The structural component of the basement layer of the coat is an

The structural component of the basement layer of the coat is an exceptional cytoskeletal protein, termed SpoIVA, which binds and hydrolyzes ATP. ATP hydrolysis is utilized to drive a conformational change in SpoIVA that leads to its irreversible

self-assembly into a static selleck inhibitor polymer in vitro. Here, we characterize the middle domain of SpoIVA, the predicted secondary structure of which resembles the chemotaxis protein CheX but, unlike CheX, does not harbor residues required for phosphatase activity. Disruptions in this domain did not abolish ATP hydrolysis, but resulted in mislocalization of the protein and reduction in sporulation efficiency in vivo. In vitro, disruptions in this domain prevented the ATP hydrolysis-driven conformational change in SpoIVA required for polymerization and led to the aggregation of SpoIVA into particles that did not form filaments. We propose a model in which SpoIVA initially assumes a conformation in which it inhibits its own aggregation into particles, and that ATP hydrolysis remodels the protein so that it assumes a polymerization-competent conformation. “
“Edwardsiella tarda is a Gram-negative, facultative aerobic pathogen which infects multifarious hosts

including fish, amphibians and human beings. A twin-arginine translocation (Tat) gene cluster important for high-salt tolerance in E. tarda was identified previously. Here the genetic structure and pleiotropic roles of the Tat system in physiological adaptation of the bacterium were

further characterized. Functional analysis indicated that tatD was not required for Tat export process and tatE might be an allelic gene of tatA in the bacterium. The results showed that disruption in the Tat system did not affect the morphology and biofilm formation in E. tarda, but did affect motility, hemagglutination, cell aggregation and Amine dehydrogenase infection of eukaryotic cells (e.g. macrophage J774a). Comparative proteomics analysis of subcellular proteins using two-dimensional gel electrophoresis and a qualitative shotgun protein sequencing method were implemented to identify proteins differentially expressed in E. tarda EIB202 vs. ∆tatABCD. The results revealed a large repertoire of differentially expressed proteins (n = 61), shedding light on the Tat system associated with virulence and stress-associated processes in E. tarda. “
“In this study, we show the expression of flavin mononucleotide-based fluorescent protein (FbFP) BS2 as a marker for gene expression in the opportunistic human anaerobic pathogen Bacteroides fragilis. Bacteroides fragilis 638R strain carrying osu∷bs2 constructs showed inducible fluorescence following addition of maltose anaerobically compared with nonfluorescent cells under glucose-repressed conditions. Bacteria carrying ahpC∷bs2 or dps∷bs2 constructs were fluorescent following induction by oxygen compared with nonfluorescent cells from the anaerobic control cultures.

Leave a Reply

Your email address will not be published. Required fields are marked *


You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>