Iron(III) hydroxamate transport of Escherichia coli: restoration of iron supply by coexpression of the N- and C-terminal halves of the cytoplasmic membrane protein FhuB cloned on separate plasmids

Summary Transport of iron(III) hydroxamates across the inner membrane into the cytoplasm of Escherichia coli cells is mediated by the FhuC, FhuD and FhuB proteins. We studied the extremely hydrophobic FhuB protein (70 kDa) which is located in the cytoplasmic membrane. The N- and C-terminal halves of the protein [FhuB(N) and FhuB(C)] show homology to each other and to the equivalent polypeptides involved in uptake of ferric dicitrate and of vitamin B₂. Various plasmids carrying only one-half of the fhuB gene were expressed in fhuB ^– mutants. Only combinations of FhuB(N) and FhuB(C) polypeptides restored sensitivity to albomycin and growth on iron hydroxamates as sole iron source; no activity was obtained with either half of FhuB alone. These results indicate that both halves of FhuB are essential for substrate translocation and that they combine to form an active permease when expressed separately. In addition, a FhuB derivative with a large internal duplication of 271 amino acids was found to be partially active in transport, indicating that the extra portion did not perurb proper insertion of the active FhuB segments into the cytoplasmic membrane.     

Phytosoziologie, Ökologie und Systematik bei Flechten

In den letzten Jahren bemühte sich die systematische Forschung verstärkt, die oft sehr schematisch begrenzten Einheiten der Flechten mit modernen Methoden unter Berücksichtigung möglichst vieler Merkmale zu überprüfen und neu zu gliedern, Ökologische Merkmale wurden aber bei der Definition supraspezifischer taxonomischer Einheiten bei Flechten bisher kaum herangezogen. Eine Analyse der revidierten und neu gefaßten Taxa, z. B. innerhalb der Familie Lecideaceae, zeigt aber, daß diese Einheiten oft deutliche Parallelen und Schwerpunkte im ökologischen Bereich besitzen und sich somit ökologische Merkmale als zusätzliches Kriterium bei der Begründung von natürlichen Verwandtschaftsgruppen verwenden lassen. Andererseits kann eine stark abweichende Ökologie als Hinweis auf eine mögliche taxonomische Sonderstellung gelten (Beispiel: Ausgliederung von T. caradocensis als einziger Holzbewohner der Gattung Toninia aus diesem Genus), d. h., möglicherweise künstliche Taxa können für taxonomische Zwecke auf ökologisch und soziologisch auffallende Zäsuren hin untersucht werden. Derartige Querverbindungen zwischen Systematik und Ökologie finden sich besonders auf Gattungsniveau, lassen sich aber öfter auch in Familien hinein verfolgen. Somit können Fragen der Flechtentaxonomie niederer und mittlerer Kategorien durch Einbeziehung ökologischer Kriterien besser behandelt werden, als dies bei nur morphologischtypologischer Arbeitsweise der Fall ist. Um eine ökologische Affinität oder Zäsur zwischen Flechtentaxa aufzuzeigen, ist eine genauere Definition ihrer Ökologie nicht unbedingt notwendig. Eine ökologische Ähnlichkeit kann mit Hilfe pflanzensoziologischer Methoden nachgewiesen werden. Die Fruchtbarkeit der ökologisch-synökologischen Frageweise für die Flechtensystematik und die Bedeutung ökologischer Differenzierungen für die Evolution der Flechten werden diskutiert. Für wertvolle Diskussionen und Anregungen danke ich den Herren Dr. G. Kost (Tübingen), H. Oberhollenzer , Prof. Dr. J. Poelt (Graz), Dr. H. Schmalfuss und Dr. G. von Wahlert (alle Ludwigsburg) ganz herzlich.     

Excretion of a protease by Serratia marcescens

Excretion of an extracellular protease of Serratia marcescens ATCC 25419 occurred during logarithmic growth and was highest (per cell) when cultures reached the stationary growth phase. Production of the extracellular protease was induced by leucine or casein in minimal medium or by growth in tryptone-yeast medium. In the late stationary phase an intracellular protease activity accumulated which was also observed in mutants with very low extracellular protease activity. The excreted protease was the dominant protein in the growth medium. The protease was purified to homogeneity by column chromatography on Bio-Gel P-100 and on DEAE-cellulose. Quantitative amino acid analysis revealed the absence of sulfurcontaining amino acids. The enzyme consists of one polypeptide chain. A molecular weight of 51,000 and 55,000 was estimated using polyacrylamide gel electrophoresis and chromatography on Bio-Gel P-100 respectively. The enzyme cleaved only N--benzoyl-DL-lysine-and-arginine-nitroanilides but not the corresponding leucine or tyrosine derivatives nor a set of diand tripeptides.Abbreviation SDS sodium dodecylsulfate     

Land‐use effects on the functional distinctness of arthropod communities

Land‐use change is a major driver of the global loss of biodiversity, but it is unclear to what extent this also results in a loss of ecological traits. Therefore, a better understanding of how land‐use change affects ecological traits is crucial for efforts to sustain functional diversity. To this end we tested whether higher species richness or taxonomic distinctness generally leads to increased functional distinctness and whether intensive land use leads to functionally more narrow arthropod communities. We compiled species composition and trait data for 350 species of terrestrial arthropods (Araneae, Carabidae and Heteroptera) in different land‐use types (forests, grasslands and arable fields) of low and high land‐use intensity. We calculated the average functional and taxonomic distinctness and the rarified trait richness for each community. These measures reflect the range of traits, taxonomic relatedness and number of traits that are observed in local communities. Average functional distinctness only increased significantly with species richness in Carabidae communities. Functional distinctness increased significantly with taxonomic distinctness in communities of all analyzed taxa suggesting a high functional redundancy of taxonomically closely related species. Araneae and Heteroptera communities had the expected lower functional distinctness at sites with higher land‐use intensity. More frequently disturbed land‐use types such as managed grasslands or arable fields were characterized by species with smaller body sizes and higher dispersal abilities and communities with lower functional distinctness or trait richness. Simple recommendations about the conservation of functional distinctness of arthropod communities in the face of future land‐use intensification and species loss are not possible. Our study shows that these relationships depend on the studied taxa and land‐use type. However, for some arthropod groups functional distinctness is threatened by intensification and conversion from less to more frequently disturbed land‐uses.     

Reduced brain cholesterol content in arylsulfatase A-deficient mice

Metachromatic leukodystrophy (MLD) is a lysosomal storage disorder caused by deficiency in arylsulfatase A (ASA). Concentrations of cholesterol and its metabolites were determined in ASA deficient [ASA(-/-)] mice which serve as an animal model of MLD. We observed a significant reduction in cholesterol content in the brain of adult ASA(-/-) mice when compared to wild-type controls. This was not due to loss of myelin, because ASA(-/-) mice do not demyelinate. Other cholesterol metabolites were not changed significantly in ASA(-/-) mice, except for an increase in lathosterol. Moreover, reduced cholesterol levels were also found in tissue samples from two juvenile MLD cases. Since high cholesterol levels are important for myelination, and various cellular processes, like vesicular trafficking and signal transduction, reduced cholesterol levels might be an important factor in the molecular pathology of MLD.     

Albomycin uptake via a ferric hydroxamate transport system of Streptococcus pneumoniae R6

The antibiotic albomycin is highly effective against Streptococcus pneumoniae, with an MIC of 10 ng/ml. The reason for the high efficacy was studied by measuring the uptake of albomycin into S. pneumoniae. Albomycin was transported via the system that transports the ferric hydroxamates ferrichrome and ferrioxamine B. These two ferric hydroxamates antagonized the growth inhibition by albomycin and salmycin. Cross-inhibition of the structurally different ferric hydroxamates to both antibiotics can be explained by the similar iron coordination centers of the four compounds. [(55)Fe(3+)]ferrichrome and [(55)Fe(3+)]ferrioxamine B were taken up by the same transport system into S. pneumoniae. Mutants in the adjacent fhuD, fhuB, and fhuG genes were transport inactive and resistant to the antibiotics. Albomycin, ferrichrome, ferrioxamine B, and salmycin bound to the isolated FhuD protein and prevented degradation by proteinase K. The fhu locus consisting of the fhuD, fhuB, fhuG, and fhuC genes determines a predicted ABC transporter composed of the FhuD binding lipoprotein, the FhuB and FhuG transport proteins, and the FhuC ATPase. It is concluded that active transport of albomycin mediates the high antibiotic efficacy in S. pneumoniae.     

Baseline mechanical characterization of J774 macrophages

Macrophage cell lines like J774 cells are ideal model systems for establishing the biophysical foundations of autonomous deformation and motility of immune cells. To aid comparative studies on these and other types of motile cells, we report measurements of the cortical tension and cytoplasmic viscosity of J774 macrophages using micropipette aspiration. Passive J774 cells cultured in suspension exhibited a cortical resting tension of ∼0.14 mN/m and a viscosity (at room temperature) of 0.93 kPa·s. Both values are about one order of magnitude higher than the respective values obtained for human neutrophils, lending support to the hypothesis that a tight balance between cortical tension and cytoplasmic viscosity is a physical prerequisite for eukaryotic cell motility. The relatively large stiffness of passive J774 cells contrasts with their capacity for a more than fivefold increase in apparent surface area during active deformation in phagocytosis. Scanning electron micrographs show how microscopic membrane wrinkles are smoothed out and recruited into the apparent surface area during phagocytosis of large targets.     

Nanofibers in a hyaluronan-based pericellular matrix

The extracellular matrix of the brain is a highly organized hyaluronan-based supramolecular assembly that is involved in neuronal pathfinding, cell migration, synaptogenesis and neuronal plasticity. Here, we analyze the structure of the hyaluronan-rich pericellular matrix of an oligodendroglial precursor cell line using helium ion beam scanning microscopy at a subnanometer resolution. We find that thin nanofibers are the ultimate building elements of this oligodendroglial pericellular matrix. These structures may participate in the regulation of oligodendroglial maturation and motility.