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Eingeladener Vortrag
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Die Entwicklung innovativer Medium-Resolution-NMR-Spektrometer eröffnet eine Reihe bemerkenswerter Applikationen für die Qualitätskontrolle, die akademische Ausbildung und die Prozessanalytik. Die Verwendung von Permanentmagneten erlaubt den Einsatz der NMR-Spektroskopie in industriellen Prozessumgebungen.
Medium resolution nuclear magnetic resonance (MR-NMR) spectroscopy is currently a fast developing field, which has an enormous potential to become an important analytical tool for reaction monitoring, in hyphenated techniques, and for systematic investigations of complex mixtures. The recent developments of innovative MR-NMR spectrometers are therefore remarkable due to their possible applications in quality control, education, and process monitoring. MR-NMR spectroscopy can beneficially be applied for fast, non-invasive, and volume integrating analyses under rough environmental conditions.
Within this study, a simple 1/16'' fluorinated ethylene propylene (FEP) tube with an ID of 0.04'' (1.02 mm) was used as a flow cell in combination with a 5 mm glass Dewar tube inserted into a benchtop MR-NMR spectrometer with a 1H Larmor frequency of 43.32 MHz and 40.68 MHz for 19F. For the first time, quasi-simultaneous proton and fluorine NMR spectra were recorded with a series of alternating 19F and 1H single scan spectra along the reaction time coordinate of a homogeneously catalysed esterification model reaction containing fluorinated compounds. The results were compared to quantitative NMR spectra from a hyphenated 500 MHz online NMR instrument for validation. Automation of handling, pre-processing, and analysis of NMR data becomes increasingly important for process monitoring applications of online NMR spectroscopy and for its technical and practical acceptance. Thus, NMR spectra were automatically baseline corrected and phased using the minimum entropy method. Data analysis schemes were designed such that they are based on simple direct integration or first principle line fitting, with the aim that the analysis directly revealed molar concentrations from the spectra.
Finally, the performance of 1/16'' FEP tube set-up with an ID of 1.02 mm was characterised regarding the limit of detection (LOQ (1H) = 0.335 mol L-1 and LOQ (19F) = 0.130 mol L-1 for trifluoroethanol in D2O (single scan)) and maximum quantitative flow rates up to 0.3 mL min-1. Thus, a series of single scan 19F and 1H NMR spectra acquired with this simple set-up already presents a valuable basis for quantitative reaction monitoring.
Medium-resolution nuclear magnetic resonance spectroscopy (MR-NMR) currently develops to an important analytical tool for both quality control and processmonitoring. In contrast to high-resolution onlineNMR (HR-NMR),MR-NMRcan be operated under rough environmental conditions. A continuous re-circulating stream of reaction mixture fromthe reaction vessel to the NMR spectrometer enables a non-invasive, volume integrating online analysis of reactants and products. Here, we investigate the esterification of 2,2,2-trifluoroethanol with acetic acid to 2,2,2-trifluoroethyl acetate both by 1H HR-NMR (500MHz) and 1H and 19F MRNMR (43MHz) as amodel system. The parallel online measurement is realised by splitting the flow,which allows the adjustment of quantitative and independent flow rates, both in the HR-NMR probe as well as in the MR-NMR probe, in addition to a fast bypass line back to the reactor. One of the fundamental acceptance criteria for online MR-MNR spectroscopy is a robust data treatment and evaluation strategy with the potential for automation. The MR-NMR spectra are treated by an automated baseline and phase correction using the minimum entropy method. The evaluation strategies comprise (i) direct integration, (ii) automated line fitting, (iii) indirect hard modelling (IHM) and (iv) partial least squares regression (PLS-R). To assess the potential of these evaluation strategies for MR-NMR, prediction results are compared with the line fitting data derived from the quantitative HR-NMR spectroscopy. Although, superior results are obtained from both IHM and PLS-R for 1H MR-NMR, especially the latter demands for elaborate data pretreatment, whereas IHM models needed no previous alignment.
We investigate the pore space of rock samples with respect to different petrophysical parameters using various methods, which provide data on pore size distributions, including micro computed tomography (µ-CT), mercury Intrusion porosimetry (MIP), nuclear magnetic resonance (NMR), and spectral-induced polarization (SIP). The resulting cumulative distributions of pore volume as a function of pore size are compared. Considering that the methods differ with
regard to their limits of resolution, a multiple-length-scale characterization of the pore space is proposed, that is based on a combination of the results from all of these methods.
The approach is demonstrated using samples of Bentheimer and Röttbacher sandstone. Additionally, we compare the potential of SIP to provide a pore size distribution with other commonly used methods (MIP, NMR). The limits of Resolution of SIP depend on the usable frequency range (between 0.002 and 100 Hz). The methods with similar Resolution show a similar behavior of the cumulative pore volume distribution in the verlapping pore size range. We assume that µ-CT and NMR provide the pore body size while MIP and SIP characterize the pore throat size. Our study Shows that a good agreement between the pore radius distributions can only be achieved if the curves are adjusted considering the resolution and pore volume in the relevant range of pore radii. The MIP curve with the widest range in Resolution should be used as reference.
17O enriched sodium borophosphate glasses were prepared from isotopically enriched NaPO3 and H3BO3. These glasses have been studied by 17O, 11B and 31P NMR including 17O and 11B multiple quantum magic angle sample spinning (MQMAS), 11B31P heteronuclear correlation (HETCOR) NMR and 11B 31P rotational echo double resonance (REDOR). For comparison, the crystalline borophosphates BPO4 and Na5B2P3O13 were included in the investigations. The latter compound shows three sharp 31P resonances at -0.2, -2 and -8 ppm and two BO4 sites that can only be resolved by MQMAS.
The 17O NMR spectra were recorded using both the static echo method at medium magnetic field (9.4 T) as well as MAS and MQMAS methods at high field (17.6 T). In total, five oxygen sites were identified in these borophosphate glasses: POP, NaOP, POB, BOB, NaOB. However, these five sites are not present simultaneously in any of the glasses. The 17O MQMAS spectra prove that POB links play a major role in borophosphate glasses. These results are confirmed by the complementary 11B MAS spectra that show the presence of asymmetric and symmetric trigonal groups BO3a and BO3s and two tetrahedral BO4 units. 11B 31P REDOR NMR is used to give independent information to assign the 11B lines to structural units present in the glasses. These REDOR measurements reveal that BOP bonds are present for each borate unit, including the BO3 groups. Particularly, a structural proposal for the two different BO4 resonances is given in terms of a different number of bonded phosphate tetrahedra. The 31P MAS spectra are usually broad and not well resolved. It is shown by 11B31P HETCOR NMR that a possible structural assignment of a 31P signal at about -20 ppm to Q2 units as in binary sodium phosphate glasses is wrong and that the phosphate tetrahedron belonging to this resonance must be connected to borate groups
Im deutschen Bundesautobahnnetz treten vor allem an den vor 2005 errichteten Betonfahrbahndecken vermehrt Schäden auf, die mit einer AKR in Verbindung gebracht werden. Sie äußern sich zunächst in einer Dunkelfärbung in den Fugenbereichen der Betonfahrbahndecke. Oft wird diese Erscheinung von einer von der Fuge ausgehenden horizontalen Rissbildung parallel zur Fahrbahnoberfläche begleitet. Durch den Einsatz der NMR-Technik konnte erstmals zerstörungsfrei der erhöhte Feuchtegehalt in der Betonrandzone als Ursache für diese Erscheinung nachgewiesen werden. Zusätzlich durchgeführte Radaruntersuchungen und Darr-Wäge-Versuche zeigten, dass die erhöhte Durchfeuchtung in der Betonrandzone in der Regel den gesamten Fahrbahnquerschnitt erfasst. Weiterhin wurde aufgezeigt, dass vor allem die akustischen Verfahren eine zerstörungsfreie Detektion der von der Fuge ausgehenden lateralen Ausdehnung der oberen Rissebene in die Fahrbahnplatte ermöglichen. Im Gegensatz zum Impakt-Echo-Verfahren erlaubt das Ultraschall-Echo-Verfahren zusätzlich die Ermittlung der Tiefenlage der oberen Rissebene. Es wird eine weitere Ertüchtigung der akustischen Verfahren für die Strukturaufklärung in Betonfahrbahndecken angeregt.
Expression, purification and characterization of the recombinant cysteine-rich biomarker Hepcidin-25
(2018)
Hepcidin regulates iron homeostasis in response to inflammation, erythropoietic demand, and iron stores. The native state of hepcidin-25 is an attractive target for the development of a reliable analytical tool that can quantify the hepcidin concentration in biological samples and reveal iron metabolic disorders. Therefore, a selective immunoassay would have to discriminate between different types of hepcidin and quantify only hepcidin-25’s concentration. The peptide contains a well-defined β-sheets and a β-hairpin loop stabilized by four disulfide bonds. Recently, it was shown that hepcidin-25 contains an ATCUN motif at its N-terminus. This motif is known to have high affinity towards Cu2+ and Ni2+.
One of the aims of this study is to determine the three-dimensional (3D) structure of metal-bound hepcidin-25. Here, we present an optimized procedure for preparing natively folded hepcidin 25 (~2.80 kDa) and structural analysis of metal binding to hepcidin-25. Hepcidin was expressed as a His6-SUMO-hepcidin-25 fusion protein (~16.20 kDa) in Escherichia coli, Origami B strains, and purified as a soluble recombinant protein in three steps. After purification based on the nickel affinity chromatography, the purified His6-SUMO-hepcidin 25 fusion protein was cleaved by the SUMO-specific ULP1 protease. The liberated hepcidin 25 was further purified on a Superdex 30 16/600 column and folded in the last step of purification in the presence of glutathione. Freshly expressed hepcidin was kept in its reduced form to prevent misfolding and allow for efficient removal of the SUMO tag. The presence of natively folded hepcidin 25 after RP-HPLC was confirmed by ESI-MS and NMR spectroscopy. Based on published chemical shifts, we achieved a nearly complete assignment of the labeled and unlabeled hepcidin-25 at pH=3. Comparison of 1H chemical shifts and TOCSY spectra at pH=7 in the presence and absence of Ni2+ demonstrates that the metal binds at the N-terminus of hepcidin 25. Chemical shift changes due to metal complexation decrease further away from the metal binding site.
Eight different screed types are tested including two different sample heights of 35 and 70 mm. The moisture of the four cement based and four sulphate based screeds are monitored during hydration and evaporation. All samples are stored in a climatic chamber at 23◦ C and 50 % relative humidity. Embedded sensors like temperature arrays, humidity sensor arrays, and multi-ring electrodes are embedded in the samples to yield a detailed moisture evolution with high depth resolution. Furthermore, nuclear magnetic resonance is used to quantify the water content at different depths. This multi-sensor approach allows a comprehensive monitoring of the moisture and its gradient in the different screed samples. This yields a deeper insight into the hydration, moisture convection, and diffusion processes.
Eight different screed types are tested including two different sample heights of 35 and 70 mm. The moisture of the four cement based and four sulphate based screeds are monitored during hydration and evaporation. All samples are stored in a climatic chamber at 23° C and 50 % relative humidity. Embedded sensors like temperature arrays, humidity sensor arrays, and multi-ring electrodes are embedded in the samples to yield a detailed moisture evolution with high depth resolution. Furthermore, nuclear magnetic resonance is used to quantify the water content at different depths. This multi-sensor approach allows a comprehensive monitoring of the moisture and its gradient in the different screed samples. This yields a deeper insight into the hydration, moisture convection, and diffusion processes.