Union of the European Phoniatricians' position statement on the exit strategy of phoniatric and laryngological services : staying safe and getting back to normal after the peak of coronavirus disease 2019 (issued on 25th May 2020)

Background The following position statement from the Union of the European Phoniatricians, updated on 25th May 2020 (superseding the previous statement issued on 21st April 2020), contains a series of recommendations for phoniatricians and ENT surgeons who provide and/or run voice, swallowing, speech and language, or paediatric audiology services. Objectives This material specifically aims to inform clinical practices in countries where clinics and operating theatres are reopening for elective work. It endeavours to present a current European view in relation to common procedures, many of which fall under the aegis of aerosol generating procedures. Conclusion As evidence continues to build, some of the recommended practices will undoubtedly evolve, but it is hoped that the updated position statement will offer clinicians precepts on safe clinical practice.Peer reviewe

Bacterial defluorination of 4-fluoroglutamic acid

Fluorinated amino acids are used as enzyme inhibitors, mechanistic probes and in the production of pharmacologically active peptides. Because enantiomerically pure 4-fluoroglutamate is difficult to prepare, the selective degradation of the l-isomer is a potentially convenient method of obtaining d-4-fluoroglutamate from the racemate. In this paper, we describe our investigations on the degradation of 4-fluoroglutamate by bacteria. Fluoride ion was detected in resting-cell cultures of a number of bacteria that were incubated with racemic 4-fluoroglutamate. Analysis of the culture supernatants by chiral gas chromatography–mass spectrometry revealed that only the l-isomer was degraded. The degradation of 4-fluoroglutamate was also examined in cell-free extracts of Streptomyces cattleya and Proteus mirabilis, and it was observed that equimolar concentrations of fluoride ion and ammonia were generated. The activity was located in the soluble fraction of cell extracts, thus is not related to the l-2-amino-4-chloro-4-pentenoic acid dehydrochlorinase previously identified in membrane fractions of P. mirabilis.Other funderEnterprise Irelan

Comparison of Molecular Contours for Measuring Writhe in Atomistic Supercoiled DNA

DNA molecular center-lines designed from atomistic-resolution structures are compared for the evaluation of the writhe in supercoiled DNA using molecular dynamics simulations of two sets of minicircles with 260 and 336 base pairs. We present a new method called WrLINE that systematically filters out local (i.e., subhelical turn) irregularities using a sliding-window averaged over a single DNA turn and that provides a measure of DNA writhe that is suitable for comparing atomistic resolution data with those obtained from measurements of the global molecular shape. In contrast, the contour traced by the base-pair origins defined by the 3DNA program largely overestimates writhe due to the helical periodicity of DNA. Nonetheless, this local modulation of the molecular axis emerges as an internal mechanism for the DNA to confront superhelical stress, where the adjustment between low and high twist is coupled to a high and low local periodicity, respectively, mimicking the different base-stacking conformational space of A and B canonical DNA forms

Amitozyn impairs chromosome segregation and induces apoptosis via mitotic checkpoint activation.

Amitozyn (Am) is a semi-synthetic drug produced by the alkylation of major celandine (Chelidonium majus L.) alkaloids with the organophosphorous compound N,N'N'-triethylenethiophosphoramide (ThioTEPA). We show here that the treatment of living cells with Am reversibly perturbs the microtubule cytoskeleton, provoking a dose-dependent cell arrest in the M phase. Am changed the dynamics of tubulin polymerization in vitro, promoted the appearance of aberrant mitotic phenotypes in HeLa cells and induced apoptosis by the activation of caspase-9, caspase-3 and PARP, without inducing DNA breaks. Am treatment of HeLa cells induced changes in the phosphorylation of the growth suppressor pRb that coincided with maximum mitotic index. The dose-dependent and reversible anti-proliferative effect of Am was observed in several transformed cell lines. Importantly, the drug was also efficient against multidrug-resistant, paclitaxel-resistant or p53-deficient cells. Our results thus open the way to further pre-clinical evaluation of Am