This is consistent with the effect of the growth phase we observed. It strengthens the conclusion that
the aah promoter region is RpoS controlled and could also explain why we did not identify the aidA promoters because, in our background and conditions, regulation seemed to be mostly based on RpoS. Finally, there are some minor discrepancies regarding the effects of temperature and salt on the aah promoter activities between the studies. This calls for caution in the interpretation of the conflicting results of our studies. Further work should address these issues. We thank Catherine Fillot for expert technical help. This work was supported by financial contributions from the Canadian Institutes Trichostatin A datasheet for Health Research (CIHR grant no. 84578), the Groupe de Recherche et d’Etudes sur les Maladies Infectieuses du Porc (GREMIP) and the Canada Research Chair and Canada Foundation for Innovation programs (grant no. 201414). “
“Invasion of the erythrocyte by the invasive form of the malaria parasite, the merozoite, is a complex process involving numerous parasite proteins. The reticulocyte-binding protein homologues (RH) family of merozoite proteins has been previously shown to play an important role in the invasion process. Previously, it has been shown that the RH proteins of Plasmodium yoelii,
Py235, play a role as an ATP/ADP sensor. Binding of Py235 to the erythrocyte surface is increased in the presence of ATP, while ADP has an inhibitory
effect. The sensor domain of Py235 is called NBD94 and Non-specific serine/threonine protein kinase the segment that has been shown to covalently bind the adenine selleck chemicals llc nucleotide is made up by the residues 483FNEIKEKLKHYNFDDFVKEE502. Here, we report on the solution nuclear magnetic resonance structure of this peptide (NBD94483–502) showing the presence of an α-helix between amino acid residues 485 and 491. The N- and C-terminal segments of the structure bend at tyrosine 493, a residue important for ATP binding. Importantly, erythrocyte-binding assays demonstrate that NBD94483–502 can directly interfere with the binding of native Py235 to erythrocytes, suggesting a direct role of this region in erythrocyte binding. The data will provide the foundation for future studies to identify new compounds that directly interfere with the invasion process. Malaria is caused by unicellular protozoan parasites and is considered one of the most important infectious diseases still affecting humans today. The life cycle of the protozoan parasite in the vertebrate host is characterized by the invasive forms of the sporozoite and merozoite that invade hepatocytes and erythrocytes (Gaur et al., 2004; Rodriguez et al., 2008), respectively. Multiple merozoite protein families are implicated in the invasion of red blood cells (RBCs), including the erythrocyte binding-like (EBL) proteins and the reticulocyte-binding protein homologues (RH), which bind to different RBC membrane receptors (Ogun et al., 2000; Preiser et al.