A simple, selective and sensitive turn-on fluorescent sensor for the detection of mercury(II) ion was developed using Sybr Green I as the signal reporter and SWCNTs as the quencher. Due to the affinity of SWCNTs towards ssDNA and organic dye, Sybr Green I, thymine-rich ssDNA and SWCNTs could form a self-assembly of three components, resulting in fluorescence quenching. Upon addition of another thymine-rich ssDNA and mercury(II) ion, formation of dsDNA via T-Hg(2+)-T base pairs enabled Sybr Green I to intercalate into the dsDNA, resulting in the restoration of fluorescence. SWCNTs were found to reduce the background signal and improve the analytical sensitivity. A linear relationship between the fluorescence intensity and the concentration of mercury(II) ion was observed in the range of 20-1250 nM (R = 0.9985) with a detection limit of 7.9 nM. The proposed method was applied to detect mercury(II) ion in tap water samples with good results.
An ultrasensitive "turn-on" electrochemical sensor for the Hg(2+) ion was proposed based on the T-Hg(2+)-T coordination chemistry and the controlled assembly of SWCNTs on the MHA/SAM-modified gold electrode.
Alkaline stress is harmful to plant growth and development, it would induce endogenic ionic concentration and osmotic pressure, trigger relevant genes expression with transcription factor binding, signal transduction and hormone synthesis. In this study, we selected “Dongdao-4”, a salt-alkali stress tolerance rice cultivar, which was subjected to extreme high pH (pH = 11.5) alkaline stress at the trefoil stage for 7 days. Using the RNA-seq technology, we analyzed variations in genes expressed between the fourth and the seventh day of treatment. The number of differentially expressed genes (DEGs) was 3804, 2534, 207 and 3276 for fourth day-stress vs. fourth day-control, seventh day-stress vs. seventh day-control, seventh day-control vs. fourth day-control and seventh day-stress vs. fourth day-stress, respectively. Gene ontology (GO) results revealed that DEGs were mainly enriched in apoptotic process, electron carrier activity, receptor activity, molecular transducer activity. The Kyoto Encyclopedia of Genes and Genomes (KEGG) results implied that DEGs were mainly enriched in metabolic pathways, biosynthesis of secondary metabolites. In particular, DEGs were distributed in genes related to the transcription factor, leucine rich repeats (LRRs) and hormones. We also report here for the first-time identification of 125 genes specifically expressed during the alkaline stress. Our results provided important information assisting with the exploration of the molecular mechanisms of rice plants subjected to high pH condition and can facilitate rice abiotic tolerance breeding.
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