2D MOF Nanosensor-Integrated Digital Droplet Microfluidic Flow Cytometry for In Situ Detection of Multiple miRNAs in Single CTC Cells.

Current circulating tumor cells (CTCs) detection strategies based on surface epithelial markers suffer from low specificity in distinguishing between CTCs and epithelial cells in hematopoietic cell population. Tumor-associated miRNAs within CTCs are emerging as new biomarkers due to their high correlation with tumor development and progress. However, in-situ simultaneous analysis of multiple miRNAs in single CTC cell is still challenging.

Zeptomolar-level one-pot simultaneous detection of multiple colorectal cancer microRNAs by cascade isothermal amplification.

Multi-microRNA (miRNA) detection would greatly facilitate early diagnosis of colorectal cancer (CRC). Here a convenient cascade isothermal amplification approach incorporating a G-quadruplex molecular beacon (G4MB) was established for achieving one-pot detection of multiple CRC miRNAs (miRNA-21, miRNA-92a, miRNA-31); this strategy incorporated a Bsu DNA polymerase (Bsu pol)-induced strand-displacement reaction and a Lambda exonuclease (λexo)-aided recycling reaction. In the presence of target miRNA, the G-rich stem structure was opened and became available for hybridization with the primer to initiate synthesis of Bsu pol-catalyzed double-stranded DNA (dsDNA) that displaced the miRNA target and released it, allowing it to participate in subsequent amplification cycles.

A Mechanochemical-Assisted Synthesis of Boron, Nitrogen Co-Doped Porous Carbons as Metal-Free Catalysts.

A green and convenient solid-state method assisted by mechanical energy is employed for the synthesis of boron (B) and nitrogen (N) co-doped porous carbons (B,N-Cs). Glutamic acid (Glu) and boric acid (H BO ) are used as the N-containing carbon precursor and boron source, respectively. This method is easy to perform and proved to be efficient towards co-doping B and N into the carbon matrix with high contents of B (7 atom %) and N (10 atom %).

Estimation of nutrient discharge from the Yangtze River to the East China Sea and the identification of nutrient sources.

Based on a time-series dataset and the mass balance method, the contributions of various sources to the nutrient discharges from the Yangtze River to the East China Sea are identified. The results indicate that the nutrient concentrations vary considerably among different sections of the Yangtze River. Non-point sources are an important source of nutrients to the Yangtze River, contributing about 36% and 63% of the nitrogen and phosphorus discharged into the East China Sea, respectively.

Nutrient Loads Flowing into Coastal Waters from the Main Rivers of China (2006-2012).

Based on monthly monitoring data of unfiltered water, the nutrient discharges of the eight main rivers flowing into the coastal waters of China were calculated from 2006 to 2012. In 2012, the total load of NH3-N (calculated in nitrogen), total nitrogen (TN, calculated in nitrogen) and total phosphorus (TP, calculated in phosphorus) was 5.1 × 10(5), 3.