The lunar surface is a typical vacuum environment,and its harsh heat rejection conditions bring great challenges to the thermal control technology of the exploration mission.In addition to the radiator,the sublimator ...The lunar surface is a typical vacuum environment,and its harsh heat rejection conditions bring great challenges to the thermal control technology of the exploration mission.In addition to the radiator,the sublimator is recommended as one of the promising options for heat rejection.The sublimator makes use of water to freeze and sublimate in a porous medium,rejecting heat to the vacuum environment.The complex heat and mass transfer process involves many physical phenomena such as the freezing and sublimation phase change of water in the porous medium and the movement of the phase-change interface.In this paper,the visualized ground-based experimental approaches of space sublimation cooling were presented to reveal the moving law of threephase point and the growth phenomenon of ice-peak and icicle in microchannels under vacuum conditions.The visualized experiments and results prove that the freezing ice is divided into the porous ice-peak and the transparent icicle.As the sublimation progresses,the phase-change interface moves downward steadily,the length of the ice-peak increases,but the icicle decreases.The visualized experiments of space sublimation cooling in the capillary have guiding significance to reveal the sublimation cooling mechanism of water in the sublimator for lunar exploration missions.展开更多
脆性X综合征(Fragile X syndrome)是一种最常见的遗传性智力低下疾病,并且伴有语言和行为障碍等。该疾病是由脆性X智力低下基因(Fragile X mental retardation 1,FMR1)突变而导致脆性X智力低下蛋白(Fragile X mental retardation protei...脆性X综合征(Fragile X syndrome)是一种最常见的遗传性智力低下疾病,并且伴有语言和行为障碍等。该疾病是由脆性X智力低下基因(Fragile X mental retardation 1,FMR1)突变而导致脆性X智力低下蛋白(Fragile X mental retardation protein,FMRP)表达异常造成的。近年来,研究发现FMRP参与非编码RNA通路,并发挥多种重要生物学功能,这对理解脆性X综合征发病机理具有重要的推动作用。首先发现FMRP与siRNA和miRNA通路中Dicer酶、Ago1和Ago2蛋白相互作用,参与神经活动及生殖干细胞命运决定等重要过程。随后又发现FMRP与piRNA通路中Aub、Ago1和Piwi蛋白相互作用,维持了染色体正常结构和基因组稳定性。最新研究结果发现FMRP与lncRNA相互作用,其功能和价值正引起关注。本文从FMRP与非编码RNA通路的关系展开,着重介绍了FMRP与piRNA之间的相互作用,以期为深入理解非编码RNA通路在脆性X综合征的发病过程中作用提供参考,同时期望与临床医学领域尽快形成交叉研究,早日促进理论成果转化为临床应用。展开更多
基金primarily funded by the cooperative project offered by Beijing Key Laboratory of Space Thermal Control Technologyfunded by China Postdoctoral Science Foundation(No.2020 M671618)。
文摘The lunar surface is a typical vacuum environment,and its harsh heat rejection conditions bring great challenges to the thermal control technology of the exploration mission.In addition to the radiator,the sublimator is recommended as one of the promising options for heat rejection.The sublimator makes use of water to freeze and sublimate in a porous medium,rejecting heat to the vacuum environment.The complex heat and mass transfer process involves many physical phenomena such as the freezing and sublimation phase change of water in the porous medium and the movement of the phase-change interface.In this paper,the visualized ground-based experimental approaches of space sublimation cooling were presented to reveal the moving law of threephase point and the growth phenomenon of ice-peak and icicle in microchannels under vacuum conditions.The visualized experiments and results prove that the freezing ice is divided into the porous ice-peak and the transparent icicle.As the sublimation progresses,the phase-change interface moves downward steadily,the length of the ice-peak increases,but the icicle decreases.The visualized experiments of space sublimation cooling in the capillary have guiding significance to reveal the sublimation cooling mechanism of water in the sublimator for lunar exploration missions.
文摘脆性X综合征(Fragile X syndrome)是一种最常见的遗传性智力低下疾病,并且伴有语言和行为障碍等。该疾病是由脆性X智力低下基因(Fragile X mental retardation 1,FMR1)突变而导致脆性X智力低下蛋白(Fragile X mental retardation protein,FMRP)表达异常造成的。近年来,研究发现FMRP参与非编码RNA通路,并发挥多种重要生物学功能,这对理解脆性X综合征发病机理具有重要的推动作用。首先发现FMRP与siRNA和miRNA通路中Dicer酶、Ago1和Ago2蛋白相互作用,参与神经活动及生殖干细胞命运决定等重要过程。随后又发现FMRP与piRNA通路中Aub、Ago1和Piwi蛋白相互作用,维持了染色体正常结构和基因组稳定性。最新研究结果发现FMRP与lncRNA相互作用,其功能和价值正引起关注。本文从FMRP与非编码RNA通路的关系展开,着重介绍了FMRP与piRNA之间的相互作用,以期为深入理解非编码RNA通路在脆性X综合征的发病过程中作用提供参考,同时期望与临床医学领域尽快形成交叉研究,早日促进理论成果转化为临床应用。
