H.J.Th. Goos scite author profile

A cDNA encoding a putative gonadoliberin receptor was cloned from the pituitary of the African catfish. Conceptual translation predicts a protein of 379 amino acids which shows typical characteristics of GTP-binding-protein-coupled receptors. The isolated cDNA was stable expressed in human embryonic kidney (HEK) 293 cells which were used for studies on gonadoliberin-activated second messenger systems (inositol phosphate production; increase in CAMP andor intracellular Ca2' ). The isolated cDNA encoded a functional receptor, designated catfish gonadoliberin receptor (cfGnRH-R), which had an amino acid sequence similarity of 38 % with mammalian gonadoliberin receptors. In contrast to its mammalian counterparts which lack an intracellular carboxy-terminal domain, the cfGnRH-R contains an additional 49 amino acid residues. From the two endogenous gonadoliberins in African catfish, chicken gonadoliberin-11 had a several hundredfold higher potency than catfish gonadoliberin to activate cfGnRH-R-associated second messenger systems in transfected HEK 293 cells. This is in line with the previously determined higher gonadotropin-release capacity of chicken gonadoliberin-I1 in catfish. Stimulation of second messenger systems with chicken gonadoliberin-11, but not with catfish gonadoliberin, resulted in a biphasic effect and chicken gonadoliberin-I1 led to a higher maximum stimulation than catfish gonadoliberin. Challenging cfGnRH-R simultaneously with chicken gonadoliberin-I1 and catfish gonadoliberin did not lead to additive effects. In contrast, two types of mutual inhibitory effects were recorded. These data indicate that a single cognate cfGnRH-R couples with distinct efficacies to signal transduction systems upon stimulation by the two endogenous gonadoliberins which, in addition, may interact negatively.Keywords: GTP-binding-protein-coupled receptor; gonadoliberin receptor; cDNA ; pituitary ; transfection.Gonadoliberin is the central regulator of reproduction in vertebrates. It is produced by neuroendocrine neurons in the ventral forebrain which release the hormone into the hypophyseal portal blood system or, in the case of teleost fish, directly in the vicinity of pituitary gonadotrophs. Nine different molecular forms of this decapeptide have been characterized in vertebrate brains so far. In highly evolved eutherian mammals only mammalian gonadoliberin (Glp-His-Trp-Ser-Tyr-Gly-Leu-Arg-Pro-Gly-NH,) Note. The novel nucleotide sequence published here has been submitted to the EMBL data bank and is available under accession number x97497. which all show a high degree of sequence similarity and display the seven transmembrane structure characteristic for GTP-binding-protein-(G-protein)-coupled receptors [3 -91. lnteraction of gonadoliberin with its receptor results in the activation of a G protein that catalyzes phosphatidylinositol turnover. This stimulates the pituitary gonadotrophs to release gonadotropins, which in turn regulate the activity of the gonads. No information is available on the structure of gonadoliberi...

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Vasa protein expression and localization in the zebrafish

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et al. 2000

Mechanisms of Development

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Primordial germ cell (PGC) development in the zebrafish is poorly understood. The expression of vasa RNA, the only molecular marker so far found to be expressed in fish PGCs, suggests its function in the establishment of the germline. The protein product of vasa is present throughout the life cycle in the germline of Drosophila, Caenorhabditis and Xenopus. The expression pattern of the Vasa protein in zebrafish, is still unresolved. We generated an anti-Vasa polyclonal antibody and show that it is maternally expressed initially throughout the embryo. Interestingly, from the two-cell- to the 1000-cell stage the protein is highly concentrated in two 'dots' near the center of the blastomeres and as such remains longest detectable in the animal pole blastomeres. The first distinct cell-specific expression occurs at 60% epiboly on one side of the blastoderm margin. The Vasa protein in the PGCs is organized in a subcellular granular-like conformation which is dynamic throughout development.

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H.J.Th. Goos

Characterization of zebrafish primordial germ cells: Morphology and early distribution ofvasa RNA

Evolutionary development of three gonadotropin-releasing hormone (GnRH) systems in vertebrates

Discrepancy Between Molecular Structure and Ligand Selectivity of a Testicular Follicle-Stimulating Hormone Receptor of the African Catfish (Clarias gariepinus)1

Distinct Efficacies for Two Endogenous Ligands on a Single Cognate Gonadoliberin Receptor

Vasa protein expression and localization in the zebrafish

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