-
摘要: With the human space exploration activities, space life science is an emerging interdiscipline, which covers a wide range of researches. Based on our country's manned space station and recoverable satellite science experimental platform, the development of space life science research is very important to acquire new knowledge or new technological innovation, to give further services to the human space exploration activities, to improve the national economic and social development. Both ground-based and flight applied studies were continuously performed in the previous 2 years. Here, we review and summarize the researches on space life sciences contributed by Chinese scientists.Abstract: With the human space exploration activities, space life science is an emerging interdiscipline, which covers a wide range of researches. Based on our country's manned space station and recoverable satellite science experimental platform, the development of space life science research is very important to acquire new knowledge or new technological innovation, to give further services to the human space exploration activities, to improve the national economic and social development. Both ground-based and flight applied studies were continuously performed in the previous 2 years. Here, we review and summarize the researches on space life sciences contributed by Chinese scientists.
-
Key words:
- Space life sciences /
- Space payload /
- Ground-based study /
- Flight applied study
-
[1] LI R, ZHANG X, LV X, et al. Microvalve controlled multi-functional microfluidic chip for divisional cell coculture[J]. Anal. Biochem., 2017, 539:48-53 [2] ZHANG C X, LV X F, YASMEEN S, et al. Integrated microfluidic chip with nanobiosensor for rapid and label-free detection of a specific gene[J]. Anal. Meth. UK, 2017, 9(24):3619 [3] WANG Y, JAVED I, LIU Y H, et al. Effect of prolonged simulated microgravity on metabolic proteins in rat hippocampus:steps toward safe space travel[J]. J. Proteome Res., 2016, 15(1):29-37 [4] QIN K W, LV X F, XING Q R, et al. A BSA coated NOA81 PCR chip for gene amplification[J]. Anal. Meth. UK, 2016, 8(12):2584 [5] YU S, XU J, HUANG K, et al. A novel method to predict protein aggregation by two -dimensional native protein microfluidic chip electrophoresis[J]. Anal. Meth. UK, 2016, 8:8306-8313 [6] LI R, LV X, HASAN M, et al. A rapidly fabricated microfluidic chip for cell culture[J]. J. Chromatogr. Sci., 2016, 54(4):523 [7] LI R, LV X, ZHANG X, et al. Microfluidics for cell-cell interactions:a review[J]. Front. Chem. Sci. Eng., 2016, 10(1):90 [8] ZHOU L, CHEN Z, FAN Z, et al. Theoretical modeling of mechanical homeostasis of a mammalian cell under gravity-directed vector[J]. Biomech. Model. Mech., 2017, 17(5):1-13 [9] ZHANG C, ZHOU L, ZHANG F, et al. Mechanical remodeling of normally-sized mammalian cells under a gravity vector[J]. Faseb J. Offic. Pub. Fed. Am. Soc. Exp. Biol., 2016, 31(2):802 [10] WANG M, FU Y, LIU H. Nutritional quality and ions uptake to PTNDS in soybeans[J]. Food Chem., 2016, 192:750-759 [11] LI L, XIE B, DONG C, et al. Rearing tenebrio molitor L. (coleptera:tenebrionidae) in the "Lunar Palace 1" during a 105-day multi-crew closed integrative BLSS experiment[J]. Life Sci. Space Res., 2015, 7:9-14 [12] QIN Y, FU Y, DONG C, et al. Shifts of microbial communities of wheat (triticum aestivum L) cultivation in a closed artificial ecosystem[J]. Appl. Microbiol. Biotechnol., 2016, 100(9):4085 [13] FU Y, LI L, XIE B, et al. How to establish a bioregenerative life support system for long-term crewed missions to the Moon or Mars[J]. Astrobiology, 2016, 16(12):925 [14] DONG C, FU Y, XIE B, et al. Element cycling and energy flux responses in ecosystem simulations conducted at the Chinese Lunar Palace-1[J]. Astrobiology, 2017, 17(1):78-86 [15] CHEN Y, ZHANG J, CEN J L, et al. Cell culture of nerve cell and immune cell in CO2-free environment based on microfludic chip[J]. Trans. B. Inst. Technol., 2017, 37(suppl.1):1-6 -
-
计量
- 文章访问数: 1658
- HTML全文浏览量: 138
- PDF下载量: 1684
-
被引次数:
0(来源:Crossref)
0(来源:其他)
下载:
