Nuclear receptors EcR-A/RXR and HR3 control early embryogenesis in the short-germ hemimetabolous insect .

The role of steroid hormone signaling during insect post-embryonic development has been extensively characterized. However, its function during embryonic development is less understood, particularly in short-germ band hemimetabolous insects. To solve this, we have used to analyze the embryonic functions of the heterodimeric ecdysone receptor, BgEcR-A and BgRXR.

Juvenile hormone biosynthesis in adult Blattella germanica requires nuclear receptors Seven-up and FTZ-F1.

In insects, the transition from juvenile development to the adult stage is controlled by juvenile hormone (JH) synthesized from the corpora allata (CA) glands. Whereas a JH-free period during the last juvenile instar triggers metamorphosis and the end of the growth period, the reappearance of this hormone after the imaginal molt marks the onset of reproductive adulthood. Despite the importance of such transition, the regulatory mechanism that controls it remains mostly unknown.

Mind the model for end-stage liver disease: model for end-stage liver disease score as an indicator of hemoderivate transfusion and survival in liver transplantation.

The scarcity of liver donors has increased the necessity to closely select recipients to improve liver transplantation outcomes. If we were able to recognize those recipients with the best outcomes, then this could result in a better and more accurate selection of our donors. Hemoderivate transfusion is one of the main important factors to analyse.

Molecular adaptation and resilience of the insect's nuclear receptor USP.

Background: The maintenance of biological systems requires plasticity and robustness. The function of the ecdysone receptor, a heterodimer composed of the nuclear receptors ECR (NR1H1) and USP (NR2B4), was maintained in insects despite a dramatic divergence that occurred during the emergence of Mecopterida. This receptor is therefore a good model to study the evolution of plasticity.

RNAi studies reveal a conserved role for RXR in molting in the cockroach Blattella germanica.

Ecdysteroids play a major role during developmental growth in insects. The more active form of these hormones, 20-hydroxyecdysone (20E), acts upon binding to its heterodimeric receptor, formed by the two nuclear receptors, EcR and RXR/USP. Functional characterization of USP has been exclusively conducted on the holometabolous insect Drosophila melanogaster.

Differential expression of two RXR/ultraspiracle isoforms during the life cycle of the hemimetabolous insect Blattella germanica (Dictyoptera, Blattellidae).

In insects, the molecular basis of ecdysteroid action has been analysed in great detail in flies and moths, but rarely in primitive orders. Using the primitive hemimetabolous insect Blattella germanica, the German cockroach, as a model, we isolated two cDNAs of RXR/USP, a component of the heterodimeric ecdysone receptor. These two cDNAs correspond to two isoforms, named BgRXR-S (short form) and BgRXR-L (long form).