References
- Abbaraju NV, Cai Y, Rees BB (2011) Protein recovery and identification from the gulf killifish, Fundulus grandis: comparing snap-frozen and RNAlater®-preserved tissues. Proteomics11: 4257–4261
- Basu P, Luesse DR, Wyatt SE (2015) Proteomic approaches and their application to plant gravitropism. Plant Gravitropism: Methods and Protocols1309: 119–132
- Beaulieu J, Giguère I, Deslauriers M, Boyle B, MacKay J (2013) Differential gene expression patterns in white spruce newly formed tissue on board the International Space Station (ISS). Advances in Space Research52: 760–772
- Bennike TB, Kastaniegaard K, Padurariu S, Gaihede M, Birkelund S, Andersen V, Stensballe A (2016) Comparing the proteome of snap-frozen, RNAlater-preserved, and formalin-fixed paraffin-embedded human tissue samples. European Proteomics Association (EuPA) Open Proteomics10: 9–18
- Crabbé A, Schurr MJ, Monsieurs P, Morici L, Schurr J, Wilson JW, Ott CM, Tsaprailis G, Pierson DL, Stefanyshyn-Piper H, Nickerson CA (2011) Transcriptional and proteomic responses of Pseudomonas aeruginosa PAO1 to spaceflight conditions involve Hfq regulation and reveal a role for oxygen. Applied and Environmental Microbiology77: 1221–1230
- Drakulovski P, Locatelli S, Butel C, Pion S, Krasteva D, Mougdi-Pole E, Delaporte E, Peeters M, Mallié M (2013) Use of RNAlater™ as a preservation method for parasitic coprology studies in wild-living chimpanzees. Experimental Parasitology135: 257–261
- Ferl RJ, Koh J, Denison F, Paul A-L (2015) Spaceflight induces specific alterations in the proteomes of Arabidopsis. Astrobiology15: 32–56
- Ferl RJ, Zupanska A, Spinale A, Reed D, Manning-Roach S, Guerra G, Cox DR, Paul A-L (2011) The performance of KSC fixation tubes with RNALater for orbital experiments: a case study in ISS operations for molecular biology. Advances in Space Research48: 199–206
- Gendreau E, Traas J, Desnos T, Grandjean O, Caboche M, Hofte H (1997) Cellular basis of hypocotyl growth in Arabidopsis thaliana. Plant Physiology114: 295–305
- Gorokhova E (2005) Effects of preservation and storage of microcrustaceans in RNAlater on RNA and DNA degradation. Limnology and Oceanography: Methods3: 143–148
- Griffin TJ, Gygi SP, Ideker T, Rist B, Eng J, Hood L, Aebersold R (2002) Complementary profiling of gene expression at the transcriptome and proteome levels in Saccharomyces cerevisiae. Molecular and Cellular Proteomics1: 323–333
- Grimm D, Wise P, Lebert M, Richter P, Baatout S (2011) How and why does the proteome respond to microgravity? Expert Review of Proteomics8: 13–27
- Kittang A, Kvaløy B, Winge P, Iversen T-H (2010) Ground testing of Arabidopsis preservation protocol for the microarray analysis to be used in the ISS EMCS Multigen-2 experiment. Advances in Space Research46: 1249–1256
- Kuznetsov O, Brown CS, Levine HG, Piastuch WC, Sanwo-Lewandowski MM, Hasenstein KH (2001) Composition and physical properties of starch in microgravity-grown plants. Advances in Space Research28: 651–658
- Ma Y, Cheng Z, Wang W, Sun Y (2007) Proteomic analysis of high-yield rice variety mutated from spaceflight. Advances in Space Research40: 535–539
- Millar KD, Johnson CM, Edelmann RE, Kiss JZ (2011) An endogenous growth pattern of roots is revealed in seedlings grown in microgravity. Astrobiology11: 787–797
- Murad AM, Souza GHMF, Garcia JS, Rech EL (2011) Detection and expression analysis of recombinant proteins in plant-derived complex mixtures using nanoUPLC-MSE. Journal of Separation Science34: 2618–2630
- Paul A-L, Ferl RJ (2011) Using Green Fluorescent Protein (GFP) reporter genes in RNAlater™ fixed tissue. Gravitational and Space Biology25: 40–43
- Paul A-L, Levine HG, McLamb W, Norwood KL, Reed D, Stutte GW, Wells HW, Ferl RJ (2005b) Plant molecular biology in the space station era: utilization of KSC fixation tubes with RNAlater™. Acta Astronautica56: 623–628
- Paul A-L, Popp MP, Gurley WB, Guy C, Norwood KL, Ferl RJ (2005a) Arabidopsis gene expression patterns are altered during spaceflight. Advances in Space Research36: 1175–1181
- Paul A-L, Zupanska AK, Ostrow DT, Zhang Y, Sun Y, Li JL, Shanker S, Farmerie WG, Amalfitano CE, Ferl RJ (2012) Spaceflight transcriptomes: unique responses to a novel environment. Astrobiology12: 40–56
- 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: 112
- Saito MA, Bulygin VV, Moran DM, Taylor C, Scholin C (2011) Examination of microbial proteome preservation techniques applicable to autonomous environmental sample collection. Frontiers in Microbiology2: 215
- Salmi ML, Bushart TJ, Roux SJ (2011a) Autonomous gravity perception and responses of single plant cells. Gravitational and Space Biology25: 6–13
- Salmi ML, Roux SJ (2008) Gene expression changes induced by spaceflight in single-cells of the fern Ceratopteris richardii. Planta229: 151–159
- Salmi ML, ul Haque A, Bushart TJ, Stout SC, Roux SJ, Porterfield DM (2011b) Changes in gravity rapidly alter the magnitude and direction of a cellular calcium current. Planta233: 911–920
- Van Eijsden RG, Stassen C, Daenen L, Van Mulders SE, Bapat PM, Siewers V, Goossens KV, Nielsen J, Delvaux FR, Van Hummelen P (2013) A universal fixation method based on quaternary ammonium salts (RNAlater™) for omics-technologies: Saccharomyces cerevisiae as a case study. Biotechnology Letters35: 891–900
- Vanderschuren H, Lentz E, Zainuddin I, Gruissem W (2013) Proteomics of model and crop plant species: status, current limitations, and strategic advances for crop improvement. Journal of Proteomics93: 5–19
- 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: 475–488