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.