Study on the Electric Conductivity of Ag-Doped DNA in Transverse Direction

<p>Abstract</p> <p>In this article, we reported a novel experiment results on Ag-doped DNA conductor in transverse direction.<it>I</it>&#8211;<it>V</it>characteristics were measured and the relative conductances were calculated for different silver ions concentrations. With the increase of the concentration of silver ions, the conductive ability of DNA risen rapidly, the relative conductance of DNA enhanced about three magnitudes and reached a stable value when Ag⁺concentration was up to 0.005 mM. In addition, Raman spectra were carried out to analyse and confirm conduction mechanism.</p

Seasonal and habitat dependence of plant species, functional and phylogenetic diversity in agricultural landscapes

The biodiversity of agricultural landscapes is under significant threat, while non-agricultural habitats within these landscapes play a crucial role in biodiversity conservation. There has been limited investigation into how plant species, functional and phylogenetic diversity varies across different seasons and habitats in agricultural landscapes. Thus, we carried out a survey of the plant communities in non-agricultural habitats in China's lower Yellow River plain. We investigated the diversity features of plant functionality, phylogeny, and plant species. We compared differences in plant community structure using non-metric multidimensional scaling analysis and tested phylogenetic signal using phylogenetic methods. Our analysis of plant community and diversity characteristics revealed significant differences in plant community structure between seasons and habitats, with the season having a more significant impact. The levels of plant species, functional, and phylogenetic diversity followed a seasonal pattern, with spring seeing the highest values and autumn seeing the lowest. Woodland and hedgerow habitats had the highest levels of diversity, while field roads had the lowest. The community phylogenetic structure of non-agricultural habitats was relatively concentrated and mainly influenced by human interference and environmental filtering. These findings offer scientific support for the preservation of ecosystem services and biodiversity in agricultural landscapes

Seasonal Variations in Plant Species Diversity and Phylogenetic Diversity in Abandoned Farmland of China’s Huang–Huai Plain

Amidst urbanization and industrialization in China, abandoned farmland plays a crucial role in safeguarding plant diversity within agricultural landscapes. This study aimed to examine the patterns of seasonal variation in plant diversity within abandoned farmland habitats in the Huang–Huai Plain region. Nonparametric tests were employed to analyze plant species diversity and phylogenetic diversity across seasons. Redundancy analysis and linear regression were conducted to examine the associations between plant species composition, species diversity, phylogenetic diversity, and soil environmental factors. Our results showed that plant species diversity, richness, and phylogenetic diversity were highest in spring, followed by summer, and lowest in autumn. The phylogenetic structure of plant communities demonstrated a tendency to diverge in spring, become random in summer, and cluster in autumn. Soil available potassium and soil organic matter emerged as important factors influencing plant species composition. The content of soil organic matter and ammonium nitrogen level exhibited a significantly positive correlation with the species diversity and phylogenetic diversity of plants. This study underscores the significance of considering seasonal and temporal scales when investigating plant diversity and provides a theoretical basis for biodiversity conservation in agricultural landscapes

Derivation and Validation of a Risk Stratification System for Predicting Postoperative Cognitive Impairment

Background To establish and validate a risk stratification scoring system (we name it as PreOp-BFS, which represents Pre-Operative Brain Fragility Score) for postoperative cognitive impairment containing postoperative cognitive dysfunction (POCD) and postoperative delirium (POD) in elderly patients undergoing non-cardiac surgery. Methods We searched for relevant literatures and reviews reported in PubMed and ScienceDirect databases from January 1994 to December 2017. We performed a preoperative risk factor for cognitive impairment in elderly patients (age ≥ 60 years) who underwent non-cardiac surgery, and finally constructed a risk scoring system to predict postoperative cognitive impairment. Results The test data included 49 patients with postoperative cognitive impairment and 31 patients without postoperative cognitive impairment. The postoperative risk scale score ranged from 0 to 8 points. The incidence of postoperative cognitive impairment was 16.2%, 62.9% and 96.2% in the low (0–2 scores), medium (3–4 scores) and high (5–8 scores) risk groups, respectively. In addition, the risk of postoperative cognitive impairment was significantly higher in high and medium risk groups than in low risk group. Receiver operating characteristic (ROC) analysis showed that the area under the curve (AUC) of the risk scoring system was 0.862 [95% CI 0.784–0.941]. Conclusions The preoperative risk stratification scoring system (PreOp-BFS) established in this study had a good prediction effect, which was helpful for rapid identification and screening of high-risk susceptible patients with early postoperative cognitive impairment, and for performing targeted perioperative prevention

High-Resolution Separation of Graphene Oxide by Capillary Electrophoresis

Separation and purification of graphene oxide (GO) prepared from chemical oxidation of flake graphite and ultrasonication by capillary electrophoresis (CE) was demonstrated. CE showed the ability to provide high-resolution separations of GO fractionations with baseline separation. The GO fractionations after CE were collected for Raman spectroscopy, atomic force microscopy, and transmission electron microscopy characterizations. GO nanoparticles (unexfoliated GO) or stacked GO sheets migrated toward the anode, while the thin-layer GO sheets migrated toward the cathode. Therefore, CE has to be performed twice with a reversed electric field to achieve a full separation of GO. This separation method was suggested to be based on the surface charge of the GO sheets, and a separation model was proposed. This study might be valuable for fabrication of GO or graphene micro- or nanodevices with controlled thickness