209 research outputs found
A Dual Nanosensor Approach to Determine the Cytosolic Concentration of ATP in Astrocytes
Adenosine triphosphate (ATP) is the central energy carrier of all cells and knowledge on
the dynamics of the concentration of ATP ([ATP]) provides important insights into the
energetic state of a cell. Several genetically encoded fluorescent nanosensors for ATP
were developed, which allow following the cytosolic [ATP] at high spatial and temporal
resolution using fluorescence microscopy. However, to calibrate the fluorescent signal to
[ATP] has remained challenging. To estimate basal cytosolic [ATP] ([ATP] ([ATP0) in astrocytes,
we here took advantage of two ATP nanosensors of the ATeam-family (ATeam1.03;
ATeam1.03YEMK) with different affinities for ATP. Altering [ATP] by external stimuli
resulted in characteristic pairs of signal changes of both nanosensors, which depend
on [ATP]0. Using this dual nanosensor strategy and epifluorescence microscopy, [ATP]0
was estimated to be around 1.5 mM in primary cultures of cortical astrocytes from mice.
Furthermore, in astrocytes in acutely isolated cortical slices from mice expressing both
nanosensors after stereotactic injection of AAV-vectors, 2-photon microscopy revealed
[ATP]0 of 0.7 mM to 1.3 mM. Finally, the change in [ATP] induced in the cytosol
of cultured cortical astrocytes by application of azide, glutamate, and an increased
extracellular concentration of KC were calculated as 0.50 mM, 0.16 mM, and
0.07 mM, respectively. In summary, the dual nanosensor approach adds another option
for determining the concentration of [ATP] to the increasing toolbox of fluorescent
nanosensors for metabolites. This approach can also be applied to other metabolites
when two sensors with different binding properties are available
Nondestructive Testing for Graduate Students at Dresden International University and Iowa State University
Education in Nondestructive Evaluation is managed in different countries and different industrial sectors in various ways. The options vary from special courses for technicians with theoretical and practical knowledge, special courses focused on requirements in dedicated fields as aerospace and learning theoretical and practical issues from Level-3-Experts in the company during work.
These systems, the knowledge of the practical aspects of the different methods for technicians who handle day by day with these techniques is splendidly constructed with top-quality. But for engineers, scientists and academics, who work on optimizing and enlarging methods, developing new methods and who use theoretical simulation models, it is important to get a broader scientific background.
In this contribution we present a Master Course for Nondestructive Testing developed by the “Dresden International University” in close cooperation with the Technical University Dresden and the Fraunhofer IZFP. The students get an extensive background knowledge of a plurality of Nondestructive methods. The teachers comes from University as well as the Fraunhofer Institute, so it is secured that both the theoretical basics and novel research and developments are included. This is assisted by practical trainig at the Fraunhofer Institute. The requirement for participation is a successful finished study in engineering or science. The special feature on this Master course is its character as correspondence course. The main content is taught at distance learning courses using digital scripts and video conferences, questions are answered using E-mail and phone, too. For four weeks in the year the students have to show presence on campus in Dresden for practical courses and exams. The course of studies finishes with the international accredited certificate as Master of Science for Nondestructive Testing.
This master degree can be compared the NDE Minor program that is offered at the Iowa State University. This is an additional certificate that graduate students in engineering can earn by taking a certain number of NDE related courses. In the paper we will briefly compare both Programs for NDE education for graduate students at both Universities
Direct Observation of Phagocytosis and NET-formation by Neutrophils in Infected Lungs using 2-photon Microscopy
After the gastrointestinal tract, the lung is the second largest surface for interaction between the vertebrate body and the
environment. Here, an effective gas exchange must be maintained, while at the same time avoiding infection by the multiple pathogens that are inhaled
during normal breathing. To achieve this, a superb set of defense strategies combining humoral and cellular immune mechanisms exists. One of the most
effective measures for acute defense of the lung is the recruitment of neutrophils, which either phagocytose the inhaled pathogens or kill them by
releasing cytotoxic chemicals. A recent addition to the arsenal of neutrophils is their explosive release of extracellular DNA-NETs by which bacteria
or fungi can be caught or inactivated even after the NET releasing cells have died. We present here a method that allows one to directly observe neutrophils,
migrating within a recently infected lung, phagocytosing fungal pathogens as well as visualize the extensive NETs that they have produced throughout the
infected tissue. The method describes the preparation of thick viable lung slices 7 hours after intratracheal infection of mice with conidia of the mold
Aspergillus fumigatus and their examination by multicolor time-lapse 2-photon microscopy. This approach allows one to directly investigate antifungal
defense in native lung tissue and thus opens a new avenue for the detailed investigation of pulmonary immunity
Light- and pH-dependent structural changes in cyanobacteriochrome AnPixJg2
Cyanobacteriochromes (CBCRs) are phytochrome-related photosensory proteins that play an essential role in regulating phototaxis, chromatic acclimation, and cell aggregation in cyanobacteria. Here, we apply solid-state NMR spectroscopy to the red/green GAF2 domain of the CBCR AnPixJ assembled in vitro with a uniformly 13C- and 15N-labeled bilin chromophore, tracking changes in electronic structure, geometry, and structural heterogeneity of the chromophore as well as intimate contacts between the chromophore and protein residues in the photocycle. Our data confirm that the bilin ring D is strongly twisted with respect to the B–C plane in both dark and photoproduct states. We also identify a greater structural heterogeneity of the bilin chromophore in the photoproduct than in the dark state. In addition, the binding pocket is more hydrated in the photoproduct. Observation of interfacial 1H contacts of the photoproduct chromophore, together with quantum mechanics/molecular mechanics (QM/MM)-based structural models for this photoproduct, clearly suggests the presence of a biprotonated (cationic) imidazolium side-chain for a conserved histidine residue (322) at a distance of ~2.7 Å, generalizing the recent theoretical findings that explicitly link the structural heterogeneity of the dark-state chromophore to the protonation of this specific residue. Moreover, we examine pH effects on this in vitro assembled holoprotein, showing a substantially altered electronic structure and protonation of the photoproduct chromophore even with a small pH drop from 7.8 to 7.2. Our studies provide further information regarding the light- and pH-induced changes of the chromophore and the rearrangements of the hydrogen-bonding and electrostatic interaction network around it. Possible correlations between structural heterogeneity of the chromophore, protonation of the histidine residue nearby, and hydration of the pocket in both photostates are discussed
GABA-glycine cotransmitting neurons in the ventrolateral medulla: development and functional relevance for breathing
Inhibitory neurons crucially contribute to shaping the breathing rhythm in the brain stem. These neurons use GABA or glycine as neurotransmitter; or co-release GABA and glycine. However, the developmental relationship between GABAergic, glycinergic and cotransmitting neurons, and the functional relevance of cotransmitting neurons has remained enigmatic. Transgenic mice expressing fluorescent markers or the split-Cre system in inhibitory neurons were developed to track the three different interneuron phenotypes. During late embryonic development, the majority of inhibitory neurons in the ventrolateral medulla are cotransmitting cells, most of which differentiate into GABAergic and glycinergic neurons around birth and around postnatal day 4, respectively. Functional inactivation of cotransmitting neurons revealed an increase of the number of respiratory pauses, the cycle-by-cycle variability, and the overall variability of breathing. In summary, the majority of cotransmitting neurons differentiate into GABAergic or glycinergic neurons within the first 2 weeks after birth and these neurons contribute to fine-tuning of the breathing pattern
Comparative analysis of the immunologic response induced by the Sterne 34F2 live spore Bacillus anthracis vaccine in a ruminant model
The Sterne 34F2 live spore vaccine (SLSV) developed in 1937 is the most widely used
veterinary vaccine against anthrax. However, literature on the immunogenicity of this vaccine
in a target ruminant host is scarce. In this study, we evaluated the humoral response to the
B. anthracis protective antigen (rPA), a recombinant bacillus collagen-like protein of
anthracis (rBclA), formaldehyde inactivated spores (FIS) prepared from strain 34F2
and a vegetative antigen formulation prepared from a capsule and toxin deficient strain
(CDC 1014) in Boer goats. The toxin neutralizing ability of induced antibodies was
evaluated using an in vitro toxin neutralization assay. The protection afforded by the
vaccine was also assessed in vaccinates. Anti-rPA, anti-FIS and lethal toxin neutralizing titres
were superior after booster vaccinations, compared to single vaccinations. Qualitative
analysis of humoral responses to rPA, rBclA and FIS antigens revealed a
preponderance of anti-FIS IgG titres following either single or double vaccinations with
the SLSV. Antibodies against FIS and rPA both increased by 350 and 300-fold following
revaccinations respectively. There was no response to rBclA following vaccinations with
the SLSV. Toxin neutralizing titres increased by 80-fold after single vaccination and
700-fold following a double vaccination. Lethal challenge studies in naïve goats indicated a
minimum infective dose of 36 B. anthracis spores. Single and double vaccination with the
SLSV protected 4/5 and 3/3 of goats challenged with > 800 spores respectively. An early booster vaccination following the first immunization is suggested in order to achieve a robust
immunity. Results from this study indicate that this crucial second vaccination can be
administered as early as 3 months after the initial vaccination.German research foundation (DFG) with grant # BE2157/4-1.http://www.elsevier.com/locate/vetimm2017-10-31hb2016Veterinary Tropical Disease
- …