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Even though HPLC-MS is commonly used to quantify the toxin content of Ostreopsis spp. cells, there is a need to develop easy-to-use toxicological tests to set thresholds during Ostreopsis spp. Pexidartinib blooms. The crustacean Artemia has been widely used to evaluate the presence and toxicity of chemicals and biological contaminants and we anticipated that it could also be useful to test Ostreopsis spp. toxicity. Its relevance was first assessed by investigating the variability of the toxic effects among Ostreopsis spp. strains and throughout the dinoflagellate life cycle in combination with chemical analyses of the toxinic content by UHPLC-HRMS. After testing the toxicity of fractions prepared from Ostreopsis spp. cells, the known ova- and paly-toxins were not the only toxic metabolites to Artemia franciscana, indicating that other toxic compounds synthesized by Ostreopsis spp. still remain to be identified. To extend the bioassay to in situ monitoring, the toxicity of the benthic microalgal consortium was tested during a natural bloom of Ostreopsis cf. ovata in the NW Mediterranean Sea. The results highlight the accuracy and sensitivity of the ecotoxicological assay with Artemia franciscana to assess the toxicity of Ostreopsis spp. blooms. Metal sulfide is the most promising anode material for sodium storage devices due to its high theoretical capacity and low cost. However, the practical application of metal sulfide is largely hindered by huge capacity fading during the sodiation/desodiation process. Here mixed bimetallic sulfides grown on reduced graphene oxide (MoS2/CoS2-RGO) are prepared via a facile hydrothermal method. MoS2/CoS2-RGO displays a unique 2D structure which provides large specific surface area for pseudocapacitive charge storage, polyvalent ion reaction for ultrahigh capacity, and a heterostructure to high Na-ion diffusion rate. The optimized MoS2/CoS2-RGO shows a considerable reversible capacity of 593.6 mA h g-1 at 100 mA g-1 over 50 cycles and a high rate capability of 215.8 mA h g-1 even at a high specific current of 5000 mA g-1. A reaction kinetics and galvanostatic intermittent titration technique analysis indicates that MoS2/CoS2-RGO possesses fast pseudocapacitive charge storage and high Na-ion diffusion rate, benefiting the kinetics balance between anode and cathode. With this special structure, SICs containing the anode deliver a high specific energy of 152.98 W h kg-1 at 562.5 W kg-1. Similarly, the SIB exhibits a good capacities of 64 mA h g-1 at the high rates of 5C over 100 cycles. Recurrent spontaneous abortion (RSA) can be attributed to multiple factors, and abnormal invasion and apoptosis of trophoblast cells have attracted extensive attention. Our study aimed to investigate the expression of PTEN and miRNAs with potential regulatory relationships in the placental villi of RSA patients. Nineteen RSA patients and sixteen healthy women at reproductive age undergoing induced abortion (IA) were enrolled in the present study. The expression of PTEN and miRNAs were investigated using real-time polymerase chain reaction (PCR) and Western blotting, further verification between PTEN and potential miRNAs used cell culture and transfection, and luciferase activity assays were used to determine whether PTEN is directly regulated by potential miRNA. The results indicated that both PTEN mRNA and protein expression levels were upregulated in RSA patients, but a significant difference was only observed in protein expression level (p less then 0.001). Through real-time PCR pre-scanning, the results of nine potential miRNAs revealed three significantly upregulated miRNAs (miR-494, miR-146a, and miR-21) and one significantly downregulated miRNA (miR-19b). The results of further verification regarding miR-19b and miR-494 suggested that upregulated miR-19b, cooperating with downregulated miRNA-494, could inhibit PTEN expression. In conclusion, the findings suggest that the overexpression of PTEN plays an important role in the pathogenesis of RSA, with miR-19b directly regulating PTEN and working with miR-494, all of which participating in abnormal effects of villous' trophoblastic cell may be a critical event. Pesticides have been extensively applied worldwide to protect crops from worms and insects; however, the continuous use of pesticides affects ecosystems, agricultural product safety, nontarget organisms, and human health. In this paper, we report a highly sensitive biosensor for the determination of pesticides based on tin sulfide (SnS2) and chitosan (CHIT) nanocomposites decorated with a unique British housefly acetylcholinesterase (AChE). The hydrothermally synthesized nano-SnS2 mixed with chitosan solution (CHIT-SnS2) was drop-casted onto a glassy carbon electrode (GCE). Subsequently, the British housefly AChE was immobilized on the CHIT/SnS2-coated GCE that was then employed for pesticide detection. The developed biosensor showed an ultra-high sensitivity and wide linear detection range from 0.02 nM to 20000 nM with a detection limit of 0.02 nM for the detection of chlorpyrifos as the model pesticide. Furthermore, the AChE/CHIT-SnS2/GCE exhibited acceptable storage stability, good reproducibility, and selectivity. Thermally-processed coconut water often develop a commercially-undesirable pink color, thus, NMR, UPLC-HRMS, GC-MS analyses combined with chemometrics approach were applied to evaluate chemical variations in comparison to tender water (control) that could explain such color change. Chemometrics on negative ionization mode dataset showed trimeric and A-type dimeric procyanidins, and caffeoylshikimic acid as main identified secondary metabolites induced by processing, while, control water presented mainly cytokinin trans-zeatin riboside, procyanidin dimer, caffeoylshikimic acid and trihydroxy-octadecenoic acid. Processing increased long-chain saturated palmitic and stearic fatty acids contents, meanwhile NMR analysis showed a decline in primary metabolites content as sugars fructose and glucose, and short-chain organic acids. Among the results observed for thermally processed coconut water, the increase in oligomeric procyanidins as A-type dimer and trimer may be associated with pink color development as these are precursors of anthocyanin pigment and/or by enhancing color stability of anthocyanin solutions.

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