Magnetic reconnection processes in three-dimensional(3D)complex field configurations have been investigated in different magneto-plasma systems in space,laboratory,and astrophysical systems.Two-dimensional(2D)features...Magnetic reconnection processes in three-dimensional(3D)complex field configurations have been investigated in different magneto-plasma systems in space,laboratory,and astrophysical systems.Two-dimensional(2D)features of magnetic reconnection have been well developed and applied successfully to systems with symmetrical property,such as toroidal fusion plasmas and laboratory experiments with an axial symmetry.But in asymmetric systems,the 3D features are inevitably different from those in the 2D case.Magnetic reconnection structures in multiple celestial body systems,particularly star-planet-Moon systems,bring fresh insights to the understanding of the 3D geometry of reconnection.Thus,we take magnetic reconnection in an ancient solar-lunar terrestrial magneto-plasma system as an example by using its crucial parameters approximately estimated already and also some specific applications in pathways for energy and matter transports among Earth,ancient Moon,and the interplanetary magnetic field(IMF).Then,magnetic reconnection of the ancient lunar-terrestrial magnetospheres with the IMF is investigated numerically in this work.In a 3D simulation for the Earth-Moon-IMF system,topological features of complex magnetic reconnection configurations and dynamical characteristics of magnetic reconnection processes are studied.It is found that a coupled lunar-terrestrial magnetosphere is formed,and under various IMF orientations,multiple X-points emerge at distinct locations,showing three typical magnetic reconnection structures in such a geometry,i.e.,the X-line,the triple current sheets,and the A-B null pairs.The results can conduce to further understanding of reconnection physics in 3D for plasmas in complex magnetic configurations,and also a possible mechanism for energy and matters transport in evolutions of similar astrophysical systems.展开更多
The knowledge of cellular mechanisms in malignances of the bladder has grown exponentially. Molecular technologies have led to the discovery of the molecular pathways distinguishing low-and high- grade urothelial neop...The knowledge of cellular mechanisms in malignances of the bladder has grown exponentially. Molecular technologies have led to the discovery of the molecular pathways distinguishing low-and high- grade urothelial neoplasms. This trend portends the future in which the classification and diagnosis of the bladder tumors through morphologic analysis will be supported by molecular information correlating with prognosis and targeted therapy. This article oudines tumor molecular pathology of bladder cancer with an emphasis on several promising candidate biomarkers that may soon make their transition to the realm of clinical management of bladder cancer.展开更多
Objective: To evaluate the association between p53 codon 72 polymorphism (R72P) and the risk ofcolorectal liver metastases. Methods: The p53 R72P genotype was identified by polymerase chain reaction-restriction fr...Objective: To evaluate the association between p53 codon 72 polymorphism (R72P) and the risk ofcolorectal liver metastases. Methods: The p53 R72P genotype was identified by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method in 78 consecutive colorectal cancer patients with liver metastases and 214 age- and sex-matched cases with nonmetastatic colorectal cancer. Results: The R allele of the p53 R72P polymorphism was more frequently found in metastatic cases than in nonmetastatic cases (P=0.075). Carriers of the 72R allele had a 2.25-fold (95% CI (confidence interval)=1.05-4.83) increased risk of liver metastases. On the stratification analysis, 72R-carrying genotype conferred a 3.46-fold (95% CI=1.02-11.72) and a 1.05-fold (95% CI=0.36-3.08) increased risk of liver metastases for p53 overexpression-positive and negative colorectal cancers, respectively. Conclusion: These results demonstrate for the first time that the 72R allele of the p53 polymorphism has an increased risk for liver metastases in colorectal cancers positive for p53 overexpression.展开更多
Colorectal cancer(CRC)is presently the second most prevalent global mortalityinducing cancer.CRC carcinogenesis is a multifactorial process involving internal genetic mutations and the external environment.In addition...Colorectal cancer(CRC)is presently the second most prevalent global mortalityinducing cancer.CRC carcinogenesis is a multifactorial process involving internal genetic mutations and the external environment.In addition,non-neoplastic cell activities within tumor microenvironments for CRC development have been established.However,interleukin(IL)-33,secreted by such cell types,plays a pivotal role in cancer progression due to interaction with cellular constituents within the tumor-inflammation microenvironment.IL-33 belongs to the IL-1 cytokine family and acts as binding attachments for the suppressor of tumorigenicity(ST)2 receptor.Therefore,how to coordinate tumor microenvironment,design and optimize treatment strategies suitable for CRC,based on IL-33/ST2 signal is a challenge.Even though it has established influences upon immunitylinked conditions,IL-33 effects on CRC progression and prevention and related mechanisms are still controversial.Our review depicts controversial activities for IL-33/ST2 within carcinogenesis and cancer prevention.Moreover,IL-33/ST2 signaling is a potential therapeutic target for CRC.展开更多
We propose a nonvolatile resistive random access memory device by employing nanodispersion of zirconia(ZrO2) quantum dots(QDs) for the formation of an active layer. The memory devices comprising a typical sandwich str...We propose a nonvolatile resistive random access memory device by employing nanodispersion of zirconia(ZrO2) quantum dots(QDs) for the formation of an active layer. The memory devices comprising a typical sandwich structure of Ag(top)/ZrO2(active layer)/Ti(bottom) are fabricated using a facile spin-coating method. The optimized device exhibits a high resistance state/low resistance state resistance difference(about 10 Ω), a good cycle performance(the number of cycles larger than 100), and a relatively low conversion current(about 1 μA). Atomic force microscopy and scanning electron microscope are used to observe the surface morphology and stacking state of the ZrO2 active layer. Experimental results show that the ZrO2 active layer is stacked compactly and has a low roughness(Ra=4.49 nm) due to the uniform distribution of the ZrO2 QDs. The conductive mechanism of the Ag/ZrO2/Ti device is analyzed and studied, and the conductive filaments of Ag ions and oxygen vacancies are focused on to clarify the resistive switching memory behavior. This study offers a facile approach of memristors for future electronic applications.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11975087,42261134533,and 42011530086)the National Magnetic Confinement Fusion Energy Research and Development Program of China(Grant No.2022YFE03190400)the Heilongjiang Touyan Innovation Team Program,China.
文摘Magnetic reconnection processes in three-dimensional(3D)complex field configurations have been investigated in different magneto-plasma systems in space,laboratory,and astrophysical systems.Two-dimensional(2D)features of magnetic reconnection have been well developed and applied successfully to systems with symmetrical property,such as toroidal fusion plasmas and laboratory experiments with an axial symmetry.But in asymmetric systems,the 3D features are inevitably different from those in the 2D case.Magnetic reconnection structures in multiple celestial body systems,particularly star-planet-Moon systems,bring fresh insights to the understanding of the 3D geometry of reconnection.Thus,we take magnetic reconnection in an ancient solar-lunar terrestrial magneto-plasma system as an example by using its crucial parameters approximately estimated already and also some specific applications in pathways for energy and matter transports among Earth,ancient Moon,and the interplanetary magnetic field(IMF).Then,magnetic reconnection of the ancient lunar-terrestrial magnetospheres with the IMF is investigated numerically in this work.In a 3D simulation for the Earth-Moon-IMF system,topological features of complex magnetic reconnection configurations and dynamical characteristics of magnetic reconnection processes are studied.It is found that a coupled lunar-terrestrial magnetosphere is formed,and under various IMF orientations,multiple X-points emerge at distinct locations,showing three typical magnetic reconnection structures in such a geometry,i.e.,the X-line,the triple current sheets,and the A-B null pairs.The results can conduce to further understanding of reconnection physics in 3D for plasmas in complex magnetic configurations,and also a possible mechanism for energy and matters transport in evolutions of similar astrophysical systems.
文摘The knowledge of cellular mechanisms in malignances of the bladder has grown exponentially. Molecular technologies have led to the discovery of the molecular pathways distinguishing low-and high- grade urothelial neoplasms. This trend portends the future in which the classification and diagnosis of the bladder tumors through morphologic analysis will be supported by molecular information correlating with prognosis and targeted therapy. This article oudines tumor molecular pathology of bladder cancer with an emphasis on several promising candidate biomarkers that may soon make their transition to the realm of clinical management of bladder cancer.
基金Project supported by the National Natural Science Foundation of China (No. 30470791) the Medical Science and Technology Research Foundation for the 11th Five-Year Program of People's Liberation Army, Nanjing Branch, China (No. 06MA27)
文摘Objective: To evaluate the association between p53 codon 72 polymorphism (R72P) and the risk ofcolorectal liver metastases. Methods: The p53 R72P genotype was identified by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method in 78 consecutive colorectal cancer patients with liver metastases and 214 age- and sex-matched cases with nonmetastatic colorectal cancer. Results: The R allele of the p53 R72P polymorphism was more frequently found in metastatic cases than in nonmetastatic cases (P=0.075). Carriers of the 72R allele had a 2.25-fold (95% CI (confidence interval)=1.05-4.83) increased risk of liver metastases. On the stratification analysis, 72R-carrying genotype conferred a 3.46-fold (95% CI=1.02-11.72) and a 1.05-fold (95% CI=0.36-3.08) increased risk of liver metastases for p53 overexpression-positive and negative colorectal cancers, respectively. Conclusion: These results demonstrate for the first time that the 72R allele of the p53 polymorphism has an increased risk for liver metastases in colorectal cancers positive for p53 overexpression.
基金Natural Science Foundation of China,No.81803069Zhejiang Medical Technology Plan Project,No.2019RC007,No.2019KY007 and No.2021KY047Funds of Science Technology Department of Zhejiang Province,No.LGF21H160033.
文摘Colorectal cancer(CRC)is presently the second most prevalent global mortalityinducing cancer.CRC carcinogenesis is a multifactorial process involving internal genetic mutations and the external environment.In addition,non-neoplastic cell activities within tumor microenvironments for CRC development have been established.However,interleukin(IL)-33,secreted by such cell types,plays a pivotal role in cancer progression due to interaction with cellular constituents within the tumor-inflammation microenvironment.IL-33 belongs to the IL-1 cytokine family and acts as binding attachments for the suppressor of tumorigenicity(ST)2 receptor.Therefore,how to coordinate tumor microenvironment,design and optimize treatment strategies suitable for CRC,based on IL-33/ST2 signal is a challenge.Even though it has established influences upon immunitylinked conditions,IL-33 effects on CRC progression and prevention and related mechanisms are still controversial.Our review depicts controversial activities for IL-33/ST2 within carcinogenesis and cancer prevention.Moreover,IL-33/ST2 signaling is a potential therapeutic target for CRC.
基金the National Natural Science Foundation of China(No.21808009)the Beijing Natural Science Foundation,China(No.2182051)。
文摘We propose a nonvolatile resistive random access memory device by employing nanodispersion of zirconia(ZrO2) quantum dots(QDs) for the formation of an active layer. The memory devices comprising a typical sandwich structure of Ag(top)/ZrO2(active layer)/Ti(bottom) are fabricated using a facile spin-coating method. The optimized device exhibits a high resistance state/low resistance state resistance difference(about 10 Ω), a good cycle performance(the number of cycles larger than 100), and a relatively low conversion current(about 1 μA). Atomic force microscopy and scanning electron microscope are used to observe the surface morphology and stacking state of the ZrO2 active layer. Experimental results show that the ZrO2 active layer is stacked compactly and has a low roughness(Ra=4.49 nm) due to the uniform distribution of the ZrO2 QDs. The conductive mechanism of the Ag/ZrO2/Ti device is analyzed and studied, and the conductive filaments of Ag ions and oxygen vacancies are focused on to clarify the resistive switching memory behavior. This study offers a facile approach of memristors for future electronic applications.
