000			04440cam a2200337 i 4500
001			29177
003			OSt
005			20250506092726.0
008			190702s2019 enka b 001 0 eng c
020			_a9780128168431 _q(pbk.)
040			_aNLM _beng _cNLM _erda
082	7	4	_223 _a576.5 _bN976
245	1	0	_aNutritional epigenomics / _cedited by Bradley S. Ferguson.
264		1	_aLondon, United Kingdom : _bElsevier/Academic Press, _c[2019]
300			_axxiii, 454 pages : _billustrations ; _c24 cm.
336			_atext _btxt _2rdacontent
337			_aunmediated _bn _2rdamedia
338			_avolume _bnc _2rdacarrier
490	1		_aTranslational epigenetics ; _vvolume 14
504			_aIncludes bibliographical references and index.
505	0		_aSECTION 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
520			_a"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 nutritional epigenomic regulators of gene expression, our diet's role in epigenomic regulation of disease and disease inheritance, caloric restriction and exercise as they relate to recent epigenomic findings, and the influence of nutritional epigenomics over circadian rhythms, aging and longevity, and fetal health and development, among other processes. Disease specific chapters address metabolic disease (obesity and diabetes), cancer, and neurodegeneration, among other disorders."--Provided by publisher.
650		4	_aNutrition _xGenetic aspects.
650		4	_aEpigenetics.
700	1		_aFerguson, Bradley S., _eeditor.
776	0	8	_iElectronic version: _tNutritional epigenomics. _dLondon, United Kingdom : Academic Press, an imprint of Elsevier, 2019 _z9780128173107 _w(OCoLC)1110183967
830		0	_aTranslational epigenetics series ; _vv. 14.
910			_aASEEL
942			_2ddc _n0 _cBK
999			_c29177 _d29177