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Literature DB >> 33722957

Mammalian primordial germ cell specification.

Grace V Hancock^1,2,3, Sissy E Wamaitha^1,3, Lior Peretz¹, Amander T Clark^4,2,3,5.

Abstract

The peri-implantation window of mammalian development is the crucial window for primordial germ cell (PGC) specification. Whereas pre-implantation dynamics are relatively conserved between species, the implantation window marks a stage of developmental divergence between key model organisms, and thus potential variance in the cell and molecular mechanisms for PGC specification. In humans, PGC specification is very difficult to study in vivo To address this, the combined use of human and nonhuman primate embryos, and stem cell-based embryo models are essential for determining the origin of PGCs, as are comparative analyses to the equivalent stages of mouse development. Understanding the origin of PGCs in the peri-implantation embryo is crucial not only for accurate modeling of this essential process using stem cells, but also in determining the role of global epigenetic reprogramming upon which sex-specific differentiation into gametes relies.

Entities: Chemical

Keywords: Embryo; Germ cells; Implantation; Peri-implantation; Pluripotency; Primordial germ cells

Mesh：

Year: 2021 PMID： 33722957 PMCID： PMC7990907 DOI： 10.1242/dev.189217

Source DB: PubMed Journal: Development ISSN： 0950-1991 Impact factor: 6.868

124 in total

1. TROPHOBLASTIC GIANT CELL TRANSFORMATION OF MOUSE BLASTOCYTS.

Authors: A D DICKSON
Journal: J Reprod Fertil Date: 1963-12

2. Requirement of Bmp8b for the generation of primordial germ cells in the mouse.

Authors: Y Ying; X M Liu; A Marble; K A Lawson; G Q Zhao
Journal: Mol Endocrinol Date: 2000-07

3. BMP signaling mediated by ALK2 in the visceral endoderm is necessary for the generation of primordial germ cells in the mouse embryo.

Authors: Susana M Chuva de Sousa Lopes; Bernard A J Roelen; Rui M Monteiro; Roul Emmens; Herbert Y Lin; En Li; Kirstie A Lawson; Christine L Mummery
Journal: Genes Dev Date: 2004-08-01 Impact factor: 11.361

4. A tripartite transcription factor network regulates primordial germ cell specification in mice.

Authors: Erna Magnúsdóttir; Sabine Dietmann; Kazuhiro Murakami; Ufuk Günesdogan; Fuchou Tang; Siqin Bao; Evangelia Diamanti; Kaiqin Lao; Berthold Gottgens; M Azim Surani
Journal: Nat Cell Biol Date: 2013-07-14 Impact factor: 28.824

5. A unique regulatory phase of DNA methylation in the early mammalian embryo.

Authors: Zachary D Smith; Michelle M Chan; Tarjei S Mikkelsen; Hongcang Gu; Andreas Gnirke; Aviv Regev; Alexander Meissner
Journal: Nature Date: 2012-03-28 Impact factor: 49.962

6. Non-Canonical and Sexually Dimorphic X Dosage Compensation States in the Mouse and Human Germline.

Authors: Mahesh N Sangrithi; Helene Royo; Shantha K Mahadevaiah; Obah Ojarikre; Leena Bhaw; Abdul Sesay; Antoine H F M Peters; Michael Stadler; James M A Turner
Journal: Dev Cell Date: 2017-01-26 Impact factor: 12.270

Review 7. Human Pre-gastrulation Development.

Authors: Sissy E Wamaitha; Kathy K Niakan
Journal: Curr Top Dev Biol Date: 2018-02-13 Impact factor: 4.897

8. A method to recapitulate early embryonic spatial patterning in human embryonic stem cells.

Authors: Aryeh Warmflash; Benoit Sorre; Fred Etoc; Eric D Siggia; Ali H Brivanlou
Journal: Nat Methods Date: 2014-06-29 Impact factor: 28.547

9. A critical role of PRDM14 in human primordial germ cell fate revealed by inducible degrons.

Authors: Anastasiya Sybirna; Walfred W C Tang; Merrick Pierson Smela; Sabine Dietmann; Wolfram H Gruhn; Ran Brosh; M Azim Surani
Journal: Nat Commun Date: 2020-03-09 Impact factor: 14.919

10. Derivation of pluripotent epiblast stem cells from mammalian embryos.

Authors: I Gabrielle M Brons; Lucy E Smithers; Matthew W B Trotter; Peter Rugg-Gunn; Bowen Sun; Susana M Chuva de Sousa Lopes; Sarah K Howlett; Amanda Clarkson; Lars Ahrlund-Richter; Roger A Pedersen; Ludovic Vallier
Journal: Nature Date: 2007-06-27 Impact factor: 49.962

9 in total

1. Divergent roles for KLF4 and TFCP2L1 in naive ground state pluripotency and human primordial germ cell development.

Authors: G V Hancock; W Liu; L Peretz; D Chen; J J Gell; A J Collier; J R Zamudio; K Plath; A T Clark
Journal: Stem Cell Res Date: 2021-08-08 Impact factor: 2.020

2. A paternal bias in germline mutation is widespread in amniotes and can arise independently of cell division numbers.

Authors: Marc de Manuel; Felix L Wu; Molly Przeworski
Journal: Elife Date: 2022-08-02 Impact factor: 8.713

3. Efficient differentiation of human primordial germ cells through geometric control reveals a key role for Nodal signaling.

Authors: Seth Teague; Bohan Chen; Hina Aftab Khan; Kyoung Jo; Emily Freeburne; Hunter Li; Bolin Li; Ran Ran; Jason R Spence; Idse Heemskerk
Journal: Elife Date: 2022-04-08 Impact factor: 8.713

Review 9. Germline stem cells in human.

Authors: Hanhua Cheng; Dantong Shang; Rongjia Zhou
Journal: Signal Transduct Target Ther Date: 2022-10-02