The infection of bacteria and fungus is one of the most challenging global threats to human health. With the recent advancement in nanoscience and nanotechnology, much progress has been achieved in the development of antimicrobial nanomedicine; however, these nanomaterial-based antibacterial agents still suffer from potential biological toxicity, poor degradation, and various secondary pollution. Here, we demonstrate the fabrication of low-toxic and degradable carbon dots (CDs) from vitamin C by one-step electrochemical method. These newly generated CDs display a strong broad-spectrum antibacterial activity and antifungal activity even at low concentrations, as they destroy the bacterial walls during the diffusive entrance, perturb secondary structures of DNA/RNAs of bacteria and fungus, and inhibit important gene expressions to finally kill the bacteria and fungus. We also show that these well-characterized CDs can be completely degraded into CO, CO and HO under visible light in air (or at very mild temperature, about 37 °C).
Chiral compounds/materials have important effects on the growth of plants. Chiral carbon dots (CDs), as an emerging chiral carbon nanomaterial, have great potential in bio-application and bio-nanotechnology. Herein, we report a hydrothermal method to synthesize chiral CDs from cysteine (cys) and citric acid. These chiral CDs were further demonstrated to have systemic effects on the growth of mung bean plants, in which case both l- and d-CDs can promote the growth of the root in mung bean plants, stem length of mung bean sprouts and water absorption of bean seeds. The elongation of mung bean sprouts presented an increasing trend with the treatment of chiral CDs of increasing concentration (below 500 μg mL-1). Furthermore, in the optimal concentration (100 μg mL-1), the l-CDs can improve root vigor and the activity of the Rubisco enzyme of bean sprouts by 8.4% and 20.5%, while the d-CDs increased by 28.9% and 67.5%. Due to more superior properties in improving root vigor and the activity of the Rubisco enzyme of mung bean sprouts, d-CDs are able to enhance photosynthesis better and accumulate more carbohydrate in mung bean plants.
Aberrant activation of the translesion DNA synthesis (TLS) pathway has been suggested to play a role in tumorigenesis by promoting genetic mutations. We therefore examined glioma specimens for the expression of specialized DNA polymerases involved in TLS and assessed their prognostic significance. The expression levels of DNA polymerase κ (Pol κ), Pol ι, and Pol η were assessed in 40 primary glioma samples and 10 normal brain samples using quantitative real-time PCR and Western blot analysis. Their prognostic significance was evaluated using a population-based tissue microarray derived from a cohort of 104 glioma patients. Overexpression of Pol κ and Pol ι was observed in 57.5% (23-40) and 27.5% (11-40) of patients, respectively, whereas no significant expression of Pol η was seen in the specimens. Immunohistochemical studies revealed positive Pol κ and Pol ι staining in 72 (69.2%) and 33 (31.7%) of the 104 glioma specimens, respectively. Pol κ expression was associated with advanced stages of the disease. Both Pol κ- and Pol ι-positive staining were associated with shorter survival in glioma patients (P < .001 and P = .014, respectively). A multivariate survival analysis identified Pol κ as an independent prognostic factor for glioma patients (P < .001). These findings demonstrate, for the first time, that the expression of Pol κ and Pol ι is deregulated in gliomas, and upregulation of Pol κ is associated with poorer prognosis in glioma patients.
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