157 results on '"Rubin, Beverly S."'
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2. Perinatal Bisphenol a Exposure Increases Estrogen Sensitivity of the Mammary Gland in Diverse Mouse Strains
3. Perinatal BPA exposure alters body weight and composition in a dose specific and sex specific manner: The addition of peripubertal exposure exacerbates adverse effects in female mice
4. Perinatal Exposure to Low Doses of Bisphenol A Affects Body Weight, Patterns of Estrous Cyclicity, and Plasma LH Levels
5. Endocrine Disruption and the Female
6. The male mammary gland: A target for the xenoestrogen bisphenol A
7. Luteinizing Hormone Releasing Hormone (LHRH) Neuronal Function in Middle-Aged Female Rats
8. Perinatal Exposure to Environmentally Relevant Levels of Bisphenol A Decreases Fertility and Fecundity in CD-1 Mice
9. Why Public Health Agencies Cannot Depend on Good Laboratory Practices as a Criterion for Selecting Data: The Case of Bisphenol A
10. Effects of low doses of bisphenol a on the metabolome of perinatally exposed CD-1 mice
11. Perinatal exposure to the xenoestrogen bisphenol-A induces mammary intraductal hyperplasias in adult CD-1 mice
12. Perinatal bisphenol a exposure increases estrogen sensitivity of the mammary gland in diverse mouse strains
13. In vivo effects of bisphenol A in laboratory rodent studies
14. Bisphenol-A and the Great Divide: A Review of Controversies in the Field of Endocrine Disruption
15. Exposure to Environmentally Relevant Doses of the Xenoestrogen Bisphenol-A Alters Development of the Fetal Mouse Mammary Gland
16. Evidence of Altered Brain Sexual Differentiation in Mice Exposed Perinatally to Low, Environmentally Relevant Levels of Bisphenol A
17. Perinatal Exposure to Bisphenol-A Alters Peripubertal Mammary Gland Development in Mice
18. Estrogen Induces CCN5 Expression in the Rat Uterus in Vivo
19. Guinea Pig GnRH: Localization and Physiological Activity Reveal That It, Not Mammalian GnRH, Is the Major Neuroendocrine Form in Guinea Pigs
20. The Case for BPA as an Obesogen: Contributors to the Controversy
21. The Case for BPA as an Obesogen: Contributors to the Controversy.
22. Evidence for metabolic disruption in CD1 mice following exposure to low doses of bisphenol A (BPA)
23. Disruption of global metabolism after perinatal exposure to low doses of BPA using a metabonomic approach
24. Disruption of global metabolism after perinatal exposure to low doses of BPA - A metabonomic approach
25. Metabolic disruption in CD1 mice perinatally exposed to low doses of bisphenol A (BPA)
26. Impact d’une exposition périnatale à de faibles doses de Bisphénol A (BPA) sur le métabolisme chez la souris CD1
27. Metabolic disruption in male CD-1 mice perinatally exposed to low doses of Bisphenol A (BPA)
28. Low dose effects of bisphenol A
29. Low-Dose BPA Exposure Alters the Mesenchymal and Epithelial Transcriptomes of the Mouse Fetal Mammary Gland
30. Bisphenol A: An endocrine disruptor with widespread exposure and multiple effects
31. Interpreting endocrine disruption from an integrative biology perspective
32. Bisphenol A: Perinatal exposure and body weight
33. Chapel Hill bisphenol A expert panel consensus statement: Integration of mechanisms, effects in animals and potential to impact human health at current levels of exposure
34. Anterior Pituitary Gene Expression with Reproductive Aging in the Female Rat1
35. The mammary gland response to estradiol: Monotonic at the cellular level, non-monotonic at the tissue-level of organization?
36. Endocrine disruptors and reproductive health: The case of bisphenol-A
37. Long-Term Effects of Fetal Exposure to Low Doses of the Xenoestrogen Bisphenol-A in the Female Mouse Genital Tract1
38. In situ Characterization of Gonadotropin- Releasing Hormone-I, -III, and Glutamic Acid Decarboxylase Expression in the Brain of the Sea Lamprey, Petromyzon marinus
39. Estrogen Induces CCN5 Expression in the Rat Uterusin Vivo
40. Endocrine Disruption and the Female.
41. Endocrine disruptors: from Wingspread to environmental developmental biology
42. The Spatial Relationship of γ-Aminobutyric Acid (GABA) Neurons and Gonadotropin-Releasing Hormone (GnRH) Neurons in Larval and Adult Sea Lamprey, Petromyzon marinus
43. Dynamic changes in luteinizing hormone releasing hormone transcriptional activity are associated with the steroid-induced LH surge
44. Hypothalamic Alterations and Reproductive Aging in Female Rats: Evidence of Altered Luteinizing Hormone-Releasing Hormone Neuronal Function1
45. Luteinizing hormone-releasing hormone gene expression differs in young and middle-aged females on the day of a steroid-induced LH surge
46. Examination of Guinea Pig Luteinizing Hormone-Releasing Hormone Gene Reveals a Unique Decapeptide and Existence of Two Transcripts in the Brain*
47. Differential proopiomelanocortin gene expression in the medial basal hypothalamus of rats during pregnancy and lactation
48. A Relative Depletion of Luteinizing Hormone-Releasing Hormone Was Observed in the Median Eminence of Young but Not Middle-Aged Rats on the Evening of Proestrus
49. A Reduced Proportion of Luteinizing Hormone (LH)-Releasing Hormone Neurons Express Fos Protein during the Preovulatory or Steroid-Induced LH Surge in Middle-Aged Rats1
50. The Use of Push-Pull Perfusion and in Vivo Microdialysis to Assess Changing Patterns of Hypothalamic Releasing Hormone Output in Aging Animals
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