Genome-wide transcriptional analysis suggests hydrogenase- and nitrogenase-mediated hydrogen production in Clostridium butyricum CWBI 1009

[en] Background: Molecular hydrogen, given its pollution-free combustion, has great potential to replace fossil fuels infuture transportation and energy production. However, current industrial hydrogen production processes, such assteam reforming of methane, contribute significantly to the greenhouse effect. Therefore alternative methods, inparticular the use of fermentative microorganisms, have attracted scientific interest in recent years. However thelow overall yield obtained is a major challenge in biological H2 production. Thus, a thorough and detailedunderstanding of the relationships between genome content, gene expression patterns, pathway utilisation andmetabolite synthesis is required to optimise the yield of biohydrogen production pathways.Results: In this study transcriptomic and proteomic analyses of the hydrogen-producing bacterium Clostridiumbutyricum CWBI 1009 were carried out to provide a biomolecular overview of the changes that occur when themetabolism shifts to H2 production. The growth, H2-production, and glucose-fermentation profiles were monitoredin 20 L batch bioreactors under unregulated-pH and fixed-pH conditions (pH 7.3 and 5.2). Conspicuous differenceswere observed in the bioreactor performances and cellular metabolisms for all the tested metabolites, and theywere pH dependent. During unregulated-pH glucose fermentation increased H2 production was associated withconcurrent strong up-regulation of the nitrogenase coding genes. However, no such concurrent up-regulation ofthe [FeFe] hydrogenase genes was observed. During the fixed pH 5.2 fermentation, by contrast, the expressionlevels for the [FeFe] hydrogenase coding genes were higher than during the unregulated-pH fermentation, whilethe nitrogenase transcripts were less abundant. The overall results suggest, for the first time, that environmentalfactors may determine whether H2 production in C. butyricum CWBI 1009 is mediated by the hydrogenases and/orthe nitrogenase.Conclusions: This work, contributing to the field of dark fermentative hydrogen production, provides amultidisciplinary approach for the investigation of the processes involved in the molecular H2 metabolism ofclostridia. In addition, it lays the groundwork for further optimisation of biohydrogen production pathways basedon genetic engineering techniques.info:eu-repo/semantics/publishe

Three Essential Ribonucleases—RNase Y, J1, and III—Control the Abundance of a Majority of Bacillus subtilis mRNAs

Bacillus subtilis possesses three essential enzymes thought to be involved in mRNA decay to varying degrees, namely RNase Y, RNase J1, and RNase III. Using recently developed high-resolution tiling arrays, we examined the effect of depletion of each of these enzymes on RNA abundance over the whole genome. The data are consistent with a model in which the degradation of a significant number of transcripts is dependent on endonucleolytic cleavage by RNase Y, followed by degradation of the downstream fragment by the 5′–3′ exoribonuclease RNase J1. However, many full-size transcripts also accumulate under conditions of RNase J1 insufficiency, compatible with a model whereby RNase J1 degrades transcripts either directly from the 5′ end or very close to it. Although the abundance of a large number of transcripts was altered by depletion of RNase III, this appears to result primarily from indirect transcriptional effects. Lastly, RNase depletion led to the stabilization of many low-abundance potential regulatory RNAs, both in intergenic regions and in the antisense orientation to known transcripts

Clinical and molecular epidemiological features of critically ill patients with invasive group A Streptococcus infections: a Belgian multicenter case-series.

peer reviewed[en] BACKGROUND: Recent alerts have highlighted an increase in group A streptococcal (GAS) infections since 2022 in Europe and the United States. Streptococcus pyogenes can cause limited skin or mucosal disease, but can also present as severe invasive disease necessitating critical care. We performed a multicenter retrospective study of patients with GAS infections recently admitted to Belgian intensive care units (ICUs) since January 2022. We describe patient characteristics and investigate the molecular epidemiology of the S. pyogenes strains involved. RESULTS: Between January 2022 and May 2023, a total of 86 cases (56 adults, 30 children) with GAS disease were admitted to critical care in the university hospitals of Leuven, Antwerp and Liège. We noted a strikingly high incidence of severe community-acquired pneumonia (sCAP) (45% of adults, 77% of children) complicated with empyema in 45% and 83% of adult and pediatric cases, respectively. Two-thirds of patients with S. pyogenes pneumonia had viral co-infection, with influenza (13 adults, 5 children) predominating. Other disease presentations included necrotizing fasciitis (23% of adults), other severe skin/soft tissue infections (16% of adults, 13% of children) and ear/nose/throat infections (13% of adults, 13% of children). Cardiogenic shock was frequent (36% of adults, 20% of children). Fifty-six patients (65%) had toxic shock syndrome. Organ support requirements were high and included invasive mechanical ventilation (77% of adults, 50% of children), renal replacement therapy (29% of adults, 3% of children) and extracorporeal membrane oxygenation (20% of adults, 7% of children). Mortality was 21% in adults and 3% in children. Genomic analysis of S. pyogenes strains from 55 out of 86 patients showed a predominance of emm1 strains (73%), with a replacement of the M1global lineage by the toxigenic M1UK lineage (83% of emm1 strains were M1UK). CONCLUSIONS: The recent rise of severe GAS infections (2022-23) is associated with introduction of the M1UK lineage in Belgium, but other factors may be at play-including intense circulation of respiratory viruses and potentially an immune debt after the COVID pandemic. Importantly, critical care physicians should include S. pyogenes as causative pathogen in the differential diagnosis of sCAP

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Le pays basque est une terre d’émigration. Un proverbe souvent cité définit comme représentant de la race celui qui porte un nom basque, parle l’eskuara et a un oncle en Amérique. Dès le 16e siècle les sept provinces ont fourni chefs militaires, administrateurs, missionnaires, soldats, marins et colons à la conquête espagnole de l’Amérique du Sud. La période moderne de la migration outre-atlantique commence aux alentours de 1830 et correspond à la fois à une demande de main-d’oeuvre émanant d..

Science/Fiction/Politics: Jules Verne’s Floridas

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