Sex, Gender, and Epigenetics From Molecule to Bedside
Coordonnateurs : Legato J Marianne, Feldberg Dov, Glezerman Marek
Here, international leaders in the field discuss both sex-specific normal physiology and the experience of disease, with chapters dedicated to fetal programming, the microbiome, cancer, bipolar disorder and schizophrenia, embryogenesis, and oocyte aging, among other topics.
2. A critical view of the revolution of precision medicine. Genetics, epigenetics, sex, and gender
3. Genetic and epigenetic contributions to female-biased lupus disease: X-chromosome inactivation in immune cells
4. Genetic, molecular, and cellular determinations of sex-specific cardiovascular traits
5. Epigenetics and mental and physical health of children born after ART
6. Epigenetic aspects of male infertility treatment
7. Evidence for assisted reproductive technology associated epigenetic variation in humans
8. Deconvoluting the functional role of DNA methylation in trauma; Implications for epigenetic therapy and prospects of targeted “epigenetic therapy
9. Antenatal Origins of Health and Disease—A clinician’s perspective
10. Maternal anxiety during pregnancy and the lack of fetal DNA methylation in cord blood
11. DNA methylation and other epigenetic modifications mediating the transgenerational impacts of paternal exposures on offspring phenotypes
12. Epigenetics and psychiatry
13. Integrative transcriptomics reveals sexually dimorphic control of the cholinergic/neurokine interface in schizophrenia and bipolar disorder
14. Gender specific neurobehavioral and gene expression changes in a valproic acid (VPA)–induced mouse model of autistic like behavior and correction by S-adenosylmethionine (SAMe)
15. Genetics and epigenetics of the onecarbon metabolism pathway in autism spectrum disorder: Role of a sex-specific brain epigenome
16. Novel mechanisms for gene regulation: Chemical tags on RNA molecules
17. Genes, environments, and epigenetics
18. Epigenetic mechanisms linking poor maternal nutrition during pregnancy to the cardio-metabolic health of offspring
19. Epigenetic aspects of human reproduction and early pregnancy
20. Sex-specific impact of maternal metabolic environment on the development of the offspring, from gametogenesis to infancy and beyond
21. Mitochondria as epigenetic regulators of reproductive aging
22. The fetal programming of telomere biology hypothesis
23. Brain organoids modeling of genetic and environmental impact on neurodevelopmental traits
Dr. Dov Feldberg, MD is a very active clinically and academically Ob/Gyn specialist mainly in the field of reproductive medicine for 37 years. He obtained his expertise in Reproductive Medicine at the Yale and Cornell Hospitals and Universities in USA and became one of the pioneers in the field of ART in Israel. He was an Acting Chairman and Vice Chairman of the Ob/Gyn Division at the Rabin Medical Center in Israel. For many years he was the secretary and treasurer of the The Israel Society for Gender-and Sex Conscious Medicine (IsraGem) and the treasurer of the International Society of Gender Medicine (IGM). He is the president of the Israeli Society of Psychosomatics in Ob/Gyn. He published about 130 scientific articles in the field of Reproductive Medicine and many chapters in books.
- Examines the impact of biological sex and gender on gene expression through epigenetic mechanisms, and its relationship to human biology and disease
- Presents the current state of our understanding of how environmental experience is translated to future generations in a sex specific manner
- Features chapter contributions from international leaders in the field
Date de parution : 05-2023
Ouvrage de 314 p.
19x23.4 cm
Mots-clés :
epigenetics; translational epigenetics; sex and epigenetics; gender and epigenetics; sex-specific epigenetics; epigenetics and reproductive medicine; Fetal programming; Sex Conscious Medicine; Personal Medicine; precision medicine; Sex Differences in the Brain; Transcriptomes; Epigenetic Inheritance; transgenerational epigenetics; Oocyte Aging; Mammalian Gametes; RNA Modifications; Polymorphic Imprinting; Environment and Epigenetics