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  • Bianchi, G., Gamba, A., Limiroli, R., Pozzi, N., Elster, R., Salamini, F., and Bartels, D. (1993) The unusual sugar composition in leaves of the resurrection plant Myrothamnus flabellifolia. Physiol Plant 87: 223226.
  • Billi, D., Wright, D.J., Helm, R.F., Prickett, T., Potts, M., and Crowe, J.H. (2000) Engineering desiccation tolerance in Escherichia coli. Appl Environ Microbiol 66: 16801684.
  • Blumwald, E., and Tel-Or, E. (1982) Osmoregulation and cell composition in salt-adaptation of Nostoc muscorum. Arch Microbiol 132: 168172.
  • Blumwald, E., Mehlhorn, R.J., and Packer, L. (1983) Studies of osmoregulation in salt adaptation of cyanobacteria with ESR spin-probe techniques. Proc Natl Acad Sci USA 80: 25992602.
  • Borges, N., Ramos, A., Raven, N.D., Sharp, R.J., and Santos, H. (2002) Comparative study of the thermostabilizing properties of mannosylglycerate and other compatible solutes on model enzymes. Extremophiles 6: 209216.
  • Borowitzka, L.J., Demmerle, S., Mackay, M.A., and Norton, R.S. (1980) Carbon-13 nuclear magnetic resonance study of osmoregulation in a blue-green alga. Science 210: 650651.
  • Bremer, E., and Krämer, R. (2000) Coping with osmotic challenges: osmoregulation through accumulation and release of compatible solutes in bacteria. In Bacterial Stress Responses. Hengge-Aronis, R. (ed.). Washington, DC, USA: ASM Press, pp. 7996.
  • Brown, A.D. (1976) Microbial water stress. Bacteriol Rev 40: 803846.
  • Cameron, R.E. (1962) Species of Nostoc vaucher occurring in the Sonoran Desert in Arizona. Trans Am Microsc Soc 81: 379384.
  • Capone, D.G., Bronk, D.A., Mulholland, M.R., and Carpenter, E.J. (2008) Nitrogen in the Marine Environment. Amsterdam, The Netherlands: Elsevier.
  • Carpenter, J.F., and Crowe, J.H. (1988) The mechanism of cryoprotection of proteins by solutes. Cryobiology 25: 244255.
  • Carpenter, J.F., Crowe, J.H., and Arakawa, T. (1990) Comparison of solute-induced protein stabilization in aqueous solution and in the frozen and dried states. J Dairy Sci 73: 36273636.
  • Chen, T.H., and Murata, N. (2002) Enhancement of tolerance of abiotic stress by metabolic engineering of betaines and other compatible solutes. Curr Opin Plant Biol 5: 250257.
  • Costa, J., Empadinhas, N., Goncalves, L., Lamosa, P., Santos, H., and da Costa, M.S. (2006) Characterization of the biosynthetic pathway of glucosylglycerate in the archaeon Methanococcoides burtonii. J Bacteriol 188: 10221030.
  • Crowe, J.H., Carpenter, J.F., Crowe, L.M., and Anchordoguy, T.J. (1990) Are freezing and dehydration similar stress vectors? A comparison of modes of interaction of stabilizing solutes with biomolecules. Cryobiology 27: 219231.
  • Curatti, L., Flores, E., and Salerno, G. (2002) Sucrose is involved in the diazotrophic metabolism of the heterocyst-forming cyanobacterium Anabaena sp. FEBS Lett 513: 175178.
  • De Virgilio, C., Hottiger, T., Dominguez, J., Boller, T., and Wiemken, A. (1994) The role of trehalose synthesis for the acquisition of thermotolerance in yeast. I. Genetic evidence that trehalose is a thermoprotectant. Eur J Biochem 219: 179186.
  • Deshnium, P., Los, D.A., Hayashi, H., Mustardy, L., and Murata, N. (1995) Transformation of Synechococcus with a gene for choline oxidase enhances tolerance to salt stress. Plant Mol Biol 29: 897907.
  • Desplats, P., Folco, E., and Salerno, G.L. (2005) Sucrose may play an additional role to that of an osmolyte in Synechocystis sp. PCC 6803 salt-shocked cells. Plant Physiol Biochem 43: 133138.
  • Diamant, S., Eliahu, N., Rosenthal, D., and Goloubinoff, P. (2001) Chemical chaperones regulate molecular chaperones in vitro and in cells under combined salt and heat stresses. J Biol Chem 276: 3958639591.
  • Dinnbier, U., Limpinsel, E., Schmid, R., and Bakker, E.P. (1988) Transient accumulation of potassium glutamate and its replacement by trehalose during adaptation of growing cells of Escherichia coli K-12 to elevated sodium chloride concentrations. Arch Microbiol 150: 348357.
  • Eisenberg, H., and Wachtel, E.J. (1987) Structural studies of halophilic proteins, ribosomes, and organelles of bacteria adapted to extreme salt concentrations. Annu Rev Biophys Biophys Chem 16: 6992.
  • Eleutherio, E.C., Araujo, P.S., and Panek, A.D. (1993) Protective role of trehalose during heat stress in Saccharomyces cerevisiae. Cryobiology 30: 591596.
  • Engelbrecht, F., Marin, K., and Hagemann, M. (1999) Expression of the ggpS gene, involved in osmolyte synthesis in the marine cyanobacterium Synechococcus sp. strain PCC 7002, revealed regulatory differences between this strain and the freshwater strain Synechocystis sp. strain PCC 6803. Appl Environ Microbiol 65: 48224829.
  • Erdmann, N. (1983) Organic osmoregulatory solutes in blue-green algae. Z Pflanzenphys 110: 147155.
  • Fulda, S., Huckauf, J., Schoor, A., and Hagemann, M. (1999) Analysis of stress responses in the cyanobacterial strains Synechococcus sp. PCC 7942, Synechocystis sp. PCC 6803, and Synechococcus sp. PCC 7418: osmolyte accumulation and stress proteins synthesis. J Plant Physiol 154: 240249.
  • Galinski, E.A., and Trüper, H.G. (1994) Microbial behaviour in salt-stressed ecosystems. FEMS Microbiol Rev 15: 95108.
  • Giæver, H.M., Styrvold, O.B., Kaasen, I., and Strom, A.R. (1988) Biochemical and genetic characterization of osmoregulatory trehalose synthesis in Escherichia coli. J Bacteriol 170: 28412849.
  • Goude, R., Renaud, S., Bonnassie, S., Bernard, T., and Blanco, C. (2004) Glutamine, glutamate, and alpha-glucosylglycerate are the major osmotic solutes accumulated by Erwinia chrysanthemi strain 3937. Appl Environ Microbiol 70: 65356541.
  • Hagemann, M. (2010) Molecular biology of cyanobacterial salt acclimation. FEMS Microbiol Rev (in press): doi: 10.1111/j.1574-6976.2010.00234.x.
  • Hagemann, M., and Erdmann, N. (1994) Activation and pathway of glucosylglycerol synthesis in the cyanobacterium Synechocystis sp. PCC 6803. Microbiology 140: 14271431.
  • Hagemann, M., and Marin, K. (1999) Salt-induced sucrose accumulation is mediated by sucrose-phosphate-synthase in cyanobacteria. J Plant Physiol 155: 424430.
  • Hagemann, M., Erdmann, N., and Wittenburg, E. (1987) Synthesis of glucosylglycerol in salt-stressed cells of the cyanobacterium Microcystis firma. Arch Microbiol 148: 275279.
  • Hagemann, M., Richter, S., and Mikkat, S. (1997a) The ggtA gene encodes a subunit of the transport system for the osmoprotective compound glucosylglycerol in Synechocystis sp. strain PCC 6803. J Bacteriol 179: 714720.
  • Hagemann, M., Schoor, A., Jeanjean, R., Zuther, E., and Joset, F. (1997b) The stpA gene form Synechocystis sp. strain PCC 6803 encodes the glucosylglycerol-phosphate phosphatase involved in cyanobacterial osmotic response to salt shock. J Bacteriol 179: 17271733.
  • Hagemann, M., Ribbeck-Busch, K., Klähn, S., Hasse, D., Steinbruch, R., and Berg, G. (2008) The plant-associated bacterium Stenotrophomonas rhizophila expresses a new enzyme for the synthesis of the compatible solute glucosylglycerol. J Bacteriol 190: 58985906.
  • Hershkovitz, N., Oren, A., and Cohen, Y. (1991) Accumulation of trehalose and sucrose in cyanobacteria exposed to matric water stress. Appl Environ Microbiol 57: 645648.
  • Higo, A., Katoh, H., Ohmori, K., Ikeuchi, M., and Ohmori, M. (2006) The role of a gene cluster for trehalose metabolism in dehydration tolerance of the filamentous cyanobacterium Anabaena sp. PCC 7120. Microbiology 152: 979987.
  • Hill, D.R., Peat, A., and Potts, M. (1994) Biochemistry and structure of the glycan secreted by desiccation-tolerant Nostoc commune (Cyanobacteria). Protoplasma 182: 126148.
  • Hill, D.R., Keenan, T.W., Helm, R.F., Potts, M., Crowe, L.M., and Crowe, J.H. (1997) Extracellular polysaccharide of Nostoc commune (Cyanobacteria) inhibits fusion of membrane vesicles during desiccation. J Appl Phycol 9: 237248.
  • Hincha, D.K., and Hagemann, M. (2004) Stabilization of model membranes during drying by compatible solutes involved in the stress tolerance of plants and microorganisms. Biochem J 383: 277283.
  • Kaasen, I., Falkenberg, P., Styrvold, O.B., and Strom, A.R. (1992) Molecular cloning and physical mapping of the otsBA genes, which encode the osmoregulatory trehalose pathway of Escherichia coli: evidence that transcription is activated by katF (AppR). J Bacteriol 174: 889898.
  • Kaneda, M., Kobayashi, K., Nishida, K., and Katsuta, S. (1984) Liliosides D and E, two glycerol glucosides from Lilium japonicum. Phytochemistry 23: 795798.
  • Kanesaki, Y., Suzuki, I., Allakhverdiev, S.I., Mikami, K., and Murata, N. (2002) Salt stress and hyperosmotic stress regulate the expression of different sets of genes in Synechocystis sp. PCC 6803. Biochem Biophys Res Commun 290: 339348.
  • Kempf, B., and Bremer, E. (1998) Uptake and synthesis of compatible solutes as microbial stress responses to high-osmolality environments. Arch Microbiol 170: 319330.
  • Klähn, S., Marquardt, D.M., Rollwitz, I., and Hagemann, M. (2009) Expression of the ggpPS gene for glucosylglycerol biosynthesis from Azotobacter vinelandii improves the salt tolerance of Arabidopsis thaliana. J Exp Bot 60: 16791689.
  • Klähn, S., Steglich, C., Hess, W.R., and Hagemann, M. (2010) Glucosylglycerate: a secondary compatible solute common to marine cyanobacteria from nitrogen-poor environments. Environ Microbiol 12: 8394.
  • Ko, R., Smith, L.T., and Smith, G.M. (1994) Glycine betaine confers enhanced osmotolerance and cryotolerance on Listeria monocytogenes. J Bacteriol 176: 426431.
  • Kollman, V.H., Hanners, J.L., London, R.E., Adame, E.G., and Walker, T.E. (1979) Photosynthetic preparation and characterization of 13C-labeled carbohydrates in Agmenellum quadruplicatum. Carbohydr Res 73: 193202.
  • Lipman, C.B. (1941) The successful revival of Nostoc commune from a herbarium specimen eighty-seven years old. Bull Torr Bot Club 68: 664666.
  • Lu, W.D., Chi, Z.M., and Su, C.D. (2006) Identification of glycine betaine as compatible solute in Synechococcus sp. WH8102 and characterization of its N-methyltransferase genes involved in betaine synthesis. Arch Microbiol 186: 495506.
  • Lunn, J.E. (2002) Evolution of sucrose synthesis. Plant Physiol 128: 14901500.
  • Lunn, J.E., Price, G.D., and Furbank, R.T. (1999) Cloning and expression of a prokaryotic sucrose-phosphate synthase gene from the cyanobacterium Synechocystis sp. PCC 6803. Plant Mol Biol 40: 297305.
  • Luzardo, M.C., Amalfa, F., Nunez, A.M., Diaz, S., Biondi De Lopez, A.C., and Disalvo, E.A. (2000) Effect of trehalose and sucrose on the hydration and dipole potential of lipid bilayers. Biophys J 78: 24522458.
  • Mackay, M.A., Norton, R.S., and Borowitzka, L.J. (1984) Organic osmoregulatory solutes in cyanobacteria. J Gen Microbiol 130: 21772191.
  • Marin, K., Zuther, E., Kerstan, T., Kunert, A., and Hagemann, M. (1998) The ggpS gene from Synechocystis sp. strain PCC 6803 encoding glucosyl-glycerol-phosphate synthase is involved in osmolyte synthesis. J Bacteriol 180: 48434849.
  • Marin, K., Suzuki, I., Yamaguchi, K., Ribbeck, K., Yamamoto, H., Kanesaki, Y., et al. (2003) Identification of histidine kinases that act as sensors in the perception of salt stress in Synechocystis sp. PCC 6803. Proc Natl Acad Sci USA 100: 90619066.
  • Marin, K., Kanesaki, Y., Los, D.A., Murata, N., Suzuki, I., and Hagemann, M. (2004) Gene expression profiling reflects physiological processes in salt acclimation of Synechocystis sp. strain PCC 6803. Plant Physiol 136: 32903300.
  • Mikkat, S., and Hagemann, M. (2000) Molecular analysis of the ggtBCD gene cluster of Synechocystis sp. strain PCC 6803 encoding subunits of an ABC transporter for osmoprotective compounds. Arch Microbiol 174: 273282.
  • Mikkat, S., Hagemann, M., and Schoor, A. (1996) Active transport of glucosylglycerol is involved in salt adaptation of the cyanobacterium Synechocystis sp. strain PCC 6803. Microbiology 142: 17251732.
  • Mikkat, S., Galinski, E.A., Berg, G., Minkwitz, A., and Schoor, A. (2000) Salt adaptation in pseudomonads: characterization of glucosylglycerol-synthesizing isolates from brackish coastal waters and the rhizosphere. Syst Appl Microbiol 23: 3140.
  • Müller, V., and Oren, A. (2003) Metabolism of chloride in halophilic prokaryotes. Extremophiles 7: 261266.
  • Nadeau, T.L., and Castenholz, R.W. (2000) Characterization of psychrophilic oscillatorians (cyanobacteria) from Antarctic meltwater ponds. J Phycol 36: 914923.
  • Nishimoto, T., Nakano, M., Nakada, T., Chaen, H., Fukuda, S., Sugimoto, T., et al. (1996) Purification and properties of a novel enzyme, trehalose synthase, from Pimelobacter sp. R48. Biosci Biotechnol Biochem 60: 640644.
  • Ohmori, K., Ehira, S., Kimura, S., and Ohmori, M. (2009) Changes in the amount of cellular trehalose, the activity of maltooligosyl trehalose hydrolase, and the expression of its gene in response to salt stress in the cyanobacterium Spirulina platensis. Microbes Environ 24: 5256.
  • Page-Sharp, M., Behm, C.A., and Smith, G.D. (1999) Involvement of the compatible solutes trehalose and sucrose in the response to salt stress of a cyanobacterial Scytonema species isolated from desert soils. Biochim Biophys Acta 1472: 519528.
  • Pocard, J.A., Smith, L.T., Smith, G.M., and Le, R.D. (1994) A prominent role for glucosylglycerol in the adaptation of Pseudomonas mendocina SKB70 to osmotic stress. J Bacteriol 176: 68776884.
  • Porchia, A.C., and Salerno, G.L. (1996) Sucrose biosynthesis in a prokaryotic organism: presence of two sucrose-phosphate synthases in Anabaena with remarkable differences compared with the plant enzymes. Proc Natl Acad Sci USA 93: 1360013604.
  • Potts, M. (1994) Desiccation tolerance of prokaryotes. Microbiol Rev 58: 755805.
  • Reed, R.H., and Stewart, W.D.P. (1983) Physiological responses of Rivularia atra to salinity: osmotic adjustment in hyposaline media. New Phytol 95: 595603.
  • Reed, R.H., and Stewart, W.D.P. (1985) Osmotic adjustment and organic solute accumulation in unicellular cyanobacteria from freshwater and marine habitats. Mar Biol 88: 19.
  • Reed, R.H., Richardson, D.L., Warr, S.R.C., and Stewart, W.D.P. (1984a) Carbohydrate accumulation and osmotic stress in cyanobacteria. J Gen Microbiol 130: 14.
  • Reed, R.H., Chudek, J.A., Foster, R., and Stewart, W.D.P. (1984b) Osmotic adjustment in cyanobacteria from hypersaline environments. Arch Microbiol 138: 333337.
  • Reed, R.H., Warr, S.R.C., Richardson, D.L., Moore, D.J., and Stewart, W.D.P. (1985) Multiphasic osmotic adjustment in a euryhaline cyanobacterium. FEMS Microbiol Lett 28: 225229.
  • Roder, A., Hoffmann, E., Hagemann, M., and Berg, G. (2005) Synthesis of the compatible solutes glucosylglycerol and trehalose by salt-stressed cells of Stenotrophomonas strains. FEMS Microbiol Lett 243: 219226.
  • Roeßler, M., and Müller, V. (2001) Osmoadaptation in bacteria and archaea: common principles and differences. Environ Microbiol 3: 743754.
  • Sakamoto, T., Yoshida, T., Arima, H., Hatanaka, Y., Takani, Y., and Tamaru, Y. (2009) Accumulation of trehalose in response to desiccation and salt stress in the terrestrial cyanobacterium Nostoc commune. Phycol Res 57: 6673.
  • Santos, H., and Costa, M.S. (2002) Compatible solutes of organisms that live in hot saline environments. Environ Microbiol 4: 501509.
  • Sawangwan, T., Goedl, C., and Nidetzky, B. (2010) Glucosylglycerol and glucosylglycerate as enzyme stabilizers. Biotechnol J 5: 187191.
  • Scanlan, D.J., Ostrowski, M., Mazard, S., Dufresne, A., Garczarek, L., Hess, W.R., et al. (2009) Ecological genomics of marine picocyanobacteria. Microbiol Mol Biol Rev 73: 249299.
  • Ventosa, A., Nieto, J.J., and Oren, A. (1998) Biology of moderately halophilic aerobic bacteria. Microbiol Mol Biol Rev 62: 504544.
  • Waditee, R., Tanaka, Y., Aoki, K., Hibino, T., Jikuya, H., Takano, J., et al. (2003) Isolation and functional characterization of N-methyltransferases that catalyze betaine synthesis from glycine in a halotolerant photosynthetic organism Aphanothece halophytica. J Biol Chem 278: 49324942.
  • Waditee, R., Bhuiyan, M.N., Rai, V., Aoki, K., Tanaka, Y., Hibino, T., et al. (2005) Genes for direct methylation of glycine provide high levels of glycinebetaine and abiotic-stress tolerance in Synechococcus and Arabidopsis. Proc Natl Acad Sci USA 102: 13181323.
  • Warr, S.R.C., Reed, R.H., Chudek, J.A., Foster, R., and Stewart, W.D.P. (1985a) Osmotic adjustment in Spirulina platensis. Planta 163: 424429.
  • Warr, S.R.C., Reed, R.H., and Stewart, W.D.P. (1985b) Carbohydrate accumulation in osmotically stressed cyanobacteria (blue-green algae): interactions of temperature and salinity. New Phytol 100: 285292.
  • Welsh, D.T., and Herbert, R.A. (1999) Osmotically induced intracellular trehalose, but not glycine betaine accumulation promotes desiccation tolerance in Escherichia coli. FEMS Microbiol Lett 174: 5763.
  • Yoshida, T., and Sakamoto, T. (2009) Water-stress induced trehalose accumulation and control of trehalase in the cyanobacterium Nostoc punctiforme IAM M-15. J Gen Appl Microbiol 55: 135145.