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Alekhova TA, Aleksandrova AA, Novozhilova T, Lysak LV, Zagustina NA, Bezborodov AM (2005) Monitoring of microbial degraders in manned space stations. Prikladnaia Biokhimiia Mikrobiologia41: 435–443AlekhovaTAAleksandrovaAANovozhilovaTLysakLVZagustinaNABezborodovAM2005Monitoring of microbial degraders in manned space stations4143544310.1007/s10438-005-0065-xSearch in Google Scholar
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
Bruins M, Bo, A, Petit PL, Eadie K, Rog A, Bos R, van Ramshorst GH, van Belkum A (2009) Device-independent, real-time identification of bacterial pathogens with a metal oxide-based olfactory sensor. European Journal of Clinical Microbiology & Infectious Diseases28: 775–780BruinsMBoAPetitPLEadieKRogABosRvan RamshorstGHvan BelkumA2009Device-independent, real-time identification of bacterial pathogens with a metal oxide-based olfactory sensor2877578010.1007/s10096-009-0700-1Search in Google Scholar
Butinar L, Santos S, Spencer-Martins I, Oren A, Gunde-Cimerman N (2005) Yeast diversity in hypersaline habitats. FEMS Microbiology Letters244: 229–234ButinarLSantosSSpencer-MartinsIOrenAGunde-CimermanN2005Yeast diversity in hypersaline habitats24422923410.1016/j.femsle.2005.01.043Search in Google Scholar
Diaz C, Molina AM, Nahring J, Fischer R (2013) Characterization and dynamic behavior of wild yeast during spontaneous wine fermentation in steel tanks and amphorae. Biomed Research International2013: 540465DiazCMolinaAMNahringJFischerR2013Characterization and dynamic behavior of wild yeast during spontaneous wine fermentation in steel tanks and amphorae201354046510.1155/2013/540465Search in Google Scholar
Dutta R, Hines EL, Gardner JW, Boilot P (2002) Bacteria classification using Cyranose 320 electronic nose. Biomedical Engineering OnLine1: 4DuttaRHinesELGardnerJWBoilotP2002Bacteria classification using Cyranose 320 electronic nose1410.1186/1475-925X-1-4Search in Google Scholar
Fleischer M, Kornely S, Weh T, Frank J, Meixner H (2000) Selective gas detection with high-temperature operated metal oxides using catalytic filters. Sensors and Actuators B: Chemical69: 205–210FleischerMKornelySWehTFrankJMeixnerH2000Selective gas detection with high-temperature operated metal oxides using catalytic filters6920521010.1016/S0925-4005(00)00513-XSearch 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
Korpi A, Pasanen AL, Pasanen P (1998) Volatile compounds originating from mixed microbial cultures on building materials under various humidity conditions. Applied and Environmental Microbiology64: 2914–2919KorpiAPasanenALPasanenP1998Volatile compounds originating from mixed microbial cultures on building materials under various humidity conditions642914291910.1128/AEM.64.8.2914-2919.19981067929687450Search 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
Laich F, Vaca I, Chavez R (2013) Rhodotorula portillonensis sp. nov., a basidiomycetous yeast isolated from Antarctic shallow-water marine sediment. International Journal of Systematic and Evolutionary Microbiology63: 3884–3891LaichFVacaIChavezR2013Rhodotorula portillonensis sp. nov., a basidiomycetous yeast isolated from Antarctic shallow-water marine sediment633884389110.1099/ijs.0.052753-023934251Search in Google Scholar
Lemfack MC, Nickel J, Dunkel M, Preissner R, Piechulla B (2014) mVOC: a database of microbial volatiles. Nucleic Acids Research42: D744–748LemfackMCNickelJDunkelMPreissnerRPiechullaB2014mVOC: a database of microbial volatiles42D74474810.1093/nar/gkt1250396498824311565Search in Google Scholar
Li CC, Chung HP, Wen HW, Chang CT, Wang YT, Chou FI (2015) The radiation resistance and cobalt biosorption activity of yeast strains isolated from the Lanyu low-level radioactive waste repository in Taiwan. Journal of Environmental Radioactivity146: 80–87LiCCChungHPWenHWChangCTWangYTChouFI2015The radiation resistance and cobalt biosorption activity of yeast strains isolated from the Lanyu low-level radioactive waste repository in Taiwan146808710.1016/j.jenvrad.2015.04.01025957049Search 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 U.S. and Russian Cooperation in Space Biology and Medicine, A Nicogossian, O Gazenko, A Grigoriev (eds), pp. 263–278. Washington D.C.: American Institute of Aeronautics and AstronauticsNovikovaNDPiersonDLPoddubkoSVDeshevayaYAOttCMCastroVABruceRJ2009Microbiology of the International Space StationInNicogossianAGazenkoOGrigorievA(eds),263278Washington D.C.American Institute of Aeronautics and AstronauticsSearch in Google Scholar
Pierson DL (2001) Microbial contamination of spacecraft. Gravitational and Space Biology Bulletin14: 1–6PiersonDL2001Microbial contamination of spacecraft1416Search in Google Scholar
Prokhorov KS (2009) Life Support Systems Safety. In Safety Design for Space Systems, GE Musgrave, ASM Larsen, T Sgobba (eds), pp. 185–224. Burlington, MA: Butterworth-HeinemannProkhorovKS2009Life Support Systems SafetyInMusgraveGELarsenASMSgobbaT(eds),185224Burlington, MAButterworth-Heinemann10.1016/B978-0-7506-8580-1.00006-3Search in Google Scholar
Pudil F, Uvira R, Janda V (2014) Compounds in stinkhorn (Phallus impudicus L. Ex. Pers.) at different stages of growth. European Scientific Journal10: 163–171PudilFUviraRJandaV2014Compounds in stinkhorn (Phallus impudicus L. Ex. Pers.) at different stages of growth10163171Search in Google Scholar
Reidt U, Plobner L, Lugmayr V, Treutlein U, Kharin S, Smirnov Y, Novikova ND, Lenic J, Fetter V, Hummel T (2014) Study of initial colonization by environmental microorganisms in the Russian segment of the International Space Station (ISS). Gravitational Space Research2: 46–57ReidtUPlobnerLLugmayrVTreutleinUKharinSSmirnovYNovikovaNDLenicJFetterVHummelT2014Study of initial colonization by environmental microorganisms in the Russian segment of the International Space Station (ISS)2465710.2478/gsr-2014-0012Search in Google Scholar
Russo G, Libkind D, Sampaio JP, van Broock MR (2008) Yeast diversity in the acidic Rio Agrio-Lake Caviahue volcanic environment (Patagonia, Argentina). FEMS Microbiology Ecology65: 415–424RussoGLibkindDSampaioJPvan BroockMR2008Yeast diversity in the acidic Rio Agrio-Lake Caviahue volcanic environment (Patagonia, Argentina)6541542410.1111/j.1574-6941.2008.00514.x18537834Search in Google Scholar
Ryan MA, Manatt MK, Gluck SE, Shevade AV, Kisor AK, Zhou H, Lara LM, Homer ML (2009) Operation of Third Generation JPL Electronic Nose on the International Space Station. SAE Technical Paper 2009-01-2522RyanMAManattMKGluckSEShevadeAVKisorAKZhouHLaraLMHomerML2009SAE Technical Paper 2009-01-252210.4271/2009-01-2522Search in Google Scholar
Satoh, K, Nishiyama Y, Yamazaki T, Sugita T, Tsukii Y, Takatori K, Benno Y, Makimura K (2011) Microbe-I: fungal biota analyses of the Japanese experimental module KIBO of the International Space Station before launch and after being in orbit for about 460 days. Microbiology and Immunology55: 823–829SatohKNishiyamaYYamazakiTSugitaTTsukiiYTakatoriKBennoYMakimuraK2011Microbe-I: fungal biota analyses of the Japanese experimental module KIBO of the International Space Station before launch and after being in orbit for about 460 days5582382910.1111/j.1348-0421.2011.00386.x21950271Search 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, DH Gelfand and SJ White (eds), pp. 315–322. New York: Academic PressWhiteTBrunsTLeeSTaylorJ1990Amplification and direct sequencing of fungal ribosomal RNA genes for phylogeneticsInGelfandDHWhiteSJ(eds),315322New YorkAcademic Press10.1016/B978-0-12-372180-8.50042-1Search in Google Scholar
Wilkins K, Larsen K, Simkus M (2000) Volatile metabolites from mold growth on building materials and synthetic media. Chemosphere41: 437–446WilkinsKLarsenKSimkusM2000Volatile metabolites from mold growth on building materials and synthetic media4143744610.1016/S0045-6535(99)00273-8Search in Google Scholar