Chemistry, Vol. 55, p. 2575-2581, 2007.
45.
C.A. Cardona, J.A. Quintero, and I.C. Paz, Bioresource Technology, Vol. 101(13), p. 4754-66, 2009.
46.
M. V. Sivers, and G. Zacchi, Bioresource Technology, Vol. 51, p. 43-52, 1995.
47.
A. Pandey, C.R. Soccol, P. Nigam, and V.T. Soccol, Bioresource Technology, Vol. 74, p. 69-80, 2000.
48.
L. T. Fan, M. M. Gharpuray, and Y.H. Lee, Cellulose Hydrolysis, Biotechnology Monographs, Berlin,
Vol. 3, p. 57, 1987.
49.
J. I. Botello, M. A. Gilarranz, F. Rodriguez, and M. Oliet, Journal of Chemical Technology and
Biotechnology, Vol. 74, p. 141-148, 1999.
50.
X. Zhao, K. Cheng, and D. Liu, Applied Microbiology and Biotechnology, Vol. 82, p. 815-27, 2009.
51.
H.V. Scheller, and P. Ulvskov, Annual Review of Plant Biotechnology, Vol. 61, p. 263-289, 2010.
52.
J. Van den Brink, and R.P. de Vries, Applied Microbial Biotechnology, Vol. 91, p. 1477-1492, 2011.
53.
J. Wu, Y.Z. Xiao, and H.Q. Yu, Bioresource Technology , Vol. 96, p.1357-1363, 2005.
54.
D.J. Vocadlo, and G.J. Davies, Current Opinion in Chemical Biology, Vol. 12, p. 539-555, 2008.
55.
Y.S. Liu, J.O. Baker, Y. Zeng, M.E. Himmel, T. Haas, and S.Y. Ding, Journal of Biological Chemistry,
Vol. 286, p. 11195-11201, 2011.
56.
D.B. Wilson, Annals of the New York Academy of Sciences, Vol. 1125, p. 289- 297, 2008.
57.
J. Langston, N. Sheehy, and F. Xu, Biochimica et Biophysica Acta, Vol. 1764, p. 972-978, 2006.
58.
B.B. Ustinov, A.V. Gusakov, A.I. Antonov, and A.P. Sinitsyn, Enzyme Microbial Technology, Vol. 43,
p. 56-65, 2008.
59.
D.B. Jordan, and K. Wagschal, Applied Microbiology and Biotechnology, Vol. 86, p. 1647-1658, 2010.
60.
P. Biely, M. Mastihubova, M. Tenkanen, J. Eyzaguirre, X.L. Li, and M. Vrsanska, Journal of
Biotechnology, Vol. 151, p. 137-142, 2011.
61.
T. Koseki, S. Fushinobu, S.H. Ardiansyah, and M. Komai, Applied Microbiology and Biotechnology,
Vol. 84, p. 803-810, 2009.
62.
M. Duranova, S. Spanikova, H.A.Wosten, P. Biely, and R.P. de Vries, Archives of Microbiology, Vol.
191, p. 133-140, 2009.
63.
B.C. Saha, Biotechnology Advances, Vol.18, p. 403-423, 2000.
64.
V.L.Y. Yip, and S.G. Withers, Journal of Biocatalysis and Biotransformation, Vol. 24, p. 167-176, 2006.
65.
S.L. Chong, E. Battaglia, P.M. Coutinho, B. Henrissat, M. Tenkanen, and R.P. de Vries, Applied
Microbiology and Biotechnology, Vol. 90, p. 1323-1332, 2011.
66.
K. Martin, B.M. McDougall, S. Mcllroy, J.Z. Chen, and R.J. Seviour, FEMS Microbiology Reviews,
Vol. 31, p. 168-192, 2007.
67.
L. Moreira, and E. Filho, Applied Microbiology and Biotechnology, Vol. 79, p. 165-178, 2008.
68.
M.J. Baumann, Plant Cell, Vol. 19, p. 1947-1963, 2007.
69.
V. Lombard, T. Bernard, C. Rancurel, H. Brumer, P.M. Coutinho, and B. Henrissat, Biochemical
Journal, Vol. 432, p. 437-444, 2010.
70.
A. Payasi, R. Sanwal, and G.G. Sanwal, World Journal of Microbiology and Biotechnology, Vol. 25, p.
1-4, 2009.
71.
M. Yadav , S.K. Singh , and S. Yadava, Prikl Biokhim Mikrobiol, Vol. 48(6), p. 646-52, 2012.
72.
L. Banci , S. Ciofi-Baffoni , and M, Tien, Biological Science, Vol. 38 (10), p. 3205-3210, 1999.
73.
P. M. Coll, J. M. Fernandez-Abalos, J. R. Villanueva, R. Santamaria, and P. Perez, Applied
Environmental Microbiology, Vol. 59(8), p. 2607, 1993.
74.
M.E. Brown, T. Barros, and M.C. Chang, ACS Chemical Biology, Vol. 7(12), p. 2074-81, 2012.
75.
A. Hernandez-Ortega, P. Ferreira, and A.T. Martinez, Applied Microbiology and Biotechnology, Vol.
93(4), p. 1395-410, 2012.
76.
P. J. Kersten, and D. Cullen, PNAS, Vol. 90 (15), p. 7411-7413, 1993.
77.
M. Ahmad , J.N. Roberts , E.M. Hardiman , R. Singh , L.D. Eltis , and T. D. Bugg, Biochemistry, Vol.
50(23), p. 5096-107, 2011.
76
78.
A. Rodriguez-Chong, J. A. Ramirez, G. Garrote, and M. Vazquez, Journal of Food Engineering , Vol. 61,
p. 143, 2004.
79.
S. Gamez, J.J. Gonzalez-Cabriales, J.A. Ramirez, G. Garrote, and M. Vazquez, Journal of Food
Engineering, Vol. 74, p. 78-88, 2006.
80.
S. Banerjee, S. Mudliar, R. Sen, B. Giri, D. Satpute, and T. Chakrabarti, Biofuels, Bioproducts and
Biorefining ,Vol. 4, p. 77-93, 2010.
81.
M.J. Taherzadeh, and K. Karimi, Bioresources,Vol. 2(4), p. 707-38, 2007.
82.
D.B. Wilson, Microbiology, Vol. 14, p. 259-263, 2011.
83.
M. Maki, K.T. Leung, and W. Qin, International Journal of Biological Science, Vol. 5, p. 500-516, 2009.
84.
V.S. Bisaria, Bioprocessing of agro-residues to value added products, Chapman and Hall, UK, p.197-
246, 1998.
85.
S.J.B. Duff, and W.D. Murray, Bioresource Technology, Vol.55, p.1- 33, 1996.
86.
J. Kaur, B.S. Chandha, and B.A. Kumar, Electronic Journal of Biotechnology, Vol. 10, p. 260-270, 2007.
87.
D. Sternberg, Biotechnology and Bioengineering Symposium, p. 35-53, 1976.
88.
W. Li, W.W. Zhang, M.M. Yang, and Y.L. Chen, Molecular Biotechnology, Vol. 2, p. 195-201, 2008.
89.
Y. Liang, J. Yesuf, S. Schmitt, K. Bender, and J. Bozzola, Journal of Indian Microbiology and
Biotechnology, Vol. 36(7), p. 961-70, 2009.
90.
K. Hirasawa, K. Uchimura, M. Kashiwa, W.D. Grant, S. Ito, T. Kobayashi, and
K.
Horikoshi, Antonie Van Leeuwenhoek.;Vol. 89(2), p. 211-219, 2006.
91.
S. Morais, Y. Barak, Y. Hadar, D.B. Wilson, Y. Shoham, R. Lamed, and E.A. Bayer, MBio, Vol. 15;2(6),
p. 00233-11, 2011.
92.
S.Y. Ding, Q. Xu, M. Crowley, Y. Zeng, M. Nimlos, R. Lamed, E.A. Bayer, and M.E. Himmel, Current
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