Safety of inhaled nitric oxide withdrawal in severe chronic pulmonary hypertension.

Inhaled nitric oxide (iNO) is a potent and selective pulmonary vasodilator with a safety concern due to rebound pulmonary hypertension (PH) associated with its withdrawal. We report short-term pulsed iNO in patients with severe pulmonary arterial hypertension (PAH) and nonoperable chronic thromboembolic PH (nCTEPH). This is a retrospective analysis of 33 patients: 22 with PAH and 11 with nCTEPH.

Antibody affinity maturation using yeast display with detergent-solubilized membrane proteins as antigen sources.

Antigen preparations in the form of detergent-solubilized cell lysates could, in principle, render membrane proteins (MPs) compatible with in vitro antibody engineering technologies. To this end, detergent-solubilized cell lysates were coupled with the yeast surface display platform to affinity mature an anti-transferrin receptor (TfR) single-chain antibody (scFv). Lysates were generated from TfR-expressing HEK293 cells by solubilization with detergent-containing buffer after undergoing plasma membrane-restricted biotinylation.

Calcineurin-responsive zinc finger transcription factor CRZ1 of Botrytis cinerea is required for growth, development, and full virulence on bean plants.

Recently, we showed that the alpha subunit BCG1 of a heterotrimeric G protein is an upstream activator of the Ca(2+)/calmodulin-dependent phosphatase calcineurin in the gray mold fungus Botrytis cinerea. To identify the transcription factor acting downstream of BCG1 and calcineurin, we cloned the gene encoding the B. cinerea homologue of CRZ1 ("CRaZy," calcineurin-responsive zinc finger transcription factor), the mediator of calcineurin function in yeast.

Serodiagnosis of mycoses using recombinant antigens.

The early diagnosis of mycoses is important for the institution of an effective antifungal therapy. Detection of antibodies against crude antigenic extracts is one of the standard techniques for the diagnosis of most mycoses. However, while these crude antigenic extracts are relatively easy to obtain, they usually show low reproducibility and are not very specific, since antibodies from patients with different mycoses may show cross-reactivity.

Functional characterization of the Candida albicans CRZ1 gene encoding a calcineurin-regulated transcription factor.

Calcineurin is a phosphoprotein phosphatase devoted to the transduction of Ca(2+)-signals in eukaryotes. In the human pathogen Candida albicans, calcineurin function is required for cell morphogenesis, azole tolerance, membrane stress responses, survival in serum and virulence in mice. Molecular mechanisms as well as targets downstream C.

Promoter sequences regulated by the calcineurin-activated transcription factor Crz1 in the yeast ENA1 gene.

In Saccharomyces cerevisiae the transcription of the ENA1 gene is modulated by multiple transduction pathways that respond to osmotic, ionic and nutrient stresses. We have investigated the molecular mechanisms involved in ENA1 induction by the calcium-calcineurin-activated transcription factor Crzl/Tcn1. We found in the ENA1 promoter a calcium-responsive, Crzl-dependent upstream activating region (UASENA1) located between -713 bp and 826 bp relative to the translation start.

Yeast putative transcription factors involved in salt tolerance.

Four putative yeast transcription factors (Hal6-9p) have been identified which upon overexpression in multicopy plasmids increase sodium and lithium tolerance. This effect is mediated, at least in part, by increased expression of the Enalp Na+/Li+ extrusion pump. Hal6p and Hal7p are bZIP proteins and their gene disruptions affected neither salt tolerance nor ENA1 expression.

A novel and conserved salt-induced protein is an important determinant of salt tolerance in yeast.

We have isolated a novel yeast gene, HAL1, which upon overexpression improves growth under salt stress. In addition, disruption of this gene decreases salt tolerance. Therefore HAL1 constitutes a rate-limiting determinant for halotolerance.

Yeast proteinase yscB inactivates the leucyl tRNA synthetase in extracts of Saccharomyces cerevisiae.

The aminoacyl-tRNA synthetases are inactivated in extracts of Saccharomyces cerevisiae preferentially to other yeast enzymes and the rate of inactivation greatly increases in extracts of nitrogen-starved cells. The intensity of inactivation varies for the different synthetases. Under conditions in which more than 80 per cent of the leucyl and isoleucyl-tRNA synthetases are inactivated, the activities of the synthetases for serine and arginine remain unchanged and the synthetases for other amino acids are inactivated to different extents.

Deletion analysis of yeast plasma membrane H+-ATPase and identification of a regulatory domain at the carboxyl-terminus.

The function of the amino- and carboxyl-terminal domains of the yeast plasma membrane H+-ATPase have been investigated by constructing deletions in vitro and selectively expressing the mutant enzymes in vivo. The first 27 amino acids are dispensable but deletion of a further 33 amino acids greatly decreases the appearance of the enzyme in the plasma membrane. Membrane localization is also prevented by carboxyl-terminal deletions which include the last hydrophobic stretch, but the last 46 amino acids of the ATPase are not required.