Going flat out: Simultaneous modifications of the textural, surface, and electronic structures of a rigid conjugated carbon nitride polymer has been achieved using direct co‐condensation of urea and Ph4BNa. This method gives boron‐doped carbon nitride nanosheets (see picture) that optimize the capture of light, improve the charge‐separation kinetics, and enhance the surface reactivity for hydrogen photosynthesis.
An unlabeled immobilized DNA-based sensor was reported for simultaneous detection of Pb(2+), Ag(+), and Hg(2+) by electrochemical impedance spectroscopy (EIS) with [Fe(CN)(6)](4-/3-) as redox probe, which consisted of three interaction sections: Pb(2+) interaction with G-rich DNA strands to form G-quadruplex, Ag(+) interaction with C-C mismatch to form C-Ag(+)-C complex, and Hg(2+) interaction with T-T mismatch to form T-Hg(2+)-T complex. Circular dichroism (CD) and UV-vis spectra indicated that the interactions between DNA and Pb(2+), Ag(+), or Hg(2+) occurred. Upon DNA interaction with Pb(2+), Ag(+), and Hg(2+), respectively, a decreased charge transfer resistance (R(CT)) was obtained. Taking advantage of the R(CT) difference (ΔR(CT)), Pb(2+), Ag(+), and Hg(2+) were selectively detected with the detection limit of 10 pM, 10 nM, and 0.1 nM, respectively. To simultaneously (or parallel) detect the three metal ions coexisting in a sample, EDTA was applied to mask Pb(2+) and Hg(2+) for detecting Ag(+); cysteine was applied to mask Ag(+) and Hg(2+) for detecting Pb(2+), and the mixture of G-rich and C-rich DNA strands were applied to mask Pb(2+) and Ag(+) for detecting Hg(2+). Finally, the simple and cost-effective sensor could be successfully applied for simultaneously detecting Pb(2+), Ag(+), and Hg(2+) in calf serum and lake water.
Optimiert: Die simultane Modifizierung der Bulk‐, Oberflächen‐ und elektronischen Struktur eines Kohlenstoffnitridpolymers gelang durch direkte Cokondensation von Harnstoff und Ph4BNa. Mit diesem Verfahren werden bordotierte Kohlenstoffnitridnanoblätter erhalten (siehe Bild), die den Lichteinfang optimieren und die Oberflächenreaktivität bei der Wasserstoffphotosynthese erhöhen.
Millions of migratory birds occupy seasonally favourable breeding grounds in the Arctic 1 , but we know little about the formation, maintenance and future of Arctic bird migration routes and genetic determinants of migratory distance. Here, we established a continental-scale migration system, satellite tracking 56 peregrine falcons (Falco peregrinus) from six Eurasian Arctic breeding populations and resequencing 35 genomes from four of these. Different breeding populations used five migration routes across Eurasia, likely formed by longitude and latitude breeding ground shifts during the LGM-Holocene transition. Contemporary inter-route environmental divergence appears to maintain distinct migration routes. We found that the novel gene ADCY8 was associated with population-level migratory distance differences. We elucidated its regulatory mechanism and found the most likely selective agent for this divergence was long-term memory. Global warming is predicted to influence migration strategies and diminish breeding ranges of Eurasian Arctic peregrines. Harnessing ecological interactions and evolutionary processes to study climate-driven changes in migration can facilitate the conservation of migratory birds.
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