Paul Collodi scite author profile

High frequency production of zebrafish germline chimeras was achieved by transplanting ovarian germ cells into sterile Danio hybrid recipients. Ovarian germ cells were obtained from 3-mo-old adult Tg(vasa:DsRed2-vasa);Tg(bactin:EGFP) double transgenic zebrafish by discontinuous Percoll gradient centrifugation. An average of 755 ± 108 DsRed-positive germ cells was recovered from each female. For transplantations, a total of approximately 620 ± 242 EGFP-positive cells of which 12 ± 4.7 were DsRed-positive germ cells were introduced into the abdominal cavity under the swim bladder of 2-wk-old sterile hybrid larvae. Six weeks after transplantation, a total of 10 recipients, obtained from 2 different transplantations, were examined, and 2 individuals (20%) were identified that possessed a large number of DsRed- and EGFP-positive cells in the gonadal region. The transplanted ovarian germ cells successfully colonized the gonads and differentiated into sperm in the male hybrid recipients. Of 67 adult recipients, 12 (18%) male chimeric fish reproduced and generated normal offspring when paired with wild-type zebrafish females. The fertilization efficiency ranged from 23% to 56%. Although the fertile male chimeras were generated by transplantation of ovarian germ cells, the F1 generation produced by the male chimeras contained both male and female progeny, indicating that male sex determination in zebrafish is not controlled by sex chromosome heterogamy. Our findings indicate that a population of ovarian germ cells that are present in the ovary of adult zebrafish can function as germline stem cells, able to proliferate and differentiate into testicular germ cells and functional sperm in male recipients. The high frequency of germline chimera formation achieved with the ovarian germ cells and the convenience of identifying the chimeras in the sterile host background should make this transplantation system useful for performing genetic manipulations in zebrafish.

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Zebrafish dead end possesses ATPase activity that is required for primordial germ cell development

Liu

Collodi

2010

FASEB j.

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Zebrafish dead end (dnd) mRNA is specifically expressed in primordial germ cells (PGCs) and is required for PGC migration and survival. Previous studies have shown that zebrafish Dnd functions by protecting the 3'UTRs of nanos1 and TDRD7 from miR-430b-mediated RNA deadenylation. In this work, we demonstrate that zebrafish Dnd protein possesses Mg(2+)-dependent ATPase activity that is required for PGC formation. Michaelis-Menten analysis revealed that the ATPase has a k(cat) of 0.632 +/- 0.036/min under optimal conditions, and mapping studies using Dnd truncates showed that ATPase resides in the last 91 aa of the Dnd C terminus. Internal deletion and point mutagenesis analysis of this region were used to identify key amino acids required for ATPase activity. Rescue experiments conducted by injecting mRNAs encoding the Dnd ATPase mutants into embryos in which the endogenous dnd expression was inhibited demonstrated that the ATPase activity is required for normal zebrafish PGC survival. Real-time PCR analysis showed that the expression of PGC markers nanos1 and TDRD7 but not vasa were down-regulated when dnd mutant proteins lacking ATPase were expressed in the rescued embryos, indicating that the Dnd ATPase is involved in protecting nanos1 and TDRD7 transcripts.

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Culture of cells from zebrafish (Brachydanio rerio) embryo and adult tissues

et al. 1992

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The zebrafish is a popular model for studies of vertebrate development and toxicology. However, in vitro approaches with this organism have not been fully exploited because cell culture systems have been unavailable. We developed methods for the culture of cells from blastula-stage diploid and haploid zebrafish embryos, as well as cells from the caudal and pelvic fin, gill, liver, and viscera of adult fish. The haploid embryo-derived cells differentiated in culture to a pigmented phenotype and expressed, upon exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin, a protein that was immunologically and functionally similar to rainbow trout cytochrome P450IA1. Zebrafish cultures were grown in a complex basal nutrient medium supplemented with insulin, trout embryo extract, and low concentrations of trout and fetal bovine serum; they could not be maintained in conventional culture medium containing a high concentration of mammalian serum. Using calcium phosphate-mediated transfection, a plasmid constructed for use in mammalian cells was introduced into zebrafish embryo cell cultures and expressed in a stable manner. These results indicated that the transfection procedures utilized in mammalian systems can also be applied to zebrafish cell cultures, providing a means for in vitro alteration of the genotype and phenotype of the cells.

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Paul Collodi

Production of zebrafish germ-line chimeras from embryo cell cultures

Zebrafish Germline Chimeras Produced by Transplantation of Ovarian Germ Cells into Sterile Host Larvae1

Zebrafish dead end possesses ATPase activity that is required for primordial germ cell development

Culture of cells from zebrafish (Brachydanio rerio) embryo and adult tissues

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