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I. X-irradiation of isolated rat diaphragm with 10 to 200 kr produces a change in tissue metabolism which we schematize in two successive phases:
1st phase: Increase of oxygen comsumption, proportional to the dosage; an even greater increase of CO2 production; QCO2/QO2 > 1, that is, aerobic glycolysis; inhibition of anaerobic glycolysis.
2nd phase: Reduction of oxygen consumption, proportional to the dosage (over 65 kr the Qo2 decreases below the control); an even greater decrease of CO2 production: QCO2/QO2 > 1; a greater inhibition of anaerobic glycolysis.
With 200 kr or more no increase of respiration appears, but instead from the beginning there is a reduction of the metabolism as described in the second phase.
II. A similar effect is found in rat liver and in frog heart tissue.
III. When the tissue was incubated in the homologus serum no change in the quality of the described effect was observed. Under our experimental conditions the tissue was X-irradiated within a small quantity of incubation medium and immediately afterwards placed in a fresh medium; this limits the effect of oxidative radicals (arising in the X-irradiated water) upon the tissue.
IV. We set forth the experimental hypothesis that all the described changes in the metabolism of the cell after X-irradiation depend upon a primary alteration of electrolyte balance in the cell, especially of the potassium/sodium relationship. The well known decrease of glycolysis after X-irradiation is a consequence of the loss of potassium from the X-irradiated cell.
Die Primärwirkung von Röntgenstrahlung einer Dosis von 2 — 30 Millionen r auf kristallisiertes Lysozym wurde mit Hilfe physikalisch-chemischer (Elektrophorese, Ultrazentrifuge), chemischer, biochemischer und biologischer Arbeitsmethoden untersucht. Es wurde gefunden, daß durch Bestrahlung eine Reihe nah verwandter, jedoch weniger basischer Proteine verschiedenen Mol.-Gew. entsteht, deren Aminosäure-Bausteine als Folge der Bestrahlung teilweise in andere Verbindungen umgewandelt wurden. Bei der Untersuchung der amino- und carboxyl-endständigen Aminosäuren des bestrahlten Proteins wurden Unterschiede gegenüber Lysozym nur bei den carboxyl-terminalen Gruppen festgestellt. Die biologische Aktivität des Proteins blieb auch nach Bestrahlung mit einer Dosis von 5 Millionen r praktisch unverändert.
Die indirekte Wirkung von Röntgenstrahlen einer Dosis von 0,08 bis 7.5 Millionen r auf eine 2 · 10-2-m. wäßrige Tryptophanlösung wurde mit Hilfe chemischer und physikalisch-chemischer Arbeitsmethoden (Hochspannungs-Elektrophorese) untersucht.
Der Einfluß der Dosis, Dosisleistung, Temperatur und die durch oxydierend wirkende Radikale (HO2) ausgelösten Reaktionsschritte bei Bestrahlung in Sauerstoffatmosphäre wurden in qualitativer Hinsicht geprüft.
Aus der Vielzahl der strahlenchemisch gebildeten Abbauprodukte konnten mit Sicherheit nachgewiesen werden: Glycin, α-Alanin, Asparaginsäure, Kynurenin, 3-Hydroxykynurenin, 3-Oxyanthranilsäure und Tryptamin.
Schließlich wurde versucht, die experimentell gewonnenen Ergebnisse mit Hilfe von Radikalwirkungen, die sich auf
a) Decarboxylierungen
b) und Veränderungen des Kohlenstoff-Gerüstes beziehen, zu deuten.
Elektronenresonanz-Untersuchungen von Nachreaktionen in einem röntgenbestrahlten Faserprotein
(1962)
Of the 16 non-structural proteins (Nsps) encoded by SARS CoV-2, Nsp3 is the largest and plays important roles in the viral life cycle. Being a large, multidomain, transmembrane protein, Nsp3 has been the most challenging Nsp to characterize. Encoded within Nsp3 is the papain-like protease domain (PLpro) that cleaves not only the viral polypeptide but also K48-linked polyubiquitin and the ubiquitin-like modifier, ISG15, from host cell proteins. We here compare the interactors of PLpro and Nsp3 and find a largely overlapping interactome. Intriguingly, we find that near full length Nsp3 is a more active protease compared to the minimal catalytic domain of PLpro. Using a MALDI-TOF based assay, we screen 1971 approved clinical compounds and identify five compounds that inhibit PLpro with IC50s in the low micromolar range but showed cross reactivity with other human deubiquitinases and had no significant antiviral activity in cellular SARS-CoV-2 infection assays. We therefore looked for alternative methods to block PLpro activity and engineered competitive nanobodies that bind to PLpro at the substrate binding site with nanomolar affinity thus inhibiting the enzyme. Our work highlights the importance of studying Nsp3 and provides tools and valuable insights to investigate Nsp3 biology during the viral infection cycle.
Riboswitch RNAs regulate gene expression by conformational changes induced by environmental conditions and specific ligand binding. The guanidine-II riboswitch is proposed to bind the small molecule guanidinium and to subsequently form a kissing loop interaction between the P1 and P2 hairpins. While an interaction was shown for isolated hairpins in crystallization and electron paramagnetic resonance experiments, an intrastrand kissing loop formation has not been demonstrated. Here, we report the first evidence of this interaction in cis in a ligand and Mg2+ dependent manner. Using single-molecule FRET spectroscopy and detailed structural information from coarse-grained simulations, we observe and characterize three interconvertible states representing an open and kissing loop conformation as well as a novel Mg2+ dependent state for the guanidine-II riboswitch from E. coli. The results further substantiate the proposed switching mechanism and provide detailed insight into the regulation mechanism for the guanidine-II riboswitch class. Combining single molecule experiments and coarse-grained simulations therefore provides a promising perspective in resolving the conformational changes induced by environmental conditions and to yield molecular insights into RNA regulation.