Environmental Engineering Reference
In-Depth Information
•
Fig. 7
Typical kinetic of NDGA production by
A. niger
GH1 (
),
A. niger
PSH (
)and
A. niger
Aa-20 (
)
application studies are being reported. However, further studies are needed in order
to know the microbial enzymes involved in the releasing of antioxidant from plant
materials during the SSF, including their catalytic and physico-chemical properties.
Scale-up research is also needed to allow the applicability of this technology in
biotechnological industries.
References
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R., Aguilera-Carbo, A. F., and Aguilar, C. N. (2007). Gallic acid and tannase accumula-
tion during fungal solid state culture of a desert tannin-rich plant (
Larrea tridentata
Cov).
Bioresource Technology
98
, 721-724.
2. Waterman, P. G. and Mole, S. (1994).
Analysis of Phenolic Plant Metabolites
. Blackwell
Scientific Publications, Methods in Ecology, Oxford.
3. Haslam, E. (1989).
Plant Polyphenols: Vegetable Tannins Revisited
. Cambridge University
Press, Cambridge.
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Food
Antioxidants
, Hudson B. J. F. (Ed.), Elsevier Science Publishers Ltd, Barking, England,
253-307.
5. Pandey, A. (2003). Solid-state fermentation.
Biochemical Engineering Journal
13
, 81-84.
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Journal of Chromatography A
1112
, 64-77.
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with plant-insect chemical interactions.
Phytochemistry Reviews
2
, 321-330.
8. Vargas-Arispuro, I., Reyes-Báez, R., Rivera-Castañeda, G., Martínez-Téllez, M. A., and
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).
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