This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Benson DA, Boguski MS, Lipman DJ, Ostell J, Ouellette BF, Rapp BA, Wheeler DL (1999) GenBank. Nucleic Acids Research27: 12-17BensonDABoguskiMSLipmanDJOstellJOuelletteBFRappBAWheelerDL1999GenBank27121710.1093/nar/27.1.12Search in Google Scholar
Bogatova RI, Allen, CS, Kutina IV, Goodman JR (2009) Microclimate, acousitc environment, and lighting conditions. In US and Russian Cooperation in Space Biology and Medicine, A. Nicogossian, O. Gazenko, and A. Grigoriev (ed), pp 237-248. Washington, D.C.: American Institute of Aeronautics and AstronauticsBogatovaRIAllenCSKutinaIVGoodmanJR2009Microclimate, acousitc environment, and lighting conditionsInNicogossianA.GazenkoO.GrigorievA.237248Washington, D.C.American Institute of Aeronautics and AstronauticsSearch in Google Scholar
Castro VA, Thrasher AN, Healy M, Ott CM, Pierson DL (2004) Microbial characterization during the early habitation of the International Space Station. Microbial Ecology47: 119-126CastroVAThrasherANHealyMOttCMPiersonDL2004Microbial characterization during the early habitation of the International Space Station4711912610.1007/s00248-003-1030-ySearch in Google Scholar
Cogoli A (1993) Spaceflight and the immune system. Vaccine11: 496-503CogoliA1993Spaceflight and the immune system1149650310.1016/0264-410X(93)90217-LSearch in Google Scholar
Digestive Ferments Company, Difco Laboratories (1953) Difco Manual of Dehydrated Culture Media and Reagents for Microbiological and Clinical Laboratory Procedures, 9th ed. Detroit, MI: Difco LaboratoriesDigestive Ferments Company, Difco Laboratories19539th ed.Detroit, MIDifco LaboratoriesSearch in Google Scholar
Donlan RM (2002) Biofilms: microbial life on surfaces. Emerging Infectious Diseases8: 881-890DonlanRM2002Biofilms: microbial life on surfaces888189010.3201/eid0809.020063Search in Google Scholar
Gu JD (2007) Microbial colonization of polymeric materials for space applications and mechanisms of biodeterioration: a review. International Biodeterioration and Biodegradation 1st International Conference on Environmental, Industrial, and Applied Microbiology59: 170-179GuJD2007Microbial colonization of polymeric materials for space applications and mechanisms of biodeterioration: a review5917017910.1016/j.ibiod.2006.08.010Search in Google Scholar
Gu JD (2003) Microbiological deterioration and degradation of synthetic polymeric materials: recent research advances. International Biodeterioration and Biodegradation52: 69-91GuJD2003Microbiological deterioration and degradation of synthetic polymeric materials: recent research advances52699110.1016/S0964-8305(02)00177-4Search in Google Scholar
Gu JD, Mitton DB, Ford TE, Mitchell R (1998) Microbial degradation of polymeric coatings measured by electrochemical impedance spectroscopy. Biodegradation9: 39-45GuJDMittonDBFordTEMitchellR1998Microbial degradation of polymeric coatings measured by electrochemical impedance spectroscopy9394510.1023/A:1008252301377Search in Google Scholar
Gueguinou N, Huin-Schohn C, Bascove M, Bueb JL, Tschirhart E, Legrand-Frossi C, Frippiat JP (2009) Could spaceflight-associated immune system weakening preclude the expansion of human presence beyond Earth’s orbit? Journal of Leukocyte Biology86: 1027-1038GueguinouNHuin-SchohnCBascoveMBuebJLTschirhartELegrand-FrossiCFrippiatJP2009Could spaceflight-associated immune system weakening preclude the expansion of human presence beyond Earth’s orbit?861027103810.1189/jlb.030916719690292Search in Google Scholar
Horneck G, Klaus DM, Mancinelli RL (2010) Space microbiology. Microbiology and Molecular Biology Reviews74: 121-156HorneckGKlausDMMancinelliRL2010Space microbiology7412115610.1128/MMBR.00016-09283234920197502Search in Google Scholar
Kawamura Y, Li Y, Liu H, Huang X, Li Z, Ezaki T (2001) Bacterial population in Russian space station “Mir.” Microbiology Immunology45: 819-828KawamuraYLiYLiuHHuangXLiZEzakiT2001Bacterial population in Russian space station “Mir.”4581982810.1111/j.1348-0421.2001.tb01321.x11838899Search in Google Scholar
Klintworth R, Reher HJ, Viktorov AN, Bohle D (1999) Biological-induced corrosion of materials II: new test methods and experiences from Mir station. Acta Astronautica44: 569-578KlintworthRReherHJViktorovANBohleD1999Biological-induced corrosion of materials II: new test methods and experiences from Mir station4456957810.1016/S0094-5765(99)00069-7Search in Google Scholar
Kuske CR, Banton KL, Adorada DL, Stark PC, Hill KK, Jackson PJ (1998) Small-scale DNA sample preparation method for field PCR detection of microbial cells and spores in soil. Applied and Environmental Microbiology64: 2463-2472KuskeCRBantonKLAdoradaDLStarkPCHillKKJacksonPJ1998Small-scale DNA sample preparation method for field PCR detection of microbial cells and spores in soil642463247210.1128/AEM.64.7.2463-2472.19981064129647816Search in Google Scholar
Mauclaire L, Egli M (2010) Effect of simulated microgravity on growth and production of exopolymeric substances of Micrococcus luteus space and Earth isolates. Federation of European Microbiological Societies Immunology and Medical Microbiology59: 350-356MauclaireLEgliM2010Effect of simulated microgravity on growth and production of exopolymeric substances of Micrococcus luteus space and Earth isolates5935035610.1111/j.1574-695X.2010.00683.xSearch in Google Scholar
NASA (2012) International Space Station calendar. National Aeronautics and Space Administration (NASA). Retrieved from http://www.nasa.gov/pdf/615398main_2012_iss_calendar.pdf (Accessed 11/30/14)NASA2012National Aeronautics and Space Administration (NASA)Retrieved from http://www.nasa.gov/pdf/615398main_2012_iss_calendar.pdf (Accessed 11/30/14)Search in Google Scholar
Novikova ND (2004) Review of the knowledge of microbial contamination of the Russian manned spacecraft. Microbial Ecology47: 127-132NovikovaND2004Review of the knowledge of microbial contamination of the Russian manned spacecraft4712713210.1007/s00248-003-1055-214994178Search in Google Scholar
Novikova ND, De Boever P, Poddubko S, Deshevaya E, Polikarpov N, Rakova N, Coninx I, Mergeay M (2006) Survey of environmental biocontamination on board the International Space Station. Research in Microbiology157: 5-12NovikovaNDDe BoeverPPoddubkoSDeshevayaEPolikarpovNRakovaNConinxIMergeayM2006Survey of environmental biocontamination on board the International Space Station15751210.1016/j.resmic.2005.07.01016364606Search in Google Scholar
Novikova ND, Pierson DL, Poddubko SV, Deshevaya YA, Ott CM, Castro VA, Bruce RJ (2009) Microbiology of the International Space Station. In US and Russian Cooperation in Space Biology and Medicine, A. Nicogossian, O. Gazenko, and A. Grigoriev (ed), pp 263-278. Washington, D.C.: American Institute of Aeronautics and AstronauticsNovikovaNDPiersonDLPoddubkoSVDeshevayaYAOttCMCastroVABruceRJ2009Microbiology of the International Space StationInNicogossianA.GazenkoO.GrigorievA.263278Washington, D.C.American Institute of Aeronautics and AstronauticsSearch in Google Scholar
Ott CM, Bruce RJ, Pierson DL (2004) Microbial characterization of free floating condensate aboard the Mir space station. Microbial Ecology47: 133-136OttCMBruceRJPiersonDL2004Microbial characterization of free floating condensate aboard the Mir space station4713313610.1007/s00248-003-1038-314569419Search in Google Scholar
Ozgen B (2012) Physical properties of Kevlar and Nomex plied and covered yarns. Textile Research Journal83: 752-760OzgenB2012Physical properties of Kevlar and Nomex plied and covered yarns8375276010.1177/0040517512464293Search in Google Scholar
Pierson DL (2001) Microbial contamination of spacecraft. Gravitational and Space Biology Bulletin14: 1-6PiersonDL2001Microbial contamination of spacecraft1416Search in Google Scholar
Rakova NM, Svistunova LV, Novikova ND (2005) Studies on the growth and reproduction of bacterial communities on structural materials of the International Space Station. Aviakosmicheskaia i Ekologicheskaia Meditsina39: 44-46RakovaNMSvistunovaLVNovikovaND2005Studies on the growth and reproduction of bacterial communities on structural materials of the International Space Station394446Search in Google Scholar
Viktorov AN, Novikova ND, Deshevaia EA (1992) The cabin microflora of manned space vehicles and the problem of the biological destruction of the construction materials used in them. Aviakosmicheskaia i Ekologicheskaia Meditsina26: 41-48ViktorovANNovikovaNDDeshevaiaEA1992The cabin microflora of manned space vehicles and the problem of the biological destruction of the construction materials used in them264148Search in Google Scholar
White T, Bruns T, Lee S, Taylor J (1990) Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In PCR Protocols: A Guide to Methods and Applications, M. Innis, D. Gelfand, J. Sninsky, and T. White (ed), pp 315–322. San Diego, CA: Academic Press.WhiteTBrunsTLeeSTaylorJ1990Amplification and direct sequencing of fungal ribosomal RNA genes for phylogeneticsInInnisM.GelfandD.SninskyJ.WhiteT.315322San Diego, CAAcademic Press10.1016/B978-0-12-372180-8.50042-1Search in Google Scholar