Biofuels in Perspective
Biofuels in Perspective
Biofuels in Perspective
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Biological Hydrogen Production by Anaerobic Microorganisms 219<br />
67. F. A. Ra<strong>in</strong>ey, A. M. Donnison, P. H. Janssen, D. Saul, A. Rodrigo, P. L. Bergquist, R. M. Daniel,<br />
E. Stackebrandt and H. W. Morgan, Description of Caldicellulosiruptor saccharolyticus gen.<br />
nov., sp. nov: An obligately anaerobic extremely thermophilic, cellulolytic bacterium, FEMS<br />
Microbiol. Lett., 120, 263–266 (1994).<br />
68. U. Onyenwoke, Y.-J. Lee, S. Dabrowski, B. K. Ahr<strong>in</strong>g and J. Wiegel, Reclassification of<br />
Thermoanaerobium acetigenum as Caldicellulosiruptor acetigenus comb. nov. and emendation<br />
of the genus description, Int. J. Syst. Evol. Microbiol., 56, 1391–1395 (2006).<br />
69. S. Bredholt, J. Sonne-Hansen, P. Nielsen, I. M. Mathrani and B. K. Ahr<strong>in</strong>g, Caldicellulosiruptor<br />
kristjanssonii sp. nov., a cellulolytic, extremely thermophilic, anaerobic bacterium, Int. J. Syst.<br />
Bacteriol., 49, 991–996 (1999).<br />
70. E. W. J. van Niel, P. A. M. Claassen and A. J. M. Stams, Substrate and product <strong>in</strong>hibition<br />
of hydrogen production by the extreme thermophile, Caldicellulosiruptor saccharolyticus,<br />
Biotechnol. Bioeng., 81, 255–262 (2003).<br />
71. T. de Vrije, A. E. Mars, M. A. W. Budde, M. H. Lai, C. Dijkema, P. de Waard and P. A. M.<br />
Claassen, Glycolytic pathway and hydrogen yield studies of the extreme thermophile Caldicellulosiruptor<br />
saccharolyticus, Appl. Microbiol. Cell Physiol., DOI 10.1007/s00253-006-0783-x<br />
(2007).<br />
72. H. P. Goorissen and A. J. M. Stams, Biological hydrogen production by moderately thermophilic<br />
anaerobic bacteria. Proceed<strong>in</strong>gs of 16th World Hydrogen Energy Conference, june 13-16, Lyon,<br />
France, 2006.<br />
73. Z. Kádár, T. de Vrije, G. E. van Noorden, M. A. W. Budde, Z. Szengyel, K. Réczey and<br />
P. A. M. Claassen, Yields from glucose, xylose, and paper sludge hydrolysate dur<strong>in</strong>g hydrogen<br />
production by the extreme thermophile Caldicellulosiruptor saccharolyticus, Appl. Biochem.<br />
Biotechnol., 113-116, 497–508 (2004).<br />
74. I. V. Subbot<strong>in</strong>aI, N. A. Chernyh, T. G. Sokolova, I. V. Kublanov, E. A. Bonch-Osmolovskaya<br />
and A. V. Lebed<strong>in</strong>sky, Oligonucleotide probes for the detection of representatives of the genus<br />
Thermoanaerobacter, Microbiology 72, 331–339 (2003).<br />
75. A. I. Slobodk<strong>in</strong>, T. P. Tourova, B. B. Kuznetsov, N. A. Kostrik<strong>in</strong>a, N. A. Chernyh and<br />
E. A. Bonch-Osmolovskaya, Thermoanaerobacter siderophilus sp. nov., a novel dissimilatory<br />
Fe(III)-reduc<strong>in</strong>g, anaerobic, thermophilic bacterium, Int. J. Syst. Bacteriol., 49, 1471–1478<br />
(1999).<br />
76. M.-L. Fardeau, J.-L.Cayol, M. Magot and B. Ollivier, H2 oxidation <strong>in</strong> the presence of thiosulfate<br />
by a Thermoanaerobacter stra<strong>in</strong> isolated from an oil-produc<strong>in</strong>g well, FEMS Microbiol. Lett.<br />
113, 327–332 (1993).<br />
77. L. S. Lacis and H. G. Lawford, Ethanol production from xylose by Thermoanaerobacter ethanolicus<br />
<strong>in</strong> batch and cont<strong>in</strong>uous culture, Arch. Microbiol., 150, 48–55 (1988).<br />
78. L. S. Lacis and H. G. Lawford, Thermoanaerobacter ethanolicus growth and product yield<br />
from elevated levels of xylose or glucose <strong>in</strong> cont<strong>in</strong>uous cultures, Appl. Environ. Microbiol., 57,<br />
579–585 (1991).<br />
79. A. Calteau, M. Gouy and G. Perriere, Horizontal transfer of two operons cod<strong>in</strong>g for hydrogenases<br />
between bacteria and archaea, J. Mol. Evol., 60, 557–565 (2005).<br />
80. S. A. van Ooteghem , S. Beer and P. C. Yue, Hydrogen production by the thermophilic bacterium<br />
Thermotoga neapolitana, Appl. Biochem. Biotechnol., 98–100, 177–89 (2002).<br />
81. M. F. J. M. Verhagen, T. O’Rourke and M. W. W. Adams, The hyperthermophilic bacterium,<br />
Thermotoga maritima, conta<strong>in</strong>s an unusually complex iron-hydrogenase: am<strong>in</strong>o acid<br />
sequence analyses versus biochemical characterization, Biochim. Biophys. Acta, 1412, 212–219<br />
(1999).<br />
82. M. F. J. M. Verhagen and M. W. W. Adams, Fe-only hydrogenase from Thermotoga maritime,<br />
Method. Enzymol., 331, 216–226 (2001).