The Effects of Physical Activity on Reading and Mathematics Achievement in an Elementary Classroom

The purpose of this action research was to determine the effects of physical activity on reading and mathematics achievement on two first grade classrooms. The intervention took place over a period of four weeks in a public school setting with 38 students. Data was collected using teacher feedback, student self-assessment, a teacher log, and weekly reading and mathematics probes. Our results show that reading scores slightly improved after the intervention while mathematics scores stayed fairly consistent. Both first-grade teachers reported that they would continue to use physical activity prior to academic instruction in their classrooms because it helped students to focus and get their bodies and brains ready to learn. The student self-assessment revealed most first graders enjoyed the activity breaks and thought the breaks helped them to focus. Altogether, it appears physical activity before academic instruction had a positive impact on student achievement. Looking ahead, students will have more input on the types of activity breaks used within their classroom. Teachers can also educate their students and other colleagues on how physical activity can help students achieve greater outcomes. Further research topics include determining what type of breaks, calming compared to cardiovascular; have the greatest impact on student achievement

Polysulfate hemmen durch elektrostatische Wechselwirkungen die SARS-CoV-2-Infektion

Wir zeigen, dass negativ geladene Polysulfate durch elektrostatische Wechselwirkungen an das Spike-Protein von SARS-CoV-2 binden. Durch einen Plaquereduktionstest verglichen wir die hemmende Wirkung von Heparin, Pentosanpolysulfat, linearem Polyglycerolsulfat (LPGS) und hyperverzweigtem Polyglycerolsulfat (HPGS) gegengber SARSCoV-2. Dabei ist das synthetische LPGS der vielversprechendste Inhibitor mit IC50=67 μgmL-1 (ca. 1,6 μm) und zeigt eine 60-fach hçhere virushemmende Aktivität als Heparin (IC50=4084 μgmL-1) bei zugleich deutlich geringerer gerinnungshemmender Aktivität. Außerdem konnten wir durch Moleküldynamiksimulationen bestätigen, dass LPGS stärker an das Spike-Protein bindet als Heparin selbst und dass LPGS sogar noch stärker an die Spike-Proteine der neuen N501Yund E484K-Varianten bindet. Unsere Studien belegen, dass die Aufnahme von SARS-CoV-2 in Wirtzellen über elektrostatische Wechselwirkungen blockiert werden kann. Deshalb kann LPGS als vielversprechender Prototyp für das Design weiterer neuartiger viraler Inhibitoren von SARS-CoV-2 herangezogen werden

Polysulfates block SARS-CoV-2 uptake through electrostatic interactions

Here we report that negatively charged polysulfates can bind to the spike protein of SARS-CoV-2 via electrostatic interactions. Using a plaque reduction assay, we compare inhibition of SARS-CoV-2 by heparin, pentosan sulfate, linear polyglycerol sulfate (LPGS) and hyperbranched polyglycerol sulfate (HPGS). Highly sulfated LPGS is the optimal inhibitor, with a half-maximal inhibitory concentration (IC50) of 67 μg/mL (approx.1.6 μM). This synthetic polysulfates exhibit more than 60-fold higher virus inhibitory activity than heparin (IC50: 4084μg/mL), along with much lower anticoagulant activity. Furthermore, in molecular dynamics simulations, we verified that LPGS can bind stronger to the spike protein than heparin, and that LPGS can interact even morewith the spike protein of the new N501Y and E484K variants. Our study demonstrates that the entry of SARS-CoV-2 into host cells can be blocked via electrostatic interaction, therefore LPGS can serve as a blueprint for the design of novel viral inhibitors of SARS-CoV-2

On the study of oil paint adhesion on optically transparent glass: Conservation of reverse paintings on glass

Archived with thanks to Applied Surface Science, ElsevierReverse painting on glass is a technique which consists of applying a cold paint layer on the reverse-side of glass. The main challenge facing these artworks is the fragile adhesion of the pictorial layer – a simple movement can modify the appearance of the painting. This paper details a study into the adhesion parameters of pigments on glass and the comparison between different pigments. The relationships between the binder (linseed oil) with pigments and the glass with or without the use of an adhesive are studied. Physical analyses by surface characterisation have been carried out to better understand the influence of the pigment. The use of a sessile drop device, optical microscopy, scanning electron microscopy (SEM), a surface 3D profiler and a pencil hardness scratch tester were necessary to establish a comparison of the pictorial layer adhesion. A comparison of the effect of two adhesives; namely ox gall and gum arabic, has shown that the adhesion is not only linked to the physical parameters but that possible chemical reactions can influence the results. Finally, a treatment based on humidity-extreme storage has shown the weakness of some pictorial layers

Polysulfates block SARS‐CoV‐2 uptake through electrostatic interactions

Here we report that negatively charged polysulfates can bind to the spike protein of SARS-CoV-2 via electrostatic interactions. Using a plaque reduction assay, we compare inhibition of SARS-CoV-2 by heparin, pentosan sulfate, linear polyglycerol sulfate (LPGS) and hyperbranched polyglycerol sulfate (HPGS). Highly sulfated LPGS is the optimal inhibitor, with a half-maximal inhibitory concentration (IC50) of 67 μg/mL (approx. 1.6 μM). This synthetic polysulfates exhibit more than 60-fold higher virus inhibitory activity than heparin (IC50: 4084 μg/mL), along with much lower anticoagulant activity. Furthermore, in molecular dynamics simulations, we verified that LPGS can bind stronger to the spike protein than heparin, and that LPGS can interact even more with the spike protein of the new N501Y and E484K variants. Our study demonstrates that the entry of SARS-CoV-2 into host cells can be blocked via electrostatic interaction, therefore LPGS can serve as a blueprint for the design of novel viral inhibitors of SARS-CoV-2

Two painters, two centuries, one mural: Technical research on the layered crucifixion mural in the Utrecht burial chapel of Guy of Avesnes

In the Cathedral of Utrecht, a well-preserved mural still decorates the burial chapel of Guy of Avesnes, Bishop of Utrecht between 1301 and 1317. It was discovered in 1919, when a brick wall was removed from what turned out to be a painted niche. The mural, which depicts a Calvary, covers the rear wall of this niche, which is located in the chapel’s eastside wall. Its figures are of an outstanding quality; other murals like this have not survived in the Northern Netherlands. What is even more exceptional is the fact that on the back wall of the niche not one but two paintings can be found, the one currently visible covering an older mural. This older mural was probably placed there as part of the furnishings when the chapel became a burial chapel for the aforementioned bishop in around 1320. This mural was painted over in around 1410. The unique situation of a well-preserved fifteenth-century mural covering a fourteenth-century one calls for technical research that renders both murals visible and determines the working methods of the two painters who worked on the same wall almost a century apart