[1] WANG J F,LIU C T,LIU J Y,et al.Space mutagenesis of genetically engineered bacteria expressing recombinant human interferon α1b and screening of higher yielding strains[J].World Journal of Microbiology and Biotechnology,2014,30(3):943-949.
[2] HORNECK G,KLAUS D M and MANCINELLI R L.Space microbiology[J].Microbiology and Molecular Biology Reviews,2010,74(1):121-156.
[3] MIDDELEER G D,LEYS N,SAS B,et al.Fungi and mycotoxins in apace—a review[J].Astrobiology,2019,19(7):915-926.
[4] SRIDHARAN D M,ASAITHAMBY A,BAILEY S M,et al.Understanding cancer development processes after HZE-particle exposure:Roles of ROS,DNA damage repair and inflammation[J].Radiation Research,2015,183(1):1-26.
[5] FRIEDBERG E C.A history of the DNA repair and mutagenesis field:I.The discovery of enzymatic photoreactivation[J].DNA Repair (Amst),2015,33:35-42.
[6] NOVIKOVA N,DESHEVAYA E,LEVINSKIKH M,et al.Study of the effects of the outer space environment on dormant forms of microorganisms,fungi and plants in the ‘Expose-R' experiment[J].International Journal of Astrobiology,2015,14(1):137-142.
[7] WANG J P,LIU Y,ZHAO G X,et al.Integrated proteomic and metabolomic analysis to study the effects of spaceflight on Candida albicans[J].BMC Genomics,2020,21:57.
[8] NICHOLSON W L,MOELLER R and HORNECK G.Transcriptomic responses of germinating Bacillus subtilis spores exposed to 1.5 years of space and simulated martian conditions on the EXPOSE-E experiment PROTECT[J].Astrobiology,2012,12(5):469-486.
[9] GUO J,HAN N,ZHANG Y,et al.Use of genome sequencing to assess nucleotide structure variation of Staphylococcus aureus strains cultured in spaceflight on Shenzhou-X,under simulated microgravity and on the ground[J].Microbiol Res,2015,170:61-68.
[10] FAJARDO-CAVAZOS P,SCHUERGER A C,NICHOLSON W L.Exposure of DNA and Bacillus subtilis spores to simulated martian environments:use of quantitative PCR (qPCR) to measure inactivation rates of DNA to function as a template molecule[J].Astrobiology,2010,10(4):403-411.
[11] SENATORE G,MASTROLEO F,LEYS N,et al.Effect of microgravity & space radiation on microbes[J].Future Microbiology,2018,13:831-847.
[12] BAI P,ZHANG B,ZHAO X,et al.Decreased metabolism and increased tolerance to extreme environments in Staphylococcus warneri during long-term spaceflight[J].Microbiology Open,2019,8(12):e917.
[13] ZHANG B,BAI P,ZHAO X,et al.Increased growth rate and amikacin resistance of Salmonella enteritidis after one-month spaceflight on China's Shenzhou-11 spacecraft[J].Microbiology Open,2019,8(9):e00833.
[14] WANG Y J,YUAN Y T,LIU J W,et al.Transcriptomic and proteomic responses of Serratia marcescens to spaceflight conditions involve large-scale changes in metabolic pathways[J].Advances in Space Research,2014,53(7):1 108-1 117.
[15] LI T Z,CHANG D,XU H W,et al.Impact of a short-term exposure to spaceflight on the phenotype,genome,transcriptome and proteome of Escherichia coli[J].International Journal of Astrobiology,2015,14(3):435-444.
[16] ROMSDAHL J,BLACHOWICZ A,CHIANG A J,et al.Characterization of Aspergillus niger isolated from the International Space Station[J].mSystems,2018,3(5):e00 112-00 118.
[17] BLACHOWICZ A,CHIANG A J,ROMSDAHL J,et al.Proteomic characterization of Aspergillus fumigatus isolated from air and surfaces of the international space station[J].Fungal Genetics and Biology,2019,124:39-46.
[18] CRABB A,NIELSEN-PREISS S M,WOOLLEY C M,et al.Spaceflight enhances cell aggregation and random budding in Candida albicans[J].PLoS One,2013,8(12):e80677.
[19] ZHAO X,YU Y,ZHANG X L,et al.Decreased biofilm formation ability of Acinetobacter baumannii after spaceflight on China's Shenzhou 11 spacecraft[J].Microbiology Open,2019,8(6):e763.
[20] KIM W,TENGRA F K,YOUNG Z,et al.Spaceflight promotes biofilm formation by Pseudomonas aeruginosa[J].PLoS One,2013,8(4):e62437
[21] MORRISON M D,FAJARDO-CAVAZOS P,NICHOLSON W L.Cultivation in space flight produces minimal alterations in the susceptibility of Bacillus subtilis cells to 72 different antibiotics and growth-inhibiting compounds[J].Applied and Environmental Microbiology,2017,83(21).DOI:10.1128/AEM.01 584-17.
[22] KIM W,TENGRA F K,SHONG J,et al.Effect of spaceflight on Pseudomonas aeruginosa final cell density is modulated by nutrient and oxygen availability[J].BMC Microbiology,2013,13(1):241.
[23] LEE K W K,PERIASAMY S,MUKHERJEE M,et al.Biofilm development and enhanced stress resistance of a model,mixed-species community biofilm[J].ISME Journal,2014,8(4):894-907.
[24] FARSHADZADEH Z,TACHERI B,RAHIMI S,et al.Growth rate and biofilm formation ability of clinical and laboratory-evolved colistin-resistant strains of Acinetobacter baumannii[J].Frontiers in Microbiology,2018,9:153.
[25] SANDERS M E,AKKERMANS L M,HALLER D,et al.Safety assessment of probiotics for human use[J].Gut Microbes,2010,1(3):164.
[26] LIU C.The theory and application of space microbiology:China′s experiences in space experiments and beyond[J].Environmental Microbiology,2017,19(2):426-433.
[27] 马丽,魏海霞,汪倩倩,等.航天诱变毛霉ZY-3在腐乳生产中的应用研究[J].中国酿造,2015,34(4):62-65.
MA L,WEI H X,WANG Q Q,et al.Application of space mutation strain Mucor ZY-3 in sufu production[J].China Brewing,2015,34(4):62-65.
[28] 张彬,庄名扬,武金华,等.酿酒微生物太空育种及在生产中的应用研究(Ⅰ)己酸菌太空育种及在生产中的应用[J].酿酒,2014,41(5):35-38.
ZHANG B,ZHUANG M Y,WU J H,et al.Mutagting strains in space of brew microorganisms and application of them in production(Ⅰ)application of caproic acid bacteria of space mutant strains in production[J].Liquor Making,2014,41(5):35-38.
[29] 张彬,杨涛,管桂臻,等.酿酒微生物太空育种及在生产中的应用研究(Ⅱ)芝麻香型白酒酿造功能微生物的太空育种[J].酿酒,2014,41(6):45-50.
ZHANG B,YANG T,GUAN G Z,et al.Mutagting strains in space of brew microorganisms and application of them in production(Ⅱ)space mutation breeding of functional microorganisms in sesame flavor liquor[J].Liquor Making,2014,41(6):45-50.
[30] 蔡洋,靳华荣,周广田.空间诱变优良上面啤酒酵母发酵性能研究[J].酿酒科技,2014 (11):44-47.
CAI Y,JIN H R,ZHOU G T.The fermenting performance of top-fermenting mutant strains by space mutation[J].Liquor-Making Science & Technology,2014 (11):44-47.
[31] 刘雪,韩雪娟,曹建全,等.芝麻香细菌曲的太空诱变育种[J].酿酒,2015,42(4):95-98.
LIU X,HAN X J,CAO J Q,et al.Space mutation of bacterial species in sesame flavor-Fuqu[J].Liquor Making,2015,42(4):95-98.
[32] 文鹏程,隋馨瑶,孙二娜,等.航天诱变高产酸副干酪乳杆菌A-4-2性质与酶活性研究[J].农业机械学报,2019,50(1):346-353.
WEN P C,SUI X Y,SUN E N,et al.Characteristics and enzyme activity of Lactobacillus paracasei A-4-2 produced by space mutation[J].Transactions of the Chinese Society for Agricultural Machinery,2019,50(1):346-353.
[33] 王莹,孙二娜,隋馨瑶,等.航天搭载对嗜热链球菌G2的诱变作用及发酵性能评价[J].食品与发酵工业,2018,44(8):65-70.
WANG Y,SUI X Y,SUN E N,et al.Mutagenesis effect of space mutation on Streptococcus thermophilus and its fermentation performance evaluation[J].Food and Fermentation Industries,2018,44(8):65-70.
[34] 隋馨瑶,孙二娜,王莹,等.空间搭载长双歧杆菌BBMN68耐氧株筛选及其耐酸耐胆盐特性[J].甘肃农业大学学报,2019(3):186-192.
SUI X Y,SUN E N,WANG Y,et al.Screening of oxygen-tolerant strain of Bifidobacterium longum BMNC68 by space and study on its acid tolerace and bile salt-tolerance properties[J].Journal of Gansu Agricultural University,2019,(3):186-192.
[35] 张彬,庄名扬,武金华,等.酿酒微生物太空育种及在生产中的应用研究(Ⅲ)芝麻香型白酒太空菌种在生产中的应用[J].酿酒,2015,42(2):21-27.
ZHANG B,ZHUANG M Y,WU J H,et al.Mutagting strains in space of brew microorganisms and application of them in production(Ⅲ)research of application process in sesame flavor liquor′s brewed technology of space mutation functional microorganisms[J].Liquor Making,2015,42(2):21-27.
[36] 陈志梅,张宗舟,薛林贵,等.航天诱变混菌生抽发酵研究[J].甘肃农业大学学报,2011,46(3):104-108.
CHEN Z M,ZHANG Z Z,XUE L G,et al.Mixed fermentation of soy sauce with space mutant strains[J].Journal of Gansu Agricultural University,2011,46(3):104-108.
[37] 张宗舟,巩晓芳,薛林贵.航天香醋发酵工艺研究[J].中国酿造,2012,31(2):63-65.
ZHANG Z Z,GONG X F,XUE L G.Study on fermentation process of the aerospace vinegar[J].China Brewing,2012,31(2):63-65.
[38] 彭立影,刘功良,许莹莹,等.蜂蜜接合酵母协同传统曲种发酵广东黄酒的工艺研究[J].食品与发酵工业,2019,45(8):103-108.
PENG L Y,LIU G L,XU Y Y,et al.Fermentation process of Guangdong yellow rice wine using Zygosaccharomyces mellis and traditional brewing species[J].Food and Fermentation Industries,2019,45(8):103-108.
[39] 郭梅君,周世水,刘幼强,等.降低米香型白酒杂醇油的蒸馏方法研究[J].酿酒科技,2019(4):44-47.
GUO M J,ZHOU S S,LIU Y Q,et al.Research on the distillation method of Mixiang Baijiu to reduce fusel oil content[J].Liquor-Making Science & Technology,2019(4):44-47.
[40] 李理,冯静文,刘力,等.豆腐酸浆中酵母的分离鉴定及其在酸豆乳中的应用[J].现代食品科技,2016,32(5):173-179.
LI L,FENG J W,LIU L,et al.Isolation and identification of yeast from acidic tofu whey and its application to soy yogurt[J].Modern Food Science and Technology,2016,32(5):173-179.
