Seasonal frozen soil accounts for about 53.50%of the land area in China.Frozen soil is a complex multiphase system where ice,water,soil,and air coexist.The distribution and migration of salts in frozen soil during soi...Seasonal frozen soil accounts for about 53.50%of the land area in China.Frozen soil is a complex multiphase system where ice,water,soil,and air coexist.The distribution and migration of salts in frozen soil during soil freezing are notably different from those in unfrozen soil areas.However,little knowledge is available about the process and mechanisms of salt migration in frozen soil.This study explores the mechanisms of salt migration at the ice-liquid interface during the freezing of pore fluids through batch experiments.The results are as follows.The solute concentrations of liquid and solid phases at the ice-liquid interface(C*_(L),C*_(S))gradually increased at the initial stage of freezing and remained approximately constant at the middle stage.As the ice-liquid interface advanced toward the system boundary,the diffusion of the liquid phase was blocked but the ice phase continued rejecting salts.As a result,C*_(L)and C*_(S)rapidly increased at the final stage of freezing.The distribution characteristics of solutes in ice and the liquid phases before C*_(L)and C*_(S)became steady were mainly affected by the freezing temperature,initial concentrations,and particle-size distribution of media(quartz sand and kaolin).In detail,the lower the freezing temperature and the better the particle-size distribution of media,the higher the solute proportion in the ice phase at the initial stage of freezing.Meanwhile,the increase in concentration first promoted but then inhibited the increase of solutes in the ice phase.These results have insights and scientific significance for the tackling of climate change,the environmental protection of groundwater and soil,and infrastructure protection such as roads,among other things.展开更多
Ng R, the receptor for the neurite outgrowth inhibitor Nogo-66, plays a critical role in the plasticity and regeneration of the nervous system after injury such as ischemic stroke. In the present study, we used immuno...Ng R, the receptor for the neurite outgrowth inhibitor Nogo-66, plays a critical role in the plasticity and regeneration of the nervous system after injury such as ischemic stroke. In the present study, we used immunohistochemistry to investigate the regional expression of Ng R in rat brain following middle cerebral artery occlusion(MCAO). Ng R protein expression was not observed in the center of the lesion, but was elevated in the marginal zone compared with control and sham-operated rats. The cerebral cortex and hippocampus(CA1, CA2, and CA3) showed the greatest expression of Ng R. Furthermore, Ng R expression was higher in the ipsilesional hemisphere than on the control side in the same coronal section. Although time-dependent changes in Ng R expression across brain regions had their own characteristics, the overall trend complied with the following rules: Ng R expression changes with time showed two peaks and one trough; the first peak in expression appeared between 1 and 3 days after MCAO; expression declined at 5 days; and the second peak occurred at 28 days.展开更多
BACKGROUND Gitelman syndrome(GS)is a rare inherited autosomal recessive tubulopathy,characterized clinically by hypokalemia,hypomagnesemia,hypocalciuria,and metabolic alkalosis,and is caused by an inactivating mutatio...BACKGROUND Gitelman syndrome(GS)is a rare inherited autosomal recessive tubulopathy,characterized clinically by hypokalemia,hypomagnesemia,hypocalciuria,and metabolic alkalosis,and is caused by an inactivating mutation in SLC12A3.GS is prone to misdiagnosis when occurring simultaneously with hyperthyroidism.It is important to consider the possibility of other diseases when hyperthyroidism is combined with hypokalemia,which is difficult to correct.CASE SUMMARY A female patient with hyperthyroidism complicated with limb weakness was diagnosed with thyrotoxic hypokalemic periodic paralysis for 4 mo.However,the patient’s serum potassium level remained low despite sufficient potassium replacement and remission of hyperthyroidism.GS was confirmed by whole exome and Sanger sequencing.Gene sequencing revealed compound heterozygous mutations of c.488C>T(p.Thr163Met),c.2612G>A(p.Arg871His),and c.1171_1178dupGCCACCAT(p.Ile393fs)in SLC12A3.Protein molecular modeling was performed to predict the effects of the identified missense mutations.All three mutations cause changes in protein structure and may result in abnormal protein function.All previously reported cases of GS coexisting with autoimmune thyroid disease are reviewed.CONCLUSION We have identified a novel compound heterozygous mutation in SLC12A3.The present study provides new genetic evidence for GS.展开更多
Friction stir welding(FSW)was used to prepare Q235 low-carbon steel joint,and the microstructure of different zones of the joint was characterized.The electrochemical corrosion behavior of different macroscopic zones ...Friction stir welding(FSW)was used to prepare Q235 low-carbon steel joint,and the microstructure of different zones of the joint was characterized.The electrochemical corrosion behavior of different macroscopic zones of the joint was evaluated in 3.5 wt.%NaCl solution.The results showed that the retreated-side heat-affected zone(HAZRS)and the advanced-side heat-affected zone(HAZAS)did not undergo phase transformation during FSW,and their microstructures were similar to those of the base material(BM),which was mainly composed of blocky ferrite and pearlite.The retreated-side thermo-mechanical affected zone(TMAZRS),the stirring zone(SZ),and the advanced-side thermo-mechanical affected zone(TMAZAS)underwent phase transformation,and the microstructure was mainly composed of proeutectoid ferrite and pearlite.The order of the corrosion resistance of different micro-zones from high to low was:HAZRS>BM>HAZAS>TMAZRS>SZ>TMAZAS.The corrosion mechanism for BM,HAZRS,and HAZAS was mainly the dissolution of ferrite.By contrast,the corrosion mechanism for TMAZRS,SZ,and TMAZAS was mainly galvanic corrosion between proeutectoid ferrite and pearlite.展开更多
The work is mainly to study the thermal stability including the phase stability, microstructure and tribo-mechanical properties of the AlB_2-type WB_2 and W–B–N(5.6 at.% N) films annealed in vacuum at various temper...The work is mainly to study the thermal stability including the phase stability, microstructure and tribo-mechanical properties of the AlB_2-type WB_2 and W–B–N(5.6 at.% N) films annealed in vacuum at various temperatures, which are deposited on Si and GY8 substrates by magnetron sputtering. For the WB_2 and W–B–N films deposited on Si wafers, as the annealing temperature increases from 700 to 1000 °C, a-WB(700 °C) and Mo_2B_5-type WB_2(1000 °C) are successively observed in the AlB_2-type WB_2 films, which show many cracks at the temperature ≥ 800 °C resulting in the performance failure; by contrast, only slight α-WB is observed at 1000 °C in the W–B–N films due to the stabilization eff ect of a-BN phase, and the hardness increases to 34.1 GPa fi rst due to the improved crystallinity and then decreases to 31.5 GPa ascribed to the formation of α-WB. For the WB_2 and the W–B–N films deposited on WC–Co substrates, both the WB_2 and W–B–N films react with the YG8(WC–Co) substrates leading to the formation of CoWB, CoW_2B_2 and CoW_3B_3 with the annealing temperature increasing to 900 °C; a large number of linear cracks occur on the surface of these two films annealed at ≥ 800 °C leading to the fi lm failure; after vacuum annealing at 700 °C, the friction performance of the W–B–N films is higher than that of the deposited W–B–N films, while the wear resistance of the WB_2 films shows a slight decrease compared with that of the deposited WB_2 films.展开更多
基金This research was financially supported by the National Natural Science Foundation of China(41572225)project of China Geological Survey(DD20189662,DD20211256).
文摘Seasonal frozen soil accounts for about 53.50%of the land area in China.Frozen soil is a complex multiphase system where ice,water,soil,and air coexist.The distribution and migration of salts in frozen soil during soil freezing are notably different from those in unfrozen soil areas.However,little knowledge is available about the process and mechanisms of salt migration in frozen soil.This study explores the mechanisms of salt migration at the ice-liquid interface during the freezing of pore fluids through batch experiments.The results are as follows.The solute concentrations of liquid and solid phases at the ice-liquid interface(C*_(L),C*_(S))gradually increased at the initial stage of freezing and remained approximately constant at the middle stage.As the ice-liquid interface advanced toward the system boundary,the diffusion of the liquid phase was blocked but the ice phase continued rejecting salts.As a result,C*_(L)and C*_(S)rapidly increased at the final stage of freezing.The distribution characteristics of solutes in ice and the liquid phases before C*_(L)and C*_(S)became steady were mainly affected by the freezing temperature,initial concentrations,and particle-size distribution of media(quartz sand and kaolin).In detail,the lower the freezing temperature and the better the particle-size distribution of media,the higher the solute proportion in the ice phase at the initial stage of freezing.Meanwhile,the increase in concentration first promoted but then inhibited the increase of solutes in the ice phase.These results have insights and scientific significance for the tackling of climate change,the environmental protection of groundwater and soil,and infrastructure protection such as roads,among other things.
基金supported by grants of the Guangdong Provincial Science and Technology Project in China,No.2013B022000098the Scientific Research Project of Guangzhou Medical University in China in 2014,No.2014C26
文摘Ng R, the receptor for the neurite outgrowth inhibitor Nogo-66, plays a critical role in the plasticity and regeneration of the nervous system after injury such as ischemic stroke. In the present study, we used immunohistochemistry to investigate the regional expression of Ng R in rat brain following middle cerebral artery occlusion(MCAO). Ng R protein expression was not observed in the center of the lesion, but was elevated in the marginal zone compared with control and sham-operated rats. The cerebral cortex and hippocampus(CA1, CA2, and CA3) showed the greatest expression of Ng R. Furthermore, Ng R expression was higher in the ipsilesional hemisphere than on the control side in the same coronal section. Although time-dependent changes in Ng R expression across brain regions had their own characteristics, the overall trend complied with the following rules: Ng R expression changes with time showed two peaks and one trough; the first peak in expression appeared between 1 and 3 days after MCAO; expression declined at 5 days; and the second peak occurred at 28 days.
基金Supported by the Science and Technology Plan of Health Commission of Jiangxi Province,No.202130648the Science and Technology Research Project of Department of Education of Jiangxi Province,No.GJJ201522.
文摘BACKGROUND Gitelman syndrome(GS)is a rare inherited autosomal recessive tubulopathy,characterized clinically by hypokalemia,hypomagnesemia,hypocalciuria,and metabolic alkalosis,and is caused by an inactivating mutation in SLC12A3.GS is prone to misdiagnosis when occurring simultaneously with hyperthyroidism.It is important to consider the possibility of other diseases when hyperthyroidism is combined with hypokalemia,which is difficult to correct.CASE SUMMARY A female patient with hyperthyroidism complicated with limb weakness was diagnosed with thyrotoxic hypokalemic periodic paralysis for 4 mo.However,the patient’s serum potassium level remained low despite sufficient potassium replacement and remission of hyperthyroidism.GS was confirmed by whole exome and Sanger sequencing.Gene sequencing revealed compound heterozygous mutations of c.488C>T(p.Thr163Met),c.2612G>A(p.Arg871His),and c.1171_1178dupGCCACCAT(p.Ile393fs)in SLC12A3.Protein molecular modeling was performed to predict the effects of the identified missense mutations.All three mutations cause changes in protein structure and may result in abnormal protein function.All previously reported cases of GS coexisting with autoimmune thyroid disease are reviewed.CONCLUSION We have identified a novel compound heterozygous mutation in SLC12A3.The present study provides new genetic evidence for GS.
基金from the State Key Program of National Natural Science Foundation of China(Nos.U1760201 and 52034005)the National Natural Science Foundation of China(Nos.51974220 and 52104383)+2 种基金the Key Research and Development Program of Shaanxi Province(Nos.2020ZDLGY13-06 and 2017ZDXM-GY-037)the Innovation Capacity Support Project of Shaanxi Province-Nova Program(No.2020KJXX-077)the Science Fund for Distinguished Young Scholars in Universities of Shaanxi Province.
文摘Friction stir welding(FSW)was used to prepare Q235 low-carbon steel joint,and the microstructure of different zones of the joint was characterized.The electrochemical corrosion behavior of different macroscopic zones of the joint was evaluated in 3.5 wt.%NaCl solution.The results showed that the retreated-side heat-affected zone(HAZRS)and the advanced-side heat-affected zone(HAZAS)did not undergo phase transformation during FSW,and their microstructures were similar to those of the base material(BM),which was mainly composed of blocky ferrite and pearlite.The retreated-side thermo-mechanical affected zone(TMAZRS),the stirring zone(SZ),and the advanced-side thermo-mechanical affected zone(TMAZAS)underwent phase transformation,and the microstructure was mainly composed of proeutectoid ferrite and pearlite.The order of the corrosion resistance of different micro-zones from high to low was:HAZRS>BM>HAZAS>TMAZRS>SZ>TMAZAS.The corrosion mechanism for BM,HAZRS,and HAZAS was mainly the dissolution of ferrite.By contrast,the corrosion mechanism for TMAZRS,SZ,and TMAZAS was mainly galvanic corrosion between proeutectoid ferrite and pearlite.
基金supported by the National Natural Science Foundation of China (Nos. 51701157 and 51505378)the Natural Science Foundation of Shaanxi Province of China (No. 2017JQ5031)
文摘The work is mainly to study the thermal stability including the phase stability, microstructure and tribo-mechanical properties of the AlB_2-type WB_2 and W–B–N(5.6 at.% N) films annealed in vacuum at various temperatures, which are deposited on Si and GY8 substrates by magnetron sputtering. For the WB_2 and W–B–N films deposited on Si wafers, as the annealing temperature increases from 700 to 1000 °C, a-WB(700 °C) and Mo_2B_5-type WB_2(1000 °C) are successively observed in the AlB_2-type WB_2 films, which show many cracks at the temperature ≥ 800 °C resulting in the performance failure; by contrast, only slight α-WB is observed at 1000 °C in the W–B–N films due to the stabilization eff ect of a-BN phase, and the hardness increases to 34.1 GPa fi rst due to the improved crystallinity and then decreases to 31.5 GPa ascribed to the formation of α-WB. For the WB_2 and the W–B–N films deposited on WC–Co substrates, both the WB_2 and W–B–N films react with the YG8(WC–Co) substrates leading to the formation of CoWB, CoW_2B_2 and CoW_3B_3 with the annealing temperature increasing to 900 °C; a large number of linear cracks occur on the surface of these two films annealed at ≥ 800 °C leading to the fi lm failure; after vacuum annealing at 700 °C, the friction performance of the W–B–N films is higher than that of the deposited W–B–N films, while the wear resistance of the WB_2 films shows a slight decrease compared with that of the deposited WB_2 films.
