Neonatal exposure to genistein induces estrogen receptor (ER)alpha expression and multioocyte follicles in the maturing mouse ovary: evidence for ERbeta-mediated and nonestrogenic actions.
about
Long-term effects of environmental endocrine disruptors on reproductive physiology and behaviorXenobiotic effects on ovarian preantral folliclesNTP-CERHR expert panel report on the reproductive and developmental toxicity of genisteinA Mouse Model for Studying Nutritional Programming: Effects of Early Life Exposure to Soy Isoflavones on Bone and Reproductive HealthThe developmental origins of the mammalian ovarian reserveThe Role of Epigenetics in the Latent Effects of Early Life Exposure to Obesogenic Endocrine Disrupting ChemicalsInteraction of Isoflavones with the BCRP/ABCG2 Drug TransporterThe effects of dietary polyphenols on reproductive health and early developmentProceedings of the Summit on Environmental Challenges to Reproductive Health and Fertility: executive summaryPostweaning dietary genistein exposure advances puberty without significantly affecting early pregnancy in C57BL/6J female miceEpigenetic effects of endocrine-disrupting chemicals on female reproduction: an ovarian perspectiveThe pros and cons of phytoestrogensOverlapping but distinct effects of genistein and ethinyl estradiol (EE(2)) in female Sprague-Dawley rats in multigenerational reproductive and chronic toxicity studiesSoy but not bisphenol A (BPA) induces hallmarks of polycystic ovary syndrome (PCOS) and related metabolic co-morbidities in ratsOral exposure to genistin, the glycosylated form of genistein, during neonatal life adversely affects the female reproductive systemBisphenol A and Ovarian Reserve among Infertile Women with Polycystic Ovarian SyndromeGCNF-dependent repression of BMP-15 and GDF-9 mediates gamete regulation of female fertility.Expression profiling of a high-fertility mouse line by microarray analysis and qPCR.The ovary: basic biology and clinical implicationsFemale reproductive disorders: the roles of endocrine-disrupting compounds and developmental timingPhysiological effects and mechanisms of action of endocrine disrupting chemicals that alter estrogen signaling.Expression of extracellular matrix components is disrupted in the immature and adult estrogen receptor β-null mouse ovaryRoles for transforming growth factor beta superfamily proteins in early folliculogenesis.Early exposure to soy isoflavones and effects on reproductive health: a review of human and animal studies.Mouse fertility is enhanced by oocyte-specific loss of core 1-derived O-glycans.Neonatal exposure to genistein adversely impacts the ontogeny of hypothalamic kisspeptin signaling pathways and ovarian development in the peripubertal female ratNotch2 is required in somatic cells for breakdown of ovarian germ-cell nests and formation of primordial follicles.Long-term effects of early-life exposure to environmental oestrogens on ovarian function: role of epigeneticsMeasurement of bisphenol A, bisphenol A ß-D-glucuronide, genistein, and genistein 4'-ß-D-glucuronide via SPE and HPLC-MS/MS.Circulating levels of genistein in the neonate, apart from dose and route, predict future adverse female reproductive outcomesComparison of growth and pubertal progression in wild type female rats with different bedding types.Permanent oviduct posteriorization after neonatal exposure to the phytoestrogen genistein.Effects of phytoestrogen on sexual development.Genistein exposure inhibits growth and alters steroidogenesis in adult mouse antral follicles.The combined effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin and the phytoestrogen genistein on steroid hormone secretion, AhR and ERβ expression and the incidence of apoptosis in granulosa cells of medium porcine follicles.Effects of the phytoestrogen genistein on the development of the reproductive system of Sprague Dawley rats.Isoflavone genistein induces fluid secretion and morphological changes in the uteri of post-pubertal rats.Fetal and early postnatal environmental exposures and reproductive health effects in the femaleSpecificity of the requirement for Foxo3 in primordial follicle activation.Suppression of Notch signaling in the neonatal mouse ovary decreases primordial follicle formation
P2860
Q21129084-3B174FA3-9F9B-4EE3-99D9-1D505B9213B0Q24634884-79360DE4-4322-424E-ACB5-ED1CAAF08EFBQ26155136-07CAB3D6-0DBD-459F-ADEF-864BF434D853Q26748994-8D147339-9C3F-4595-8B02-AA1FEF30C916Q26798856-C9E17240-AB4D-4EAA-A4B5-67B2DC88513BQ26799150-07B3C5CE-61C8-4E1E-A077-791EA895274FQ26801110-82A113DE-D367-4A69-819A-29B12CA6D9D0Q26863346-FDB953A3-68D6-4387-B8B8-657DA4F17321Q28384703-6784372C-A4D2-4CF3-9714-0CD0430117D4Q28384945-7C2442E1-21C2-4AB0-AAB4-131931B12AF6Q28385417-9EE4C706-DD99-4B70-8EE5-B8C127C499DFQ28387746-EF1E0641-1133-4352-A3FE-25D4514C6EAFQ28389598-CCF685FD-7217-4439-93C5-2B1D60A5095AQ28390176-0F50E626-35BE-4A18-A1AA-AA824BB12A52Q28392900-AB795FCE-7F90-4422-9DCF-F202E5DBF095Q29248137-E7015711-F20B-4485-A026-08454611BA9DQ30452778-E51821A4-2C6A-4146-9A43-F3D563E1B6CAQ33347564-5C4B0834-AE97-4C98-9079-E442D05D79DFQ33755421-B989C4F7-D96B-4C99-89F2-493E37FA2E7CQ33862059-D9676AE8-4702-4652-9C41-1F2EB621D253Q34129903-A51CC480-F931-432B-956D-4D4BD7F1D3B7Q34130810-941CA463-83C7-41D4-A412-C593B545912BQ34161992-0F4342BB-D534-43EE-A23C-A5260A084D6EQ34247954-CCBA3956-6CAB-444C-B2F8-7C16A2EFAD1AQ34413654-73B35616-D507-4356-9412-05116D8B0DC4Q34553920-FC04660A-ED1F-465C-8BF6-551FC1BD1F95Q34585057-B0DA1E7D-45A0-40B8-AFE3-5AD70D76AB60Q34980914-51C22D81-6149-41C2-A208-46AD35F51172Q35223398-7D3867C3-695F-4011-B4B0-901B5ADACDF3Q35334938-EF980CD6-78A2-419E-A795-5FE3E9CBEF07Q35419765-F0C7667B-5504-4F0A-95D6-183515F1938DQ35579944-3EC02ED6-C723-45B3-896D-6A66197FE880Q36207772-C503D277-0AEA-4EEC-BF80-A15EDD57A5ABQ36552391-0582E8D7-6ADB-42E9-B862-76F7D4EF65AEQ36623351-F14554E5-083D-47C7-99D5-950FBC67C3B7Q36644807-BD418937-4B54-4135-9672-355A7367EE9FQ36746917-E9CFEA53-8961-4FA6-A991-13D75502BA99Q36857067-82D9085C-03EA-4090-8510-77826AB211EBQ36965359-415428E2-999D-4EF7-8A41-65D9A2D5A934Q37106617-C149A789-47C5-473A-941F-16E14EC09EA0
P2860
Neonatal exposure to genistein induces estrogen receptor (ER)alpha expression and multioocyte follicles in the maturing mouse ovary: evidence for ERbeta-mediated and nonestrogenic actions.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Neonatal exposure to genistein ...... ted and nonestrogenic actions.
@en
Neonatal exposure to genistein induces estrogen receptor
@nl
type
label
Neonatal exposure to genistein ...... ted and nonestrogenic actions.
@en
Neonatal exposure to genistein induces estrogen receptor
@nl
prefLabel
Neonatal exposure to genistein ...... ted and nonestrogenic actions.
@en
Neonatal exposure to genistein induces estrogen receptor
@nl
P2093
P1476
Neonatal exposure to genistein ...... ted and nonestrogenic actions.
@en
P2093
Elizabeth Padilla-Banks
John F Couse
Kenneth S Korach
Retha R Newbold
Wendy N Jefferson
P304
P356
10.1095/BIOLREPROD67.4.1285
P407
P577
2002-10-01T00:00:00Z