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Organisationseinheit der BAM
Lanthanides (Ln) are critical raw materials, however, their mining and purification have a considerable negative environmental impact and sustainable recycling and separation strategies for these elements are needed. In this study, the precipitation and solubility behavior of Ln complexes with pyrroloquinoline quinone (PQQ), the cofactor of recently discovered lanthanide (Ln) dependent methanol dehydrogenase (MDH) enzymes, is presented. In this context, the molecular structure of a biorelevant europium PQQ complex was for the first time elucidated outside a protein environment. The complex crystallizes as an inversion symmetric dimer, Eu2PQQ2, with binding of Eu in the biologically relevant pocket of PQQ. LnPQQ and Ln1Ln2PQQ complexes were characterized by using inductively coupled plasma mass spectrometry (ICP‐MS), infrared (IR) spectroscopy, 151Eu‐Mössbauer spectroscopy, X‐ray total scattering, and extended X‐ray absorption fine structure (EXAFS). It is shown that a natural enzymatic cofactor is capable to achieve separation by precipitation of the notoriously similar, and thus difficult to separate, lanthanides to some extent.
Lanthanides (Ln) are critical raw materials, however, their mining and purification have a considerable negative environmental impact and sustainable recycling and separation strategies for these elements are needed. In this study, the precipitation and solubility behavior of Ln complexes with pyrroloquinoline quinone (PQQ), the cofactor of recently discovered lanthanide (Ln) dependent methanol Dehydrogenase (MDH) enzymes, is presented. In this context, the molecular structure of a biorelevant europium PQQ complex was for the first time elucidated outside a protein environment.
The complex crystallizes as an inversion symmetric dimer, Eu2PQQ2, with binding of Eu in the biologically relevant pocket of PQQ. LnPQQ and Ln1Ln2PQQ complexes were characterized by using inductively coupled Plasma mass spectrometry (ICP-MS), infrared (IR) spectroscopy, 151Eu-Mössbauer spectroscopy, X-ray total scattering, and Extended X-ray absorption fine structure (EXAFS). It is shown that a natural enzymatic cofactor is capable to achieve Separation by precipitation of the notoriously similar, and thus difficult to separate, lanthanides to some extent.
iel des vom Bundesministerium für Bildung und Forschung geförderten Verbundprojekts SiME „Sicherheit für Menschen mit körperlicher, geistiger oder altersbedingter Beeinträchtigung“ ist es, die Selbstrettungsfähigkeit dieser Personengruppen bei der Räumung von Gebäuden zu verbessern. Im Fokus des Projektes stehen diejenigen Menschen mit Beeinträchtigungen, die in Werkstätten tätig sind oder in entsprechenden Wohnformen leben. Der Beitrag enthält ausgewählte Ergebnisse einer Onlinebefragung der Werkstattleitungen und Feuerwehren.
Inhibition of respiratory viruses is one of the most urgent topics as underlined by different pandemics in the last two decades. This impels the development of new materials for binding and incapacitation of the viruses. In this work, we have demonstrated that an optimal deployment of influenza A virus (IAV) targeting ligand sialic acid (SA) on a flexible 2D platform enables its binding and wrapping around IAV particles. A series of 2D sialylated platforms consisting graphene and polyglycerol are prepared with different degrees of SA functionalization around 10%, 30%, and 90% named as G-PG-SAL, G-PG-SAM, and G-PG-SAH, respectively. The cryo-electron tomography (Cryo-ET) analysis has proved wrapping of IAV particles by G-PG-SAM.
A confocal-based colocalization assay established for these materials has offered the comparison of binding potential of sialylated and non-sialylated nanoplatforms for IAV. With this method, we have estimated the binding potential of the G-PG-SAM and G-PG-SAH sheets for IAV particles around 50 and 20 times higher than the control sheets, respectively, whereas the low functionalized G-PG-SAL have not shown any significant colocalization value.
Moreover, optimized G-PG-SAM exhibits high potency to block IAV from
binding with the MDCK cells.
The capabilities of pedestrians for evacuation have a significant impact on the time required to reach a safe place. Usually, the evacuation is split into two main stages: pre-movement-phase and movement-phase. For both a large number of studies investigate different representations of behaviour and impacts. But the influence of impairments is usually not taken into account. In addition, most of the scientific researches focus the investigation of the movement phase.
This publication presents a novel approach to score the need for assistance and to estimate the effect on evacuation performance. The proposed score considers characteristic impairments in three dimensions of behaviour: reception, perception and realisation.
In an unannounced evacuation training in a sheltered workshop, the evacuation behaviour and pre-movement phase were analysed. The analysis indicates that the pre-movement time depends on the kind of impairment as well as on organisational boundaries. Despite the special needs for assistance, the evacuation process in a sheltered workshop is quite similar to other sub-populations.