Nutritional epigenomics /

"Nutritional Epigenomics offers a comprehensive overview of nutritional epigenomics as a mode of study, along with nutrition's role in the epigenomic regulation of disease, health and developmental processes. Here, an expert team of international contributors introduces readers to nutritio...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ferguson, Bradley S. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, United Kingdom : Academic Press, an imprint of Elsevier, 2019.
Colección:Translational epigenetics series ; v. 14.
Temas:
Nutrition > Genetic aspects.
Epigenetics.
Dietetics.
Epigenomics
Nutritional Sciences
Nutrigenomics
Nutrig�enomique.
�Epig�en�etique.
Di�et�etique.
Dietetics
Epigenetics
Nutrition > Genetic aspects
Internet Resources.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • SECTION I Introduction
  • 1. Introduction to nutritional epigenomics
  • SECTION II Epigenetic regulators
  • 2. DNA methylation and chromatin modifications
  • 3. Small non-coding RNAs as epigenetic regulators
  • SECTION III Epigenomic regulation of disease
  • 4. The impact of race and ethnicity in the social epigenomic regulation of disease
  • 5. The epigenomic impact of methylation in metabolic dysfunction and cancer
  • 6. The role for DNA/RNA methylation on neurocognitive dysfunctions
  • 7. Histone acylation in the epigenomic regulation of insulin action and metabolic disease
  • 8. Cancer and non-coding RNAs
  • 9. Race in the social-epigenomic regulation of pre- and perinatal development
  • 10. Maternal nutrition, epigenetic programming and metabolic syndrome
  • 11. Epigenetic inheritance of metabolic signals
  • 12. The paternal diet regulates the offspring epigenome and health
  • SECTION V Nutritional epigenomics and the circadian clock
  • 13. The interplay between diet, epigenetics and the circadian clock
  • 14. Epigenetic regulation of the fetal circadian clock: implications for nutritional programming of circadian and metabolic function
  • 15. The role for the microbiome in the regulation of the circadian clock and metabolism
  • SECTION VI Carloric restriction and exercise in the epigenomic regulation of aging and disease
  • 16. Epigenomic reprogramming of caloric restriction on aging
  • 17. Dietary restriction in the epigenomic regulation of cardiovascular diseases
  • 18. Epigenomic adaptations of exercise in the control of metabolic disease and cancer
  • SECTION VII Macro- and micronutrients as epigenomic regulators of health and disease
  • 19. B-vitamins and one-carbon metabolism: impacts on the epigenome during development
  • 20. Food bioactives in the epigenomic regulation of metabolic disease
  • 21. Stilbenoids as dietary regulators of the cancer epigenome
  • 22. Regulation of non-coding RNAs by phytochemicals for cancer therapy
  • 23. Short chain fatty acids as epigenetic and metabolic regulators of neurocognitive health and disease
  • SECTION VIII Diet, epigenetics and the microbiome
  • 24. Diet-microbiome interactions and the regulation of the epigenome
  • 25. Gut dysbiosis and its epigenomic impact on disease
  • 26. Microbiota, the brain and epigenetics

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