转金属硫蛋白基因平菇对小鼠辐射后抗氧化能力的影响

目的研究转金属硫蛋白基因平菇对小鼠抗辐射能力的影响。方法以ICR小鼠为实验动物,将转金属硫蛋白基因平菇干粉掺入其饲料喂养,至D23以5.0Gy60Co-γ射线对小鼠全身照射一次做辐射损伤模型,继续喂养7d检测其抗辐射能力。结果转金属硫蛋白基因平菇可显著改善辐射对小鼠血小板(PLT)和脾脏的损伤;明显增强受辐射小鼠血清SOD活性,降低其血清MDA含量。结论转金属硫蛋白基因平菇能明显增强小鼠辐射后的抗氧化能力。

转金属硫蛋白基因平菇的营养保健功能研究初报——对小鼠生长发育、学习记忆及抗疲劳能力的影响

以ICR小鼠为实验动物,对转金属硫蛋白基因平菇的营养保健功能进行了研究。结果表明:在参考人体可能摄入量范围内,喂饲转基因平菇的小鼠生长发育、学习记忆能力和抗疲劳能力都有显著提高。

转金属硫蛋白基因平菇对受辐照、衰老和铅中毒小鼠抗氧化能力的影响

研究了转金属硫蛋白基因平菇对不同模型小鼠抗氧化能力的影响。结果表明:在小鼠饲料中掺入1%和3.16%的转金属硫蛋白基因平菇干粉(前者相当于50～60kg体重的人每日摄食鲜菇1kg),可明显增强受辐照小鼠血清SOD活性,降低其血清MDA含量;明显增强铅中毒小鼠血清SOD活性和抗活性氧能力;对衰老小鼠血清SOD活性的降低、MDA含量的升高无明显改善作用。结论:转金属硫蛋白基因平菇可提高受辐照和铅中毒小鼠的抗氧化能力,对增强D-半乳糖致衰老模型小鼠抗氧化能力无明显效果。

金属转筒除尘技术的工程应用与研制原则

金属转筒除尘技术采用金属滤筒,通过粉尘搭桥和控制滤筒旋转速度过滤含尘气体,同时由气刀把过滤后附着在滤筒表面的粉尘吹到集灰箱内,实现连续的除尘过程。采用这项除尘技术制造的金属转筒除尘器,已经在工程上得到应用,结合这种金属转筒除尘器设计、安装和调试的经验,提出在研制过程中要遵循的原则。

ZNT1 Involves Cuproptosis through Regulating MTF1-conduced Expression of MT1X under Copper Overload

Industrial activities such as smelting emissions,mineral combustion and industrial wastewater discharge might lead to copper pollution in the environment.This kind of copper pollution has harmful effects on aquatic o rganisms,plants and animals through direct or indirect exposure.However,the current understanding of the toxicity of copper is rather limited.Copper overload can perturb intracellular homeostasis and induce oxidative stress and e ven cell death.Recently,cuproptosis has been identified as a copper-dependent form of cell death induced by o xidative stress in mitochondria.We uncover here that zinc transporter 1(ZNT1)is an important regulator involved in cuproptosis.Firstly,we established the copper overload-induced cell death model with the overexpression of copper importer SLC31A1 in HeLa cells.Using this model,we conducted unbiased genome-wide CRISPR-Cas9 screens in cells treated with copper.Our results revealed a significant enrichment of ZNT1 gene in both library A and library B plasmids.Knocking out of ZNT1 in HeLa cells notably prevented cuproptosis.Subsequent knockout of metal transcription factor 1(MTF1)in ZNT1-deficient cells nearly abolished their ability to resist copper-induced cell death.However,overexpression of metallothionein 1X(MT1X)in the double-knockout cells could p artially restored the resistance to cuproptosis by loss of MTF1.Mechanistically,knockout of ZNT1 could promote MT1X expression by activating MTF1.As a consequence,the interaction between MT1X and copper was e nhanced,reducing the flow of copper into mitochondria and eliminating mitochondria damage.Taken together,this study reveals the important role of ZNT1 in cuproptosis and shows MTF1-MT1X axis mediated resistance to c uproptosis.Moreover,our study will help to understand the regulatory mechanism of cellular and systemic copper homeostasis under copper overload,and present insights into novel treatments for damages caused by both genetic copper overload diseases and environmental copper contamination.

轮虫对2种不同微藻饵料的摄食量研究

[目的]通过探测轮虫对2种微藻(小球藻和转基因金属硫蛋白聚球藻)的摄食情况,研究轮虫对不同微藻的摄食量,确定轮虫在生长繁殖的过程中每天摄食单细胞藻的量,并比较了2种细胞大小相差悬殊的微藻对轮虫的投喂效果。[方法]分别置于不同培养条件(自然、黑暗)下,利用不同的微藻作壶状臂尾轮虫(Brachionus urceus)的饵料,每天计数轮虫密度,并用分光光度计测微藻的OD值。[结果]结果表明,轮虫每天摄食量与饵料的密度密切相关,密度越高摄食量越大,而且小球藻的饵料效果好于转金属硫蛋白聚球藻。[结论]为有效地促进轮虫养殖业的发展奠定了基础。

不同微藻对壶状臂尾轮虫生长及摄食量的影响

在不同培养条件(自然、黑暗)下,利用不同的微藻(小球藻、转基因金属硫蛋白聚球藻、衣藻、水华鱼腥藻)作壶状臂尾轮虫(Brachionus urceus)的饵料,探讨轮虫的摄食情况,并比较不同形态的微藻对轮虫的投喂效果。结果表明轮虫投入到藻液中,在144 h时内,自然条件下,轮虫可以将密度为0.175 g/L的小球藻降为0.002 g/ L,将聚球藻的密度由1.112 g/L降到0.237 g/L,将衣藻的密度由0.31 g/L降到0.048 g/L;鱼腥藻的密度由0.531 g/L降到0.069 g/L。在黑暗条件下,这几种藻的生长受到抑制,经轮虫的摄食可使小球藻的密度由0.175 g/L降为0.006 g/L,而聚球藻的密度由1.112 g/L降为0.666 g/L,衣藻的密度由0.31 g/L.降到0.033 g/L;鱼腥藻的密度由0.531 g/L降到0.00 g/L。试验表明光照更有利于轮虫的生长繁殖,小球藻的饵料效果优于其它微藻,轮虫种群密度效果差异极显著(P<0.01)。

铝合金高压开关壳体重力铸造水平侧冒口的应用实践

对于铝合金倾转金属型重力铸造而言,由于分型的局限性,在非分型面处易出现厚大热节,得不到有效补缩而出现废品;以高压开关壳体铸件为例,通过模拟分析,探讨了缩松形成原因。结果表明,通过在孤立热节处增加水平侧冒口,解决了缩松缺陷。

Decomposition of a β-O-4 lignin model compound over solid Cs-substituted polyoxometalates in anhydrous ethanol: acidity or redox property dependence?

Production o f aromatics from lignin has attracted much attention. Because of the coexistence of C-O and C-C bonds and their complex combinations in the lignin macromolecular network, a plausible roadmap for developing a lignin catalytic decomposition process could be developed by exploring the transformation mechanisms of various model compounds. Herein, decomposition of a lignin model compound, 2-phenoxyacetophenone （2-PAP）, was investigated over several ce-sium-exchanged polyoxometalate （Cs-POM） catalysts. Decomposition of 2-PAP can follow two dif-ferent mechanisms： an active hydrogen transfer mechanism or an oxonium cation mechanism. The mechanism for most reactions depends on the competition between the acidity and redox proper-ties of the catalysts. The catalysts of POMs perform the following functions： promoting active hy-drogen liberated from ethanol and causing formation of and then temporarily stabilizing oxonium cations from 2-PAP. The use of Cs-PMo, which with strong redox ability, enhances hydrogen libera-tion and promotes liberated hydrogen transfer to the reaction intermediates. As a consequence, complete conversion of 2-PAP （〉99%） with excellent selectivities to the desired products （98.6% for phenol and 91.1% for acetophenone） can be achieved.

Improvement of Copper-inducible Gene Expression System for Plant

The copper-regulated gene expression system has been developed to control spacial and temporal expression of transgene in plant. It comprises two parts: (1) ace I gene encoding copper-responsive transcription factor under the control of a constitutive or organ-specific promoter, and (2) a gene of interest under the control of a chimeric promoter consisting of the CaMV 35S (-90 to +8) promoter linked to the metal responsive element (MRE) carrying activating copper-metallothionein expression (ACE1)-binding sites. Here, the effectiveness of two different ACE1-binding cis -elements which derive from 5'-regulatory region of yeast metallothionein gene was investigated in transgenic tobacco (Nicotiana tabacum L. cv. W38). The results revealed that the MRE (-210 to -126) could increase the system inducibility by 50% - 100% compared with the previously reported MRE (-148 to -105). It is potential to use the copper-inducible system to control valuable gene traits in plant biotechnology.

Correlation of matrix metalloproteinase－2, －9, tissue inhibitor－1 of matrix metalloproteinase and CD44 variant 6 in head and neck cancer metastasis

This study aimed to explore the molecular mechanism in tumor invasion and metastasis. The expression of matrix metalloproteinase 2, 9 (MMP 2, MMP 9), tissue inhibitor 1 of matrix metalloproteinase (TIMP 1), cell adhesion molecule 44 variant 6 (CD44v6), HER2/neu and p53 was investigated in 154 patients with head and neck squamous cell carcinoma (SCC) by ABC and ImmunoMax immunohistochemical method. Their clinical relevance and correlation were analysed. The expression of MMP 2, MMP 9, TIMP 1, CD44v6, HER2/neu and p53 was found in cancer cells in 87.01%, 85.71%, 68.18%, 98.05%, 55.19% and 50.65% cases respectively. Linear regression and correlation analysis revealed that there was close positive relationship ( P <0.05) between the expression of MMP 2 and MMP 9, TIMP 1 and CD44v6, HER2/neu and MMP 9, MMP 2 and p53. Up regulation of MMP 2 was accompanied by advanced T stage ( P <0.01) . There was also a trend of MMP 2 expression being related with tumor metastasis. Increased expression of HER2/neu was found in patients with tumor recurrence( P <0.05). The expression of TIMP 1 was higher in laryngeal cancer than that in pharyngeal cancer, and higher in keratinizing and non keratinizing SCC than that in basaloid SCC( P <0.05). These findings suggested that MMP 2 and MMP 9, HER2/neu and MMP 9, MMP 2 and p53 had a coordinate function in aggression of tumor; that MMP 2 had a more important function than MMP 9 in tumor invasion and metastasis; and that HER2/neu might serve as a biomarker for poor prognosis in HNSCC.

Improving the performance of metal-organic frameworks for thermo-catalytic CO_(2)conversion:Strategies and perspectives

Climate change caused by the increasing emission of CO_(2)to the atmosphere has become a global concern.To ameliorate this issue,converting CO_(2)into valuable chemicals is highly desirable,enabling a sustainable low-carbon future.To this end,developing efficient catalytic systems for CO_(2)conversion has sparked intense interests from both academia and industry.Taking advantage of their highly porous structures and unique properties,metal−organic frameworks(MOFs)have shown great potential as heterogeneous catalysts for CO_(2)conversion.Various transformations involving CO_(2)have been accomplished over MOFs-based materials.Here we provide a comprehensive and up-to-date review on recent advances of heterogeneous CO_(2)thermocatalysis using MOFs,highlighting relationships between structures and properties.Special attention is given to the design strategies for improving the catalytic performance of MOFs.Avenues available to enrich the catalytic active sites in MOF structures are stressed and their respective impacts on CO_(2)conversion efficiency are presented.The synergistic effects between each active site within the structure of MOFs and derivatives are discussed.In the end,future perspectives and challenges in CO_(2)conversion by heterogeneous catalysis with MOFs are described.

Liquid−liquid structure transition in metallic melt and its impact on solidification:A review

Understanding the nature of liquid structures and properties has always been a hot field in condensed matter physics and metallic materials science.The liquid is not homogeneous and the local structures inside change discontinuously with temperature,pressure,etc.The liquid will experience liquid−liquid structure transition under a certain condition.Liquid−liquid structure transition widely exists in many metals and alloys and plays an important role in the final microstructure and the properties of the solid alloys.This work provides a comprehensive review on this unique structure transition in the metallic liquid together with the recent progress of its impact on the following microstructure and properties after solidification.These effects are discussed by integrating them into different experimental results and theoretical considerations.The application of liquid−liquid structure transition as a strategy to tailor the properties of metals and alloys is proven to be practical and efficient.

Up-regulation of divalent metal transporter 1 in 6-hydroxydopamine intoxication is IRE/IRP dependent

Iron plays a key role in Parkinson＇s disease （PD）. Increased iron content of the substantia nigra （SN） has been found in PD patients, and divalent metal transporter 1 （DMT1） has been shown to be up-regulated in the SN of both MPTP-induced PD models and PD patients. However, the mechanisms underlying DMT1 up-regulation are largely unknown. In the present study, we observed that in the SN of 6-hydroxydopamine （6-OHDA）-induced PD rats, DMT1 with the iron responsive element （IRE, DMTI＋IRE）, but not DMT1 without IRE （DMTI-IRE）, was up- regulated, suggesting that increased DMTI＋IRE expression might account for nigral iron accumulation in PD rats. This possibility was further assessed in an in vitro study using 6-OHDA-treated and DMTl＋IRE-over-expressing MES23.5 cells. In 6-OHDA-treated MES23.5 cells, increased iron regulatory protein （IRP） 1 and IRP2 expression was observed, while silencing of IRPs dramatically diminished 6-OHDA-indueed DMTI＋IRE up-regulation. Pre- treatment with N-acetyl-L-cysteine fully suppressed IRPs up-regulation by inhibition of 6-OHDA-indueed oxidative stress. Increased DMTI＋IRE expression resulted in increased iron influx by MES23.5 cells. Our data provide direct evidence that DMTI＋IRE up-regulation can account for IRE/IRP-dependent 6-OHDA-induced iron accumulation initiated by 6-OHDA-induced intracellular oxidative stress and that increased levels of intracellular iron result in ag- gravated oxidative stress. The results of this study provide novel evidence supporting the use of anti-oxidants in the treatment of PD, with the goal of inhibiting iron accumulation by regulation of DMT1 expression.

Copper‐doped zinc sulfide nanoframes with three‐dimensional photocatalytic surfaces for enhanced solar driven H_(2) production

Solar‐to‐chemical energy conversion is perceived as one of the most potential solutions to the current energy and environmental crisis,yet requires major scientific endeavors on the development of efficient and sustainable photocatalysts.Remolding the composition and morphology of a semiconductor jointly for the purpose of improving photocatalysis efficiency remains challenging.Herein,we rationally fabricated Cu‐doped ZnS nanoframes via a simple conjunct strategy of substitutional doping,chemical acidic etching,and sulfidation,aiming at enhancing the light utilization and charge separation/transfer efficiency for solar‐light‐driven hydrogen generation.Cu‐doped zeolitic imidazolate framework‐8(ZIF‐8)rhombic dodecahedrons are transformed to hollow Cu‐ZIF‐8 nanoframes converted to Cu‐ZnS nanoframes with three‐dimensional photocatalytic active surfaces via anisotropic chemical etching,which is further converted to Cu‐ZnS nanoframes.By combining the merits of optimal heteroatom doping and frame‐like open architecture,the obtained 1%Cu‐doped ZnS nanoframe exhibits high photocatalytic activity under solar light irradiation with improved hydrogen production rate up to 8.30 mmol h^(–1) g^(–1) and excellent stability in the absence of cocatalysts,which is significantly improved in comparison with those of the bare ZnS and Cu‐ZnS with different morphologies.This work inspired by merging the merits of metal doping and anisotropic chemical etching may shed light on the rational design and fabrication of advanced photocatalysts.

Transition metal (Mo, Fe, Co, and Ni)-based catalysts for electrochemical CO_2 reduction

The electrochemical conversion of CO2 into value-added chemicals and fuels has attracted wide-spread concern since it realizes the recycling of greenhouse gases. Production of new materials lies at the very core of this technology as it enables the improvement of developmental efficiency and selectivity by chemical optimization of morphology and electronic structure. Transition metal-based catalysts are particularly appealing as their d bands have valence electrons which are close to the Fermi level and hence overcome the intrinsic activation barriers and reaction kinetics. The study of Mo, Fe, Co, and Ni-based materials in particular is a very recent research subject that offers various possibilities in electrochemical CO2 reduction applications. Herein, we summarize the recent re-search progress of Mo, Fe, Co, and Ni-based catalysts and their catalytic behavior in electrochemical CO〈sub〉2 reduction. We particularly focus on the relationship between structures and properties, with examples of the key features accounting for the high efficiency and selectivity of the CO2 reduction process. The most significant experimental and theoretical improvements are highlighted. Finally, we concisely discuss the scientific challenges and opportunities for transition metal-based catalysts.

Temperature-Dependent Electrical Conductance of Bi Nanowires

The single crystal bismuth nanowire arrays grown along [0112] with the diameter of 30 nm was synthesized in the pore of anodic aluminum oxide templates through electrodeposi- tion process. The temperature dependent electric conductance of Bi nanowire arrays was measured from 78 K to 320 K. We found that the semimetal-to-semiconductor transition happened around 230 K for 30 nm Bi nanowires oriented along [0112] and the electric con- ductance of the nanowires had a strong temperature dependence.

EXPRESSION OF MATRIX METALLOPROTEINASE-7 INVOLVING IN GROWTH, INVASION, METASTASIS AND ANGIOGENESIS OF GASTRIC CANCER

Objective. To investigate the role of matrix metalloproteinase-7 (MMP-7) expression in caricinogenesisand progression of gastric cancer.Methods. We studied MMP-7 expression and microvessel density (MVD) in adjacent mucosa and pri-mary foci of 113 cases of gastric cancer by streptavidin-biotin-immunoperoxidase method using anti-MMP-7 and anti-CD34 antibodies. MMP-7 expression and mean MVD were compared with clinicopatholog-ical features of gastric cancer, with the relationship between MMP-7 expression and MVD concerned in gastric cancer.Results. MMP-7 showed positive expression in adjacent mucosa of gastric cancer (29.20%, 33/113),less than that in gastric cancer (69.03%, 78/113). MMP-7 expression in primary foci of gastric cancerwas positively correlated with tumor size, invasive depth, metastasis and TNM staging (P＜0.05), but notwith differentiation or growth pattern of gastric cancer (P＞0.05). Positive correlation of mean MVD withtumor size, invasive depth, metastasis and TNM staging was found (P＜0.05), despite no relationshipbetween mean MVD and differentiation of gastric cancer (P＞0.05). Mean MVD was dependent on MMP-7expression in gastric cancer (P＜0.05).Conclusion. Up-regulated expression of MMP-7 played an important role in carcinogenesis and pro-gression by participating in growth, invasion, metastasis and angiogenesis of gastric cancer. MMP-7 ex-pression could be regarded as an effective and objective marker to reflect the biological behaviors of gas-tric cancer.

Alterations of glutathione S-transferase and matrix metalloproteinase-9 expressions are early events in esophageal carcinogenesis

AIM: To investigate the role of glutathione S-transferase (GST) and matrix metalloproteinase-9 (MMP-9) expres-sions in the development and progression of reflux es-ophagitis-Barrett’s metaplasia-dysplasia-adenocarcinoma sequence in the esophagus.METHODS: GST and MMP-9 expressions were analyzed in 51 paraffin-embedded tissue samples by immunohisto-chemistry including patients with reflux esophagitis (n = 7), Barrett’s metaplasia (n = 14), Barrett and esophagi-tis (n = 8), Barrett and dysplasia (n = 7), esophageal adenocarcinoma (n = 8) and a control group without any histological changes (n = 7). Immunostaining was determined semiquantitatively. Statistical analysis with one-way ANOVA, LSD test and correlation analysis were performed. P value of < 0.05 was considered significant.RESULTS: GST expression was significantly higher while MMP-9 expression was significantly lower in control group compared to Barrett’s metaplasia and the other groups. No major changes were observed between Bar-rett, esophagitis, and Barrett and concomitant esophagi-tis. Barrett and concomitant dysplasia, and adenocarci-noma revealed a significant lower expression of GST and higher levels of MMP-9 compared to all other groups. Adenocarcinoma showed almost no expression of GST and significantly higher levels of MMP-9 than Barrett and concomitant dysplasia. Alterations of GST and MMP-9 were inversely correlated (r = - 0.82).CONCLUSION: Decreased GST and increased ex-pression of MMP-9 in Barrett’s metaplasia-dysplasia-adenocarcinoma sequence as compared to normal tissue suggest their association with esophageal tumorigenesis. Loss of GST and gain of MMP-9 in Barrett with dyspla-sia compared to non-dysplastic metaplasia indicate that these alterations may be early events in carcinogenesis. Quantification of these parameters in Barrett’s esopha-gus might be useful to identify patients at higher risk for progression to cancer.

Analysis and FEM simulation of extrusion process of bimetal tubes through rotating conical dies

Bimetal tube extrusion process through rotating conical dies was studied analytically and numerically. A kinematically admissible velocity field was developed to evaluate the internal power and the power dissipated on frictional and velocity discontinuity surfaces. By balancing the moment applied by the rotary die with the moments caused by the circumferential frictions in the container and on the mandrel, the twisting length of the material in the container was determined. By equating the total power with the required external power, the extrusion pressure was determined by optimizing with respect to the slippage parameter between the die and the outer material. It is shown that the extrusion pressure is decreased by about 20% by the die rotation. The bimetal tube extrusion process through rotating die was also simulated using the finite element code, ABAQUS. Analytical results were compared with the results given by the finite element method. These comparisons show a good agreement.