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摘要: In the past two years, China's space life science has made great progress. Space biomedical and life science programs have carried out ground-based research for the first batch of projects, and are preparing to carry out space-based experiments along with the construction of China's space station. And space life science payload of the space station completed the development of positive samples. Thus, with the development of lunar exploration and Mars exploration projects, astrobiology research has also made a lot of basic achievements. On the basis of summarizing the development of space life science in China, this paper mainly introduces the important progress of payload technology and life science research.Abstract: In the past two years, China's space life science has made great progress. Space biomedical and life science programs have carried out ground-based research for the first batch of projects, and are preparing to carry out space-based experiments along with the construction of China's space station. And space life science payload of the space station completed the development of positive samples. Thus, with the development of lunar exploration and Mars exploration projects, astrobiology research has also made a lot of basic achievements. On the basis of summarizing the development of space life science in China, this paper mainly introduces the important progress of payload technology and life science research.
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Key words:
- Space life sciences /
- Space payload /
- Simulated microgravity /
- Ionizing radiation
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[1] CHEN Y, PEI S Z, YAN L B, et al. Design and surface modification of a microfluidic chip for intercellular interactions research during space flight[J]. Acta Astron., 2020, 166(1):619-627 [2] SONG C, GAO X, SONG W, et al. Simulated spatial radiation impacts learning and memory ability with alterations of neuromorphology and gut microbiota in mice[J]. RSC Adv., 2020, 10:16196-16208 [3] YANG C H, DENG Y L, REN H, et al. A multi-channel polymerase chain reaction lab-on-a-chip and its application in spaceflight experiment for the study of gene mutation. Acta Astron., 2020, 166(1):590-598 [4] ZHANG Y, ZHANG L T, LI Z D, et al. Microbiomes of China's space station during assembly, integration, and test operations[J]. Microb. Ecol., 2019, 78(3):631-650 [5] ZHANG Y, XIN CX, ZHANG L T, et al. Detection of fungi from low-biomass spacecraft assembly clean room aerosols[J]. Astrobiology, 2018, 18(12):1585-1593 [6] CHEN B, ZHANG Y S, LI G, et al. The impacts of simulated microgravity on rat brain depended on durations and regions[J]. Biomed. Environ. Sci., 2019, 32(7):496-507 [7] HUANG B, LI D G, HUANG Y, et al. Effects of spaceflight and simulated microgravity on microbial growth and secondary metabolism[J]. Mil. Med. Res., 2018, 5(1):18 [8] WANG S B, ZHANG Y S, GUO J J, et al. Investigation on rat intestinal homeostasis alterations induced by 7-day simulated microgravity effect based on a proteomic approach[J]. Acta Astron., 2020, 166(1):560-566 [9] LEI R H, YAN L B, DENG Y L, et al. HMGB1 mediated autophagy protects glioblastoma cells from carbon-ion beam irradiation injury[J]. Acta Astron., 2020, 166(1):628-634 [10] ZHANG P, WANG HL, CHEN Y, et al. DR5 related autophagy can promote apoptosis in gliomas after irradiation[J]. Biochem. Biophys. Res. Commun., 2020, 522(2020):910-916 [11] LUCHYMAN D W, SONG C. Cognitive enhancement by omega-3 fatty acids from child-hood to old age:findings from animal and clinical studies[J]. Neuropharmacology, 2013, 64:550-565 [12] FAHY E, COTTER D, SUD M, et al. Lipid classification, structures and tools[J]. Biochim. Biophys. Acta Molec. Cell Biol. Lipids., 2011, 1811(11):637-647 [13] DART C. Lipid microdomains and the regulation of ion channel function[J]. J. Physiol., 2010, 588:3169-3178 [14] MARTELLI A M, BILLI A M, FALA F, et al. Metabolism and signaling activities of nuclear lipids[J]. Cell. Molec. life Sci.:CMLS., 2004, 61(10):1143-1156 [15] BELOV O V, BELOKOPYTOVA K V, KUDRIN V S, et al. Neurochemical insights into the radiation protection of astronauts:distinction between low- and moderate-LET radiation components[J]. Phys. Med., 2019, 57:7-16 [16] CHEN B, ZHANG P, SUN F, et al. The mechanism of bystander effect induced by different irradiation in human neuroblastoma cells[J]. Acta Astron., 2020, 166(1):599-606 [17] ZHANG P, CHEN Y, ZHU H, et al. The effect of gamma-ray-induced central nervous system injury on peripheral immune response:an in vitro and in vivo study[J]. Radiat. Res., 2019, 192(4):440-450 -
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