Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
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Paracrine mechanisms involved in the control of early stages of Mammalian spermatogenesisOocyte formation by mitotically active germ cells purified from ovaries of reproductive-age womenContemporary genetic technologies and female reproductionGenetics of the ovarian reserveGenetics of primary ovarian insufficiency: new developments and opportunitiesHormad1 mutation disrupts synaptonemal complex formation, recombination, and chromosome segregation in mammalian meiosisThe oocyte-specific transcription factor, Nobox, regulates the expression of Pad6, a peptidylarginine deiminase in the oocyteDeletion of the novel oocyte-enriched gene, Gpr149, leads to increased fertility in mice.CRL4 complex regulates mammalian oocyte survival and reprogramming by activation of TET proteinsGerm cell-specific transcriptional regulator sohlh2 is essential for early mouse folliculogenesis and oocyte-specific gene expressionConstitutively active Foxo3 in oocytes preserves ovarian reserve in mice.SAS1B protein [ovastacin] shows temporal and spatial restriction to oocytes in several eutherian orders and initiates translation at the primary to secondary follicle transitionGenomewide discovery and classification of candidate ovarian fertility genes in the mouseIdentification of transcripts involved in meiosis and follicle formation during ovine ovary development.Role of importin alpha8, a new member of the importin alpha family of nuclear transport proteins, in early embryonic development in cattle.Genomic markers of ovarian reserveThe ovary: basic biology and clinical implicationsGlobal gene expression in the human fetal testis and ovaryMouse HORMAD1 is a meiosis i checkpoint protein that modulates DNA double- strand break repair during female meiosis.Retinoic acid induces multiple hallmarks of the prospermatogonia-to-spermatogonia transition in the neonatal mouse.Auto-regulation of the Sohlh1 gene by the SOHLH2/SOHLH1/SP1 complex: implications for early spermatogenesis and oogenesis.The power of mouse genetics to study spermatogenesis.Transcriptome profiling of sheep granulosa cells and oocytes during early follicular development obtained by laser capture microdissection.Oocyte-somatic cell communication and microRNA function in the ovary.TOPAZ1, a novel germ cell-specific expressed gene conserved during evolution across vertebratesGlobal gene analysis of oocytes from early stages in human folliculogenesis shows high expression of novel genes in reproduction.Cell-free nucleic acids as non-invasive biomarkers of gynecological cancers, ovarian, endometrial and obstetric disorders and fetal aneuploidy.The genetic make-up of ovarian development and function: the focus on the transcription factor FOXL2.Genomic analysis using high-resolution single-nucleotide polymorphism arrays reveals novel microdeletions associated with premature ovarian failure.The next (re)generation of ovarian biology and fertility in women: is current science tomorrow's practice?Life-long in vivo cell-lineage tracing shows that no oogenesis originates from putative germline stem cells in adult mice.Identification and Characterization of LHX8 DNA Binding ElementsBone morphogenetic protein signaling transcription factor (SMAD) function in granulosa cells.A comprehensive transcriptomic analysis of infant and adult mouse ovary.Homozygous loss-of-function mutations in SOHLH1 in patients with nonsyndromic hypergonadotropic hypogonadism.Simultaneous gene deletion of gata4 and gata6 leads to early disruption of follicular development and germ cell loss in the murine ovary.Lhx8 regulates primordial follicle activation and postnatal folliculogenesis.Immunohistochemical Study of Expression of Sohlh1 and Sohlh2 in Normal Adult Human Tissues.Crowding and Follicular Fate: Spatial Determinants of Follicular Reserve and Activation of Follicular Growth in the Mammalian Ovary.Control of ovarian primordial follicle activation
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Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
description
2006 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մայիսին հրատարակված գիտական հոդված
@hy
article publié dans les Procee ...... f the United States of America
@fr
artículu científicu espublizáu en 2006
@ast
im Mai 2006 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2006/05/23)
@sk
vědecký článek publikovaný v roce 2006
@cs
wetenschappelijk artikel (gepubliceerd op 2006/05/23)
@nl
наукова стаття, опублікована в травні 2006
@uk
name
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@ast
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@en
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@nl
type
label
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@ast
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@en
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@nl
prefLabel
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@ast
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@en
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@nl
P2093
P2860
P3181
P356
P1476
Oogenesis requires germ cell-specific transcriptional regulators Sohlh1 and Lhx8
@en
P2093
Aleksandar Rajkovic
Daniel J. Ballow
Heiner Westphal
Martin M. Matzuk
Stephanie A. Pangas
Yangu Zhao
Youngsok Choi
P2860
P304
P3181
P356
10.1073/PNAS.0601083103
P407
P577
2006-05-23T00:00:00Z