Early-onset Amyloid Deposition and Cognitive Deficits in Transgenic Mice Expressing a Double Mutant Form of Amyloid Precursor Protein 695

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Preoperative Proteinuria Is Associated with Long-Term Progression to Chronic Dialysis and Mortality after Coronary Artery Bypass Grafting Surgery

AIMS: Preoperative proteinuria is associated with post-operative acute kidney injury (AKI), but whether it is also associated with increased long-term mortality and end-stage renal disease (ESRD) is unknown. METHODS AND RESULTS: We studied 925 consecutive patients undergoing CABG. Demographic and clinical data were collected prospectively, and patients were followed for a median of 4.71 years after surgery. Proteinuria, according to dipstick tests, was defined as mild (trace to 1+) or heavy (2+ to 4+) according to the results of the dipstick test. A total of 276 (29.8%) patients had mild proteinuria before surgery and 119 (12.9%) patients had heavy proteinuria. During the follow-up, the Cox proportional hazards model demonstrated that heavy proteinuria (hazard ratio [HR], 27.17) was an independent predictor of long-term ESRD. There was a progressive increased risk for mild proteinuria ([HR], 1.88) and heavy proteinuria ([HR], 2.28) to predict all-cause mortality compared to no proteinuria. Mild ([HR], 2.57) and heavy proteinuria ([HR], 2.70) exhibited a stepwise increased ratio compared to patients without proteinuria for long-term composite catastrophic outcomes (mortality and ESRD), which were independent of the baseline GFR and postoperative acute kidney injury (AKI). CONCLUSION: Our study demonstrated that proteinuria is a powerful independent risk factor of long-term all-cause mortality and ESRD after CABG in addition to preoperative GFR and postoperative AKI. Our study demonstrated that proteinuria should be integrated into clinical risk prediction models for long-term outcomes after CABG. These results provide a high priority for future renal protective strategies and methods for post-operative CABG patients

BnMs3 is required for tapetal differentiation and degradation, microspore separation, and pollen-wall biosynthesis in Brassica napus

7365AB, a recessive genetic male sterility system, is controlled by BnMs3 in Brassica napus, which encodes a Tic40 protein required for tapetum development. However, the role of BnMs3 in rapeseed anther development is still largely unclear. In this research, cytological analysis revealed that anther development of a Bnms3 mutant has defects in the transition of the tapetum to the secretory type, callose degradation, and pollen-wall formation. A total of 76 down-regulated unigenes in the Bnms3 mutant, several of which are associated with tapetum development, callose degeneration, and pollen development, were isolated by suppression subtractive hybridization combined with a macroarray analysis. Reverse genetics was applied by means of Arabidopsis insertional mutant lines to characterize the function of these unigenes and revealed that MSR02 is only required for transport of sporopollenin precursors through the plasma membrane of the tapetum. The real-time PCR data have further verified that BnMs3 plays a primary role in tapetal differentiation by affecting the expression of a few key transcription factors, participates in tapetal degradation by modulating the expression of cysteine protease genes, and influences microspore separation by manipulating the expression of BnA6 and BnMSR66 related to callose degradation and of BnQRT1 and BnQRT3 required for the primary cell-wall degradation of the pollen mother cell. Moreover, BnMs3 takes part in pollen-wall formation by affecting the expression of a series of genes involved in biosynthesis and transport of sporopollenin precursors. All of the above results suggest that BnMs3 participates in tapetum development, microspore release, and pollen-wall formation in B. napus

A Two-Step Hydrothermal Synthesis Approach to Monodispersed Colloidal Carbon Spheres

This work reports a newly developed two-step hydrothermal method for the synthesis of monodispersed colloidal carbon spheres (CCS) under mild conditions. Using this approach, monodispersed CCS with diameters ranging from 160 to 400 nm were synthesized with a standard deviation around 8%. The monomer concentration ranging from 0.1 to 0.4 M is in favor of generation of narrower size distribution of CCS. The particle characteristics (e.g., shape, size, and distribution) and chemical stability were then characterized by using various techniques, including scanning electron microscopy (SEM), FT-IR spectrum analysis, and thermalgravity analysis (TGA). The possible nucleation and growth mechanism of colloidal carbon spheres were also discussed. The findings would be useful for the synthesis of more monodispersed nanoparticles and for the functional assembly

Using Smoke Condensed Liquids from Pruned Fruit-Tree Branches for <i>Aedes</i> Mosquito Larva Control

Some mosquitos are disease-causing vectors. Their widespread existence poses a great threat to disease control worldwide. Finding an effective, low-cost solution for mosquito population control is desperately needed. Pruned branches from three fruit trees of date, pomelo, and guava were chopped, dried, and smoldered to form biochar and smoke. The smoke was condensed at 6 °C to form a smoke condensed liquid (SCL) to be used as a larvicide for mosquito larva control. The SCL had a smoky smell, minimal nutrients, and little metal contents, yet contained plenty of phenolic molecules commonly used as biocides. Via bacterial inhibition zone tests, ten percent of the date, pomelo, and guava SCLs had 1.44, 1.13, and 0.83 times higher bactericidal effects, respectively, than the use of 75% ethanol. The effectiveness of bacterial inhibition was positively related to the amounts of volatile compounds in the SCL liquids. As for larvicidal effects, a ten percent solution of the date and pomelo SCLs killed all tested larvae within 2 hrs. The reactive time versus each SCL’s LC50 was determined and fitted with a first-order mathematic model. The adopted model and its estimated parameters showed satisfactory results in presenting the dose–effect relationships in larval mortality of all the tested SCLs. Finally, the liquid pHs and dissolved oxygen (DO) over time were examined for their effectiveness and variation, respectively, and the SCL addition was concluded as the sole key factor in the mortality of the tested larvae

Using Smoke Condensed Liquids from Pruned Fruit-Tree Branches for Aedes Mosquito Larva Control

Some mosquitos are disease-causing vectors. Their widespread existence poses a great threat to disease control worldwide. Finding an effective, low-cost solution for mosquito population control is desperately needed. Pruned branches from three fruit trees of date, pomelo, and guava were chopped, dried, and smoldered to form biochar and smoke. The smoke was condensed at 6 &deg;C to form a smoke condensed liquid (SCL) to be used as a larvicide for mosquito larva control. The SCL had a smoky smell, minimal nutrients, and little metal contents, yet contained plenty of phenolic molecules commonly used as biocides. Via bacterial inhibition zone tests, ten percent of the date, pomelo, and guava SCLs had 1.44, 1.13, and 0.83 times higher bactericidal effects, respectively, than the use of 75% ethanol. The effectiveness of bacterial inhibition was positively related to the amounts of volatile compounds in the SCL liquids. As for larvicidal effects, a ten percent solution of the date and pomelo SCLs killed all tested larvae within 2 hrs. The reactive time versus each SCL&rsquo;s LC50 was determined and fitted with a first-order mathematic model. The adopted model and its estimated parameters showed satisfactory results in presenting the dose&ndash;effect relationships in larval mortality of all the tested SCLs. Finally, the liquid pHs and dissolved oxygen (DO) over time were examined for their effectiveness and variation, respectively, and the SCL addition was concluded as the sole key factor in the mortality of the tested larvae