134 research outputs found
Secure Service Discovery in Home Networks
Get PDFThis paper presents an architecture for secure service discovery for use in home networks. We give an overview and rationale of a cluster-based home network architecture that bridges different, often vendor specific, network technologies. We show how it integrates security, communication, and service discovery to achieve a secure and trusted way of deploying services in a domestic environment
ΠΠ΅ΠΌΠΎΠΊΡΠ°ΡΠΈΡ Β«ΠΏΠΎ-ΡΠΊΡΠ°ΠΈΠ½ΡΠΊΠΈΒ»
Get PDFΠ‘Π΅Π³ΠΎΠ΄Π½Ρ Π½Π°ΠΈΠ±ΠΎΠ»Π΅Π΅ ΡΠ°Π·Π²ΠΈΡΡΠ΅ Π³ΠΎΡΡΠ΄Π°ΡΡΡΠ²Π° Π·Π°ΠΏΠ°Π΄Π½ΠΎΠ³ΠΎ ΠΌΠΈΡΠ° ΡΠ²ΡΠ·ΡΠ²Π°ΡΡ Π²ΡΠ΅ ΡΡΠΏΠ΅Ρ
ΠΈ Π² ΡΠΎΡΠΈΠ°Π»ΡΠ½ΠΎ-ΡΠΊΠΎΠ½ΠΎΠΌΠΈΡΠ΅ΡΠΊΠΎΠΌ ΠΈ ΠΏΠΎΠ»ΠΈΡΠΈΡΠ΅ΡΠΊΠΎΠΌ ΡΠ°Π·Π²ΠΈΡΠΈΠΈ ΠΈΠΌΠ΅Π½Π½ΠΎ Ρ Π΄Π΅ΠΌΠΎΠΊΡΠ°ΡΠΈΡΠ΅ΡΠΊΠΈΠΌΠΈ ΡΠΎΡΠΌΠ°ΠΌΠΈ ΡΠΏΡΠ°Π²Π»Π΅Π½ΠΈΡ ΠΎΠ±ΡΠ΅ΡΡΠ²ΠΎΠΌ.Π‘ΡΠΎΠ³ΠΎΠ΄Π½Ρ Π½Π°ΠΉΠ±ΡΠ»ΡΡ ΡΠΎΠ·Π²ΠΈΠ½Π΅Π½Ρ Π΄Π΅ΡΠΆΠ°Π²ΠΈ Π·Π°Ρ
ΡΠ΄Π½ΠΎΠ³ΠΎ ΡΠ²ΡΡΡ Π·Π²'ΡΠ·ΡΡΡΡ Π²ΡΡ ΡΡΠΏΡΡ
ΠΈ Π² ΡΠΎΡΡΠ°Π»ΡΠ½ΠΎ-Π΅ΠΊΠΎΠ½ΠΎΠΌΡΡΠ½ΠΎΠΌΡ Ρ ΠΏΠΎΠ»ΡΡΠΈΡΠ½ΠΎΠΌΡ ΡΠΎΠ·Π²ΠΈΡΠΊΡ ΡΠ°ΠΌΠ΅ Π· Π΄Π΅ΠΌΠΎΠΊΡΠ°ΡΠΈΡΠ½ΠΈΠΌΠΈ ΡΠΎΡΠΌΠ°ΠΌΠΈ ΡΠΏΡΠ°Π²Π»ΡΠ½Π½Ρ ΡΡΡΠΏΡΠ»ΡΡΡΠ²ΠΎΠΌ.ΠΡΡΡΠ²ΠΎΠΊ ΠΈΠ· ΠΊΠ½ΠΈΠ³ΠΈ Β«Π£ΠΊΡΠ°ΠΈΠ½ΡΠΊΠ°Ρ Π½Π°ΡΠΈΠΎΠ½Π°Π»ΡΠ½Π°Ρ ΠΈΠ΄Π΅Ρ ΠΈ ΡΠΊΡΠ°ΠΈΠ½ΡΠΊΠΈΠΉ Π½Π°ΡΠΈΠΎΠ½Π°Π»ΠΈΠ·ΠΌΒ»
Novel Treatment Approach for Aspergilloses by Targeting Germination
Get PDFGermination of conidia is an essential process within the Aspergillus life cycle and plays a major role during the infection of hosts. Conidia are able to avoid detection by the majority of leukocytes when dormant. Germination can cause severe health problems, specifically in immunocompromised people. Aspergillosis is most often caused by Aspergillus fumigatus (A. fumigatus) and affects neutropenic patients, as well as people with cystic fibrosis (CF). These patients are often unable to effectively detect and clear the conidia or hyphae and can develop chronic non-invasive and/or invasive infections or allergic inflammatory responses. Current treatments with (tri)azoles can be very effective to combat a variety of fungal infections. However, resistance against current azoles has emerged and has been increasing since 1998. As a consequence, patients infected with resistant A. fumigatus have a reported mortality rate of 88% to 100%. Especially with the growing number of patients that harbor azole-resistant Aspergilli, novel antifungals could provide an alternative. Aspergilloses differ in defining characteristics, but germination of conidia is one of the few common denominators. By specifically targeting conidial germination with novel antifungals, early intervention might be possible. In this review, we propose several morphotypes to disrupt conidial germination, as well as potential targets. Hopefully, new antifungals against such targets could contribute to disturbing the ability of Aspergilli to germinate and grow, resulting in a decreased fungal burden on patients
Growth of Aspergillus fumigatus in Biofilms in Comparison to Candida albicans
Get PDFBiofilm formation during infections with the opportunistic pathogen Aspergillus fumigatus can be very problematic in clinical settings, since it provides the fungal cells with a protective environment. Resistance against drug treatments, immune recognition as well as adaptation to the host environment allows fungal survival in the host. The exact molecular mechanisms behind most processes in the formation of biofilms are unclear. In general, the formation of biofilms can be categorized roughly in a few stages; adhesion, conidial germination and development of hyphae, biofilm maturation and cell dispersion. Fungi in biofilms can adapt to the in-host environment. These adaptations can occur on a level of phenotypic plasticity via gene regulation. However, also more substantial genetic changes of the genome can result in increased resistance and adaptation in the host, enhancing the survival chances of fungi in biofilms. Most research has focused on the development of biofilms. However, to tackle developing microbial resistance and adaptation in biofilms, more insight in mechanisms behind genetic adaptations is required to predict which defense mechanisms can be expected. This can be helpful in the development of novel and more targeted antifungal treatments to combat fungal infections
Host defence peptides identified in human apolipoprotein B as promising antifungal agents
Get PDFTherapeutic options to treat invasive fungal infections are still limited. This makes the development of novel antifungal agents highly desirable. Naturally occurring antifungal peptides represent valid candidates, since they are not harmful for human cells and are endowed with a wide range of activities and their mechanism of action is different from that of conventional antifungal drugs. Here, we characterized for the first time the antifungal properties of novel peptides identified in human apolipoprotein B. ApoB-derived peptides, here named r(P)ApoBLPro, r(P)ApoBLAla and r(P)ApoBSPro, were found to have significant fungicidal activity towards Candida albicans (C. albicans) cells. Peptides were also found to be able to slow down metabolic activity of Aspergillus niger (A. niger) spores. In addition, experiments were carried out to clarify the mechanism of fungicidal activity of ApoB-derived peptides. Peptides immediately interacted with C. albicans cell surfaces, as indicated by fluorescence live cell imaging analyses, and induced severe membrane damage, as indicated by propidium iodide uptake induced upon treatment of C. albicans cells with ApoB-derived peptides. ApoB-derived peptides were also tested on A. niger swollen spores, initial hyphae and branched mycelium. The effects of peptides were found to be more severe on swollen spores and initial hyphae compared to mycelium. Fluorescence live cell imaging analyses confirmed peptide internalization into swollen spores with a consequent accumulation into hyphae. Altogether, these findings open interesting perspectives to the application of ApoB-derived peptides as effective antifungal agents
The early interaction of the outer membrane protein PhoE with the periplasmic chaperone Skp occurs at the cytoplasmic membrane.
Get PDFSpheroplasts were used to study the early interactions of newly synthesized outer membrane protein PhoE with periplasmic proteins employing a protein cross-linking approach. Newly translocated PhoE protein could be cross-linked to the periplasmic chaperone Skp at the periplasmic side of the inner membrane. To study the timing of this interaction, a PhoE-dihydrofolate reductase hybrid protein was constructed that formed translocation intermediates, which had the PhoE moiety present in the periplasm and the dihydrofolate reductase moiety tightly folded in the cytoplasm. The hybrid protein was found to cross-link to Skp, indicating that PhoE closely interacts with the chaperone when the protein is still in a transmembrane orientation in the translocase. Removal of N-terminal parts of PhoE protein affected Skp binding in a cumulative manner, consistent with the presence of two Skp-binding sites in that region. In contrast, deletion of C-terminal parts resulted in variable interactions with Skp, suggesting that interaction of Skp with the N-terminal region is influenced by parts of the C terminus of PhoE protein. Both the soluble as well as the membrane-associated Skp protein were found to interact with PhoE. The latter form is proposed to be involved in the initial interaction with the N-terminal regions of the outer membrane protein
The Ξ±-(1,3)-glucan synthase gene agsE impacts the secretome of Aspergillus niger
Get PDFAspergillus niger is widely used as a cell factory for the industrial production of enzymes. Previously, it was shown that deletion of Ξ±-1-3 glucan synthase genes results in smaller micro-colonies in liquid cultures of Aspergillus nidulans. Also, it has been shown that small wild-type Aspergillus niger micro-colonies secrete more protein than large mirco-colonies. We here assessed whether deletion of the agsC or agsE Ξ±-1-3 glucan synthase genes results in smaller A. niger micro-colonies and whether this is accompanied by a change in protein secretion. Biomass formation was not affected in the deletion strains but pH of the culture medium had changed from 5.2 in the case of the wild-type to 4.6 and 6.4 for ΞagsC and ΞagsE, respectively. The diameter of the ΞagsC micro-colonies was not affected in liquid cultures. In contrast, diameter of the ΞagsE micro-colonies was reduced from 3304βΒ±β338 Β΅m to 1229βΒ±β113 Β΅m. Moreover, the ΞagsE secretome was affected with 54 and 36 unique proteins with a predicted signal peptide in the culture medium of MA234.1 and the ΞagsE, respectively. Results show that these strains have complementary cellulase activity and thus may have complementary activity on plant biomass degradation. Together, Ξ±-1-3 glucan synthesis (in)directly impacts protein secretion in A. niger
Probing Cell-Surface Interactions in Fungal Cell Walls by High-Resolution 1H-detected Solid-State NMR Spectroscopy
Get PDFSolid-state NMR (ssNMR) spectroscopy facilitates the non-destructive characterization of structurally heterogeneous biomolecules in their native setting, for example, comprising proteins, lipids and polysaccharides. Here we demonstrate the utility of high and ultra-high field 1 H-detected fast MAS ssNMR spectroscopy, which exhibits increased sensitivity and spectral resolution, to further elucidate the atomic-level composition and structural arrangement of the cell wall of Schizophyllum commune, a mushroom-forming fungus from the Basidiomycota phylum. These advancements allowed us to reveal that Cu(II) ions and the antifungal peptide Cathelicidin-2 mainly bind to cell wall proteins at low concentrations while glucans are targeted at high metal ion concentrations. In addition, our data suggest the presence of polysaccharides containing N-acetyl galactosamine (GalNAc) and proteins, including the hydrophobin proteins SC3, shedding more light on the molecular make-up of cells wall as well as the positioning of the polypeptide layer. Obtaining such information may be of critical relevance for future research into fungi in material science and biomedical contexts
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