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10 KKU Science Journal Volume 39 Number 1 <strong>Review</strong> Antal, T. K. and Lindblad, P. (2005). Production of H 2 by sulphur-deprived cells of the unicellular cyanobacteria Gloeocapsa alpicola and Synechocystis sp. PCC 6803 during dark incubation with methane or at various extracellular pH. J. Appl. Microbiol. 98: 14-120. Antal, T. K., Oliveira, P. and Lindblad, P. (2006). The bidirectional hydrogenase in the cyanobacterium Synechocystis sp. strain PCC 6803. Int. J. Hydrogen Energ. 31: 1439- 1444. Aoyama, K., Uemura, I., Miyake, J. and Asada, Y. (1997). Fermentative metabolism to produce hydrogen gas and organic compounds in a cyanobacterium, Spirulina platensis. J. Ferment. Bioeng. 83: 17-20. Asada, Y., Kawamura, S. and Ho, K. K. (1987). Hydrogenase from the unicellular cyanobacterium, Microcystis aeruginosa. Phytochem. 26: 637-640. Asada, Y. and Miyake, J. (1999). Photobiological hydrogen production. J. Biosci. Bioeng. 88: 1-6. Axelsson, R., Oxelfelt, F. and Lindblad, P. (1999). Transcriptional regulation of Nostoc uptake hydrogenase. FEMS Microbiol. Lett. 170: 77-81. Baebprasert, W., Lindblad, P. and Incharoensakdi, I. (2010). Response of H 2 production and Hox-hydrogenase activity to external factors in the unicellular cyanobacterium Synechocystis sp. strain PCC 6803. Int. J. Hydrogen Energ. 35: 6611-6616. Bergman, B., Gallon, J. R., Rai, A. N. and Stal, L. J. (1997). N 2 fixation by non-heterocystous cyanobacteria. FEMS Microbiol. Rev. 19: 139-185. Bishop, P. E. and Premakumar, R. (1992). Alternative nitrogen fixation systems. In Biological nitrogen fixation. Edited by: Stacey G, Burris RH, Evans HJ. New York: Chapman & Hall. 736-762. Boison, G., Bothe, H., Hansel, A., and Lindblad, P. (1999). Evidence against a common use of the diaphorase subunits by the bidirectional hydrogenase and by the respiratory complex I in cyanobacteria. FEMS Microbiol. Lett. 174: 159-165. Carrieri, D., Ananyev, G., Costas, A. M. G., Bryant, D. A. and Dismukes G. C. (2008). Renewable hydrogen production by cyanobacteria: Nickel requirements for optimal hydrogenase activity. Int. J. Hydrogen Energ. 33: 2014-2022. Casalot, L. and Rousset, M. (2001). Muturation of the [NiFe] hydrogenase. Trends Microbiol. 9: 228-237. Chen, P. C., Fan, S. H., Chiang, C. L. and Lee, C. M. (2008). Effect of growth conditions on the hydrogen production with cyanobacterium Anabaena sp. strain CH3. Int. J. Hydrogen Energ. 33: 1460-1464. Das, D. and Veziroglu, T. N. (2001). Hydrogen production by biological processes: a survey of literature. Int. J. Hydrogen Energ. 26:13-28. Datta, M., Nikki, G. and Shah, V. (2000). Cyanobacterial hydrogen production. World J. Microbiol. Biotechnol. 16: 8-9. Dutta, D., De, D., Chaudhuri, S. and Bhattacharya, S. K. (2005). Hydrogen production by
∫∑§«“¡ «“√ “√«‘∑¬“»“ µ√å ¡¢. ªï∑’Ë 39 ©∫—∫∑’Ë 1 11 cyanobacteria. Microb. Cell. Fact. 4: 36-47. Ernst, A., Kerfin, W., Spiller, H. and Boger, P. (1979). External factors influencing light-induced H 2 evolution by the blue-green algae, Nostoc muscorum. Z. Naturforsch. 34: 820-825. Fay, P. (1992). Oxygen relations of nitrogen fixation in cyanobacteria. Microbiol. Rev. 56: 340-373. Flores, E. and Herrero, A. (1994). Assimilatory nitrogen metabolism and its regulation. In The molecular biology of cyanobacteria Edited by: Bryant, D. A. Dordrecht: Kluwer Academic Publishers. 487-517. Gill, R. T., E. Katsoulakis, W. Schmitt, G. Taroncher- Oldenburg, J. Misra, and G. Stephanopoulos. (2002). Genome-wide dynamic transcriptional profiling of the light-to-dark transition in Synechocystis sp. strain PCC 6803. J. Bacteriol. 184: 3671-3681. Happe, T., Schütz, K. and Böhme, H. (2000). Transcriptional and mutational analysis of the uptake hydrogenase of the filamentous cyanobacterium Anabaena variabilis ATCC 29413. J. Bacteriol. 182: 1624-1631. Hihara, Y., Kamei, A., Kanehisa, M., Kaplan, A., and Ikeuchi, M. (2001). DNA microarray analysis of cyanobacterial gene expression during acclimation to high light. Plant Cell. 13: 793-806. Jeffries, T. W., Timourien, H. and Ward, R. L. (1978). Hydrogen production by Anabaena cylindrica: effect of varying ammonium and ferric ions, pH and light. Appl. Environ. Microbiol. 35: 704-710. Kentemich, T., Haverkamp, G. and Bothe, H. (1991). The expression of a third nitrogenase in the cyanobacterium Anabaena variabilis. Z. Naturforsch. 46: 217-222. Lambert, G. R., Daday, A. and Smith, G. D. (1979). Hydrogen evolution from immobilized cultures of cyanobacterium Anabena cylindrica. FEBS Lett. 101: 125-128. Lang, N. J., Krupp, J. M. and Koller, A. L. (1987). Morphological and ultrastructural changes in vegetative cells and heterocysts of Anabaena variabilis grown with fructose. J. Bacteriol. 169: 920-923. Leitão, E., Oxelfelt, F., Oliveira, P., Moradas-Ferreira, P. and Tamagnini, P. (2005). Analysis of the hupSL operon of the nonheterocystous cyanobacterium Lyngbya majuscula CCAP 1446/4: regulation of transcription and expression under a light-dark regime. Appl. Environ. Microbiol. 71: 4567-4576. Lindberg, P., Hansel, A. and Lindblad, P. (2000). hupS and hupL constitute a transcription unit in the cyanobacterium Nostoc sp. PCC 73102. Arch. Microbiol. 174: 129-133. Lindblad, P. (1999). Cyanobacterial H 2 metabolism: knowledge and potential/strategies for a photobiotechnological production of H 2 . Biotecnol. Apl. 16: 141-144. Llama, M. J., Serra, J. L., Rao, K. K. and Hall, D. O. (1979). Isolation and characterization of the hydrogenase activity from the nonheterocystous cyanobacterium Spirulina maxima. FEBS Lett. 98: 342-346. Lutz, S., Jacobi, A., Schlensog, V., Böhm, R., Sawers, G. and Böck, A. (1991). Molecular characterization of an operon (hyp)
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