Two-dimensional(2D)magnet/superconductor heterostructures can promote the design of artificial materials for exploring 2D physics and device applications by exotic proximity effects.However,plagued by the low Curie te...Two-dimensional(2D)magnet/superconductor heterostructures can promote the design of artificial materials for exploring 2D physics and device applications by exotic proximity effects.However,plagued by the low Curie temperature and instability in air,it is hard to realize practical applications for the reported layered magnetic materials at present.In this paper,we developed a space-confined chemical vapor deposition method to synthesize ultrathin air-stable ε-Fe_(2)O_(3) nanosheets with Curie temperature above 350 K.The ε-Fe_(2)O_(3)/NbSe_(2) heterojunction was constructed to study the magnetic proximity effect on the superconductivity of the NbSe_(2) multilayer.The electrical transport results show that the subtle proximity effect can modulate the interfacial spin–orbit interaction while undegrading the superconducting critical parameters.Our work paves the way to construct 2D heterojunctions with ultrathin nonlayered materials and layered van der Waals(vdW)materials for exploring new physical phenomena.展开更多
Objectives To evaluate the association between a KCNQ 1 mutation, R259H, and short QT syndrome (SQTS) and to explore the elec- trophysiological mechanisms underlying their association. Methods We performed genetic s...Objectives To evaluate the association between a KCNQ 1 mutation, R259H, and short QT syndrome (SQTS) and to explore the elec- trophysiological mechanisms underlying their association. Methods We performed genetic screening of SQTS genes in 25 probands and their family members (63 patients). We used direct sequencing to screen the exons and intron-exon boundaries of candidate genes that en- code ion channels which contribute to the repolarization of the ventricular action potential, including KCNQI, KCNH2, KCNE1, KCNE2, KCNJ2, CACNAlc, CACNB2b and CACNA2D1. In one of the 25 SQTS probands screened, we discovered a KCNQ1 mutation, R259H. We cloned R259H and transiently expressed it in HEK-293 cells; then, currents were recorded using whole cell patch clamp techniques. Results R259H-KCNQ 1 showed significantly increased current density, which was approximately 3-fold larger than that of wild type (WT) after a depolarizing pulse at 1 s. The steady state voltage dependence of the activation and inactivation did not show significant differences between the WT and R259H mutation (P 〉 0.05), whereas the time constant of deactivation was markedly prolonged in the mutant compared with the WT in terms of the test potentials, which indicated that the deactivation of R259H was markedly slower than that of the WT. These results suggested that the R259H mutation can effectively increase the slowly activated delayed rectifier potassium current (Irs) in phase 3 of the cardiac action potential, which may be an infrequent cause of QT interval shortening. Conclusions R259H is a gain-of-function muta- tion of the KCNQ1 channel that is responsible for SQTS2. This is the first time that the R259H mutation was detected in Chinese people.展开更多
Background Febuxostat,a novel nonpurine selective inhibitor of xanthine oxidase(XO),may be used in the prevention and management of atrial fibrillation(AF).The purpose of this study was to evaluate the effects of febu...Background Febuxostat,a novel nonpurine selective inhibitor of xanthine oxidase(XO),may be used in the prevention and management of atrial fibrillation(AF).The purpose of this study was to evaluate the effects of febuxostat on atrial remodeling in a rabbit model of AF induced by rapid atrial pacing(RAP)and the mechanisms by which it acts.Methods Twenty-four rabbits were randomly divided into four groups:sham-operated group(Group S),RAP group(Group P),RAP with 5 mg/kg per day febuxostat group(Group LFP),and RAP with 10 mg/kg per day febuxostat group(Group HFP).All rabbits except those in Group S were subjected to RAP at 600 beats/min for four weeks.The effects of febuxostat on atrial electrical and structural remodeling,markers of inflammation and oxidative stress,and signaling pathways involved in the left atrium were examined.Results Shortened atrial effective refractory period(AERP),increased AF inducibility,decreased mRNA levels of Cav1.2 and Kv4.3,and left atrial enlargement and dysfunction were observed in Group P,and these changes were suppressed in the groups treated with febuxostat.Prominent atrial fibrosis was observed in Group P,as were increased levels of TGF-β1,Collagen I,andα-SMA and decreased levels of Smad7 and eNOS.Treatment with febuxostat attenuated these differences.Changes in inflammatory and oxidative stress markers induced by RAP were consistent with the protective effects of febuxostat.Conclusions This study is the first to find that febuxostat can inhibit atrial electrical and structural remodeling of AF by suppressing XO and inhibiting the TGF-β1/Smad signaling pathway.展开更多
Currently,pyrolysis as the most widely used method still has some key issues not well resolved for synthesis of carbon-supported single-atom catalysts(C-SACs),e.g.,the sintering of metal atoms at high temperature as w...Currently,pyrolysis as the most widely used method still has some key issues not well resolved for synthesis of carbon-supported single-atom catalysts(C-SACs),e.g.,the sintering of metal atoms at high temperature as well as the high cost and complicated preparations of precursors.In this report,molten salts are demonstrated to be marvellous medium for preparation of C-SACs by pyrolysis of small molecular precursors(ionic liquid).The ultrastrong polarity on one hand establishes robust interaction with precursor and enables better carbonization,resulting in largely enhanced yield.On the other hand,the aggregation of metal atoms is effectively refrained while no nanoparticle or cluster is formed.By this strategy,a C-SAC with atomically dispersed Fe-N_(4) sites and a high specific area over 2000 m^(2) g^(-1) is obtained,which illustrates high ORR activity in both acid and alkaline media.Moreover,this SAC exhibits superior methanol tolerance and stability after acid soaking at 85℃ for 48 h.It is believed that the molten-salts-assisted pyrolysis can be developed into a routine strategy as it not only can largely simply the synthesis of C-SACs,but also can be extended to prepare other types of SACs.展开更多
Objective Allocryptopine (ALL) is an effective alkaloid of Corydalis decumbens (Thunb.) Pers. Papaveraceae and has proved to be an- ti-arrhythmic. The purpose of our study is to investigate the effects of ALL on t...Objective Allocryptopine (ALL) is an effective alkaloid of Corydalis decumbens (Thunb.) Pers. Papaveraceae and has proved to be an- ti-arrhythmic. The purpose of our study is to investigate the effects of ALL on transmural repolarizing ionic ingredients of outward potassium current (Ito) and slow delayed rectifier potassium current (IKs). Methods The monophasic action potential (MAP) technique was used to record the MAP duration of the epicardium (Epi), myocardium (M) and endocardium (Endo) of the rabbit heart and the whole cell patch clamp was used to record/to and IKs in cardiomyocytes of Epi, M and Endo layers that were isolated from rabbit ventricles. Results The effects of ALL on MAP of Epi, M and Endo layers were disequilibrium. ALL could effectively reduce the transmural dispersion of repolarization (TDR) in rabbit transmural ventricular wall. ALL decreased the current densities of/to and IKs in a voltage and concentration dependent way and narrowed the repolarizing differences among three layers. The analysis of gating kinetics showed ALL accelerated the channel activation ofIto in M layers and partly inhibit the channel openings of/to in Epi, M and Endo cells. On the other hand, ALL mainly slowed channel deactivation of IKs channel in Epi and Endo layers without affecting its activation. Conclusions Our study gives partially explanation about the mechanisms of tmnsmural inhibition of/to and IKs channels by ALL in rabbit myocardium. These findings provide novel perspective regarding the anti-arrhythmogenesis application of ALL in clinical settings.展开更多
Objective To explore the effect of allocryptopine (All) on the Late sodium current (INa,Late) of atrial myocytes in spontaneously hyper- tensive rats (SHR). Method The enzyme digestion method was used to separat...Objective To explore the effect of allocryptopine (All) on the Late sodium current (INa,Late) of atrial myocytes in spontaneously hyper- tensive rats (SHR). Method The enzyme digestion method was used to separate single atrial myocytes from SHR and Wistar-Kyoto rat (WKY) rats. INa,Late was record by patch-clamp technique and the effect of All on the current was evaluated. Results Comparing with WKY cells, markedly increasing of INa,Late current in SHR myocytes was found from 0.24 ± 0.02 pA/pF of WKY cells to 1.73± 0.04 pA/pF of SHR cells (P 〈 0.01, n = 15). After treament with 30 μmol/L All; the current densities was reduced to 0.92 ± 0.03 pA/pF. The ratio of INa,Late/INa,peak of WKY and SHR were 0.09% ± 0.01% and 0.71% ± 0.02%, INa, Late/INa,peak of SHR was reduced to 0.37% ± 0.02% by 30 μmol/L All (P 〈 0.01, n = 15). We also determined the effect of All on the gating mechanism of the INa,Late in the SHR cells. It was found that All decreased the INa,Late by alleviating the inactivation of the channels and increasing the window current of sodium channel. Conclusion Increased INa,Late in SHR atrial myocytes and the prolonged APD were inhibited by All coming from Chinese herb medicine.展开更多
Recent findings of two-dimensional(2D)ferroelectric(FE)materials provide more possibilities for the development of 2D FE heterostructure electronic devices based on van der Waals materials and the application of FE de...Recent findings of two-dimensional(2D)ferroelectric(FE)materials provide more possibilities for the development of 2D FE heterostructure electronic devices based on van der Waals materials and the application of FE devices under the limit of atomic layer thickness.In this paper,we report the in-situ fabrication and probing of electronic structures of In_(2)Se_(3)–WSe_(2) lateral heterostructures,compared with most vertical FE heterostructures at present.Through molecular beam epitaxy,we fabricated lateral heterostructures with monolayer WSe_2(three atomic layers)and monolayer In_(2)Se_(3)(five atomic layers).Type-Ⅱband alignment was found to exist in either the lateral heterostructure composed of anti-FEβ′-In_(2)Se_(3) and WSe_(2) or the lateral heterostructure composed of FEβ*-In_(2)Se_(3)and WSe_2,and the band offsets could be modulated by ferroelectric polarization.More interestingly,interface states in both lateral heterostructures acted as narrow gap quantum wires,and the band gap of the interface state in theβ*-In_(2)Se_(3)–WSe_(2)heterostructure was smaller than that in theβ′-In_(2)Se_(3)heterostructure.The fabrication of 2D FE heterostructure and the modulation of interface state provide a new platform for the development of FE devices.展开更多
基金The work is supported by the National Key Research and Development Program of China(Grant No.2022YFA1204104)the National Natural Science Foundation of China(Grant No.61888102)the Chinese Academy of Sciences(Grant Nos.ZDBS-SSW-WHC001 and XDB33030100).
文摘Two-dimensional(2D)magnet/superconductor heterostructures can promote the design of artificial materials for exploring 2D physics and device applications by exotic proximity effects.However,plagued by the low Curie temperature and instability in air,it is hard to realize practical applications for the reported layered magnetic materials at present.In this paper,we developed a space-confined chemical vapor deposition method to synthesize ultrathin air-stable ε-Fe_(2)O_(3) nanosheets with Curie temperature above 350 K.The ε-Fe_(2)O_(3)/NbSe_(2) heterojunction was constructed to study the magnetic proximity effect on the superconductivity of the NbSe_(2) multilayer.The electrical transport results show that the subtle proximity effect can modulate the interfacial spin–orbit interaction while undegrading the superconducting critical parameters.Our work paves the way to construct 2D heterojunctions with ultrathin nonlayered materials and layered van der Waals(vdW)materials for exploring new physical phenomena.
基金grants obtained from the National Natural Science Foundation of China (No.: 81170177, 81030002) and science and Technology De- partment of Gansu Province Project (145RJZ104).
文摘Objectives To evaluate the association between a KCNQ 1 mutation, R259H, and short QT syndrome (SQTS) and to explore the elec- trophysiological mechanisms underlying their association. Methods We performed genetic screening of SQTS genes in 25 probands and their family members (63 patients). We used direct sequencing to screen the exons and intron-exon boundaries of candidate genes that en- code ion channels which contribute to the repolarization of the ventricular action potential, including KCNQI, KCNH2, KCNE1, KCNE2, KCNJ2, CACNAlc, CACNB2b and CACNA2D1. In one of the 25 SQTS probands screened, we discovered a KCNQ1 mutation, R259H. We cloned R259H and transiently expressed it in HEK-293 cells; then, currents were recorded using whole cell patch clamp techniques. Results R259H-KCNQ 1 showed significantly increased current density, which was approximately 3-fold larger than that of wild type (WT) after a depolarizing pulse at 1 s. The steady state voltage dependence of the activation and inactivation did not show significant differences between the WT and R259H mutation (P 〉 0.05), whereas the time constant of deactivation was markedly prolonged in the mutant compared with the WT in terms of the test potentials, which indicated that the deactivation of R259H was markedly slower than that of the WT. These results suggested that the R259H mutation can effectively increase the slowly activated delayed rectifier potassium current (Irs) in phase 3 of the cardiac action potential, which may be an infrequent cause of QT interval shortening. Conclusions R259H is a gain-of-function muta- tion of the KCNQ1 channel that is responsible for SQTS2. This is the first time that the R259H mutation was detected in Chinese people.
基金supported by the Beijing Natural Science Foundation(Z141100002114050)
文摘Background Febuxostat,a novel nonpurine selective inhibitor of xanthine oxidase(XO),may be used in the prevention and management of atrial fibrillation(AF).The purpose of this study was to evaluate the effects of febuxostat on atrial remodeling in a rabbit model of AF induced by rapid atrial pacing(RAP)and the mechanisms by which it acts.Methods Twenty-four rabbits were randomly divided into four groups:sham-operated group(Group S),RAP group(Group P),RAP with 5 mg/kg per day febuxostat group(Group LFP),and RAP with 10 mg/kg per day febuxostat group(Group HFP).All rabbits except those in Group S were subjected to RAP at 600 beats/min for four weeks.The effects of febuxostat on atrial electrical and structural remodeling,markers of inflammation and oxidative stress,and signaling pathways involved in the left atrium were examined.Results Shortened atrial effective refractory period(AERP),increased AF inducibility,decreased mRNA levels of Cav1.2 and Kv4.3,and left atrial enlargement and dysfunction were observed in Group P,and these changes were suppressed in the groups treated with febuxostat.Prominent atrial fibrosis was observed in Group P,as were increased levels of TGF-β1,Collagen I,andα-SMA and decreased levels of Smad7 and eNOS.Treatment with febuxostat attenuated these differences.Changes in inflammatory and oxidative stress markers induced by RAP were consistent with the protective effects of febuxostat.Conclusions This study is the first to find that febuxostat can inhibit atrial electrical and structural remodeling of AF by suppressing XO and inhibiting the TGF-β1/Smad signaling pathway.
基金financially supported by the National Natural Science Foundation of China(Grant No.51773025)the Natural Science Foundation of Liaoning Province(Materials Joint Foundation,Grant No.20180510027)Dalian science and technology innovation fund(Grant No.019J12GX032)。
文摘Currently,pyrolysis as the most widely used method still has some key issues not well resolved for synthesis of carbon-supported single-atom catalysts(C-SACs),e.g.,the sintering of metal atoms at high temperature as well as the high cost and complicated preparations of precursors.In this report,molten salts are demonstrated to be marvellous medium for preparation of C-SACs by pyrolysis of small molecular precursors(ionic liquid).The ultrastrong polarity on one hand establishes robust interaction with precursor and enables better carbonization,resulting in largely enhanced yield.On the other hand,the aggregation of metal atoms is effectively refrained while no nanoparticle or cluster is formed.By this strategy,a C-SAC with atomically dispersed Fe-N_(4) sites and a high specific area over 2000 m^(2) g^(-1) is obtained,which illustrates high ORR activity in both acid and alkaline media.Moreover,this SAC exhibits superior methanol tolerance and stability after acid soaking at 85℃ for 48 h.It is believed that the molten-salts-assisted pyrolysis can be developed into a routine strategy as it not only can largely simply the synthesis of C-SACs,but also can be extended to prepare other types of SACs.
文摘Objective Allocryptopine (ALL) is an effective alkaloid of Corydalis decumbens (Thunb.) Pers. Papaveraceae and has proved to be an- ti-arrhythmic. The purpose of our study is to investigate the effects of ALL on transmural repolarizing ionic ingredients of outward potassium current (Ito) and slow delayed rectifier potassium current (IKs). Methods The monophasic action potential (MAP) technique was used to record the MAP duration of the epicardium (Epi), myocardium (M) and endocardium (Endo) of the rabbit heart and the whole cell patch clamp was used to record/to and IKs in cardiomyocytes of Epi, M and Endo layers that were isolated from rabbit ventricles. Results The effects of ALL on MAP of Epi, M and Endo layers were disequilibrium. ALL could effectively reduce the transmural dispersion of repolarization (TDR) in rabbit transmural ventricular wall. ALL decreased the current densities of/to and IKs in a voltage and concentration dependent way and narrowed the repolarizing differences among three layers. The analysis of gating kinetics showed ALL accelerated the channel activation ofIto in M layers and partly inhibit the channel openings of/to in Epi, M and Endo cells. On the other hand, ALL mainly slowed channel deactivation of IKs channel in Epi and Endo layers without affecting its activation. Conclusions Our study gives partially explanation about the mechanisms of tmnsmural inhibition of/to and IKs channels by ALL in rabbit myocardium. These findings provide novel perspective regarding the anti-arrhythmogenesis application of ALL in clinical settings.
基金This work was supported by the grant from the National Natural Science Foundation of China (grant number. No: 81030002,81170177, 81100215, 81373835).
文摘Objective To explore the effect of allocryptopine (All) on the Late sodium current (INa,Late) of atrial myocytes in spontaneously hyper- tensive rats (SHR). Method The enzyme digestion method was used to separate single atrial myocytes from SHR and Wistar-Kyoto rat (WKY) rats. INa,Late was record by patch-clamp technique and the effect of All on the current was evaluated. Results Comparing with WKY cells, markedly increasing of INa,Late current in SHR myocytes was found from 0.24 ± 0.02 pA/pF of WKY cells to 1.73± 0.04 pA/pF of SHR cells (P 〈 0.01, n = 15). After treament with 30 μmol/L All; the current densities was reduced to 0.92 ± 0.03 pA/pF. The ratio of INa,Late/INa,peak of WKY and SHR were 0.09% ± 0.01% and 0.71% ± 0.02%, INa, Late/INa,peak of SHR was reduced to 0.37% ± 0.02% by 30 μmol/L All (P 〈 0.01, n = 15). We also determined the effect of All on the gating mechanism of the INa,Late in the SHR cells. It was found that All decreased the INa,Late by alleviating the inactivation of the channels and increasing the window current of sodium channel. Conclusion Increased INa,Late in SHR atrial myocytes and the prolonged APD were inhibited by All coming from Chinese herb medicine.
基金the National Key R&D Program of China(Grant Nos.2018YFA0305800 and 2018YFA0703700)the National Natural Science Foundation of China(Grant Nos.11974012 and 12134011)the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDB3000000)。
文摘Recent findings of two-dimensional(2D)ferroelectric(FE)materials provide more possibilities for the development of 2D FE heterostructure electronic devices based on van der Waals materials and the application of FE devices under the limit of atomic layer thickness.In this paper,we report the in-situ fabrication and probing of electronic structures of In_(2)Se_(3)–WSe_(2) lateral heterostructures,compared with most vertical FE heterostructures at present.Through molecular beam epitaxy,we fabricated lateral heterostructures with monolayer WSe_2(three atomic layers)and monolayer In_(2)Se_(3)(five atomic layers).Type-Ⅱband alignment was found to exist in either the lateral heterostructure composed of anti-FEβ′-In_(2)Se_(3) and WSe_(2) or the lateral heterostructure composed of FEβ*-In_(2)Se_(3)and WSe_2,and the band offsets could be modulated by ferroelectric polarization.More interestingly,interface states in both lateral heterostructures acted as narrow gap quantum wires,and the band gap of the interface state in theβ*-In_(2)Se_(3)–WSe_(2)heterostructure was smaller than that in theβ′-In_(2)Se_(3)heterostructure.The fabrication of 2D FE heterostructure and the modulation of interface state provide a new platform for the development of FE devices.
