TGF-β-regulated different iron metabolism processes in the development and cisplatin resistance of ovarian cancer

The impact of different iron metabolism processes(DIMP)on ovarian cancer remains unclear.In this study,we employed various gene chips and databases to investigate the role of DIMP in the initiation and development of ovarian cancer.cBioPortal was used to determine mutations in DIMP-associated genes in ovarian cancer.Kaplan-Meier plotter was used to examine the influence of DIMP on the prognosis of ovarian cancer.By analyzing 1669 serous ovarian cancer cases,we identified a range of mutations in iron metabolism genes,notably in those coding for the transferrin receptor(19%),melanotransferrin(19%),and ceruloplasmin(10%)in the iron import process,and glucose-6-phosphate isomerase(9%),hepcidin antimicrobial peptide(9%),metal regulatory transcription factor 1(8%),and bone morphogenetic protein 6(8%)in the iron regulation process.Compared to the unaltered group,the group with gene alterations exhibited a higher tumor mutation burden count(43 vs.54)and more advanced histologic grade(78.19%vs.87.90%).Compared to the normal ovarian counterparts,a reduction in expression was observed in 9 out of the 14 genes involved in iron utilization and 4 out of the 5 genes involved in iron export in ovarian cancer;in contrast,an increase in expression was observed in 2 out of the 3 genes involved in iron storage in ovarian cancer.Furthermore,in cisplatin-resistant cells compared to cisplatin-sensitive ones,the expression of all genes in iron storage and 13 out of 14 genes in iron import was decreased,while that of 8 out of the 10 genes in iron utilization was increased.In addition,survival curve analysis indicated that a higher expression in the majority of genes in the iron import process(12/21),or a reduced expression in most genes in the iron export process(4/5)correlated with poor progression-free survival.Additionally,TGF-βcould regulate the expression of most iron metabolism-associated genes;particularly,expression of genes involved in the iron storage process(2/2)was inhibited after TGF-β1 or TGF-β2 treatment.In conclusion,DIMP plays multifaceted roles in the initiation,chemo-resistance,and prognosis of ovarian cancer.Therapeutically targeting DIMP may pave the way for more tailored treatment approaches for ovarian cancer.

农艺教育专业有机化学教学研究与实践——以江西农业大学农艺教育专业有机化学教学为例

课程教学既要传授理论知识,又要培养学生将理论知识运用于实践的能力,基于此,对农艺教育专业有机化学教学进行研究,提出课堂教学与实验教学相结合的教学模式,设计有机化学课程内容和课程教学过程。通过实践充分调动学生主动思考,提高其分析问题、解决问题,以及与人合作及资料查询的能力。最后以问卷调查和学生成绩考核评价课程教学成效。

Realization of an Optimal Dynamic Geodetic Reference Frame in China:Methodology and Applications

China Geodetic Coordinate System 2000(CGCS2000)has been used for several years as a formal published reference frame.The coordinates of all global navigation satellite system(GNSS)stations in China need to be corrected to align with the CGCS2000 frame.Different strategies can be adopted for the realization of an optimal reference frame.However,different strategies lead to different results,with differences as great as several decimeters when GNSS station coordinates are transformed into CGCS2000-defined coordinates.The two common methods for the coordinate correction of a GNSS station are quasi-stable adjustment under CGCS2000 and plate movement correction,and the differences between their results can be greater than 10 cm.In this study,a statistic method called"supervised clustering"is applied to the selection of GNSS reference stations;a new scheme named"partition spacing"for the grouping of all processed GNSS stations is proposed;and the plate movement correction method is used to correct the coordinates of all GNSS stations from the GNSS epoch to the CGCS2000 epoch.The results from the new partitioning method were found to be significantly better than those from the conventional station-blocking approach.When coordinates from the stations without grouping were used as the standard,the accuracy of all the three-dimensional coordinate components from the new partitioning method was better than 2 mm.The root mean squares(RMSs)of the velocities in the x,y,and z directions resulting from the supervised clustering method were 0.19,0.45,and 0.32 mm∙a1,respectively,which were much smaller than the values of 0.92,0.72,and 0.97 mm∙a1 that resulted from the conventional approach.In addition,singular spectrum analysis(SSA)was used to model and predict the position nonlinear movements.The modeling accuracies of SSA were better than 3,2,and 5 mm in the east(E),north(N),and up(U)directions,respectively;and its prediction accuracies were better than 5 mm and 1 cm for the horizontal and vertical domains,respectively.

An Investigation of Optimal Machine Learning Methods for the Prediction of ROTI

The rate of the total electron content(TEC)change index(ROTI)can be regarded as an effective indicator of the level of ionospheric scintillation,in particular in low and high latitude regions.An accurate prediction of the ROTI is essential to reduce the impact of the ionospheric scintillation on earth observation systems,such as the global navigation satellite systems.However,it is difficult to predict the ROTI with high accuracy because of the complexity of the ionosphere.In this study,advanced machine learning methods have been investigated for ROTI prediction over a station at high-latitude in Canada.These methods are used to predict the ROTI in the next 5 minutes using the data derived from the past 15 minutes at the same location.Experimental results show that the method of the bidirectional gated recurrent unit network(BGRU)outperforms the other six approaches tested in the research.It is also confirmed that the RMSEs of the predicted ROTI using the BGRU method in all four seasons of 2017 are less than 0.05 TECU/min.It is demonstrated that the BGRU method exhibits a high level of robustness in dealing with abrupt solar activities.

Cobalt-based deep eutectic solvent modified nitrogen-doped carbon catalyst for boosting oxygen reduction reaction in zinc-air batteries

As an oxygen reduction reaction(ORR)catalyst,nitrogen-doped carbon(NC)is widely used in zinc-air batteries(ZABs).However,NC catalysts exhibit low conductivity and insufficient exposure of active sites.Therefore,a Co-based deep eutectic solvent(DES)was selected to modify NC catalyst(Co-NC)to improve ORR performances.Density functional theory(DFT)calculation shows that the modification of Co-based DES can change the electronic structure of NC and increase metallic active sites,which is beneficial to the desorption of reaction intermediates on Co-NC,further improving ORR performance.Co-NC shows excellent ORR performances and stability.Impressively,ZABs assembled with Co-NC manifest a high maximum power density of 177.4 mW cm^(-2),a high specific capacity of 726.12 mA h g^(-1)and a charge-discharge cycle life of 500 h.This study can provide practical reference for surface modified carbon-based electrocatalyst with DES to improve ORR performances.

Engineering Electronic Density and Coordination Environment of Mn–Nx Sites via Zn Cooperation for Quasi-Solid-State Zinc-Air Batteries

Due to the poor Fenton reactivity,single-atom Mn-based materials are generally identified as one of the most promising active catalysts for oxygen reduction reaction(ORR).Regulating the electronic density and coordination environment of atomically dispersed Mn centers is an effective strategy to enhance ORR activity of Mn-based materials.By introducing Zn sites,atomically dispersed Mn centers with multitudes of coordination(including Zn/Mn–Nx and Mn–Nx moieties)can be constructed to form Mn-based ORR catalyst(Zn/Mn-NC)with dual-atom sites.Around Mn–Nx sites,the Zn atoms can effectively modulate the electronic structure and coordination state of Mn centers in Zn/Mn-NC through d–d orbital coupling.The electronic interaction between Zn and Mn sites improves ORR activity,thereby optimizing the oxygen adsorption energy of Mn sites in Zn/Mn-NC and reducing the overall energy barrier.Zn/Mn-NC displays higher ORR half-wave potential than Pt/C(0.89 V vs 0.86 V).The quasi-solid-state zinc-air battery(ZAB)with Zn/Mn-NC as the cathode displayed excellent rechargeability,recyclability,and mechanical robustness.The strategy presented regulates the electronic density and coordination environment of singleatom Mn-based ORR catalysts in quasi-solid-state ZABs.

Development of Transition Metal Nitrides as Oxygen and Hydrogen Electrocatalysts

With the increasing demand for energy, various emerging energy storage/conversion technologies have gradually penetrated human life, providing numerous conveniences. The practical application efficiency is often affected by the slow kinetics of hydrogen or oxygen electrocatalytic reactions(hydrogen evolution and oxidation reactions, oxygen evolution and reduction reactions) among the emerging devices. Therefore, the researchers devote to finding cost-effective electrocatalysts. Non-noble metal catalysts have low cost and good catalytic activity, but poor stability, agglomeration, dissolution, and other problems will occur after a long cycle, such as transition metal oxides and carbides. Transition metal nitrides(TMNs) stand out among all kinds of non-noble metal catalysts because of the intrinsic platinum-like electrocatalytic activities, relatively high conductivity, and wide range of tunability. In this review, the applications of TMNs in electrocatalytic fields are summarized based on the number of metals contained in TMNs. The practical application potentials of TMNs in fuel cell, water splitting, zinc-air battery and other electrochemical energy storage/conversion devices are also listed. Finally, the design strategies and viewpoints of TMNs-based electrocatalyst are summarized. The potential challenges of TMNs-based electrocatalyst in the development of electrocatalytic energy devices in the future are prospected.

优质护理服务在老年脑梗死患者护理中的应用效果分析

目的探讨优质护理服务在老年脑梗死患者护理中的应用效果。方法选取丽水市第二人民医院2018年6月至2019年5月收治的老年脑梗死患者96例,采用随机数字表法分为两组,对照组48例采用常规护理,观察组48例实施优质护理。比较两组的护理效果。结果护理干预后,观察组汉密顿焦虑量表(HAMA)评分、汉密顿抑郁量表(HAMD)评分、美国国立卫生研究院卒中量表(NIHSS)评分分别为(5.75±0.72)分、(5.46±0.67)分、(8.54±1.26)分,均低于对照组的(9.22±0.84)分、(9.15±0.92)分、(16.25±1.92)分,差异均有统计学意义(t=21.73、22.46、23.26,均P<0.001);观察组肢体运动功能评分(Fugl-Meyer评分)、Barthel指数、生活质量评分分别为(65.85±5.67)分、(59.67±4.23)分、(78.95±10.22)分,均高于对照组的(50.06±4.98)分、(49.91±3.85)分、(67.68±9.40)分,差异均有统计学意义(t=14.49、11.82、5.62,均P<0.001);观察组患者的护理质量评分为(93.72±4.69)分,高于对照组的(75.60±4.88)分,差异有统计学意义(t=8.54,P<0.001)。结论优质护理服务能够较好地改善老年脑梗死患者的心理健康水平,有助于患者康复,提高其生活质量。

脑卒中吞咽障碍全面评估及多学科协作方案的临床研究

目的分析脑卒中吞咽障碍全面评估及多学科协作方案在脑卒中患者中的应用效果。方法选择丽水市第二人民医院神经内科2018年7月至2020年6月收治的初发脑卒中患者110例,按照随机数字表法分为对照组55例与观察组55例,对照组实施神经内科常规护理及康复方案,观察组实施脑卒中吞咽障碍全面评估及多学科协作方案,比较两组实施效果。结果观察组胃管留置时间、康复介入时间及住院时间分别为(3.03±0.42)d、(4.71±1.30)d、(12.34±3.56)d,均明显短于对照组的(4.19±0.94)d、(6.89±1.79)d、(14.16±4.05)d,差异均有统计学意义(t=8.35、7.30、2.50,均P<0.05);观察组吞咽障碍相关并发症发生率为3.64%(2/55),明显低于对照组的16.36%(9/55),差异有统计学意义(χ^(2)=4.94,P<0.05);干预后,观察组吞咽功能明显优于对照组,差异有统计学意义(Z=2.98,P<0.05);干预后,观察组血清白蛋白、血红蛋白及血清前白蛋白水平分别为(37.06±4.27)g/L、(120.85±4.99)g/L、(259.78±54.26)mg/L,均明显高于对照组的(34.38±4.14)g/L、(113.15±5.17)g/L、(230.63±51.85)mg/L,差异均有统计学意义(t=3.34、7.94、2.88,均P<0.05);干预后,观察组生活质量评分为(161.25±23.17)分,明显高于对照组的(150.08±24.29)分,差异有统计学意义(t=2.46,P<0.05)。结论脑卒中吞咽障碍全面评估及多学科协作方案的应用效果较好,更有助于患者康复。