Notes

Proof for levels of competition as well as cannibalism throughout wormlions.
The anti-aging activities on Caenorhabditis elegans of a polysaccharide, O-acetyl glucomannan (LPR), purified from roots of Lilium davidii var. unicolor Cotton, were assessed by observing the mean lifespan, reproduction, pharyngeal pumping and stress response on nematodes. Additionally, the fluorescence intensity of lipofuscin and the level of reactive oxygen species (ROS) were detected. Also the activities of superoxide dismutase (SOD), catalase (CAT) and contents of malondialdehyde (MDA) were determined by the kit method. The results showed that LPR effectively delayed the aging of C. elegans in a dose-dependent manner. When the concentration reached 4 mg/mL, LPR extended the mean lifespan of C. elegans by up to 40%, 61% (P  less then  0.01) and 50% (P  less then  0.05) under normal, thermal and oxidative stress culture conditions, respectively. Moreover, LPR remarkably increased the reproduction duration of the nematodes at a concentration of 1 mg/L, and significantly decreased the ROS and lipofuscin level of C. elegans in three dosage groups. Further study illustrated that LPR at 4 mg/mL strongly increased the activity of SOD and CAT by 39.03% (P  less then  0.01) and 41.89% (P  less then  0.05), and decreased the lipid peroxidation of MDA level in C. elegans by 52.59% (P  less then  0.005) compared to a control. It was inferred that LPR provided stress resistance to heat and oxidation, and prolonged the lifespan of wild type N2 C. elegans mainly by elevating the function of nematode antioxidant defense systems and by scavenging free radicals. These findings provided evidence for the anti-aging properties of this polysaccharide from L. davidii. read more V.Herein, the effects of bovine hemoglobin (BHb) binding to hydrophilic silica nanoparticles (SN1) and hydrophobic silica nanoparticles (SN2) were explored under physiological conditions. SEM and XRD were used to characterize silica nanoparticles (SNs). Zeta potential and DLS confirmed the formation of protein corona (PC), and SN2 showed more increase in their size after PC formation comparing with SN1. The adsorption isotherms were fitted well by the Freundlich model, and the kinetics tended to follow pseudo-second-order kinetics. Then, the second structure of BHb has been analyzed by UV-vis and FT-IR spectroscopy, which implied the impact of SN2 on the secondary structure of BHb was greater than that of SN1 on BHb. Moreover, fluorescence spectroscopy and Raman spectroscopy showed that SNs may induce heme degradation to form fluorescent heme product, resulting in increased fluorescence intensity. This investigation will be significant in exploring the toxicity profile of SNs for their in vivo. Electrospinning is one of the most promising techniques for generating porous, nonwoven, and submicron fiber-based membranes for various applications such as catalysis, sensing, tissue engineering and wound healing. Wide range of biopolymers including chitosan can be used to generate submicron fibrous membranes. Owing to the extra cellular matrix (ECM) mimicking property, exudate uptake capacity, biocompatibility, antibacterial activity and biodegradability, electrospun membranes based on chitosan loaded with biologically active agents can play important role in wound healing applications. In order to improve the mechanical stability, degradation, antimicrobial property, vascularization potential and wound healing capacity, various active components such as other polymers, therapeutic agents, nanoparticles and biomolecules were introduced. Approaches such as coaxial electrospinning with other polymers have also been tried to improve the properties of chitosan membranes. To improve the mechanical stability under in vivo conditions, various crosslinking strategies ranging from physical, chemical and biological approaches were also tried by researchers. Electrospun chitosan meshes have also been designed in a highly specialized manner with specific functionalities to deal with the challenging wound environment of diabetic and burn wounds. This review provides a detailed overview of electrospun chitosan-based membranes containing various bioactive and therapeutic agents in the perspective of wound healing and skin regeneration. V.To manufacture entirely biodegradable polylactic acid (PLA) foam with a high expansion ratio and a fine-cell structure, we attempted to design economically viable material recipe as well as the injection foam molding (FIM) process. It is well-known that PLA foam featuring high expansion and fine cells is challenging to achieve on FIM technique due to its intrinsically low melt strength. To overcome the inferior foaming characteristics of PLA in this study, nano-fibrils of polytetrafluoroethylene (PTFE) were added expecting an increase of molecular chain entanglements. Another bio-based biodegradable polymer, polyhydroxyalkanoate (PHA) was also blended with PLA to improve the impact strength of the final foams. High-pressure FIM process combined with mold-opening technique was performed to make highly expanded PLA foams with varied material recipes. A constant amount (0.6 wt%) of supercritical nitrogen was injected into FIM system and uniformly mixed with various polymer compositions. The gas-laden melt was injected into the mold cavity to create the foamed PLA samples. Finally, we could demonstrate that it is clearly feasible to manufacture entirely biodegradable PLA foams having a high expansion ratio and a desirable cellular structure using an advanced FIM process. Mitochondrial transcription factor A (TFAM) plays a key role in regulating the transcription, replication, and maintenance of mitochondrial DNA. In the present study, a Musca domestica TFAM (MdTFAM) gene was identified and characterized. MdTFAM gene encodes 253 amino acid residues, and the protein possesses two conserved motifs of HMG (High Mobility Group) box. Expression of MdTFAM was investigated based on the qRT-PCR (quantitative real-time polymerase chain reaction) in response to three model oxidative stress-inducing agents, cadmium chloride (Cd), doxorubicin hydrochloride (DOX) and ultraviolet (UV), respectively. Results showed that Cd exposure not only generated oxidative stress and mitochondrial dysfunctions in M. domestica larvae, with a significant increase in malondialdehyde and reactive oxygen species levels, but also induced a dose-dependent increase in the expression of MdTFAM. In addition, either DOX or UV exposure also significantly up-regulated the expression of MdTFAM in M. domestica larvae. These results suggest that MdTFAM play a vital role in maintaining the redox balance and its expression may serve as a useful biomarker for monitoring the oxidative stress induced by Cd, DOX or UV.
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