Activity

Given the current need for enzymatic toolkits dedicated to the transformation of renewable carbon sources, the observed genomic diversity among Polyporales strengthens the relevance of mining Polyporales biodiversity to understand the molecular mechanisms of wood decay.The methanol-derived methanogenetic pathway contributes to bulk methane production in cold regions, but the cold adaptation mechanisms are obscure. This work investigated the mechanisms using a psychrophilic methylotrophic methanogen Methanolobus psychrophilus R15. R15 possesses two mtaCB operon paralogues-encoding methanolcorrinoid methyltransferase that is key to methanol-based methanogenesis. Molecular combined methanogenic assays determined that MtaC1 is important in methanogenesis at the optimal temperature of 18°C, but MtaC2 can be a cold-adaptive paralogue by highly upregulated at 8°C. The 5’P-seq and 5’RACE all assayed that processing occurred at the 5′ untranslated region (5′-UTR) of mtaC2; reporter genes detected higher protein expression, and RNA half-life experiments assayed prolonged lifespan of the processed transcript. Therefore, mtaC2 5′-UTR processing to move the bulged structure elevated both the translation efficiency and transcript stability. 5’P-seq, quantitative RT-PCR and northern blot all identified enhanced mtaC2 5′-UTR processing at 8°C, which could contribute to the upregulation of mtaC2 at cold. The R15 cell extract contains an endoribonuclease cleaving an identified 10 nt-processing motif and the native mtaC2 5′-UTR particularly folded at 8°C. Therefore, this study revealed a 5′-UTR processing mediated post-transcriptional regulation mechanism controlling the cold-adaptive methanol-supported methanogenetic pathway, which may be used by other methylotrophic methanogens.Increasing soil organic carbon (SOC) stocks is a promising way to mitigate the increase in atmospheric CO2 concentration. Based on a simple ratio between CO2 anthropogenic emissions and SOC stocks worldwide, it has been suggested that a 0.4% (4 per 1000) yearly increase in SOC stocks could compensate for current anthropogenic CO2 emissions. Here, we used a reverse RothC modelling approach to estimate the amount of C inputs to soils required to sustain current SOC stocks and to increase them by 4‰ per year over a period of 30 years. We assessed the feasibility of this aspirational target first by comparing the required C input with net primary productivity (NPP) flowing to the soil, and second by considering the SOC saturation concept. Calculations were performed for mainland France, at a 1 km grid cell resolution. Results showed that a 30%-40% increase in C inputs to soil would be needed to obtain a 4‰ increase per year over a 30-year period. 88.4% of cropland areas were considered unsaturated in terms of mineral-associated SOC, but characterized by a below target C balance, that is, less NPP available than required to reach the 4‰ aspirational target. Conversely, 90.4% of unimproved grasslands were characterized by an above target C balance, that is, enough NPP to reach the 4‰ objective, but 59.1% were also saturated. The situation of improved grasslands and forests was more evenly distributed among the four categories (saturated vs. unsaturated and above vs below target C balance). Future data from soil monitoring networks should enable to validate these results. Overall, our results suggest that, for mainland France, priorities should be (1) to increase NPP returns in cropland soils that are unsaturated and have a below target carbon balance and (2) to preserve SOC stocks in other land uses.The synthesis of molecules bearing (trifluoromethylselenyl)methylchalcogenyl groups is described via an efficient two-step strategy based on a metal-free photoredox catalyzed decarboxylative trifluoromethylselenolation with good yields up to 88 %, which raised to 98 % in flow chemistry conditions. The flow methods allowed also to scale up the reaction. The mechanism of this key reaction was studied. The physicochemical characterization of these emerging groups was performed by determining their Hansch-Leo lipophilicity parameters with high values up to 2.24. This reaction was also extended to perfluoroalkylselenolation with yields up to 95 %. Finally, this method was successfully applied to the functionalization of relevant bioactive molecules such as tocopherol or estrone derivatives.Archaea are environmentally ubiquitous on Earth, and their extremophilic and metabolically versatile phenotypes make them useful as model systems for astrobiology. Here, we reveal a new functional group of halo(natrono)archaea able to utilize alpha-d-glucans (amylopectin, amylose and glycogen), sugars, and glycerol as electron donors and carbon sources for sulfur respiration. They are facultative anaerobes enriched from hypersaline sediments with either amylopectin, glucose or glycerol as electron/carbon sources and elemental sulfur as the terminal electron acceptor. They include 10 strains of neutrophilic haloarchaea from circum pH-neutral lakes and one natronoarchaeon from soda-lake sediments. The neutrophilic isolates can grow by fermentation, although addition of S0 or dimethyl sulfoxide increased growth rate and biomass yield (with a concomitant decrease in H2 ). Natronoarchaeal isolate AArc-S grew only by respiration, either anaerobically with S0 or thiosulfate as the terminal electron acceptor, or aerobically. Through genome analysis of five representative strains, we detected the full set of enzymes required for the observed catabolic and respiratory phenotypes. These findings provide evidence that sulfur-respiring haloarchaea partake in biogeochemical sulfur cycling, linked to terminal anaerobic carbon mineralization in hypersaline anoxic habitats. We discuss the implications for life detection in analogue environments such as the polar subglacial brine-lakes of Mars.

To construct chorionicity-specific birthweight reference charts for dichorionic diamniotic (DCDA) and monchorionic diamniotic (MCDA) twin pregnancies incorporating estimated fetal weight (EFW) data in order to adjust for the relationship between suboptimal growth and premature delivery. find more An additional aim of this study was to determine if the inclusion of complicated twin pregnancies impacts the reference charts produced.

The Inclusion criteria were twin pregnancy of known chorionicity, known pregnancy outcome, last ultrasound scan within 14 days of birth which took place between 25 and 38 weeks (Analysis A). An analysis was also conducted excluding any pregnancies with complications recorded (Analysis B). The analysis makes use of previously published twin EFW reference ranges. A joint statistical model for EFW and observed birthweight for each pregnancy was created in order to estimate population birthweight reference ranges corresponding to the distribution expected were all pregnancies to deliver at any given gestation.