在4H晶相Au纳米带上外延生长非常规晶相4H-Pd基合金纳米结构用于高效甲醇电催化氧化

Pd基合金纳米材料通常具有传统的面心立方(fcc)晶相。本文以密排六方4H相Au(4H-Au)纳米带为模板,外延生长非常规4H晶相的PdFe、PdIr和PdRu,形成4H-Au@PdM(M=Fe、Ir和Ru)核壳合金纳米带。合成的4H-Au@PdFe纳米带被用于碱性环境中甲醇电催化氧化反应(MOR)的催化剂,表现出优越的质量活性(3.69 A·mgPd^(−1)),分别为Pt/C和Pd黑催化剂质量活性的2.4和10.5倍,也跻身于最好的Pd基和Pt基MOR电催化剂之列。这一策略为合理设计和可控合成具有非常规晶相的多金属纳米结构提供了策略,从而为深入研究多金属纳米结构晶相依赖的性质和应用提供了可能。

Tip60-siRNA Regulates ABCE1 Acetylation and Inhibits the Proliferation, Migration and Invasion of Esophageal Cancer via the Wnt Pathway

Objective: To investigate the effect of Tip60 gene silencing on the ABCE1 acetylation level and cell proliferation, migration and invasion in TE-1 cells of oesophageal cancer. Methods: The siRNA sequence of Tip60 was transfected with esophageal cancer TE-1 cells. Transfected siRNA vector cells were used as experimental group (si-T), siRNA no-loaded somatic cells were transfected as control group (si-NC), and untransfected TE-1 cells were used as blank group (Group N). ABCE1 mRNA was detected by qRT-PCR, the expression of ABCE1 protein, proliferation-related protein β catenin (β-catenin), GSK3β, and c-myc by Western blot, the protein acetylation level by immunoprecipitation, MTT assay for cell viability, scratch healing and Transwell compartment assay for migration and invasion ability. Results: After 48 h downregulation of the Tip60 gene, TE-1 cells showed no significant changes in the ABCE1 mRNA and protein expression. The acetylation level of ABCE1 decreased significantly, compared with the control group and the blank group. After Tip60 gene silencing, the expression of β-catenin and c-myc protein decreased, while the expression of GSK-3β protein increased. Cytofunctology experiments showed that the proliferative activity, migration and invasion ability of TE-1 cells in the experimental group were significantly inhibited. Conclusion: Down regulation of Tip60 gene can deacetylate ABCE1 protein and inhibit the proliferation activity, migration and invasion ability of esophageal cancer by blocking the conduction of Wnt signaling pathway.

Acetyltransferase P300 Inhibits the Proliferation, Invasion, and Migration of Esophageal Cancer via Survivin Acetylation

Background: Esophageal cancer is one of the primary death causes leading by cancer in the world, which is high morbidity and mortality. Epigenetic acetylation modification participates in and regulates the proliferation, invasion, and metastasis of various tumor cells, and the acetylation modification of tumor proteins involved by acetyltransferases may be one of the important mechanisms of esophageal carcinogenesis. The aim of this study was to investigate the correlation of acetyltransferase P300 and Survivin acetylation in esophageal cancer pathogenesis and its molecular mechanism. Methods: Fifty-five cases of esophageal cancer tissues and adjacent cancer tissues were collected, Survivin and P300 protein expression was measured by immunohistochemistry (SP) and protein blotting (Western Blot);Survivin acetylated protein levels were measured by coimmunoprecipitation (Co-IP);bioinformatics predicted the relationship between P300 and Survivin as the substrate, and fluorescence immunohistochemistry (IF) to verify the localization and expression of Survivin and P300 in esophageal cancer tissues;the correlation of Survivin acetylation, P300 and clinical cases characteristics was analyzed by statistics. P300 siRNA sequences were structured and transfected into EC109 cells. P300 protein expression and Survivin acetylated protein levels were determined by Co-IP. Cell viability was determined by the MTT assay, Scratch healing and Transwell chamber assay examined cell migration and invasion ability. Results: Survivin and P300 protein expression was significantly increased in human esophageal cancer tissues and EC109 cells. The Survivin protein was acetylated in esophageal cancer tissues and EC109 cells, and its protein acetylation rate was significantly increased;bioinformatics predicted that the acetyltransferase P300 could catalyze the acetylation of Survivin as a substrate, and the fluorescence immunohistochemistry confirmed that both Survivin and P300 simultaneously showed a high expression state in cancer tissues;Survivin acetylation and P300 expression;Survivin acetylation and P300 were closely related with esophageal cancer stage, tissue differentiation and lymph node metastasis. The vitro experiments showed that P300 RNA interference in esophageal cancer cells can significantly reduce the Survivin protein acetylation level, while inhibiting the survival, migration and invasion capacity of EC109 cells. Conclusion: P300 has a correlation with Survivin acetylation in the lespathological process of esophageal cancer, P300 may be an important upstream molecule of Survivin acetylation and has an important potential value in the diagnosis and treatment of esophageal cancer.

Design and verification of a satellite-terrestrial integrated IP network model for the Global Energy Interconnection

In order to meet the pressing demand for wide-area communication required by the Global Energy Interconnection(GEI),accelerating the construction of satellite-terrestrial Integra怕d networks that can achieve network extension and seamless global coverage has become the focus of power communication tech no logy development.In this study,we propose a satellite-terrestrial integrated network model that can support interconnection and interoperation on the IP layer between the satellite system and the怕rrestrial segment of the existing power communication system.First,the composition and function of the satellite-terrestrial collaborative network are explained.Then,the IP-based protocol stack is described,and a typical applicati on experime nt is con ducted to illustrate the particular process of this protocol stack.Fin ally,a use case of IP interconn ection that depends on GEO satellite communication is detailed.The experime ntal study has showed that the satellite-terrestrial collaborative network can efficiently support various IP applications for the GEI.

Study of the Value of Combined Multiorgan Resection in Surgical Treatment of Carcinoma of the Gastric Cardia

OBJECTIVE： To determine the value of resection of combined visceral organs in surgical treatment of gastric cardiac carcinoma. METHODS： We retrospectively analyzed 217 random patients with carcinoma of the gastric cardia who underwent a gastric cardiac resection. The patients had been treated as follows： 186 with partial gastrectomy, 31 with total gastrectomy, 97 with a combined-visceral resection, of which 82 underwent a splenectomy plus partial pancreatectomy, 10 with splenectomy alone and 5 with partial hepatectomy and diaphragmatectomy. RESULTS： The total patients were divided into 3 groups： 128 with a gastrectomy alone, 10 with gastrectomy and splenectomy, and 82 with gastrectomy and splenectomy plus pancreatectomy. The operating times for these 3 groups were respectively 3.0 h, 3.1 h and 3.8 h. The hospitalization times were respectively 23.8 d, 31.2 d and 25.9 d. No differences in post-operative complications were found between these 3 groups. There were 92 patients who underwent a gastrectomy combined with a splenectomy and （or） the pancreatectomy, in which 92 No.10 lymph nodes were eliminated, with an average of one in each patient. Among the 125 patients not receiving a splenectomy but with elimination of lymph nodes, 82 underwent a gastrectomy combined with partial pancreatectomy, of which 107 lymph nodes were eliminated for the No. 11 group, with an average of 1.3 in each patient. There was a statistically significant difference between the 2 groups. The overall survival rates were similar in the 3 groups showing no statistical differences, but was higher in the Stage Ⅲ patients with a combined resection of multi-organs. For patients in the Stage Ⅳ without resection of multi-organs, the survival rate was higher, but there was no significant difference between the 2 groups. CONCLUSION： It is difficult to determine precisely the involvement of para-tumorous organs with the eye during an operation. Combining a splenectomy with a pancreatectomy does not increase the post-operative complications following surgical treatment for carcinoma of the gastric cardia. The combination of a splenectomy and partial pancreatectomy results in a higher survival rate and has an important significance for eliminating the lymph nodes of group 10 and 11, especially for patients in Stage Ⅲ. In the application of a resection combining multi-organs, the doctor should make every effort to decrease the trauma and the complications based on the condition that the cancerous tissue is totally resected.

单原子在铝合金中的扩散迁移行为:可解释机器学习加速第一原理计算方法

本文采用机器学习加速第一原理计算的方法,研究了铝基体中单原子的扩散迁移行为.建立铝基体中三十多种单原子扩散迁移行为的小样本数据集,以原子半径、离子半径和第一电离能等固有参数作为输入特征值,合金原子与空位之间的相互作用能以及合金原子在铝基体中的扩散势垒作为输出参数.通过相关性分析初步确定描述符与预测目标之间的关系,并利用递归特征消除法确定不同目标的输入特征和描述符数量.通过交叉验证证明所选模型的先进性,并进行微调以优化其性能.为了验证其效率和准确性,CatBoost模型经过了传统算法的严格测试.利用训练有素的模型预测周期表中其他单原子在铝基体中的扩散迁移行为.机器学习加速第一原理计算的结果可为进一步开发新型铝合金提供理论依据.

Future perspectives:advances in bone/cartilage organoid technology and clinical potential

Bone and cartilage tissues are essential for movement and structure,yet diseases like osteoarthritis affect millions.Traditional therapies have limitations,necessitating innovative approaches.Organoid technology,leveraging stem cells’regenerative potential,offers a novel platform for disease modelling and therapy.This review focuses on advancements in bone/cartilage organoid technology,highlighting the role of stem cells,biomaterials,and external factors in organoid development.We discuss the implications of these organoids for regenerative medicine,disease research,and personalised treatment strategies,presenting organoids as a promising avenue for enhancing cartilage repair and bone regeneration.Bone/cartilage organoids will play a greater role in the treatment of bone/cartilage diseases in the future,and promote the progress of biological tissue engineering.

Crystal phase-controlled growth of PtCu and PtCo alloys on 4H Au nanoribbons for electrocatalytic ethanol oxidation reaction

Crystal phase can greatly affect the physicochemical properties and applications of nanomaterials.However,it stil remains a great challenge to synthesize nanostructures with the same composition and morphology but different phases in order to explore the phase-dependent properties and applications.Herein,we report the crystal phase-controlled synthesis of PtCu alloy shells on 4H Au nanoribbons(NRBs),referred to as 4H-Au NRBs,to form the 4H-Au@PtCu core-shell NRBs.By tuning the thickness of PtCu,4H-PtCu and face-centered cubic(cc)phase PICu(cc-PtCu)alloy shells are successtully grown on the 4H-Au NRB cores.This thickness-dependent phase-controlled growth strategy can also be used to grow PtCo alloys with 4H or fcc phase on 4H-Au NRBs.Significantly,when used as electrocatalysts for the ethanol oxidation reaction(EOR)in alkaline media,the 4H-Au@4H-PtCu NRBs show much better EOR performance than the 4H-Au@fcc-PtCu NRBs,and both of them possess superior performance compared to the commercial Pt black.Our study provides a strategy on phase-contolled synthesis of nanomaterials used for crystal phase-dependent applications.

A periodic DFT study on adsorption of small molecules(CH4,CO,H2O,H2S,NH3)on the WO3(001) surface-supported Au

Gas molecules(such as CH4,CO,H2O,H2S,NH_3)adsorption on the pure and Au-doped WO3(001)surface have been studied by Density functional theory calculations with generalized gradient approximation.Based on the the calculation of adsorption energy,we found the most stable adsorption site for gas molecules by comparing the adsorption energies of different gas molecules on the WO3(001)surface.We have also compared the adsorption energy of five different gas molecules on the WO3(001)surface,our calculation results show that when the five kinds of gases are adsorbed on the pure WO3(001)surface,the order of the surface adsorption energy is CO>H2S>CH4>H2O>NH3.And the results show that NH3 is the most easily adsorbed gas among the other four gases adsorbed on the surface of pure WO3(001)surface.We also calculated the five different gases on the Au-doped WO3(001)surface.The order of adsorption energy was found to be different from the previous calculation:CO>CH4>H2S>H2O>NH3.These results provide a new route for the potential applications of Au-doped WO3 in gas molecules adsorption.

SnO/SnO_(2) heterojunction:an alternative candidate for sensing NO_(2) with fast response at room temperature

The SnO_(2)-based family is a traditional but important gas-sensitive material.However,the requirement for high working temperature limits its practical application.Much work has been done to explore ways to improve its gas-sensing performance at room temperature(RT).For this report,SnO_(2),SnO,and SnO/SnO_(2) heterojunction was successfully synthesized by a facile hydrothermal combined with subsequent calcination.Pure SnO_(2) requires a high operating temperature(145℃),while SnO/SnO_(2) heterojunction exhibits an excellent performance for sensing NO_(2) at RT.Moreover,SnO/SnO_(2) exhibits a fast response,of 32 s,to 50 ppm NO_(2) at RT(27℃),which is much faster than that of SnO(139 s).The superior sensing properties of SnO/SnO_(2) heterojunction are attributed to the unique hierarchical structures,large number of adsorption sites,and enhanced electron transport.Our results show that SnO/SnO_(2) heterojunction can be used as a promising high-performance NO_(2) sensitive material at RT.