Li, Y.; Mercado, P.; Kempadoo, K. A.; Stephenson, S.; Colnaghi, L.; Taylor, K.; Hu, M. C.; Kandel, E. R., y Kandel, D. B. (2017). «Prior alcohol use enhances vulnerability to compulsive cocaine self-administration by promoting degradation of HDAC4 and HDAC5», Science Advances, vol. 3, n.º 11, e1701682.
- Haggarty, P. (2012). «Nutrition and the epigenome», Progress in Molecular Biology and Translational Science, vol. 108, pp. 427-446.
- Hamm, C. A., y Costa, F. F. (2015). «Epigenomes as therapeutic targets», Pharmacology & Therapeutics, vol. 151, pp. 72-86.
- Harkess, K. N.; Ryan, J.; Delfabbro, P. H., y Cohen-Woods, S. (2016). «Preliminary indications of the effect of a brief yoga intervention on markers of inflammation and DNA methylation in chronically stressed women», Translational Psychiatry, vol. 6, n.º 11, e965.
- Heerboth, S.; Lapinska, K.; Snyder, N.; Leary, M.; Rollinson, S., y Sarkar, S. (2014). «Use of epigenetic drugs in disease: an overview», Genetics & Epigenetics, vol. 6, pp. 9-19.
- Heyward, F. D., y Sweatt, J. D. (2015). «DNA Methylation in Memory Formation: Emerging Insights», The Neuroscientist, vol. 21, n.º 5, pp. 475-489.
- Hsieh, H. Y.; Chiu, P. H., y Wang, S. C. (2011). «Epigenetics in traditional chinese pharmacy: a bioinformatic study at pharmacopoeia scale», Evidence-Based Complementary and Alternative Medicine, vol. 2.011, art. ID: 816714.
- Hu, Q., y Baeg, G. H. (2017). «Role of epigenome in tumorigenesis and drug resistance», Food and Chemical Toxicology, vol. 109 (parte 1), pp. 663-668.
- Hu, X. Q., y Su, S. B. (2017). «An overview of epigenetics in Chinese medicine researches», Chinese Journal of Integrative Medicine, vol. 23, n.º 9, pp. 714-720.
- Ideraabdullah, F. Y., y Zeisel, S. H. (2018). «Dietary Modulation of the Epigenome», Physiological Reviews, vol. 98, n.º 2, pp. 667-695.
- Jangra, A.; Sriram, C. S.; Pandey, S.; Choubey, P.; Rajput, P.; Saroha, B.; Bezbaruah, B. K., y Lahkar, M. (2016). «Epigenetic Modifications, Alcoholic Brain and Potential Drug Targets», Annals of Neurosciences, vol. 23, n.º 4, pp. 246-260.
- Jarome, T. J.; Thomas, J. S., y Lubin, F. D. (2014). «The epigenetic basis of memory formation and storage», Progress in Molecular Biology and Translational Science, vol. 128, pp. 1-27.
- Kaliman, P.; Alvarez-López, M. J.; Cosín-Tomás, M.; Rosenkranz, M. A.; Lutz, A., y Davidson, R. J. (2014). «Rapid changes in histone deacetylases and inflammatory gene expression in expert meditators», Psychoneuroendocrinology, vol. 40, pp. 96-107.
- Kanwal, R.; Datt, M.; Liu, X., y Gupta, S. (2016). «Dietary Flavones as Dual Inhibitors of DNA Methyltransferases and Histone Methyltransferases», PLoS One, vol. 11, n.º 9, e0162956.
- Kelly, A. D., e Issa, J. J. (2017). «The promise of epigenetic therapy: reprogramming the cancer epigenome», Current Opinion in Genetics & Development, vol. 42, pp. 68-77.
- Khan, S. N.; Jankowska, A. M.; Mahfouz, R.; Dunbar, A. J.; Sugimoto, Y.; Hosono, N.; Hu, Z.; Cheriyath, V.; Vatolin, S.; Przychodzen, B.; Reu, F. J.; Saunthararajah, Y.; O’Keefe, C.; Sekeres, M. A.; List, A. F.; Moliterno, A. R.; McDevitt, M. A.; Maciejewski, J. P., y Makishima, H. (2013). «Multiple mechanisms deregulate EZH2 and histone H3 lysine 27 epigenetic changes in myeloid malignancies», Leukemia, vol. 27, n.º 6, pp. 1.301-1.309.
- Kokare, D. M.; Kyzar, E. J.; Zhang, H.; Sakharkar, A. J., y Pandey, S. C. (2017). «Adolescent Alcohol Exposure-Induced Changes in Alpha-Melanocyte Stimulating Hormone and Neuropeptide Y Pathways via Histone Acetylation in the Brain During Adulthood», International Journal of Neuropsychopharmacology, vol. 20, n.º 9, pp. 758-768.
- Kozuka, C.; Kaname, T.; Shimizu-Okabe, C.; Takayama, C.; Tsutsui, M.; Matsushita, M.; Abe, K., y Masuzaki, H. (2017). «Impact of brown rice-specific γ-oryzanol on epigenetic modulation of dopamine D2 receptors in brain striatum in high-fat-diet-induced obesity in mice», Diabetologia, vol. 60, n.º 8, pp. 1.502-1.511.
- Kudinova, A. Y.; Deak, T.; Deak, M. M., y Gibb, B. E. (2017). «Circulating Levels of Brain-Derived Neurotrophic Factor and History of Suicide Attempts in Women», Suicide Life-Threatening Behavior, doi: 10.1111/sltb.12403.
- Lee, H. S. (2015). «Impact of Maternal Diet on the Epigenome during In Utero Life and the Developmental Programming of Diseases in Childhood and Adulthood», Nutrients, vol. 7, n.º 11, pp. 9.492-9.507.
- Lewis, K. A., y Tollefsbol, T. O. (2017). «The influence of an epigenetics diet on the cancer epigenome», Epigenomics, vol. 9, n.º 9, pp. 1.153-1.155.
- Lisoway, A. J.; Zai, C. C.; Tiwari, A. K., y Kennedy, J. L. (2017). «DNA methylation and clinical response to antidepressant medication in major depressive disorder: A review and recommendations», Neuroscience Letters, vol. 669, pp. 14-23.
- Liu, C. D.; Yang, L.; Pu, H. Z.; Yang, Q.; Huang, W. Y.; Zhao, X.; Zhu, L., y Zhang, S. H. (2017). «Epigenetics regulates gene expression patterns of skeletal muscle induced by physical exercise», Yi Chuan, vol. 39, n.º 10, pp. 888-896.
- Lubin, F. D.; Gupta, S.; Parrish, R. R.; Grissom, N. M., y Davis, R. (2011). «Epigenetic Mechanisms: Critical Contributors to Long-Term Memory Formation», The Neuroscientist, vol. 17, n.º 6, pp. 616-632.
- Luco, R. F.; Pan, Q.; Tominaga, K.; Blencowe, B. J.; Pereira-Smith, O. M., y Misteli, T. (2010). «Regulation of Alternative Splicing by Histone Modifications», Science, vol. 327, n.º 5.968, pp. 996-1.000.
- Lukas, M.; Bredewold, R.; Neumann, I. D., y Veenema, A. H. (2010). «Maternal separation interferes with developmental changes in brain vasopressin and oxytocin receptor binding in male rats», Neuropharmacology, vol. 58, n.º 1, pp. 78-87.
- Maleszka, R. (2008). «Epigenetic integration of environmental and genomic signals in honey bees: the critical interplay of nutritional, brain and reproductive networks», Epigenetics, vol. 3, n.º 4, pp. 188-192.
- Martin, E. M., y Fry, R. C. (2018). «Environmental Influences on the Epigenome: Exposure- Associated DNA Methylation in Human Populations», Annual Review of Public Health, vol. 39, pp. 309-333.
- Massart, R.; Barnea, R.; Dikshtein, Y.;, Suderman, M.; Meir, O.; Hallett, M.; Kennedy, P.; Nestler, E. J.; Szyf, M., y Yadid, G. (2015). «Role of DNA methylation in the nucleus accumbens in incubation of cocaine craving», Journal of Neuroscience, vol. 35, n.º 21, pp. 8.042-8.058.
- Matosin, N.; Cruceanu, C., y Binder, E. B. (2017). «Preclinical and Clinical Evidence of DNA Methylation Changes in Response to Trauma and Chronic Stress», Chronic Stress, vol. 1, doi: 10.1177/2470547017710764.
- McGowan, P. O.; Sasaki, A.; D’Alessio, A. C.; Dymov, S.; Labonté, B.; Szyf, M.; Turecki, G., y Meaney, M. J. (2009). «Epigenetic regulation of the glucocorticoid receptor in human brain associates with childhood abuse», Nature Neuroscience, vol. 12, n.º 3, pp. 342-348.
- McGowan, P. O.; Suderman, M.; Sasaki, A.; Huang, T. C.; Hallett, M.; Meaney, M. J., y Szyf, M. (2011). «Broad epigenetic signature of maternal care in the brain of adult rats», PLoS One, vol. 6, n.º 2, e14739.
- Montrose, L.; Ward, T. J.; Semmens, E. O.; Cho, Y. H.; Brown, B., y Noonan, C. W. (2017). «Dietary intake is associated with respiratory health outcomes and DNA methylation in children with asthma», Allergy, Asthma & Clinical Immunology, vol. 13, p.12.
- Muka, T.; Koromani, F.; Portilla, E.; O’Connor, A.; Bramer, W. M.; Troup, J.; Chowdhury, R.; Dehghan, A., y Franco, O. H. (2016). «The role of epigenetic modifications in cardiovascular disease: A systematic review», International Journal of Cardiology, vol. 212, pp. 174-183.
- Niederberger, E.; Resch, E.; Parnham, M. J., y Geisslinger, G. (2017). «Drugging the pain epigenome», Nature Reviews Neurology, vol. 13, n.º 7, pp. 434-447.
- Nieratschker, V.; Batra, A., y Fallgatter, A. J. (2016). «Genetics and epigenetics of alcohol dependence», Journal of Molecular Psychiatry, vol. 1, p. 11.
- Parira, T.; Laverde, A., y Agudelo, M. (2017). «Epigenetic Interactions between Alcohol and Cannabinergic Effects: Focus on Histone Modification and DNA Methylation», Journal of Alcoholism and Drug Dependence, vol. 5, n.º 2, p. 259.
- Parvas, M., y Bueno, D. (2010). «The embryonic blood-CSF barrier has molecular elements to control E-CSF osmolarity during early CNS development», Journal of Neuroscience Research, vol. 88, n.º 6, pp. 1.205-1.212.
- Phan, M. L., y Bieszczad, K. M. (2016). «Sensory Cortical Plasticity Participates in the Epigenetic Regulation of Robust Memory Formation», Neural Plasticity, vol. 2.016, art. ID: 7254297.
- Philibert, R., y Erwin, C. (2015). «A Review of Epigenetic Markers of Tobacco and Alcohol Consumption», Behavioral Sciences & The Law, vol. 33, n.º 5, pp. 675-690.
- Plusquin, M.; Guida, F.; Polidoro, S.; Vermeulen, R.; Raaschou-Nielsen, O.; Campanella, G.; Hoek, G.; Kyrtopoulos, S. A.; Georgiadis, P.; Naccarati, A.; Sacerdote, C.; Krogh, V.; Bas Bueno-de-Mesquita, H.; Monique Verschuren, W. M.; Sayols-Baixeras, S.; Panni, T.; Peters, A.; Hebels, D. G. A. J.; Kleinjans, J.; Vineis, P., y Chadeau-Hyam, M. (2017). «DNA methylation and exposure to ambient air pollution in two prospective cohorts», Environment International, vol. 108, pp. 127-136.
- Pogribny, I. P., y Rusyn, I. (2013). «Environmental toxicants, epigenetics, and cancer», en: Karpf, A. (ed.). Epigenetic Alterations in Oncogenesis. Advances in Experimental Medicine and Biology. Nueva York: Springer, vol. 754, pp. 215-232.
- Potaczek, D. P.; Harb, H.; Michel, S.; Alhamwe, B. A.; Renz, H., y Tost, J. (2017). «Epigenetics and allergy: from basic mechanisms to clinical applications», Epigenomics, vol. 9, n.º 4, pp. 539-571.
- Prokopuk, L.; Western, P. S., y Stringer, J. M. (2015). «Transgenerational epigenetic inheritance: adaptation through the germline epigenome?», Epigenomics, vol. 7, n.º 5, pp. 829-846.
- Provençal, N., y Binder, E. B. (2015). «The effects of early life stress on the epigenome: From the womb to adulthood and even before», Experimental Neurology, vol. 268, pp. 10-20.
- Ramos-López, O.; Arpón, A.; Riezu-Boj, J. I.; Milagro, F. I.; Mansego, M. L., y Martínez, J. A. (2018). «DNA methylation patterns at sweet taste transducing genes are associated with BMI and carbohydrate intake in an adult population», Appetite, vol. 120, pp. 230-239.
- Sadino, J. M., y Donaldson, Z. R. (2018). «Prairie Voles as a Model for Understanding the Genetic and Epigenetic Regulation of Attachment Behaviors», ACS Chemical Neuroscience, doi: 10.1021/acschemneuro.7b00475.
- Sadri-Vakili, G. (2015). «Cocaine triggers epigenetic alterations in the corticostriatal circuit», Brain Research, vol. 1.628 (parte A), pp. 50-59.
- Sathyanarayana Rao, T. S., y Andrade, C. (2011). «The MMR vaccine and autism: Sensation, refutation, retraction, and fraud», Indian Journal of Psychiatry, vol. 53, n.º 2, pp. 95-96.
- Schagdarsurengin, U., y Steger, K. (2016). «Epigenetics in male reproduction: effect of paternal diet on sperm quality and offspring health», Nature Reviews Urology, vol. 13, n.º 10, pp. 584-595.
- Sharples, A. P.; Stewart, C. E., y Seaborne, R. A. (2016). «Does skeletal muscle have an ‘epi’-memory? The role of epigenetics in nutritional programming, metabolic disease, aging and exercise», Aging Cell, vol. 15, n.º 4, pp. 603-616.
- Singhal, A. (2017). «Early Life Origins of Obesity and Related Complications», The Indian Journal of Pediatrics, vol. 85, n.º 6, pp. 472-477, doi: 10.1007/s12098-017-2554-3.
- Sipahi, L.; Wildman, D. E.; Aiello, A. E.; Koenen, K. C.; Galea, S.; Abbas, A., y Uddin, M. (2014). «Longitudinal epigenetic variation of DNA methyltransferase genes is associated with vulnerability to post-traumatic stress disorder», Psychological Medicine, vol. 44, n.º 15, pp. 3.165-3.179.
- Soci, U. P. R.; Melo, S. F. S.; Gomes, J. L. P.; Silveira, A. C.; Nóbrega, C., y De Oliveira, E. M. (2017). «Exercise Training and Epigenetic Regulation: Multilevel Modification and Regulation of Gene Expression», en: Xiao, J. (ed.). Exercise for Cardiovascular Disease Prevention and Treatment. Advances in Experimental Medicine and Biology. Singapur: Springer, vol. 1.000, pp. 281-322.
- Soubry, A. (2018). «Epigenetics as a Driver of Developmental Origins of Health and Disease: Did We Forget the Fathers?», BioEssays, vol. 40, n.º 1.
- Stegemann, R., y Buchner, D. A. (2015). «Transgenerational inheritance of metabolic disease», Seminars in Cell & Developmental Biology, vol. 43, pp. 131-140.
- Su, D.; Wang, X.; Campbell, M. R.; Porter, D. K.; Pittman, G. S.; Bennett, B. D.; Wan, M.; Englert, N. A.; Crowl, C. L.; Gimple, R. N.; Adamski, K. N.; Huang, Z.; Murphy, S. K., y Bell, D. A. (2016). «Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes», PLoS One, vol. 11, n.º 12, e0166486.
- Szutorisz, H., y Hurd, Y. L. (2016). «Epigenetic Effects of Cannabis Exposure», Biological Psychiatry, vol. 79, n.º 7, pp. 586-594.
- Tachibana, M. (2016). «Epigenetics of sex determination in mammals», Reproductive Medicine and Biology, vol. 15, n.º 2, pp. 59-67.
- Tapia-Orozco, N.; Santiago-Toledo, G.; Barrón, V.; Espinosa-García, A. M.; García-García, J. A., y García-Arrazola, R. (2017). «Environmental epigenomics: Current approaches to assess epigenetic effects of endocrine disrupting compounds (EDC’s) on human health», Environmental Toxicology and Pharmacology, vol. 51, pp. 94-99.
- Uchida, S., y Shumyatsky, G. P. (2018). «Epigenetic regulation of Fgf1 transcription by CRTC1 and memory enhancement», Brain Research Bulletin, pii: S0361-9230(17)30396-9.
- Ungerer, M.; Knezovich, J., y Ramsay, M. (2013). «In utero alcohol exposure, epigenetic changes, and their consequences», Alcohol Research: Current Reviews, vol. 35, n.º 1, pp. 37-46.
- Vaillancourt, K.; Ernst, C.; Mash, D., y Turecki, G. (2017). «DNA Methylation Dynamics and Cocaine in the Brain: Progress and Prospects», Genes, vol. 8, n.º 5, E138.
- Vassoler, F. M., y Sadri-Vakili, G. (2014). «Mechanisms of transgenerational inheritance of addictive-like behaviors», Neuroscience, vol. 264, pp. 198-206.
- Veenema, A. H.; Bredewold, R., y Neumann, I. D. (2007). «Opposite effects of maternal separation on intermale and maternal aggression in C57BL/6 mice: link to hypothalamic vasopressin and oxytocin immunoreactivity», Psychoneuroendocrinology, vol. 32, n.º 5, pp. 437-450.
- Veenema, A. H. (2012). «Toward understanding how early-life social experiences alter oxytocin- and vasopressin-regulated social behaviors», Hormones and Behavior, vol. 61, n.º 3, pp. 304-312.
- Yuan, T. F.; Li, A.; Sun, X.; Ouyang, H.; Campos, C.; Rocha, N. B. F.; Arias-Carrión, O.; Machado, S.; Hou, G., y So, K. F. (2016). «Transgenerational Inheritance of Paternal Neurobehavioral Phenotypes: Stress, Addiction, Ageing and Metabolism», Molecular Neurobiology, vol. 53, n.º 9, pp. 6.367-6.376.
- Zimmer, P., y Bloch, W. (2015). «Physical exercise and epigenetic adaptations of the cardiovascular system», Herz, vol. 40, n.º 3, pp. 353-360.