Preservation of Xenopus laevis rDNA-containing plasmid, pXlr101A, injected into the fertilized egg of Xenopus laevis.

Kosuke Tashiro; Masami Inoue; Yoshiyuki Sakaki; Koichiro Shiokawa

doi:10.1247/csf.11.109

Transfer of Primordial Germ-cells in Xenopus laevis

Development ◽

10.1242/dev.9.4.634 ◽

1961 ◽

Vol 9 (4) ◽

pp. 634-641

Author(s):

A. W. Blackler ◽

M. Fischberg

Keyword(s):

Xenopus Laevis ◽

Germ Cells ◽

Germ Line ◽

Primordial Germ Cells ◽

Dorsal Region ◽

Blastula Stage ◽

Early Embryonic Stage ◽

Sex Cells ◽

Fertilized Egg ◽

Dorsal Mesentery

There have been many claims for the segregation of Anuran primordial germcells at an early embryonic stage. Most authors agree that these cells may be distinguished with ease in the most dorsal region of the larval endoderm and, somewhat later in development, at the base of the dorsal mesentery and in the undifferentiated gonad (see review by Johnston, 1951). Bounoure (1934) and Blackler (1958) claim to have traced the origin of the primordial germ-cells as early in development as the late blastula stage and to have recognized cell inclusions that become restricted to the germ line at all stages between the fertilized egg and the late blastula. As pointed out by Everett (1945), some workers in this field of embryological study have firmly denied the existence of primordial germ-cells, while others have been cautious of accepting the principle that these cells give rise to any of the definitive sex-cells (gametes).

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Normal Table of Xenopus Laevis (Daudin). A Systematical and Chronological Survey of the Development from the Fertilized Egg Till the End of Metamorphosis.P. D. Nieuwkoop , J. Faber

The Quarterly Review of Biology ◽

10.1086/402265 ◽

1958 ◽

Vol 33 (1) ◽

pp. 85-85 ◽

Cited By ~ 6

Author(s):

Arnold B. Grobman

Keyword(s):

Xenopus Laevis ◽

Normal Table ◽

Fertilized Egg

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PLC and IP3-evoked Ca2+ release initiate the fast block to polyspermy in Xenopus laevis eggs

The Journal of General Physiology ◽

10.1085/jgp.201812069 ◽

2018 ◽

Vol 150 (9) ◽

pp. 1239-1248 ◽

Cited By ~ 9

Author(s):

Katherine L. Wozniak ◽

Maiwase Tembo ◽

Wesley A. Phelps ◽

Miler T. Lee ◽

Anne E. Carlson

Keyword(s):

Developmental Biology ◽

Endoplasmic Reticulum ◽

Xenopus Laevis ◽

Potent Inhibitor ◽

Extracellular Milieu ◽

African Clawed Frog ◽

Inositol 1,4,5 Trisphosphate ◽

Clawed Frog ◽

Normal Embryonic Development ◽

Fertilized Egg

The prevention of polyspermy is essential for the successful progression of normal embryonic development in most sexually reproducing species. In external fertilizers, the process of fertilization induces a depolarization of the egg’s membrane within seconds, which inhibits supernumerary sperm from entering an already-fertilized egg. This fast block requires an increase of intracellular Ca2+ in the African clawed frog, Xenopus laevis, which in turn activates an efflux of Cl− that depolarizes the cell. Here we seek to identify the source of this intracellular Ca2+. Using electrophysiology, pharmacology, bioinformatics, and developmental biology, we explore the requirement for both Ca2+ entry into the egg from the extracellular milieu and Ca2+ release from an internal store, to mediate fertilization-induced depolarization. We report that although eggs express Ca2+-permeant ion channels, blockade of these channels does not alter the fast block. In contrast, insemination of eggs in the presence of Xestospongin C—a potent inhibitor of inositol 1,4,5-trisphosphate (IP3)-induced Ca2+ release from the endoplasmic reticulum (ER)—completely inhibits fertilization-evoked depolarization and increases the incidence of polyspermy. Inhibition of the IP3-generating enzyme phospholipase C (PLC) with U73122 similarly prevents fertilization-induced depolarization and increases polyspermy. Together, these results demonstrate that fast polyspermy block after fertilization in X. laevis eggs is mediated by activation of PLC, which increases IP3 and evokes Ca2+ release from the ER. This ER-derived Ca2+ then activates a Cl− channel to induce the fast polyspermy block. The PLC-induced cascade of events represents one of the earliest known signaling pathways initiated by fertilization.

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Cytological analyses of factors which determine the number of primordial germ cells (PGCs) in Xenopus laevis

Development ◽

10.1242/dev.90.1.251 ◽

1985 ◽

Vol 90 (1) ◽

pp. 251-265

Author(s):

Yasuko Akita ◽

Masami Wakahara

Keyword(s):

Xenopus Laevis ◽

Germ Cells ◽

Germ Plasm ◽

Primordial Germ Cells ◽

Somatic Cells ◽

Cell Stage ◽

Unknown Mechanism ◽

Fertilized Egg ◽

Number Of Cells ◽

Experimentally Induced

Correlation of the number of primordial germ cells (PGCs) at stage 47 with the amount of germ plasm at the 8-cell stage and with the number of the germ-plasm-containing cells (GPCCs) was analysed using two different laboratory-raised colonies of Xenopus laevis, HD and J groups. The average number of PGCs in J group tadpoles was significantly larger than that in HD group tadpoles. The amount of germ plasm in J group embryos was also demonstrated to be larger than in HD group embryos. The amount of germ plasm was related positively to the number of GPCCs at the 8-cell stage and to the resulting number of PGCs; embryos which contained larger amounts of germ plasm developed larger numbers of PGCs at stage 47. The average number of PGCs in experimentally induced triploid tadpoles was exactly twothirds of that in normal diploid tadpoles. Furthermore, in somatic cells (e.g. epidermis, muscle, pancreas), the number of cells in the triploid was also two-thirds of that in diploid tadpoles. These findings suggest that the number of PGCs is regulated by at least two different mechanisms: first, the number of PGCs is primarily specified by the intrinsic amount of germ plasm in the fertilized egg. Second, it is regulated by an unknown mechanism which controls the total number of cells of whole embryos, such as the nucleocytoplasmic ratio.

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Author response for "Amphibian thalamic nuclear organization during larval development and in the adult frog Xenopus laevis : genoarchitecture and hodological analysis"

10.1002/cne.24899/v2/response1 ◽

2020 ◽

Author(s):

Ruth Morona ◽

Sandra Bandín ◽

Jesús M. López ◽

Nerea Moreno ◽

Agustín González

Keyword(s):

Xenopus Laevis ◽

Larval Development ◽

Nuclear Organization ◽

Author Response ◽

Adult Frog

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Androgen-induced plasticity at a “vocal” neuromuscular synapse

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100167895 ◽

1994 ◽

Vol 52 ◽

pp. 32-33

Author(s):

Darcy B. Kelley ◽

Martha L. Tobias ◽

Mark Ellisman

Keyword(s):

Xenopus Laevis ◽

Motor Neurons ◽

Sexual Differentiation ◽

Molecular Basis ◽

Neuromuscular Synapse ◽

Sexually Dimorphic ◽

Intracellular Protein ◽

Developmental Program ◽

Androgen Action ◽

Clawed Frog

Brain and muscle are sexually differentiated tissues in which masculinization is controlled by the secretion of androgens from the testes. Sensitivity to androgen is conferred by the expression of an intracellular protein, the androgen receptor. A central problem of sexual differentiation is thus to understand the cellular and molecular basis of androgen action. We do not understand how hormone occupancy of a receptor translates into an alteration in the developmental program of the target cell. Our studies on sexual differentiation of brain and muscle in Xenopus laevis are designed to explore the molecular basis of androgen induced sexual differentiation by examining how this hormone controls the masculinization of brain and muscle targets.Our approach to this problem has focused on a highly androgen sensitive, sexually dimorphic neuromuscular system: laryngeal muscles and motor neurons of the clawed frog, Xenopus laevis. We have been studying sex differences at a synapse, the laryngeal neuromuscular junction, which mediates sexually dimorphic vocal behavior in Xenopus laevis frogs.

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Immunoprobe localization in mammalian embryos

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100157693 ◽

1990 ◽

Vol 48 (3) ◽

pp. 32-33

Author(s):

Patricia G. Calarco ◽

Margaret C. Siebert

Keyword(s):

Electron Microscopy ◽

Endoplasmic Reticulum ◽

Thin Sections ◽

Relative Lack ◽

Large Size ◽

Mammalian Embryos ◽

Antigen Localization ◽

Difficult Challenge ◽

Lowicryl K4m ◽

Fertilized Egg

Visualization of preimplantation mammalian embryos by electron microscopy is difficult due to the large size of the ircells, their relative lack of internal structure, and their highly hydrated cytoplasm. For example, the fertilized egg of the mouse is a single cell of approximately 75μ in diameter with little organized cytoskelet on and apaucity ofor ganelles such as endoplasmic reticulum (ER) and Golgi material. Thus, techniques that work well on tissues or cell lines are often not adaptable to embryos at either the LM or EM level.Over several years we have perfected techniques for visualization of mammalian embryos by LM and TEM, SEM and for the pre-embedding localization of antigens. Post-embedding antigenlocalization in thin sections of mouse oocytes and embryos has presented a more difficult challenge and has been explored in LR White, LR Gold, soft EPON (after etching of sections), and Lowicryl K4M. To date, antigen localization has only been achieved in Lowicryl-embedded material, although even with polymerization at-40°C, the small ER vesicles characteristic of embryos are unrecognizable.

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