Environmental Engineering Reference
In-Depth Information
47. Mukherjee, G. and Banerjee, R. (2003). Production of Gallic acid. Biotechnological routes
(Part 1).
Chimica Oggi Chemistry Today
21
, 59-62.
48. Hadi, T. A., Banerjee, R., and Bhattacharyya, B. C. (1994). Optimization of tannase
biosynthesis by a newly isolated
Rhizopus oryzae
.
Bioprocess Engineering
11
, 239-243.
49. Oyervides, P. (2003).
The 3,4,5, Trihydroxy Benzoic Acid (Gallic Acid): Chemistry,
Production and Applications
. Thesis (DIA-FCQ) Universidad Autónoma de Coahuila,
México.
50. Ow, Y. Y. and Stupans, L. (2003). Gallic acid and gallic acid derivatives: effects on drug
metabolizing enzymes.
Current Drug Metabolism
4
, 241-248.
51. Kar, B., Banerjee, R., and Bhattacharyya, B. C. (1999). Microbial production of gallic acid
by modified solid state fermentation.
Journal of Industrial Microbiology & Biotechnology
23
, 173-177.
52. Kar, B. and Banerjee, R. (2000). Biosynthesis of tannin acyl hydrolase from tannin-rich
forest residue under different fermentation conditions.
Journal of Industrial Microbiology &
Biotechnology
25
, 29-38.
53. Seth, M. and Chand, S. (2000). Biosynthesis of tannase and hydrolysis of tannins to gallic
acid by
Aspergillus awamori
optimization of process parameters.
Process Biochemistry
36
,
39-44.
54. Aguilar, C. N., Augur, C., Favela-Torres, E., and Viniegra-González, G. (2001). Induction
and repression patterns of fungal tannase in solid state and submerged cultures.
Process
Biochemistry
36
, 571-578.
55. Kar, B., Banerjee, R., and Bhattacharyya, B. C. (2002). Optimization of physicochemical
parameters for gallic acid production by evolutionary operation-factorial design technique.
Process Biochemistry
37
, 1395-1401.
56. Toth, G. and Hensler, D. (1952). The enzymatic synthesis of gallic acid derivatives.
Acta
Chim. II
10
, 209-212.
57. Gaathon, A., Gross, Z., and Rozhanski, M. (1989). Propyl gallate: enzymatic synthesis in a
reverse micelle system.
Enzyme and Microbial Technology
11
, 604-609.
58. Sharma, S. and Gupta, M. N. (2003). Synthesis of antioxidant propyl gallate using tan-
nase from
Aspergillus niger
van Teighem in nonaqueous media.
Bioorganic and Medicinal
Chemistry Letters
13
, 395-397.
59. Yu, X. and Li, Y. (2006). Kinetics and thermodynamics of synthesis of propyl gallate by
mycelium-bound tannase from
Aspergillus niger
in organic solvent.
Journal of Molecular
Catalysis. B, Enzymatic
40
, 44-50.
60. Lekha, P. K. and Lonsane, B. K. (1994). Comparative titres, location and properties of tannin
acyl hydrolase produced by
Aspergillus niger
PKL 104 in solid-state, liquid surface and
submerged fermentations.
Process Biochemistry
29
, 497-503.
61. Chatterjee, R., Dutta, A., Banerjee, R., and Bhattacharyya, B. C. (1996). Production of
tannase by solid state fermentation.
Bioprocess Engineering
14
, 159-192.
62. Bajpai, B. and Patil, S. (1996). Tannin acyl hydrolase (EC 3.1.1.20) activity of
Aspergillus,
Penicillium, Fusarium
and
Trichoderma
.
World Journal of Microbiology Biotechnology
12
,
217-220.
63. Aguilar, C. N., Augur, C., Favela-Torres, E., and Viniegra-González, G. (2001). Production
of tannase by
Aspergillus niger
Aa-20 in submerged and solid state fermentations: influ-
ence of glucose and tannic acid.
Journal of Industrial Microbiology & Biotechnology
26
,
296-302.
64. Van de Lagemaat, J. and Pyle, D. L. (2001). Solid-state fermentation and bioremedia-
tion: development of a continuous process for the production of fungal tannase.
Chemical
Engineering Journal
84
, 115-123.
65. Aguilar, C. N., Favela-Torres, E., Viniegra-González, G., and Augur, C. (2002). Culture
conditions dictate protease and tannase production in submerged and solid-state cultures of
Aspergillus niger
Aa-20.
Applied Biochemistry Biotechnology
102-103
, 407-414.
66. Lekha, P. K. and Lonsane, B. K. (1997). Production and application of tannin acyl hydrolase:
state of the art.
Advance Applied Microbiology
44
, 215-260.
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