TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.

TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.

TAF4b is a gonadal-enriched subunit of the general transcription factor TFIID that is implicated in promoting healthy ovarian aging and female fertility in mice and humans. To further explore the potential mechanism of TAF4b in promoting ovarian follicle development, we analyzed global gene expressi...

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Main Authors: Kathryn J Grive, Eric A Gustafson, Kimberly A Seymour, Melody Baddoo, Christoph Schorl, Kayla Golnoski, Aleksandar Rajkovic, Alexander S Brodsky, Richard N Freiman
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-06-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC4920394?pdf=render
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spelling doaj-f86c6d9be15841a8ba6bc4d56097c4f42020-11-25T02:01:09ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042016-06-01126e100612810.1371/journal.pgen.1006128TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.Kathryn J GriveEric A GustafsonKimberly A SeymourMelody BaddooChristoph SchorlKayla GolnoskiAleksandar RajkovicAlexander S BrodskyRichard N FreimanTAF4b is a gonadal-enriched subunit of the general transcription factor TFIID that is implicated in promoting healthy ovarian aging and female fertility in mice and humans. To further explore the potential mechanism of TAF4b in promoting ovarian follicle development, we analyzed global gene expression at multiple time points in the human fetal ovary. This computational analysis revealed coordinate expression of human TAF4B and critical regulators and effectors of meiosis I including SYCP3, YBX2, STAG3, and DAZL. To address the functional relevance of this analysis, we turned to the embryonic Taf4b-deficient mouse ovary where, for the first time, we demonstrate, severe deficits in prophase I progression as well as asynapsis in Taf4b-deficient oocytes. Accordingly, TAF4b occupies the proximal promoters of many essential meiosis and oogenesis regulators, including Stra8, Dazl, Figla, and Nobox, and is required for their proper expression. These data reveal a novel TAF4b function in regulating a meiotic gene expression program in early mouse oogenesis, and support the existence of a highly conserved TAF4b-dependent gene regulatory network promoting early oocyte development in both mice and women.http://europepmc.org/articles/PMC4920394?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kathryn J Grive
Eric A Gustafson
Kimberly A Seymour
Melody Baddoo
Christoph Schorl
Kayla Golnoski
Aleksandar Rajkovic
Alexander S Brodsky
Richard N Freiman
spellingShingle Kathryn J Grive
Eric A Gustafson
Kimberly A Seymour
Melody Baddoo
Christoph Schorl
Kayla Golnoski
Aleksandar Rajkovic
Alexander S Brodsky
Richard N Freiman
TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
PLoS Genetics
author_facet Kathryn J Grive
Eric A Gustafson
Kimberly A Seymour
Melody Baddoo
Christoph Schorl
Kayla Golnoski
Aleksandar Rajkovic
Alexander S Brodsky
Richard N Freiman
author_sort Kathryn J Grive
title TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
title_short TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
title_full TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
title_fullStr TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
title_full_unstemmed TAF4b Regulates Oocyte-Specific Genes Essential for Meiosis.
title_sort taf4b regulates oocyte-specific genes essential for meiosis.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2016-06-01
description TAF4b is a gonadal-enriched subunit of the general transcription factor TFIID that is implicated in promoting healthy ovarian aging and female fertility in mice and humans. To further explore the potential mechanism of TAF4b in promoting ovarian follicle development, we analyzed global gene expression at multiple time points in the human fetal ovary. This computational analysis revealed coordinate expression of human TAF4B and critical regulators and effectors of meiosis I including SYCP3, YBX2, STAG3, and DAZL. To address the functional relevance of this analysis, we turned to the embryonic Taf4b-deficient mouse ovary where, for the first time, we demonstrate, severe deficits in prophase I progression as well as asynapsis in Taf4b-deficient oocytes. Accordingly, TAF4b occupies the proximal promoters of many essential meiosis and oogenesis regulators, including Stra8, Dazl, Figla, and Nobox, and is required for their proper expression. These data reveal a novel TAF4b function in regulating a meiotic gene expression program in early mouse oogenesis, and support the existence of a highly conserved TAF4b-dependent gene regulatory network promoting early oocyte development in both mice and women.
url http://europepmc.org/articles/PMC4920394?pdf=render
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