POTRA domains of the TamA insertase interact with the outer membrane and modulate membrane properties.

The outer membrane (OM) of gram-negative bacteria serves as a vital organelle that is densely populated with OM proteins (OMPs) and plays pivotal roles in cellular functions and virulence. The assembly and insertion of these OMPs into the OM represent a fundamental process requiring specialized molecular chaperones. One example is the translocation and assembly module (TAM), which functions as a transenvelope chaperone promoting the folding of specific autotransporters, adhesins, and secretion systems.

Unraveling the crystal structure of the HpaA adhesin: insights into cell adhesion function and epitope localization of a vaccine candidate.

Unlabelled: is a bacterium that exhibits strict host restriction to humans and non-human primates, and the bacterium is widely acknowledged as a significant etiological factor in the development of chronic gastritis, peptic ulcers, and gastric cancers. The pathogenic potential of this organism lies in its adeptness at colonizing the gastric mucosa, which is facilitated by a diverse repertoire of virulence factors, including adhesins that promote the attachment of the bacteria to the gastric epithelium. Among these adhesins, HpaA stands out due to its conserved nature and pivotal role in establishing colonization.

Characterization of Hsp90 Co-Chaperone p23 Cleavage by Caspase-7 Uncovers a Peptidase-Substrate Interaction Involving Intrinsically Disordered Regions.

Caspases are cysteinyl peptidases involved in inflammation and apoptosis during which hundreds of proteins are cleaved by executioner caspase-3 and -7. Despite the fact that caspase-3 has a higher catalytic activity, caspase-7 is more proficient at cleaving poly(ADP ribose) polymerase 1 (PARP1) because it uses an exosite within its N-terminal domain (NTD). Here, we demonstrate that molecular determinants also located in the NTD enhance the recognition and proteolysis of the Hsp90 co-chaperone p23.

Epigenetic control of polyamines by the prion [PSI+].

Prion proteins are found in mammals and yeast, and can transmit diseases and encode heritable phenotypic traits. In Saccharomyces cerevisiae, eRF3, Rnq1, Ure2 and Swil are functional proteins with a soluble conformation that can switch to a non-functional, amyloid conformation denoted as [PSI+], [PIN+], [URE3] and [SWI+], respectively. The prion [PSI+] corresponds to an aggregated conformation of the translational release factor eRF3, which suppresses nonsense codons.