Carbon superstructure-supported half-metallic V2O3 nanospheres for high-efficiency photorechargeable zinc ion batteries.

Photorechargeable zinc ion batteries (PZIBs), which can directly harvest and store solar energy, are promising technologies for the development of a renewable energy society. However, the incompatibility requirement between narrow band gap and wide coverage has raised severe challenges for high-efficiency dual-functional photocathodes. Herein, half-metallic vanadium (III) oxide (V2O3) was first reported as a dual-functional photocathode for PZIBs. Theoretical and experimental results revealed its unique photoelectrical and zinc ion storage properties for capturing and storing solar energy. To this end, a synergistic protective etching strategy was developed to construct carbon superstructure-supported V2O3 nanospheres (V2O3@CSs). The half-metallic characteristics of V2O3, combined with the three-dimensional superstructure assembled by ultrathin carbon nanosheets, established rapid charge transfer networks and robust framework for efficient and stable solar-energy storage. Consequently, the V2O3@CSs photocathode delivered record zinc ion storage properties, including a photo-assisted discharge capacities of 463 mAh∙g-1 at 2.0 A∙g-1 and long-term cycling stability over 3000 cycles. Notably, the PZIBs assembled using V2O3@CSs photocathodes could be photorecharged without an external circuit, exhibiting a high photo conversion efficiency (0.354%) and photorecharge voltage (1.0 V). This study offered a promising direction for the direct capture and storage of solar energy.

O-GlcNAcylation in ischemic diseases.

Protein glycosylation is an extensively studied field, with the most studied forms being oxygen or nitrogen-linked N-acetylglucosamine (O-GlcNAc or N-GlcNAc) glycosylation. Particular residues on proteins are targeted by O-GlcNAcylation, which is among the most intricate post-translational modifications. Significantly contributing to an organism's proteome, it influences numerous factors affecting protein stability, function, and subcellular localization. It also modifies the cellular function of target proteins that have crucial responsibilities in controlling pathways related to the central nervous system, cardiovascular homeostasis, and other organ functions. Under conditions of acute stress, changes in the levels of O-GlcNAcylation of these proteins may have a defensive function. Nevertheless, deviant O-GlcNAcylation nullifies this safeguard and stimulates the advancement of several ailments, the prognosis of which relies on the cellular milieu. Hence, this review provides a concise overview of the function and comprehension of O-GlcNAcylation in ischemia diseases, aiming to facilitate the discovery of new therapeutic targets for efficient treatment, particularly in patients with diabetes.

Recent Progress in Improving Rate Performance of Cellulose-Derived Carbon Materials for Sodium-Ion Batteries.

Cellulose-derived carbon is regarded as one of the most promising candidates for high-performance anode materials in sodium-ion batteries; however, its poor rate performance at higher current density remains a challenge to achieve high power density sodium-ion batteries. The present review comprehensively elucidates the structural characteristics of cellulose-based materials and cellulose-derived carbon materials, explores the limitations in enhancing rate performance arising from ion diffusion and electronic transfer at the level of cellulose-derived carbon materials, and proposes corresponding strategies to improve rate performance targeted at various precursors of cellulose-based materials. This review also presents an update on recent progress in cellulose-based materials and cellulose-derived carbon materials, with particular focuses on their molecular, crystalline, and aggregation structures. Furthermore, the relationship between storage sodium and rate performance the carbon materials is elucidated through theoretical calculations and characterization analyses. Finally, future perspectives regarding challenges and opportunities in the research field of cellulose-derived carbon anodes are briefly highlighted.

Size Effect for Inhibiting Polysulfides Shuttle in Lithium-Sulfur Batteries.

It is undeniable that the dissolution of polysulfides is beneficial in speeding up the conversion rate of sulfur in electrochemical reactions. But it also brings the bothersome "shuttle effect". Therefore, if polysulfides can be retained on the cathode side, the efficient utilization of the polysulfides can be guaranteed to achieve the excellent performance of lithium-sulfur batteries. Based on this idea, considerable methods have been developed to inhibit the shuttling of polysulfides. It is necessary to emphasize that no matter which method is used, the solvation mechanism, and existence forms of polysulfides are essential to analyze. Especially, it is important to clarify the sizes of different forms of polysulfides when using the size effect to inhibit the shuttling of polysulfides. In this review, a comprehensive summary and in-depth discussion of the solvation mechanism, the existing forms of polysulfides, and the influencing factors affecting polysulfides species are presented. Meanwhile, the size of diverse polysulfide species is sorted out for the first time. Depending on the size of polysulfides, tactics of using size effect in cathode, separator, and interlayer parts are elaborated. Finally, a design idea of materials pore size is proposed to satisfy the use of size effect to inhibit polysulfides shuttle.

Structural and Functional Properties of Porous Corn Starch Obtained by Treating Raw Starch with AmyM.

Porous starch is attracting considerable attention for its high surface area and shielding ability, properties which are useful in many food applications. In this study, native corn starch with 15, 25, and 45% degrees of hydrolysis (DH-15, DH-25, and DH-45) were prepared using a special raw starch-digesting amylase, AmyM, and their structural and functional properties were evaluated. DH-15, DH-25, and DH-45 exhibited porous surface morphologies, diverse pore size distributions and pore areas, and their adsorptive capacities were significantly enhanced by improved molecular interactions. Structural measures showed that the relative crystallinity decreased as the DH increased, while the depolymerization of starch double helix chains promoted interactions involving disordered chains, followed by chain rearrangement and the formation of sub-microcrystalline structures. In addition, DH-15, DH-25, and DH-45 displayed lower hydrolysis rates, and DH-45 showed a decreased C∞ value of 18.9% with higher resistant starch (RS) content and lower glucose release. Our results indicate that AmyM-mediated hydrolysis is an efficient pathway for the preparation of porous starches with different functionalities which can be used for a range of applications.

Hyperglycemia Aggravates the Cerebral Ischemia Injury via Protein O-GlcNAcylation.

BACKGROUND: At least one-third of Alzheimer's disease (AD) patients have cerebrovascular abnormalities, micro- and macro-infarctions, and ischemic white matter alterations. Stroke prognosis impacts AD development due to vascular disease. Hyperglycemia can readily produce vascular lesions and atherosclerosis, increasing the risk of cerebral ischemia. Our previous research has demonstrated that protein O-GlcNAcylation, a dynamic and reversible post-translational modification, provides protection against ischemic stroke. However, the role of O-GlcNAcylation in the exacerbation of cerebral ischemia injury due to hyperglycemia remains to be elucidated. OBJECTIVE: In this study, we explored the role and underlying mechanism of protein O-GlcNAcylation in the exacerbation of cerebral ischemia injury caused by hyperglycemia. METHODS: High glucose-cultured brain microvascular endothelial (bEnd3) cells were injured by oxygen-glucose deprivation. Cell viability was used as the assay result. Stroke outcomes and hemorrhagic transformation incidence were assessed in mice after middle cerebral artery occlusion under high glucose and streptozotocin-induced hyperglycemic conditions. Western blot estimated that O-GlcNAcylation influenced apoptosis levels in vitro and in vivo. RESULTS: In in vitro analyses showed that Thiamet-G induces upregulation of protein O-GlcNAcylation, which attenuates oxygen-glucose deprivation/R-induce injury in bEnd3 cells cultured under normal glucose conditions, while aggravated it under high glucose conditions. In in vivo analyses, Thiamet-G exacerbated cerebral ischemic injury and induced hemorrhagic transformation, accompanied by increased apoptosis. While blocking protein O-GlcNAcylation with 6-diazo-5-oxo-L-norleucine alleviated cerebral injury of ischemic stroke in different hyperglycemic mice. CONCLUSION: Overall, our study highlights the crucial role of O-GlcNAcylation in exacerbating cerebral ischemia injury under conditions of hyperglycemia. O-GlcNAcylation could potentially serve as a therapeutic target for ischemic stroke associated with AD.

Bacterial cellulose-derived micro/mesoporous carbon anode materials controlled by poly(methyl methacrylate) for fast sodium ion transport.

An advanced nanostructure with rational micro/mesoporous distribution plays an important role in achieving high electrochemical performance in sodium ion batteries (SIBs), especially the energy storage efficiency in the low-potential region during the charging/discharging processes. Here we propose a method of polymer-blended bacterial cellulose (BC) matrix to tune the micro/mesopores of polymer-BC derived carbon under a mild carbonization temperature. The targeted pore structure and electrochemical performance are optimized by controlling the amount of methyl methacrylate monomers via free-radical polymerization, and carbonized temperature via pyrolysis treatment. The constructed carbon materials display a stable 3D fibrous network with a large specific area and abundant micro/mesopores formed during the pyrolysis of the polymer poly(methyl methacrylate) (PMMA). Taking advantage of the constructed pore structure, the optimized carbon anodes derived from BC/PMMA composites show an enhanced Na+ diffusion rate with a high capacity of 380.66 mA h g-1 at 0.03 A g-1. It is interesting that it possesses superior low-potential capacity, and retains 42% of the total capacity even at a high scan rate of 1 mV s-1. The proposed method of polymer-blended on cellulose matrix provides an energy-efficient way to achieve high low-potential capacity under facile processing conditions for fast sodium ion transport in SIBs.

A study of adeno-associated virus in cortical-thalamostriatal pathway.

The cortical-thalamostriatal pathway constitutes the cortico-basal ganglia circuit and plays a critical role in the control of movement. Emerging evidence shows that center median/parafascicular (CM/Pf) neurons are lost in Parkinson's disease (PD) patients with motor deficits and CM/Pf neurons send massive and topographically organized projections to specific regions of the dorsal striatum, but provide only minor inputs to the cerebral cortex. However, anatomical connectivity in the cortical-thalamostriatal pathway are poorly understood at present. In the present study, we used a neural tracing method with adeno-associated virus (AAV) to monitor the cortical-thalamostriatal connectivity in rats. We found that parafascicular nucleus (PF) not only project directly to the striatum but send minor inputs to the cortical regions. It was manifested by green fluorescent protein (GFP) expressing fibers observed in dorsolateral striatum (DLS) and the primary motor cortex (M1) after adeno-associated virus serotype 2/9 (AAV2/9)-GFP injection into PF and GFP expressing cells observed in PF after injection AAV2/retro-GFP into M1. And the PF also receive projections from the DLS and it was demonstrated by GFP expressing fibers in PF after AAV2/9-GFP injection into DLS and GFP expressing cells in DLS after injection AAV2/retro-GFP into PF. Histological and behavioral analysis revealed that AAV vector transduction cause damage in neurons on the injection sites and also damage motor activity of rats suggesting caution in clinical application.

Surfactant induced self-assembly to prepare a vanadium nitride/N,S co-doped carbon high-capacitance anode material.

The mechanism of the reaction of melamine (C3H6N6) with ammonium metavanadate and the critical role of the surfactant in this reaction were investigated. The results indicate that the complex is obtained via the reaction of C3H6N6 with VO3- after the elimination of -NH2, and the surfactant can modulate the microstructure. In addition, a vanadium nitride/N,S co-doped carbon material fabricated from the above complex exhibits a specific capacitance of 422.0 F g-1 at 0.5 A g-1. This method provides a new route for the synthesis of vanadium nitride/carbon materials.

The application of venous nerve conduit trap in the immediate repair and reconstruction of facial nerve in parotid gland tumor: an attempt of a new technique.

OBJECTIVE: To introduce the application of venous nerve conduit in the immediate repair and reconstruction of facial nerve in parotid gland tumor. METHODS: Three patients with parotid gland tumor in Sichuan Provincial Cancer Hospital were reviewed. All patients were found that the tumor encased and invaded the facial nerve which was difficult to be separated during the operation when all patients were treated with facial nerve repair and reconstruction with the venous nerve conduit trapping technique. RESULTS: After 1-year follow-up, all patients recovered well in facial nerve function. CONCLUSION: The venous nerve conduit trapping technique is an effective attempt in the immediate repair and reconstruction of facial nerve in parotid gland tumor, but it needs to be further confirmed by multiple studies.

Aberrant internal carotid artery in the oropharynx space poses a life-threatening risk of surgery.

BACKGROUND: Tortuosity of the internal carotid artery (ICA) is not a rare condition, but its clinical impact is underestimated. The differences in the course and shape of the ICA in the oropharynx just beneath the mucosa were investigated to determine the possible fatal bleeding for both major oropharyngeal tumor resection and less extensive procedures. We report two cases to reveal that the awareness of such an anatomical variation before performing oropharyngeal procedures. METHODS AND RESULTS: We report two different pathologies of retropharyngeal ICAs, which presented with otolaryngological symptoms. Case 1 Retropharyngeal right ICA. The vessel's minimum distance to the pharyngeal wall was 1 mm (very high risk of vascular injury) with a tortuous pathway. Case 2 Retropharyngeal right ICA. A tortuous ICA was in contact with the posterior pharyngeal wall (very high risk of vascular injury). CONCLUSION: The otolaryngologists surgeons must use caution in evaluating patients with masses in the pharynx and augment a careful and complete head and neck examination with appropriate imaging studies before operating.

The complete plastome of Nannoglottis ravida, an extremely endangered species in the Qinghai-Tibet Plateau.

Nannoglottis ravida is an extremely endangered species in the Qinghai-Tibet Plateau. Based on the second-generation high-throughput genome sequencing, we assembled the plastome of this species. The length of the total plastome is 152,324 bp with a typical quadripartite structure including a large single-copy region of 83,708 bp, a small single-copy region of 29,882 bp and two reverse repeat regions of 19,367 bp respectively. A total of 131 genes were annotated including 85 protein-coding genes (PCG), 36 tRNA genes, 8 rRNA genes and 2 pseudogenes. The constructed phylogenetic tree with other species of two tribes Senecioneae and Astereae based on plastomes suggests that N. ravida has a close relationship with the Astereae, but diverged early from this tribe.

Surgery for retrosternal goiter: cervical approach.

BACKGROUND: Retrosternal goiter refers to when the thyroid gland extends from the neck to the substernal portion, descending below the thoracic inlet into the mediastinum. It is typically accompanied by compressive symptoms, and most patients need to undergo surgery. This retrospective study set out to analyze the surgical approach to retrosternal goiter and to evaluate perioperative complications, with the aim of recommending best surgical technique. METHODS: We carried out retrospective analysis of 115 patients with retrosternal goiter treated at our center between May 4, 2011 and March 19, 2019. We analyzed patient characteristics, surgical methods, and perioperative complications using SPSS. RESULTS: Of the 115 patients in our study, 112 underwent thyroidectomy by cervical approach, with only 3 requiring an extracervical approach. The median age of the patients was 52.3 years, and the majority were female (81.74%). Most of the patients (73.91%) experienced no symptoms but were diagnosed with tracheal compression during surgery or preoperative imaging examination. Ninety-eight (85.22%) of our patients underwent preoperative evaluation of their condition by CT imaging. No obvious surgical contraindications were found before thyroid function tests. The mean operation time was 115.11 min, and the average amount of bleeding during surgery was 54.43 mL. The mean postoperative hospital stay was 5.38 days. In 109 cases (94.78%), the goiter was found to be benign, and malignancy was diagnosed in 6 patients (5.22%). Of the 112 patients who were treated with the cervical approach, 7 (6.25%) experienced recurrent laryngeal nerve palsy; 6 of these cases were transitory and 1 was permanent. The number of patients treated by cervical and extracervical approach who experienced transient hypocalcaemia was 23 (20.54%) and 2, respectively. Transient hypoparathyroidism affected 16 patients (14.29%) treated by cervical approach. Two patients had tracheomalacia phenomenon and one patient had pleural effusion after surgery. No cases experienced permanent hypocalcemia, permanent hypoparathyroidism, postoperative hematoma, tracheostomy, or death. CONCLUSIONS: Retrosternal goiter surgery is challenging for surgeons. The best surgical approach for the patient should be based on CT scan evaluation. In our study, based on preoperative CT imaging and in-operation evaluation, 50% of the tumor volume was located below the thoracic inlet and 50% of the tumor volume was located above the thoracic inlet in almost all of the patients. Both sections could be successfully removed via a cervical incision, and no obvious complications were observed during the perioperative period. With careful planning and execution before surgery and meticulous operation during surgery, most retrosternal goiters can be safely treated by cervical approach.

Molecular Characterization and Comparative Pathogenicity of Goose Parvovirus Isolated from Jilin Province, Northeast China.

Goose parvovirus (GPV) is a highly contagious disease caused by GPV in goslings and young Muscovy ducklings. In recent years, frequent GPV outbreaks have occurred in many regions of Jilin Province, China. In this study, to understand the immune-related characteristics of the currently prevailing GPV strains in some regions of Jilin Province, six GPV strains were isolated from six different regions of Jilin Province in 2016-2018. The results of phylogenetic analysis, clinical signs, and histopathologic analysis showed that four strains were virulent and two strains were attenuated. Specifically, we found that the two attenuated strains have the same amino acid mutation at the same position in the virus protein 3 (VP3) gene, and the virulent strains have more mutation sites than the attenuated strains. This finding suggests that changes in these sites may result in GPV replication or reduction in the immune response in goslings, thereby producing strong pathogenicity, and that attenuated strains are more conservative than virulent strains.

Caracterización molecular y patogenicidad comparativa de parvovirus de ganso aislados en la provincia de Jilin, noreste de China. El parvovirus del ganso (GPV, por sus siglas en inglés) es una enfermedad altamente contagiosa causada por el parvovirus de ganso en gansitos y patitos reales jóvenes. En los últimos años, se han presentado brotes frecuentes por el parvovirus del ganso en muchas regiones de la provincia de Jilin, en China. En este estudio, para comprender las características relacionadas con el sistema inmunológico de las cepas del parvovirus del ganso prevalentes actualmente en algunas regiones de la provincia de Jilin, se aislaron seis cepas de parvovirus del ganso de seis regiones diferentes de la provincia de Jilin entre los años 2016 al 2018. Los resultados del análisis filogenético, los signos clínicos y el análisis histopatológico mostraron que las cuatro cepas fueron virulentas y dos fueron atenuadas. Específicamente, se encontró que las dos cepas atenuadas tienen la misma mutación de aminoácidos en la misma posición en el gene de la proteína viral 3 (VP3) y las cepas virulentas tienen más sitios de mutación que las cepas atenuadas. Este hallazgo sugiere que los cambios en estos sitios pueden resultar en la replicación o reducción de la respuesta inmune en los gansitos, lo que induce una fuerte patogenicidad y que las cepas atenuadas son más conservadas que las virulentas.

A core/shell stabilized polysaccharide-based nanoparticle with intracellular environment-sensitive drug delivery for breast cancer therapy.

In this work, we developed a novel core/shell chitosan (Cs)/hyaluronan (HA)-based hybrid nanoparticle, i.e. SNX@Cs-SNX/cHA, with good stability in the bloodstream and intracellular environment-sensitive drug delivery for breast cancer therapy. The core was a drug-loaded self-assembled micelle (SNX@Cs-SNX), and the shell was crosslinked to cysteine-conjugated hyaluronan (cHA) by disulfide bonds. Thanks to the combination of chemical bonding and physical encapsulation, the drug loading capacity of SNX@Cs-SNX/cHA nanoparticles was up to (14.6 ± 0.3)% in mass percentage. These stabilized core/shell nanoparticles were little affected by ionic strength (0.05-1.0 M sodium chloride solution), pH (6.8 and 7.4) and human plasma mimicking the bloodstream, but promptly disassembled by the multi-stimuli of glutathione (GSH), hyaluronidases (Hyals) and acidity (pH 5.0) mimicking the intracellular environment of breast cancer cells. In vitro 84% of the loaded drugs was released by GSH/Hyals/pH multi-stimuli within 72 h, as opposed to 28% at pH 7.4. SNX@Cs-SNX/cHA nanoparticles were highly endocytosed by both MCF-7 and MDA-MB-453 breast cancer cells and escaped from the endosomes/lysosomes as revealed by confocal laser scanning microscopy, showing a close IC50 value of 24.5 ng mL-1 and 41.0 ng mL-1 respectively to pure SNX. Thus, the SNX@Cs-SNX/cHA nanoparticle, which can not only increase the drug loading ability and stability in the blood circulation, but also control the fast intracellular drug delivery by GSH/Hyals/pH multi-stimuli in breast cancer cells, is a potential drug carrier for breast cancer therapy.

Complete mitochondrial genome of Sarcocheilichthys lacustris (Cypriniformes, Cyprinidae).

In this study, we sequenced and characterized the complete mitochondrial genome of Sarcocheilichthys lacustris from Heilongjiang River (Amur River) at fuyuan county, Heilongjiang province, China. The circular mitochondrial genome of S. lacustris was determined to be 16,684 bp in length. It contains typical complement of 13 protein coding genes, 22 transfer RNAs (tRNAs), 2 ribosomal RNAs (rRNAs) and 1 control region.