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Optical amplification and stability of spiroquaterphenyl compounds and blends
In this contribution, we present a systematic investigation on a series of spiroquaterphenyl compounds optimised for solid state lasing in the near ultraviolet (UV). Amplified spontaneous emission (ASE) thresholds in the order of 1 μJ/cm2 are obtained in neat (undiluted) films and blends, with emission peaks at 390 1 nm for unsubstituted and meta-substituted quaterphenyls and 400 4 nm for para-ether substituted quaterphenyls. Mixing with a transparent matrix retains a low threshold, shifts the emission to lower ...
Investigation of the functional synergy and involvement of different tRNA modifications in translational control
Transfer RNAs are essential adapter molecules employed in the translational process and are highly modified all over their structure. Specific modification of the four canonical ribonucleotides (A, U, C, G) is accomplished by various proteins and/or protein complexes, ranging from simple isomerisations (e.g. Ψ) and methylations (e.g. m5C) up to complex chemical structures (e.g. mcm5s2U, ct6A). The functions of tRNA modifications are linked to the specific position and may influence translation by supporting the native ...
The tRNA binding protein Kti12 and its role in the regulation of Elongator complex
[Summary] Kti12 is a conserved eukaryotic protein showing sequence homology to O-phosphoseryltRNA kinase (Pstk), which is required for the synthesis of selenocysteine tRNA. Saccharomyces cerevisiae Kti12 was originally discovered in a genetic screening for resistance against zymocin, a protein toxin produced by Kluyveromyces lactis. The cytotoxicity of zymocin lies in its anticodon nuclease activity, causing tRNA depletion and cell death in sensitive yeast cells. It recognizes and cleaves a particular wobble uridine ...
Diphthamide modified eEF2: Insights into Function, Crosstalk and Disease
Diphthamid ist eine posttranslationale Proteinmodifikation eines konservierten Histidins an dem eukaryotischen und archaealen translations-elongations Faktor 2 (eEF2 und aEF2). Obwohl die Diphthamidbiosynthese ein komplexer und gut beschriebener Ablauf ist, gibt es bisher keine detaillierte Beschreibung einer positiven zellulären Funktion der Modifikation.