Munn Snider (cyclepump74)

The AS-SCoV2 located in the acidic-domain of papain-like protein of SARS-CoV-2 and bat-SL-CoV-RatG13 guided us to suggest that the novel 2019 coronavirus probably emerged by genetic drift from bat-SL-CoV-RaTG13. The implication of this amino acid signature in papain-like protein structure arrangement and function is something worth to be explored. © 2020 Wiley Periodicals, Inc.BACKGROUND Maltotetraohydrolase, widely used in food and medical fields, possesses the ability to hydrolyze starch to produce maltooligosaccharides with maltotetraose as the main product. It also has the potential usage in delaying bread aging. RESULTS Pseudomonas saccharophila maltotetraohydrolase was expressed in Bacillus subtilis WS11. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis revealed obvious bands at 57 kDa (maltotetraohydrolase I) and 47 kDa (maltotetraohydrolase II). Both showed similar enzymatic properties, although the catalytic efficiency of maltotetraohydrolase I was 4.93 fold higher than that of maltotetraohydrolase II using soluble starch as substrate. In addition, the maltotetraohydrolase production was further scaled up in a 3-L fermentor, and the highest activity reached 1907 U mL-1 . Then, the recombinant maltotetraohydrolase was used to produce maltotetraose. The maltotetraose yields catalyzed by maltotetraohydrolase I and II reached 73.2% and 69.7%, respectively. Finally, when recombinant maltotetraohydrolase was used in bread-making, texture profile analysis of the bread indicated recombinant maltotetraohydrolase I exhibited a significant anti-aging effect. CONCLUSION This is the first describing high-efficient expression of P. saccharophila maltotetraohydrolase in the food safety strain B. subtilis, and the yield represented the highest level ever reported. Excellent results were also obtained with respect to the preparation of maltotetraose and delaying bread aging using the recombinant maltotetraohydrolase. The present study will help lay the foundation for the industrial production and application of maltotetraohydrolase. © 2020 Society of Chemical Industry. © 2020 Society of Chemical Industry.BACKGROUND Using nutrient-rich animal wastes as organic fertilizers in agricultural practices is a sustainable method for soil amendment and avoiding environmental pollution. In order to evaluate their practical effect, we applied different proportions of animal waste as fertilizers to wet or dry soils that were either planted or not planted with young walnut trees. RESULTS The results showed that animal waste could increase soil C accumulation and carbon to nitrogen (C/N) ratio and reduce soil organic nitrogen (SON) and total nitrogen (TN) contents as well as the nitrogen to phosphorus (N/P) ratio in the planted group (PG) soil. This framework of soil C and N composition (a high C/N ratio) resulted in high N and Mg contents as well as high Cu and Zn contents in the leaves of the young trees as well as a high dry matter weight/leaf N ratio, causing increased leaf photosynthesis, reduced transpiration and relatively high water use efficiency (WUE) under soil drought conditions. Last, animal wastes as fertilizers caused the branch of walnut to switch from elongation growth to thickening growth under soil drought conditions. CONCLUSION Principal component analysis (PCA) and redundancy analysis (RDA) demonstrated the mechanism by which the soil C/N ratio mediates the flux of available nutrients from the soil to the plants and thereby regulates plant dry matter accumulation and branching architecture under soil drought conditions. The results of this study provide new insights into the improvement of hilly soils using animal waste. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.DNA copy number alterations (CNAs) are frequent in cancer, and recently developed CNA signatures revealed their value in molecular tumor stratification for patient prognosi