This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Brinckmann E (2005) European Space Agency (ESA) hardware for plant research on the International Space Station (ISS). Advances in Space Research36: 1162–1166BrinckmannE2005European Space Agency (ESA) hardware for plant research on the International Space Station (ISS)Advances in Space Research361162116610.1016/j.asr.2005.02.019Search in Google Scholar
Correll MJ, Kiss JZ (2005) The roles of phytochromes in elongation and gravitropism of roots. Plant and Cell Physiology46: 317–323CorrellMJKissJZ2005The roles of phytochromes in elongation and gravitropism of rootsPlant and Cell Physiology4631732310.1093/pcp/pci038Search in Google Scholar
Cowles JR, Scheld HW, Lemay R, Peterson C (1984) Growth and lignification in seedlings exposed to eight days of microgravity. Annals of Botany54: 33–48CowlesJRScheldHWLemayRPetersonC1984Growth and lignification in seedlings exposed to eight days of microgravityAnnals of Botany54334810.1093/oxfordjournals.aob.a086865Search in Google Scholar
Fengler S, Spirer I, Neef M, Ecke M, Nieselt K, Hampp R (2015) A whole-genome microarray study of Arabidopsis thaliana semisolid callus cultures exposed to microgravity and nonmicrogravity related spaceflight conditions for 5 days on board of Shenzhou 8. BioMed Research International2015: 547495FenglerSSpirerINeefMEckeMNieseltKHamppR2015A whole-genome microarray study of Arabidopsis thaliana semisolid callus cultures exposed to microgravity and nonmicrogravity related spaceflight conditions for 5 days on board of Shenzhou 8BioMed Research International201554749510.1155/2015/547495Search in Google Scholar
Ferl RJ, Koh J, Denison F, Paul A-L (2015) Spaceflight induces specific alterations in the proteomes of Arabidopsis. Astrobiology15: 32–56FerlRJKohJDenisonFPaulA-L2015Spaceflight induces specific alterations in the proteomes of ArabidopsisAstrobiology15325610.1089/ast.2014.1210Search in Google Scholar
Ferl R, Wheeler R, Levine HG, Paul A-L (2002) Plants in space. Current Opinion in Plant Biology5: 258–263FerlRWheelerRLevineHGPaulA-L2002Plants in spaceCurrent Opinion in Plant Biology525826310.1016/S1369-5266(02)00254-6Search in Google Scholar
Helleseng KO, Grønnevik A, Fossum KR, Kittang A-I, Iversen T-H (2005) Utilization of the European Modular Cultivation System—Opportunities and Support Functions. 56th International Astronautical Congress of the International Astronautical Federation, the International Academy of Astronautics, and the International Institute of Space Law, Technical Paper IAC-05-A2.25.01HellesengKOGrønnevikAFossumKRKittangA-IIversenT-H2005Utilization of the European Modular Cultivation System—Opportunities and Support Functions56th International Astronautical Congress of the International Astronautical Federation, the International Academy of Astronautics, and the International Institute of Space Law, Technical Paper IAC-05-A2.25.0110.2514/6.IAC-05-A2.5.01Search in Google Scholar
Hoson T, Soga K, Mori R, Saiki M, Nakamura Y, Wakabayashi K, Kamisaka S (2002) Stimulation of elongation growth and cell wall loosening in rice coleoptiles under microgravity conditions in space. Plant and Cell Physiology43: 1067–1071HosonTSogaKMoriRSaikiMNakamuraYWakabayashiKKamisakaS2002Stimulation of elongation growth and cell wall loosening in rice coleoptiles under microgravity conditions in spacePlant and Cell Physiology431067107110.1093/pcp/pcf126Search in Google Scholar
Hoson T, Soga K, Wakabayashi K, Kamisaka S, Tanimoto E (2003) Growth and cell wall changes in rice roots during spaceflight. Plant and Soil255: 19–26HosonTSogaKWakabayashiKKamisakaSTanimotoE2003Growth and cell wall changes in rice roots during spaceflightPlant and Soil255192610.1007/978-94-017-2923-9_3Search in Google Scholar
Johnsson A, Solheim BG, Iversen TH (2009) Gravity amplifies and microgravity decreases circumnutations in Arabidopsis thaliana stems: results from a space experiment. New Phytologist182: 621–629JohnssonASolheimBGIversenTH2009Gravity amplifies and microgravity decreases circumnutations in Arabidopsis thaliana stems: results from a space experimentNew Phytologist18262162910.1111/j.1469-8137.2009.02777.xSearch in Google Scholar
Kamada M, Omori K, Nishitani K, Hoson T, Shimazu T, Ishioka N (2007) JAXA space plant research on the International Space Station (ISS) with European Modular Cultivation System (EMCS). Biological Sciences in Space21: 62–66KamadaMOmoriKNishitaniKHosonTShimazuTIshiokaN2007JAXA space plant research on the International Space Station (ISS) with European Modular Cultivation System (EMCS)Biological Sciences in Space21626610.2187/bss.21.62Search in Google Scholar
Kern VD, Sack FD, White NJ, Anderson K, Wells W, Martin C (1999) Spaceflight hardware allowing unilateral irradiation and chemical fixation in petri dishes. Advances in Space Research24: 775–778KernVDSackFDWhiteNJAndersonKWellsWMartinC1999Spaceflight hardware allowing unilateral irradiation and chemical fixation in petri dishesAdvances in Space Research2477577810.1016/S0273-1177(99)00412-3Search in Google Scholar
Kiss JZ (2015) Conducting plant experiments in space. Methods in Molecular Biology1309: 255–283KissJZ2015Conducting plant experiments in spaceMethods in Molecular Biology130925528310.1007/978-1-4939-2697-8_19Search in Google Scholar
Kiss JZ (2014) Plant biology in reduced gravity on the Moon and Mars. Plant Biology16(S1): 12–17KissJZ2014Plant biology in reduced gravity on the Moon and MarsPlant Biology16S1121710.1111/plb.12031Search in Google Scholar
Kiss JZ, Aanes G, Schiefloe M, Coelho LH, Millar KDL, Edelmann RE (2014) Changes in operational procedures to improve spaceflight experiments in plant biology in the European Modular Cultivation System (EMCS). Advances in Space Research53: 818–827KissJZAanesGSchiefloeMCoelhoLHMillarKDLEdelmannRE2014Changes in operational procedures to improve spaceflight experiments in plant biology in the European Modular Cultivation System (EMCS)Advances in Space Research5381882710.1016/j.asr.2013.12.024Search in Google Scholar
Kiss JZ, Kumar P, Bowman RN, Steele MK, Eodice MT, Correll MJ, Edelmann RE (2007) Biocompatibility studies in preparation for a spaceflight experiment on plant tropisms (TROPI). Advances in Space Research39: 1154–1160KissJZKumarPBowmanRNSteeleMKEodiceMTCorrellMJEdelmannRE2007Biocompatibility studies in preparation for a spaceflight experiment on plant tropisms (TROPI)Advances in Space Research391154116010.1016/j.asr.2006.12.017Search in Google Scholar
Kiss JZ, Kumar P, Millar KDL, Edelmann RE, Correll MJ (2009) Operations of a spaceflight experiment to investigate plant tropisms. Advances in Space Research44: 879–886KissJZKumarPMillarKDLEdelmannRECorrellMJ2009Operations of a spaceflight experiment to investigate plant tropismsAdvances in Space Research4487988610.1016/j.asr.2009.06.007Search in Google Scholar
Kiss JZ, Millar KDL, Edelmann RE (2012) Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space Station (ISS). Planta236: 635–645KissJZMillarKDLEdelmannRE2012Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space Station (ISS)Planta23663564510.1007/s00425-012-1633-ySearch in Google Scholar
Kiss JZ, Millar KDL, Kumar P, Edelmann RE, Correll MJ (2011) Improvements in the re-flight of spaceflight experiments on plant tropisms. Advances in Space Research47: 545–552KissJZMillarKDLKumarPEdelmannRECorrellMJ2011Improvements in the re-flight of spaceflight experiments on plant tropismsAdvances in Space Research4754555210.1016/j.asr.2010.09.024Search in Google Scholar
Klymchuk DO, Brown CS, Chapman DK, Vorobyova TV, Martyn GM (2001) Cytochemical localization of calcium in soybean root cap cells in microgravity. Advances in Space Research27: 967–972KlymchukDOBrownCSChapmanDKVorobyovaTVMartynGM2001Cytochemical localization of calcium in soybean root cap cells in microgravityAdvances in Space Research2796797210.1016/S0273-1177(01)00160-0Search in Google Scholar
Klymchuk DO, Kordyum EL, Vorobyova TV, Chapman DK, Brown CS (2003) Changes in vacuolation in the root apex cells of soybean seedlings in microgravity. Advances in Space Research31: 2283–2288KlymchukDOKordyumELVorobyovaTVChapmanDKBrownCS2003Changes in vacuolation in the root apex cells of soybean seedlings in microgravityAdvances in Space Research312283228810.1016/S0273-1177(03)00256-4Search in Google Scholar
Kwon T, Sparks JA, Nakashima J, Allen SN, Tang Y, Blancaflor EB (2015) Transcriptional response of Arabidopsis seedlings during spaceflight reveals peroxidase and cell wall remodeling genes associated with root hair development. American Journal of Botany102: 21–35KwonTSparksJANakashimaJAllenSNTangYBlancaflorEB2015Transcriptional response of Arabidopsis seedlings during spaceflight reveals peroxidase and cell wall remodeling genes associated with root hair developmentAmerican Journal of Botany102213510.3732/ajb.140045825587145Search in Google Scholar
Levine HG, Cox DR, Reed DW, Mortenson TE, Shellack JL, Wells HW, Murdoch T, Regan MF, Albino SA, Cohen J (2009) The Advanced Biological Research System (ABRS): A Single Middeck Payload for Conducting Biological Experimentation on the International Space Station (ISS). 47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, AIAA Technical Paper Number 2009-416LevineHGCoxDRReedDWMortensonTEShellackJLWellsHWMurdochTReganMFAlbinoSACohenJ2009The Advanced Biological Research System (ABRS): A Single Middeck Payload for Conducting Biological Experimentation on the International Space Station (ISS)47th AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, AIAA Technical Paper Number 2009-41610.2514/6.2009-416Search in Google Scholar
Matía I, González-Camacho F, Herranz R, Kiss JZ, Gasset G, van Loon JJWA, Marco R, Medina FJ (2010) Plant cell proliferation and growth are altered by microgravity conditions in spaceflight. Journal of Plant Physiology167: 184–193MatíaIGonzález-CamachoFHerranzRKissJZGassetGvan LoonJJWAMarcoRMedinaFJ2010Plant cell proliferation and growth are altered by microgravity conditions in spaceflightJournal of Plant Physiology16718419310.1016/j.jplph.2009.08.01219864040Search in Google Scholar
Mazars C, Brière C, Grat S, Pichereaux C, Rossignol M, Pereda-Loth V, Eche B, Boucheron-Dubuisson E, Le Disquet I, Medina FJ, Graziana A, Carnero-Diaz E (2014) Microgravity induces changes in microsome-associated proteins of Arabidopsis seedlings grown on board the International Space Station (ISS). PLoS One9: e91814MazarsCBrièreCGratSPichereauxCRossignolMPereda-LothVEcheBBoucheron-DubuissonELe DisquetIMedinaFJGrazianaACarnero-DiazE2014Microgravity induces changes in microsome-associated proteins of Arabidopsis seedlings grown on board the International Space Station (ISS)PLoS One9e9181410.1371/journal.pone.0091814395028824618597Search in Google Scholar
Millar KDL, Kumar P, Correll MJ, Mullen JL, Hangarter RP, Edelmann RE, Kiss JZ (2010) A novel phototropic response to red light is revealed in microgravity. New Phytologist186: 648–656MillarKDLKumarPCorrellMJMullenJLHangarterRPEdelmannREKissJZ2010A novel phototropic response to red light is revealed in microgravityNew Phytologist18664865610.1111/j.1469-8137.2010.03211.x20298479Search in Google Scholar
Nedukha OM, Kordyum EL, Brown C, Chapman D (2001) The interaction of microgravity and ethylene on the ultrastructure cell and Ca2+ localization in soybean hook hypocotyl. Journal of Gravitational Physiology8: P49–P50NedukhaOMKordyumELBrownCChapmanD2001The interaction of microgravity and ethylene on the ultrastructure cell and Ca2+ localization in soybean hook hypocotylJournal of Gravitational Physiology8P49P50Search in Google Scholar
Paul A-L, Daugherty CJ, Bihn EA, Chapman DK, Norwood KLL, Ferl RJ (2001) Transgene expression patterns indicate that spaceflight affects stress signal perception and transduction in Arabidopsis. Plant Physiology126: 613–621PaulA-LDaughertyCJBihnEAChapmanDKNorwoodKLLFerlRJ2001Transgene expression patterns indicate that spaceflight affects stress signal perception and transduction in ArabidopsisPlant Physiology12661362110.1104/pp.126.2.61311115311402191Search in Google Scholar
Paul A-L, Zupanska AK, Ostrow DT, Zhang Y, Sun Y, Li J-L, Shanker S, Farmerie WG, Amalfitano CE, Ferl RJ (2012) Spaceflight transcriptomes: unique responses to a novel environment. Astrobiology12: 40–56PaulA-LZupanskaAKOstrowDTZhangYSunYLiJ-LShankerSFarmerieWGAmalfitanoCEFerlRJ2012Spaceflight transcriptomes: unique responses to a novel environmentAstrobiology12405610.1089/ast.2011.0696326496222221117Search in Google Scholar
Paul A-L, Zupanska AK, Schultz ER, Ferl RJ (2013) Organ-specific remodeling of the Arabidopsis transcriptome in response to spaceflight. BioMed Central (BMC) Plant Biology13: 112PaulA-LZupanskaAKSchultzERFerlRJ2013Organ-specific remodeling of the Arabidopsis transcriptome in response to spaceflightBioMed Central (BMC) Plant Biology1311210.1186/1471-2229-13-112375091523919896Search in Google Scholar
Sato F, Takeda S, Matsushima H, Yamada Y (1999) Cell growth and organ differentiation in cultured tobacco cells under spaceflight condition. Biological Sciences in Space13: 18–24SatoFTakedaSMatsushimaHYamadaY1999Cell growth and organ differentiation in cultured tobacco cells under spaceflight conditionBiological Sciences in Space13182410.2187/bss.13.1811542476Search in Google Scholar
Vandenbrink JP, Herranz R, Medina FJ, Edelmann RE, Kiss JZ (2016) A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity. Planta244: 1201–1215VandenbrinkJPHerranzRMedinaFJEdelmannREKissJZ2016A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravityPlanta2441201121510.1007/s00425-016-2581-8574851627507239Search in Google Scholar
Vandenbrink JP, Kiss JZ (2016) Space, the final frontier: a critical review of recent experiments performed in microgravity. Plant Science243: 115–119VandenbrinkJPKissJZ2016Space, the final frontier: a critical review of recent experiments performed in microgravityPlant Science24311511910.1016/j.plantsci.2015.11.004573987726795156Search in Google Scholar
Zhang Y, Wang L, Xie J, Zheng H (2015) Differential protein expression profiling of Arabidopsis thaliana callus under microgravity on board the Chinese SZ-8 spacecraft. Planta241: 475–488ZhangYWangLXieJZhengH2015Differential protein expression profiling of Arabidopsis thaliana callus under microgravity on board the Chinese SZ-8 spacecraftPlanta24147548810.1007/s00425-014-2196-x25374148Search in Google Scholar
