Your search keyword '"Yamaha, Etsuro"' showing total 10 results

1. Generation of germ-line chimera zebrafish using primordial germ cells isolated from cultured blastomeres and cryopreserved embryoids.

Author

KAWAKAMI, YUTAKA, GOTO-KAZETO, RIE, SAITO, TAIJU, FUJIMOTO, TAKAFUMI, HIGAKI, SHOGO, TAKAHASHI, YOSHIYUKI, ARAI, KATSUTOSHI, and YAMAHA, ETSURO

Subjects

GERM cells, MOSAICISM, ZEBRA danio, CELL separation, BLASTOMERES, CRYOPRESERVATION of organs, tissues, etc., FISH spawning

Published

2010

2. Inter-species transplantation and migration of primordial germ cells in cyprinid fish.

Author

SAITO, TAIJU, GOTO-KAZETO, RIE, FUJIMOTO, TAKAFUMI, KAWAKAMI, YUTAKA, ARAI, KATSUTOSHI, and YAMAHA, ETSURO

Subjects

GERM cells, CELL transplantation, CELL migration, CYPRINIDAE, ICHTHYOLOGY, MOSAICISM, ZEBRA danio

Published

2010

3. Isolation of teleost primordial germ cells using flow cytometry.

Author

GOTO-KAZETO, RIE, SAITO, TAIJU, TAKAGI, MISAE, ARAI, KATSUTOSHI, and YAMAHA, ETSURO

Subjects

CELL separation, GERM cells, FLOW cytometry, OSTEICHTHYES, GAMETES, GREEN fluorescent protein, CYTOPLASM

Published

2010

4. Developmental potential of embryonic cells in a nucleocytoplasmic hybrid formed using a goldfish haploid nucleus and loach egg cytoplasm.

Author

FUJIMOTO, TAKAFUMI, SAITO, TAIJU, SAKAO, SUZU, ARAI, KATSUTOSHI, and YAMAHA, ETSURO

Subjects

OSTEICHTHYES, CYTOPLASM, AQUACULTURE, ANDROGENESIS, GOLDFISH

Abstract

In teleosts, viable nucleocytoplasmic hybrids, formed by combining a nucleus from one species with the egg cytoplasm of another, have been used as one of the methods for breed improvement in aquaculture, but have been little exploited for developmental biology studies. Here, we used an artificial androgenesis technique to form nucleocytoplasmic hybrids comprising a goldfish haploid nucleus and loach egg cytoplasm. These hybrids were used to investigate interactions between the nucleus and cytoplasm during embryonic development. Additionally, the developmental characteristics of embryonic cells of nucleocytoplasmic hybrids were examined in chimeras produced by transplantation of blastomeres into recipient loach or goldfish embryos. We found that the nucleocytoplasmic hybrids arrested at the dome stage of embryonic development and did not form any gastrula structures. The goosecoid (gsc) and no tail (ntl) genes were expressed normally before gastrulation in nucleocytoplasmic hybrids, similar to diploid loach. However, expression of the gsc and ntl genes was not maintained in nucleocytoplasmic hybrids. In chimeric embryos, blastomeres derived from nucleocytoplasmic hybrids were found to mix with the cells of recipient loach embryos at the gastrula stage. The transplanted blastomeres formed small clusters at the somitogenesis stage and, finally, small spots at the hatching stage. In contrast, when the blastomeres were transplanted into goldfish embryos, the transplanted blastomeres aggregated in the chimeric embryos. Thus, embryonic cells from nucleocytoplasmic hybrids that arrest before gastrulation could survive beyond the somitogenesis stage depending on the cytoplasmic environment in the recipient embryos. [ABSTRACT FROM AUTHOR]

Published

2010

5. Visualization of primordial germ cells in vivo using GFP- nos1 3′UTR mRNA.

Author

Saito, Taiju, Fujimoto, Takafumi, Maegawa, Shingo, Inoue, Kunio, Tnaka, Minoru, Arai, Katsutoshi, and Yamaha, Etsuro

Subjects

GERM cells, MESSENGER RNA, RNA, ZEBRA danio, GREEN fluorescent protein

Abstract

In some teleost fish, primordial germ cells (PGCs) inherit specific maternal cytoplasmic factors such as vasa and nanos 1 ( nos1) mRNA. It has been shown that the 3′untranslated regions (UTRs) of vasa and nos 1 have critical roles for stabilization of these RNAs in zebrafish PGCs. In this study, to determine whether this role of the nos 1 3'UTR is conserved between teleost species, we injected artificially synthesized mRNA, combining green fluorescent protein (GFP) and the zebrafish nos 1 3'UTR (GFP- nos 1 3'UTR mRNA), into the fertilized eggs of various fish species. The 3'UTR of the Oryzias latipes vasa homologue ( olvas ) mRNA was assayed in the same manner. We demonstrate that the PGCs of seven teleost species could be visualized using GFP- nos 1 3′UTR mRNA. GFP- olvas 3'UTR mRNA did not identify PGCs in herring or loach embryos, but did enable visualization of the PGCs in medaka embryos. Our results indicate that the 3'UTR of the zebrafish nos1 mRNA can promote maintenance of RNAs in the PGCs of different fish species. Finally, we describe and compare the migration routes of PGCs in seven teleost species. [ABSTRACT FROM AUTHOR]

Published

2006

6. Morphological differences in embryos of goldfish (Carassius auratus auratus) under different incubation temperatures.

Author

Urushibata H, Takahashi E, Shimizu Y, Miyazaki T, Fujimoto T, Arai K, and Yamaha E

Subjects

Animals, Cell Differentiation genetics, Cell Division genetics, Cell Movement, Embryo, Nonmammalian cytology, Embryo, Nonmammalian metabolism, Embryonic Development genetics, Gene Expression Regulation, Developmental, In Situ Hybridization, Mesoderm cytology, Mesoderm embryology, Mesoderm metabolism, Time Factors, Embryo, Nonmammalian embryology, Embryonic Development physiology, Goldfish embryology, Temperature

Abstract

The goldfish (Carassius auratus auratus) is a useful species for embryonic micromanipulations because of its large egg size and wide temperature tolerance. Here, we describe in detail the rate of development and morphological characteristics of goldfish embryos incubated at temperatures between 10 °C and 30 °C. The cleavage speed increased rapidly as temperature increased. Synchronized cell divisions occurred at 131 min intervals at 10 °C, at 33 min intervals at 20 °C, and at 19 min intervals at 30 °C during the cleavage period. The rate of hatched abnormal embryos significantly increased at temperatures of 26 °C and above, while there was no change in the number of abnormal embryos at temperatures less than 24 °C. Moreover, the blastomeres around the center of the blastodisc rose in the direction of the animal pole at temperatures less than 14 °C. At the lower temperatures, clusters of maternally-supplied germplasm were visualized both at the ends of the first three cleavage furrows and at the border between the lower and upper tiers at the 16- to 32-cell stage, with injection of artificial mRNA and vasa in situ hybridization. This study showed that temperature affects not only developmental speed but also the shape of the blastodisc and the distribution of maternally-supplied materials in the blastodisc. By controlling the temperature, it is possible for researchers to prepare many stages of embryos and shapes of the blastodisc from a single batch of eggs.

Published

2019

7. Migration behavior of PGCs and asymmetrical gonad formation in pond smelt Hypomesus nipponensis.

Author

Takahashi E, Shimizu Y, Urushibata H, Kawakami Y, Arai K, and Yamaha E

Subjects

Animals, Germ Cells cytology, Gonads physiology, Ponds, Cell Differentiation, Cell Movement physiology, Germ Cells physiology, Gonads embryology, Osmeriformes physiology

Abstract

In teleost fish, the gonad originates from primordial germ cells (PGCs) and somatic cells. However, it is not clear whether the final gonadal position is determined by anteroposterior and dextrosinistral differentiation of endodermal organs or by the distribution of PGCs. The pond smelt has a transparent body even after hatching, enabling clear observation of PGC distribution and endodermal differentiation. Here, we first examined normal embryonic development to define the spatio-temporal characteristics of our developmental model. Second, the origin of PGCs was investigated by in situ hybridization. Third, the migration route of PGCs was tracked by microinjection of GFP-nos3 3' UTR mRNA and visualization of PGCs by green fluorescent protein. Lastly, differentiation of gonadal and endodermal organs was examined histologically. Maternal vasa transcripts were detected at the ends of cleavage furrows, indicating that PGCs differentiated by inheritance of germplasm as in other teleosts. During gastrulation, PGCs migrated following somatic cell movement and lined both sides of the embryonic body. During the segmentation period, PGCs moved posteriorly and were distributed in a line among dorsal mesentery cells around the posterior part of the intestinal bulb in the 16 th to 24 th somite region at 3 days post hatching. At 1 month post hatching, the gonad was formed at the 20 th somite region. PGC distribution was biased to the left side of the body cavity, while the pancreas was formed on the right side. These results indicate that PGCs accumulate at the gonadal region by dorsal mesentery cells, and gonadal position is determined by the digestive system.

Published

2017

8. Visualization of primordial germ cells in the fertilized pelagic eggs of the barfin flounder Verasper moseri.

Author

Goto R, Saito T, Kawakami Y, Kitauchi T, Takagi M, Todo T, Arai K, and Yamaha E

Subjects

3' Untranslated Regions genetics, Amino Acid Sequence, Animals, Embryo, Nonmammalian metabolism, Germ Cells metabolism, In Situ Hybridization, Molecular Sequence Data, Sequence Homology, Amino Acid, Zebrafish growth & development, Zebrafish metabolism, Zebrafish Proteins genetics, Zygote metabolism, Embryo, Nonmammalian cytology, Embryonic Development physiology, Flounder embryology, Germ Cells cytology, Zebrafish Proteins metabolism, Zygote cytology

Abstract

Primordial germ cells (PGCs) appear during early embryogenesis and differentiate into gametes through oogenesis or spermatogenesis. Teleost PGCs can be visualized by injecting RNA transcribed from the fusion product of a fluorescent protein gene attached to the 3' untranslated region (3'UTR) of zebrafish nanos3 (zf-nos3). Although this method has been widely applied to teleost PGCs, the visualization of PGCs in pelagic species that have eggs with a hard chorion is more problematic due to the technical difficulty of microinjection into their eggs. In this study, we developed a reliable method for microinjection of fertilized eggs in a pelagic species, the barfin flounder. Using a microneedle with a constriction "brake", we were able to introduce gfp-nos3 3'UTR mRNA into embryos and to determine the origin and migration route of PGCs. We also isolated the barfin flounder nos3 (bf-nos3) gene to compare its 3'UTR sequence with that of zebrafish. The 3'UTR of the bf-nos3 sequence was longer than that of zf-nos3. However, PGCs were also visualized after injection of gfp-bf-nos3 3'UTR mRNA both in zebrafish and barfin flounder. These results suggest that the function of nos3 is conserved between these species regardless of the sequence differences. The method developed here for labeling PGCs with gfp-nos3 mRNA will provide a means to study PGC development in the embryos of a wide range of marine fish species.

Published

2015

9. The formation of primordial germ cells from germline cells in spherical embryos derived from the blastodisc of 2-cell embryos in goldfish, Carassius auratus.

Author

Otani S, Kitauchi T, Saito T, Sakao S, Maegawa S, Inoue K, Arai K, and Yamaha E

Subjects

Animals, Cell Differentiation, Cell Movement, Embryo, Nonmammalian embryology, Mesoderm cytology, Embryo, Nonmammalian cytology, Germ Cells cytology, Goldfish embryology

Abstract

The property of primordial germ cells (PGCs) in fragmented goldfish embryos was investigated. When 1- and 2- cell embryos were cut at several perpendicular levels at the animal-vegetal axis, cells expressing vas mRNA were observed in the resultant embryos derived from all kinds of animal fragments. Blastodisc fragments from the 1- to 2-cell stage developed to spherical embryos containing yolk body with a yolk syncytial layer (YSL). Germ ring and no tail expression were not observed in the spherical embryo. When the spherical embryo labeled with tracer dye or GFP-nos1 3'UTR mRNA was transplanted onto the animal part of the blastoderm in a host embryo at the blastula stage, PGCs of spherical embryo origin were detected around the gonadal ridges in the resultant embryos which developed normally. These results suggest that small animal fragments should contain factors sufficient for PGC differentiation and that PGCs differentiate without mesoderm induction, since mesoderm is not induced in a spherical embryo.

Published

2005

10. The germ line lineage in ukigori, Gymnogobius species (Teleostei: Gobiidae) during embryonic development.

Author

Saito T, Otani S, Fujimoto T, Suzuki T, Nakatsuji T, Arai K, and Yamaha E

Subjects

Animals, Cell Differentiation, Cell Lineage, Germ Cells metabolism, Germ Layers metabolism, In Situ Hybridization, Models, Anatomic, Models, Biological, Multigene Family, RNA, Messenger metabolism, Somites metabolism, Time Factors, Gene Expression Regulation, Developmental, Germ Cells cytology, Perciformes embryology

Abstract

In order to determine the origin and migration of ukigori primordial germ cells (PGCs), we observed the aggregation of vasa mRNA by whole mount in situ hybridization. To observe PGC migration in the germ layers, we analyzed HE-stained paraffin sections. The germ line lineages were derived from the edge of the first, second and third cleavage furrows. During subsequent cleavages, vasa mRNA aggregations were respectively taken into four to eight cells in each embryo and vasa expressing cells proliferated from the sphere stage. At the bud to early somitogenesis period, PGCs aligned from head to tail bud regions on both sides of the embryonic body. During the late somitogenesis period, PGCs mainly aggregated just underneath the body axis. After gut formation, PGCs aligned along both sides of the gut at the 4th- to 8th- somite regions. Finally, PGCs reached the genital ridge via the inside of the lateral plate mesoderm and dorsal peritoneum. These results suggest that localized patterns of vasa transcripts and the migration routes of PGCs are different among fish (Teleost) species, perhaps depending on the amount of germinal cytoplasm derived maternally and the timing of endoderm differentiation.

Published

2004