Your search keyword '"Germ cells -- Properties"' showing total 12 results

1. Exploring the potential of gametic reconstruction of parental genotypes by [F.sub.1] hybrids as a bridge for rapid introgression

Author

Cannon, Charles H. and Scher, C. Lane

Subjects

Genetic engineering -- Research, Meiosis -- Genetic aspects, Germ cells -- Properties, Genetic research, Hybridization -- Genetic aspects, Biological sciences

Abstract

Abstract: Interspecific hybridization and genetic introgression are commonly observed in natural populations of many species, especially trees. Among oaks, gene flow between closely related species has been well documented. And [...]

Published

2017

2. DNA damage in germ cells induces an innate immune response that triggers systemic stress resistance

Author

Ermolaeva, Maria A., Segref, Alexandra, Dakhovnik, Alexander, Ou, Hui-Ling, Schneider, Jennifer I., Utermohlen, Olaf, Hoppe, Thorsten, and Schumacher, Bjorn

Subjects

Caenorhabditis elegans -- Genetic aspects, Ubiquitin-proteasome system -- Physiological aspects, Immune response, Stress (Physiology), DNA damage, Germ cells -- Properties, Worms -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

DNA damage responses have been well characterized with regard to their cell-autonomous checkpoint functions leading to cell cycle arrest, senescence and apoptosis (1). In contrast, systemic responses to tissue-specific genome instability remain poorly understood. In adult Caenorhabditis elegans worms germ cells undergo mitotic and meiotic cell divisions, whereas somatic tissues are entirely post-mitotic. Consequently, DNA damage checkpoints function specifically in the germ line (2), whereas somatic tissues in adult C. elegans are highly radio-resistant (3). Some DNA repair systems such as global-genome nucleotide excision repair (GG-NER) remove lesions specifically in germ cells (4). Here we investigated how genome instability in germ cells affects somatic tissues in C. elegans. We show that exogenous and endogenous DNA damage in germ cells evokes elevated resistance to heat and oxidative stress. The somatic stress resistance is mediated by the ERK MAP kinase MPK-1 in germ cells that triggers the induction of putative secreted peptides associated with innate immunity. The innate immune response leads to activation of the ubiquitin-proteasome system (UPS) in somatic tissues, which confers enhanced proteostasis and systemic stress resistance. We propose that elevated systemic stress resistance promotes endurance of somatic tissues to allow delay of progeny production when germ cells are genomically compromised., GG-NER-defective xpc-1(tm3886-allele) mutants and wild-type animals that were treated with low doses of ultraviolet-B (UVB) radiation showed extended survival after heat and oxidative stress (Fig. 1a, b, and Supplementary Fig. [...]

Published

2013

3. Induction of mouse germ-cell fate by transcription factors in vitro

Author

Nakaki, Fumio, Hayashi, Katsuhiko, Ohta, Hiroshi, Kurimoto, Kazuki, Yabuta, Yukihiro, and Saitou, Mitinori

Subjects

Stem cells -- Properties, Spermatogenesis -- Research, Transcription factors -- Properties, Germ cells -- Properties, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The germ-cell lineage ensures the continuity of life through the generation of male and female gametes, which unite to form a toti-potent zygote. We have previously demonstrated that, by using cytokines, embryonic stem cells and induced pluripotent stem cells can be induced into epiblast-like cells (EpiLCs) and then into primordial germ cell (PGC)-like cells with the capacity for both spermatogenesis and oogenesis (1,2), creating an opportunity for understanding and regulating mammalian germ-cell development in both sexes in vitro. Here we show that, without cytokines, simultaneous overexpression of three transcription factors, Blimp1 (also known as Prdm1), Prdm14 and Tfap2c (also known as AP2γ), directs EpiLCs, but not embryonic stem cells, swiftly and efficiently into a PGC state. Notably, Prdm14 alone, but not Blimp1 or Tfap2c, suffices for the induction of the PGC state in EpiLCs. The transcription-factor-induced PGC state, irrespective of the transcription factors used, reconstitutes key transcriptome and epigenetic reprogramming in PGCs, but bypasses a mesodermal program that accompanies PGC or PGC-like-cell specification by cytokines including bone morphogenetic protein 4. Notably, the transcription-factor-induced PGC-like cells contribute to spermatogenesis and fertile offspring. Our findings provide a new insight into the transcriptional logic for PGC specification, and create a foundation for the transcription-factor-based reconstitution and regulation of mammalian gametogenesis., In mice, PGCs, the precursors for spermatozoa and oocytes, arise in the epiblasts in response to cytokines, including bone morphogenetic protein4 (BMP4),from extra embryonict issues (3). Gene-knockout studies have identified [...]

Published

2013

4. Negative regulation of ciliary length by ciliary male germ cell-associated kinase (Mak) is required for retinal photoreceptor survival

Author

Omori, Yoshihiro, Chaya, Taro, Katoh, Kimiko, Kajimura, Naoko, Sato, Shigeru, Muraoka, Koichiro, Ueno, Shinji, Koyasu, Toshiyuki, Kondo, Mineo, and Furukawa, Takahisa

Subjects

Cilia and ciliary motion -- Properties, Photoreceptors -- Care and treatment, Germ cells -- Properties, Science and technology

Abstract

Cilia function as cell sensors in many organs, and their disorders are referred to as 'ciliopathies.' Although ciliary components and transport machinery have been well studied, regulatory mechanisms of ciliary formation and maintenance are poorly understood. Here we show that male germ cell-associated kinase (Mak) regulates retinal photoreceptor ciliary length and subcompartmentalization. Mak was localized both in the connecting cilia and outer-segment axonemes of photoreceptor cells. In the Mak-null retina, photoreceptors exhibit elongated cilia and progressive degeneration. We observed accumulation of intraflagellar transport 88 (IFT88) and IFT57, expansion of kinesin family member 3A (Kif3a), and acetylated [alpha]-tubulin signals in the Mak-null photoreceptor cilia. We found abnormal rhodopsin accumulation in the Mak-null photoreceptor cell bodies at postnatal day 14. In addition, overexpression of retinitis pigmentosa 1 (RP1), a microtubule-associated protein localized in outer-segment axonemes, induced ciliary elongation, and Mak coexpression rescued excessive ciliary elongation by RP1. The RP1 N-terminal portion induces ciliary elongation and increased intensity of acetylated [alpha]-tubulin labeling in the cells and is phosphorylated by Mak. These results suggest that Mak is essential for the regulation of ciliary length and is required for the long-term survival of photoreceptors. doi/ 10.1073/pnas.1009437108

Published

2010

5. Bam and Bgcn antagonize Nanos-dependent germ-line stem cell maintenance

Author

Li, Yun, Minor, Nicole T., Park, Joseph K., McKearin, Dennis M., and Maines, Jean Z.

Subjects

Stem cells -- Properties, Cell differentiation -- Evaluation, Drosophila -- Genetic aspects, Germ cells -- Properties, Oogenesis -- Observations, Science and technology

Abstract

The balance between germ-line stem cell (GSC) self-renewal and differentiation in Drosophila ovaries is mediated by the antagonistic relationship between the Nanos (Nos)-Pumilio translational repressor complex, which promotes GSC self-renewal, and expression of Bam, a key differentiation factor. Here, we find that Bam and Nos proteins are expressed in reciprocal patterns in young germ ceils. Repression of Nos in Bam-expressing cells depends on sequences in the nos 3'-UTR, suggesting that Nos is regulated by translational repression. Ectopic Bam causes differentiation of GSCs, and this activity depends on the endogenous nos 3'-UTR sequence. Previous evidence showed that Bgcn is an obligate factor for the ability of Bam to drive differentiation, and we now report that Bam forms a complex with Bgcn, a protein related to the RNA-interacting DExH-box polypeptides. Together, these observations suggest that Bam-Bgcn act together to antagonize Nos expression; thus, derepressing cystoblast-promoting factors. These findings emphasize the importance of translational repression in balancing stem cell self-renewal and differentiation. Drosophila | germ cell | oogenesis

Published

2009

6. Two-step oligoclonal development of male germ cells

Author

Ueno, Hiroo, Turnbull, Brit B., and Weissman, Irving L.

Subjects

Germ cells -- Properties, Apoptosis -- Research, Testis -- Research, Cell cycle -- Research, Chimeras (Organisms) -- Research, Science and technology

Abstract

During mouse development, primordial germ cells (PGCs) that give rise to the entire germ line are first identified within the proximal epiblast. However, long-term tracing of the fate of the cells has not been done wherein all cells in and around the germ-cell lineage are identified. Also, quantitative estimates of the number of founder PGCs using different models have come up with various numbers. Here, we use tetrachimeric mice to show that the progenitor numbers for the entire germ line in adult testis, and for the initiating embryonic PGCs, are both 4 cells. Although they proliferate to form polyclonal germ-cell populations in fetal and neonatal testes, germ cells that actually contribute to adult spermatogenesis originate from a small number of secondary founder cells that originate in the fetal period. The rest of the 'deciduous' germ cells are lost, most likely by apoptosis, before the reproductive period. The second 'actual' founder germ cells generally form small numbers of large monoclonal areas in testes by the reproductive period. Our results also demonstrate that there is no contribution of somatic cells to the male germ cell pool during development or in adulthood. These results suggest a model of 2-step oligoclonal development of male germ cells in mice, the second step distinguishing the heritable germ line from cells selected not to participate in forming the next generation. stem cells | testis | premordial germ cells | apoptosis chimeras

Published

2009

7. Tre1 GPCR initiates germ cell transepithelial migration by regulating Drosophila melanogaster E-cadherin

Author

Kunwar, Prabhat S., Sano, Hiroko, Renault, Andrew D., Barbosa, Vitor, Fuse, Naoyuki, and Lehmann, Ruth

Subjects

Drosophila -- Physiological aspects, Cell migration -- Evaluation, Epithelial cells -- Properties, Germ cells -- Properties, Biological sciences

Abstract

Despite significant progress in identifying the guidance pathways that control cell migration, how a cell starts to move within an intact organism, acquires motility, and loses contact with its neighbors is poorly understood. We show that activation of the G protein-coupled receptor (GPCR) trapped in endoderm 1 (Tre1) directs the redistribution of the G protein [G.sub.[beta]] as well as adherens junction proteins and Rho guanosine triphosphatase from the cell periphery to the lagging tail of germ cells at the onset of Drosophila melanogaster germ cell migration. Subsequently, Tre1 activity triggers germ cell dispersal and orients them toward the midgut for directed transepithelial migration. A transition toward invasive migration is also a prerequisite for metastasis formation, which often correlates with down-regulation of adhesion proteins. We show that uniform down-regulation of E-cadherin causes germ cell dispersal but is not sufficient for transepithelial migration in the absence of Tre1. Our findings therefore suggest a new mechanism for GPCR function that links cell polarity, modulation of cell adhesion, and invasion.

Published

2008

8. Gamete plasticity in a broadcast spawning marine invertebrate

Author

Crean, Angela J. and Marshall, Dustin J.

Subjects

Germ cells -- Properties, Marine invertebrates -- Physiological aspects, Spawning -- Research, Competition (Biology) -- Research, Science and technology

Abstract

Sperm competition has classically been thought to maintain anisogamy (large eggs and smaller sperm) because males are thought to maximize their chance of winning fertilizations by trading sperm size for number. More recently it has been recognized that sperm quality (e.g., size, velocity) can also influence sperm competition, although studies have yielded conflicting results. Because sex evolved in the sea, debate has continued over the role of sperm competition and sperm environment in determining both sperm and egg size in externally fertilizing broadcast spawners. Remarkably, however, there have been no direct tests of whether broadcast spawners change the traits of their gametes depending on the likelihood of sperm competition. We manipulated the density (and thus, sperm environment) of a broadcast spawning ascidian (Styela plicata) in the field and then determined whether the phenotype of eggs and sperm changed. We found that sperm from adults kept at high density were larger and more motile than sperm from low-density adults. In vitro fertilizations revealed that sperm from high-density adults also lived longer and induced less polyspermy. Adult density also affected egg traits: eggs from high-density adults were smaller targets for sperm overall but produced larger ovicells than eggs from low-density adults. This suggests that broadcast spawning mothers balance (potentially conflicting) pre- and postzygotic selection pressures on egg size. Overall, our results suggest that sperm competition does not represent a strong force maintaining anisogamy in broadcast spawners. Instead, sperm limitation seems to select for large eggs and smaller, more numerous sperm. anisogamy | sperm competition | adaptive maternal effect | transgenerational plasticity

Published

2008

9. A mitotic recombination system for mouse chromosome 17

Author

Sun, Lei, Wu, Xiaohui, Han, Min, Xu, Tian, and Zhuang, Yuan

Subjects

Chromosomes -- Properties, Germ cells -- Properties, Germ cells -- Genetic aspects, Genetic recombination -- Research, Mitosis -- Genetic aspects, Science and technology

Abstract

Mitotic recombination between homologous chromosomes is a genetic technique for mosaic analysis in model organisms. The general application of this technique in the mouse depends on establishment of effective recombination systems for individual chromosomes and reliable and sensitive methods for detection of recombination events. Here, we established a Cre/LoxP-mediated recombination system in mice for mosaic analysis of full-length chromosome 17. Cre-mediated germ-line recombination between the homologous chromosomes was observed with [apporoximately equal to] 9% frequency in a progeny test. Mitotic recombination in somatic tissues was evaluated and scored in B and T lymphocytes with the aid of surface markers and fluorescent-activated cell sorting. We show that a lineage-specific Cre can induce mitotic recombination with a highly reproducible frequency of 0.5-1.0% in lymphoid progenitors. The recombination system established here allows for a simple and accurate detection and isolation of recombination events in live cells, making this system particularly attractive for mosaic analysis or mutagenesis studies in the immune system. CD2 | Cre/FIp | germ lines | lymphocytes | germ cells

Published

2008

10. Cell-fate switch of synergid to egg cell in Arabidopsis eostre mutant embryo sacs arises from misexpression of the BEL1-like homeodomain gene BLH1 ([W])

Author

Pagnussat, Gabriela Carolina, Yu, Hee-Ju, and Sundaresan, Venkatesan

Subjects

Arabidopsis thaliana -- Genetic aspects, Arabidopsis thaliana -- Physiological aspects, Germ cells -- Properties, Germ cells -- Genetic aspects, Cell differentiation -- Genetic aspects, Oocytes -- Genetic aspects, Oocytes -- Properties, Biological sciences, Science and technology

Published

2007

11. Testicular germ cells can colonize sexually undifferentiated embryonic gonad and produce functional eggs in fish

Author

Okutsu, Tomoyuki, Suzuki, Kensuke, Takeuchi, Yutaka, Takeuchi, Toshio, and Yoshizaki, Goro

Subjects

Fishes -- Research, Fishes -- Genetic aspects, Spermatogenesis in animals -- Research, Germ cells -- Properties, Science and technology

Abstract

Understanding the mechanisms that regulate germ-cell development is crucial to reproductive medicine and animal production. Animal gametes originally derive from sexually undifferentiated primordial germ cells (PGCs), which develop into mitotic germ cells (oogonia or spermatogonia) before proceeding to meiosis [Wylie, C. (1999) Cell 96, 165-174]. Spermatogonia are thought to include a population of cells with stem cell activity, which proliferate throughout the lifespan of male animals and produce spermatozoa [Zhao, G. Q. & Garbers, D. L. (2002) Dev. Cell 2, 537-547]. However, the functional differences between PGCs and spermatogonial stem cells are poorly understood. Here we show that transplanted adult testicular germ cells can colonize sexually undifferentiated embryonic gonads and resume gametogenesis. Testicular germ cells containing spermatogonial stem cells isolated from adult male rainbow trout (Oncorhynchus mykiss) were transplanted into the peritoneal cavity of newly hatched embryos of both sexes, and the behavior of the donor cells was observed. The testicular germ cells differentiated into spermatozoa in male recipients and fully functional eggs in female recipients. Furthermore, the donor-derived spermatozoa and eggs obtained from the recipient fish were able to produce normal offspring. These findings indicate that fish testicular germ cells, probably spermatogonial stem cells, possess a high level of developmental plasticity and sexual bipotency, even after the animal reaches maturity. Furthermore, our results suggest that spermatogonial stem cells are at least partly functionally similar to PGCs. developmental plasticity | germ cell transplantation | sexual bipotency | spermatogonia | stem cell

Published

2006

12. Germ cell-intrinsic and -extrinsic factors govern meiotic initiation in mouse embryos

Author

Lin, Yanfeng, Gill, Mark E., Koubova, Jana, and Page, David C.

Subjects

Germ cells -- Physiological aspects, Germ cells -- Properties, Meiosis -- Research, Tretinoin -- Physiological aspects

Published

2008