201 results on '"Melamed, Philippa"'
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2. Erythropoietin-producing hepatocellular receptor B6 is highly expressed in non-functioning pituitary neuroendocrine tumors and its expression correlates with tumor size
3. Epigenetic repression of gonadotropin gene expression via a GnRH-mediated DNA delivery system
4. Epigenetic regulation of 5α reductase-1 underlies adaptive plasticity of reproductive function and pubertal timing
5. OR2801 Novel Cis-Regulatory Mechanisms Of Lhb Transcription By Non-Coding RNAs And Non-Canonical DNA Structures
6. OR19-01 Srd5a1 Undergoes Distinct Changes in Methylation and Is Differentially Expressed During Pre-Pubertal Development in the Ovary and Hypothalamus
7. The base pair-scale diffusion of nucleosomes modulates binding of transcription factors
8. Unravelling the role of epigenetics in reproductive adaptations to early-life environment
9. Srd5a1 is Differentially Regulated and Methylated During Prepubertal Development in the Ovary and Hypothalamus
10. Reply to: Timing of puberty — body size or reproductive optimization?
11. An epigenetic switch repressing Tet1 in gonadotropes activates the reproductive axis
12. Childhood environment influences epigenetic age and methylation concordance of a CpG clock locus in British-Bangladeshi migrants
13. RF13 | PMON142 Long Non-coding RNAs in Pituitary Differentiation and Endocrine Function
14. RNA transcribed from a distal enhancer is required for activating the chromatin at the promoter of the gonadotropin α-subunit gene
15. Additional file 1 of Epigenetic regulation of 5�� reductase-1 underlies adaptive plasticity of reproductive function and pubertal timing
16. Childhood environment influences epigenetic age and methylation concordance of a CpG clock locus in British-Bangladeshi migrants.
17. Single molecule characterization of the binding kinetics of a transcription factor and its modulation by DNA sequence and methylation
18. Proliferating primary pituitary cells as a model for studying regulation of gonadotrope chromatin and gene expression
19. Extended and dynamic linker histone-DNA Interactions control chromatosome compaction
20. Enhancing Gonadotrope Gene Expression Through Regulatory lncRNAs
21. Histone deacetylases and repression of the gonadotropin genes
22. Gonadotropin-Releasing Hormone-Regulated Prohibitin Mediates Apoptosis of the Gonadotrope Cells
23. The role of the hypothalamus and pituitary epigenomes in central activation of the reproductive axis at puberty
24. Extended and dynamic linker histone-DNA interactions control chromatosome compaction
25. Childhood location correlates with epigenetic age and methylation stability in British-Bangladeshi migrants
26. Early-life environment programs reproductive strategies through epigenetic regulation of SRD5A1
27. A Preformed Signaling Complex Mediates GnRH-Activated ERK Phosphorylation of Paxillin and FAK at Focal Adhesions in LβT2 Gonadotrope Cells
28. Molecular Regulation of Gonadotropin Gene Expression in Teleosts
29. Regulation of fish gonadotropins
30. The effects of gonadal development and sex steroids on growth hormone secretion in the male tilapia hybrid (Oreochromis niloticus × O. aureus)
31. Gonadotropin-Releasing Hormone Activation of C-jun, But Not Early Growth Response Factor-1, Stimulates Transcription of a Luteinizing Hormone β-Subunit Gene
32. The male seahorse synthesizes and secretes a novel C-type lectin into the brood pouch during early pregnancy
33. Possible Interactions between Gonadotrophs and Somatotrophs in the Pituitary of Tilapia: Apparent Roles for Insulin-Like Growth Factor I and Estradiol*
34. The Genes Encoding the GtH β Subunits in Tilapiaa
35. Second Messengers Involved in the Response of Gonadotropic Hormone (GtH) Cells in Fish: GtH Release and GtH IIβ mRNA Levelsa
36. Sensitivity of pituitary gonadotropes to hyperglycemia leads to epigenetic aberrations and reduced follicle‐stimulating hormone levels
37. Hyperglycemia causes a reduction in FSH levels following aberrant epigenetic regulation in the gonadotropes due to the increased glucose metabolism
38. Tet Enzymes, Variants, and Differential Effects on Function
39. Multifaceted Targeting of the Chromatin Mediates Gonadotropin-Releasing Hormone Effects on Gene Expression in the Gonadotrope
40. Single-molecule DNA unzipping reveals asymmetric modulation of a transcription factor by its binding site sequence and context
41. Mitogen- and stress-activated protein kinase 1 is required for gonadotropin-releasing hormone–mediated activation of gonadotropin α-subunit expression
42. Single-Molecule DNA Unzipping Reveals Asymmetric Modulation of the Transcription Factor EGR-1 by its Binding Site Sequence and Context
43. GnRH Induces ERK-Dependent Bleb Formation in Gonadotrope Cells, Involving Recruitment of Members of a GnRH Receptor-Associated Signalosome to the Blebs
44. Nucleosome mobility and the regulation of gene expression: Insights from single-molecule studies
45. Sensitivity of pituitary gonadotropes to hyperglycemia leads to epigenetic aberrations and reduced follicle-stimulating hormone levels.
46. H2A.Z controls the stability and mobility of nucleosomes to regulate expression of the LH genes
47. Transcriptional enhancers: Transcription, function and flexibility
48. Single-molecule DNA unzipping reveals asymmetric modulation of a transcription factor by its binding site sequence and context.
49. Gonadotropin gene transcription is activated by menin-mediated effects on the chromatin
50. GnRH Induces ERK-Dependent Bleb Formation in Gonadotrope Cells, Involving Recruitment of Members of a GnRH Receptor-Associated Signalosome to the Blebs.
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