Analyse des Wärmepumpenverhaltens zur Erweiterung eines Verteilnetzplanungswerkzeugs

Die Herausforderungen in der Energieversorgung, wie die Zunahme dezentraler Energieumwandlungsanlagen und flexiblere Lasten, erfordern eine Berücksichtigung bei der Planung und Optimierung von Verteilnetzen. Für eine effiziente Bewertung der Verteilnetze sind daher Anpassungen der Planungsverfahren notwendig. Eine Möglichkeit stellt die agentenbasierte Simulation der Verteilnetze mit den dort vorhandenen Netzteilnehmern dar. Jeder Netzteilnehmer wird in Form eines einzelnen Agenten abgebildet und das Zusammenwirken aller Agenten bildet ein Multiagentensystem. In diesem Beitrag wird zur Ergänzung einer bereits vorhandenen Simulationsumgebung ein Agent zur Modellierung von Wärmepumpen entwickelt. Abschließend erfolgt eine Simulation, in der die Auswirkungen von Wärmepumpen auf ein exemplarisches Niederspannungsnetz dargestellt werden

The human Rhesus-associated RhAG protein and a kidney homologue promote ammonium transport in yeast.

The Rhesus blood-group antigens are defined by a complex association of membrane polypeptides that includes the non-glycosylated Rh proteins (RhD and RhCE) and the RHag glycoprotein, which is strictly required for cell surface expression of these antigens. RhAG and the Rh polypeptides are erythroid-specific transmembrane proteins belonging to the same family (36% identity). Despite their importance in transfusion medicine, the function of RhAG and Rh proteins remains unknown, except that their absence in Rh(null) individuals leads to morphological and functional abnormalities of erythrocytes, known as the Rh-deficiency syndrome. We recently found significant sequence similarity between the Rh family proteins, especially RhAG, and Mep/Amt ammonium transporters. We show here that RhAG and also RhGK, a new human homologue expressed in kidney cells only, function as ammonium transport proteins when expressed in yeast. Both specifically complement the growth defect of a yeast mutant deficient in ammonium uptake. Moreover, ammonium efflux assays and growth tests in the presence of toxic concentrations of the analogue methylammonium indicate that RhAG and RhGK also promote ammonium export. Our results provide the first experimental evidence for a direct role of RhAG and RhGK in ammonium transport. These findings are of high interest, because no specific ammonium transport system has been characterized so far in human.Comparative StudyJournal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe

Structural involvement in substrate recognition of an essential aspartate residue conserved in Mep/Amt and Rh-type ammonium transporters.

Ammonium transport proteins belonging to the Mep/Amt/Rh family are spread throughout all domains of life. A conserved aspartate residue plays a key role in the function of Escherichia coli AmtB. Here, we show that the analogous aspartate residue is critical for the transport function of eukaryotic family members as distant as the yeast transporter/sensor Mep2 and the human RhAG and RhCG proteins. In yeast Mep2, replacement of aspartate(186) with asparagine produced an inactive transporter localized at the cell surface, whilst replacement with alanine was accompanied by stacking of the protein in the endoplasmic reticulum. Introduction of an acidic residue, glutamate, produced a partially active protein. A carboxyl group at position 186 of Mep2 therefore appears mandatory for function. Kinetic analysis shows the Mep2(D186E) variant to be particularly affected at the level of substrate affinity, suggesting an involvement of aspartate(186) in ammonium recognition. Our data also put forward that ammonium recognition and/or transport by Mep2 is required for the sensor role played in the development of pseudohyphal growth. Finally, replacement of the conserved aspartate with asparagine in human RhAG and RhCG proteins resulted in the loss of bi-directional transport function. Hence, this aspartate residue might play a preserved functional role in Mep/Amt/Rh proteins.Journal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe